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authorwww-data <www-data@mail.pglaf.org>2026-04-13 05:04:15 -0700
committerwww-data <www-data@mail.pglaf.org>2026-04-13 05:04:15 -0700
commitb077dc3856ffa4230019604d6c4c45df8780fe4c (patch)
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+*** START OF THE PROJECT GUTENBERG EBOOK 78431 ***
+
+
+
+
+Transcriber’s Note: Italicized text is surrounded by underscores:
+_italics_.
+
+
+
+
+ ALWAYS ANOTHER DAWN ►
+
+
+
+
+ Always Another Dawn
+
+ THE STORY OF A ROCKET TEST PILOT
+
+ _by A. Scott Crossfield
+ with Clay Blair, Jr._
+
+ CLEVELAND AND NEW YORK
+
+ [Illustration: (Colophon)]
+
+ THE WORLD PUBLISHING COMPANY
+
+
+
+
+ _Published by_ The World Publishing Company
+ 2231 West 110th Street, Cleveland 2, Ohio
+
+ _Published simultaneously in Canada by_
+ Nelson, Foster & Scott Ltd.
+
+
+ Library of Congress Catalog Card Number: 60-14641
+
+ FIRST EDITION
+
+ WP1060
+
+Copyright ©1960 by A. Scott Crossfield and Clay Blair, Jr. All rights
+reserved. No part of this book may be reproduced in any form without
+written permission from the publisher, except for brief passages
+included in a review appearing in a newspaper or magazine. Printed in
+the United States of America.
+
+
+
+
+ To Joseph, who knows why
+
+
+
+
+_Contents_
+
+
+(_Illustrations will be found following pages 134 and 294._)
+
+
+ FOREWORD 15
+
+ A NOTE ON SPEED 16
+
+ 1. “A Modern-Day Lindbergh” 19
+
+ 2. The Gypsy Caravan 25
+
+ 3. A Sense of Urgency 38
+
+ 4. Excitement and Frustration 45
+
+ 5. An Unusual Heritage 53
+
+ 6. An Isolated Environment 62
+
+ 7. “Take Her Up and Try a Spin” 72
+
+ 8. Change and Challenge 82
+
+ 9. Manhood and Maturity 89
+
+ 10. No Penalty for Being Late 99
+
+ 11. How Dark the Clouds 109
+
+ 12. A Short Man with Santa Claus Eyebrows 119
+
+ 13. “Barefoot Boy with Cheek” 125
+
+ 14. The Need for Speed 135
+
+ 15. Disaster on the Race Track 145
+
+ 16. Bright Light Under a Bush 154
+
+ 17. Light in the Open 162
+
+ 18. “Fastest Man on Earth” 171
+
+ 19. “Leaf in a Tempest” 180
+
+ 20. “Please Come to a Complete Stop” 190
+
+ 21. End of the Line 200
+
+ 22. End of an Era 209
+
+ 23. Secrets in the Cafeteria 217
+
+ 24. Ullage and Capsules 226
+
+ 25. Girdles, Brassieres, and Shattered Sinuses 234
+
+ 26. The Agricultural Approach 244
+
+ 27. A Tornado Named Stormy 246
+
+ 28. Wilting Straws in Plaster of Paris 253
+
+ 29. Eyes Toward Space 262
+
+ 30. Muting the Cassandras 271
+
+ 31. Working in a Fish Bowl 280
+
+ 32. Time for Extraordinary Action 289
+
+ 33. Circus Day 297
+
+ 34. A Carnival at Dawn 307
+
+ 35. Smoke in the Cockpit 317
+
+ 36. The Reluctant Dragon 327
+
+ 37. Engulfed in Disappointment 338
+
+ 38. “She Blew Sky High” 346
+
+ 39. The Old Pro 359
+
+ 40. Bad News with the Good 367
+
+ 41. “You Have a Fire!” 376
+
+ 42. Minor Miracles 388
+
+ 43. “The Real Significance” 399
+
+ 44. “Prophecies of the Next Age” 407
+
+ CHRONOLOGY 411
+
+ INDEX 415
+
+
+
+
+_Foreword_
+
+
+Long ago at Edwards, I heard a story that stuck in my mind. Two small
+boys, the sons of pilots, were discussing their fathers. One said
+to the other: “Aw, your father _can’t_ be a test pilot. He hasn’t
+written a book.”
+
+Now I have joined the clan, but, I hope, with a difference.
+Inevitably I have reminisced, as, it seems, all pilots must. But the
+intent of this book is broader than mere memoirs. Put simply, the
+objective is to restate an old principle: that not talk but action is
+the key to man’s progress, and in this age, freedom from enslavement.
+
+ A. SCOTT CROSSFIELD
+
+_Los Angeles, Calif.
+
+ August 1960_
+
+
+
+
+_A Note on Speed_
+
+
+We have used the modern method of expressing aviation speed--the Mach
+number. Mach 1.0 is the speed at which sound travels through the air.
+On an average day at sea level, the speed of sound, or Mach 1.0, is
+about 760 miles an hour. At higher, colder altitudes on the same day,
+it is less. For example, at 35,000 feet it might be only 660 miles an
+hour. Since most of the flying described in this account is at high
+altitude, Mach 1.0 is, on an average day, about 660 miles an hour.
+The speed is also expressed in terms of fractions of a Mach number.
+Thus Mach .5 is half of Mach 1 or half of 660 miles an hour--about
+330 miles an hour. Speeds above Mach 1.0 are also expressed in whole
+Mach numbers and fractions of Mach numbers. For example, Mach 1.5 is
+the equivalent of one and a half times the speed of sound, or about
+1,000 miles an hour. Mach 2.0--or twice the speed of sound--is twice
+660 miles an hour, or about 1,320 miles an hour. Mach 2.5 is about
+1,650 miles an hour. Mach 3 is about 2,000 miles an hour.
+
+
+
+
+ ALWAYS ANOTHER DAWN ►
+
+
+
+
+ “There is no liberty except the liberty of someone
+ making his way towards something.”
+
+ --ANTOINE DE SAINT EXUPÉRY
+
+
+
+
+CHAPTER 1 ►
+
+ “_A Modern-Day Lindbergh_”
+
+
+A misty rain, typical of Seattle in the spring, fell across the lush
+green campus of the University of Washington that afternoon. It was
+1947. I don’t recall the exact date because that whole period of my
+life remains fixed in my mind as a steady, uninterrupted blur of work
+and study. I do remember that as I drove through the narrow streets
+setting apart the ivy-smothered Tudor-Gothic buildings, I proceeded
+with caution. My car was a veteran of many campaigns in Seattle
+weather and traffic. It was barely hanging together.
+
+When I pulled into my special parking place behind the University’s
+wind tunnel, I was quietly angry. I had just come from an advanced
+class in aeronautical engineering under Professor Frank K. Kirsten, a
+brilliant but crotchety old martinet. He had devoted the lecture to
+a discourse on the jet engine, which, he held, had no future because
+its fuel consumption was too great. I had challenged his assertions
+and argued forcibly, concluding, with some heat, that other experts
+in aviation had made such dogmatic statements, only to have them
+later completely disproved. “Take Monteith,” I had said (actually
+quoting Kirsten). “He predicted the cantilever wing would not be
+practicable. Yet almost every airplane flying today has a cantilever
+wing.” In the aviation world, as anywhere, I concluded, everything is
+subject to change. We must believe this.
+
+I walked through the power room to a door marked: “Chief Wind
+Tunnel Operator,” stashed my textbook and notes in a desk drawer,
+and then scanned the bulletin board. Posted over the tunnel’s
+Schedule-of-Operations sheet was a photograph of a smashed-up
+automobile, with “Guess Who?” scrawled underneath. It was an earlier
+car I owned, a veteran of several brief but devastating engagements.
+It occurred to me then, for the first time, that both my problem cars
+had been painted green. I recalled an old race-track superstition
+against green cars. That was the trouble, I was sure. Overdriving
+my car and its brakes in Seattle streets couldn’t be the reason, of
+course.
+
+The wind tunnel of the University of Washington was one of the
+first--and finest--modern wind tunnels built in the United States.
+Many major aircraft companies, such as Boeing and McDonnell,
+contracted work to the tunnel. The tunnel tests and analyses were
+carried out by students under faculty supervision. I had worked in
+the tunnel part-time since returning to the University in the spring
+of 1946. We were then engaged in tests on the Boeing B-47 bomber.
+Many years later the plane, bought in vast quantity, would become the
+backbone of the Strategic Air Command, and a direct descendant, the
+Boeing 707, would become the first U. S. commercial jet airliner.
+In 1947 the plane’s concept--sharply swept cantilever wings, six
+jet engines slung on pods beneath the wing--was controversial and
+exciting.
+
+I joined a fellow student, Joe Tymczyszyn, near the tunnel control
+panel and greeted him above the noise, the great rushing of wind,
+and the steady humming of electric generators. Through a glass port
+mounted on the bottom of the big wind tube, I could see a silvery
+model of the B-47 rigidly fixed on a pylon. Sensitive force-measuring
+devices supporting the pylon below the chamber showed the effects of
+the blast on a row of meters on the control panel. Tym photographed
+the meter readings every few moments on a special recorder. The panel
+was marked “Secret” since Boeing and the Air Force considered the
+data classified.
+
+I plopped into a chair and lighted a cigarette. Then Tym and I fell
+into avid conversation on the topic that bound us as friends and
+co-workers: aviation. Tym had a wide acquaintance in aviation. He
+always had some bit of gossip or vital news to impart.
+
+“Did you hear about Slick Goodlin?” he began. “They say he’s
+reluctant to fly the X-1.” Slick was a Bell Aircraft test pilot.
+The X-1 was then the sensation of the aviation world--a tiny,
+bullet-shaped craft fitted with a rocket engine. It was built for
+research purposes, to provide high-speed flight data so that we,
+and others in aviation, could get information we then could not
+get from wind tunnels. In those days, when we pumped air through a
+tunnel close to the speed of sound, strange things happened. The air
+“choked” and the flow was distorted. As a result, most wind-tunnel
+data near the speed of sound were suspect at a time when they were
+vitally needed. The X-1 had sufficient power to fly faster than the
+speed of sound.
+
+“He’s reluctant to fly it?” I asked.
+
+“Yeah,” Tym said. “They say he wants a lot more money.”
+
+Few could blame him. The rocket engine of the X-1, a complex device
+which burned a fuel combination almost as explosive as dynamite, had
+never been flown wide open. Engineers were split about fifty-fifty
+over what would happen structurally when the X-1 reached the speed
+of sound. Some said the plane would disintegrate; others, especially
+engineers at Bell, said it would not. In any case, it might be a
+risky flight. But the rewards, other than money, would be great.
+
+“Hell,” I said. “The man who flies that plane through the sonic
+barrier will be a modern-day Lindbergh.” Tym nodded agreement and
+returned to his log.
+
+For the rest of the afternoon I was busy putting together the data
+from the wind-tunnel meters. But my mind was fixed on the X-1 and I
+let my imagination soar. For a test pilot, the X-1 was the absolute
+ultimate. There was nothing like it in the past; it would be years
+before anything else surpassed it. I was still thinking about the
+plane when I got home that evening. Before dinner, when my wife,
+Alice, and I sat down for our usual martini, I was lost in thought.
+
+“What’s eating you?” she asked. Alice is a native of Seattle. Like
+many people from that part of the country, typical of Norwegian
+descent, she is usually quiet and straight to the point. After
+four years of marriage she had come to terms with my obsession for
+aviation and rarely questioned either my progress or my mood. I
+didn’t encourage it.
+
+“Oh, nothing,” I said.
+
+I was mentally composing a letter I intended to write to Bell
+Aircraft proposing that I be named the new test pilot of the X-1.
+After dinner, while Alice was washing the dishes, I sat down to my
+battered portable typewriter and carefully pecked out the letter,
+stressing my qualifications:
+
+Age: 26. Flying time: 2500 hours, single-engine, World War II Navy
+instructor and fighter pilot. Special flying: lead pilot, Seattle
+Naval Reserve stunt team (which could be matched against any stunt
+team in the country, I added). Education--prewar: three quarters,
+University of Washington, basic freshman engineering. Postwar: five
+semesters, aeronautical engineering (aimed at a Master’s degree).
+Practical experience: prewar, production expediter, Boeing plant,
+Seattle; postwar, partner in aircraft accessories firm (ash trays;
+serving tables); University of Washington wind tunnel. Temperament:
+reliable, family-man type; even disposition, cool in emergencies.
+Salary? I would fly the X-1 for nothing, if necessary.
+
+It occurred to me, as I reflected over this letter, that anyone
+outside the aviation world would have viewed this brief summary of my
+life as the work of a single-minded zealot. This was not precisely
+so. My interests ranged wide enough--from philosophy to farming.
+Yet it was a fact that, since boyhood, almost every waking moment
+had been devoted, directly or indirectly, to the single purpose
+of scoring a mark in the aviation world. It was not a spectacular
+record I sought--a round-the-world flight, a speed dash, or a new
+altitude. Mine was a more serious bent. I wanted to follow in the
+footsteps of the aviation giants: Boeing’s Edward (“Eddie”) Allen
+and the Air Force’s James H. (“Jimmy”) Doolittle, and the like. They
+were both serious scientists and superb pilots, a rare combination
+and, in these days of specialization, a rapidly disappearing breed.
+More specifically, my goal was to participate in the design and
+construction of the most advanced craft man could conceive and then
+take it into the air and fly it.
+
+This may strike many as a heady ambition for so young a man. It
+never seemed that way to me. On this earth, at least, I believe man
+is master of his own fate. Within his God-given physical and mental
+limitations, he can do what he wants to do. I believe the secret
+is to work intelligently, economically, and steadily toward a set
+goal. I must have been about six years old when I made up my mind
+what I wanted. Shortly after that, I was struck by a disease that
+kept me bed-ridden, off and on, for almost five years. As a result,
+I was told I would never fly. My mind shut out these predictions and
+stubbornly plotted the future. There are many hurdles along the way.
+I am scaling them, one way or another. Anyone with determination can
+do the same, I think.
+
+That night when I drafted the letter to Bell I was still far from
+completing what I believed to be an adequate foundation. For one
+thing, my education, interrupted by the war, was considerably short
+of my design. Yet I must admit that at heart I am also a gambler.
+If I were lucky enough, I knew, the X-1 could catapult me directly
+toward the very position I sought. The advanced education could come
+later, with experience. Besides, who could resist the temptation to
+fly the X-1, if there was a chance?
+
+Bell must have received many such letters from adventurous pilots. I
+imagine they were all passed on to the public relations department
+and from there to a handy waste-paper basket. I never received a
+reply. Unknown to me, and to others who may have written, the Air
+Force had already picked Goodlin’s replacement. Shortly after I
+mailed my application, I read in the papers that Air Force Captain
+Charles Yeager was assigned the job. In October, 1947, he flew the
+X-1 through the sonic barrier with ease--and overnight became the
+new Lindbergh of the aviation world.
+
+I felt not the slightest tinge of envy over Yeager’s feat. On
+reflection I considered it just as well that my letter had not
+been answered. My time had obviously not come. Not for one minute,
+however, did I doubt that it would. I buckled down at the University,
+working doggedly toward my Master’s degree. I supplemented my meager
+G.I. stipend with the small returns from the aircraft accessories
+business and my work in the wind tunnel, where, in time, I was
+named student boss of operations. I kept my flying sharply honed in
+exercises with my Naval Reserve unit. So as not to tempt fate further
+on the streets, I painted my battered car bright blue with gratifying
+results.
+
+
+
+
+CHAPTER 2 ►
+
+ _The Gypsy Caravan_
+
+
+In the spring of 1950, a few months before Commencement, I began
+to lay final plans for my move into the aviation world. The way
+the deck was stacked, it did not appear a ripe time for aspiring
+aeronautical engineers. The Pentagon’s post-World War II economy
+drive had severely deflated the giant aviation industry. There were
+a few jets in production--Boeing’s B-47, North American’s F-86,
+Lockheed’s F-80, Republic’s F-84, McDonnell’s “Banshee”--and many
+others in the experimental test stage. Crack aeronautical engineers
+were, as usual, rare; but new graduates were a dime a dozen, breaking
+into the industry at less than $300 a month. Many able experimental
+test pilots were killing time in routine jobs. But as the cards
+were played out, my timing couldn’t have been better. No one could
+then foresee the outbreak of the Korean War. In a few months this
+war changed the atmosphere in the aviation industry one hundred and
+eighty degrees. This change provided me with my great opportunity.
+
+That spring, as I reviewed the chances open to me, I concluded the
+best stepping stone was a Civil Service job with the government as an
+“aeronautical research pilot” for the National Advisory Committee
+for Aeronautics (NACA). Unknown to the general public, NACA had for
+years been the vital cauldron in which new ideas in aeronautical
+engineering were brewed and sampled. The agency was founded in 1915
+by President Wilson, after the U. S. had lagged considerably behind
+Europe in the exploitation of the airplane for civilian and military
+purposes. The members of the committee, then the grandees of the
+U. S. aviation world, were charged with keeping close tabs on all
+domestic and foreign aviation developments, and to serve as a kind
+of clearing house for U. S. engineers. The committee was supposed
+to encourage officially any U. S. aviation development which held
+promise.
+
+As the airplane grew in importance and complexity, NACA grew in size.
+Langley Laboratory was founded at Hampton, Virginia, to test seaplane
+hulls, new propeller designs, and important air foils. It was soon
+equipped with wind tunnels and other tools of the aeronautical
+engineers. Much later, in 1940, NACA founded a second aeronautical
+research laboratory--Ames--at Moffett Field, near San Francisco.
+Shortly before World War II, a third laboratory, Lewis, was built
+in Cleveland, Ohio, to work on problems of propulsion. While some
+NACA engineers dealt with hardware, much new basic theory--some of
+it sound, some of it impractical--emanated from the ivy-covered,
+college-like atmosphere of its laboratories. This theory, combined
+with that from universities such as Washington, and considerably more
+theory generated by the highly competitive aviation industry, served
+to keep the U. S. abreast.
+
+The X-1 rocket plane was, in a way, a product of NACA. During World
+War II, NACA was frantically busy “fixing” design shortcomings on
+production military airplanes. In 1944, when the country stood on
+the threshold of the jet age, NACA engineers came face-to-face with
+the problem of the suspect data provided by wind tunnels near the
+speed of sound. Seeking a substitute solution, the Air Force’s Ezra
+Kotcher and a few NACA engineers, including Hartley Soule and John
+Stack, together with Bell engineer Robert Woods, conceived the idea
+of building a full-scale rocket-powered research plane that could
+actually be _flown_ through the speed of sound to get the necessary
+data. It was a bold--indeed, daring--move for the conservative
+agency, and it paid handsome dividends in the long run.
+
+During the course of modern aviation history, NACA has been
+alternately praised and damned. In 1935 the British _Journal of the
+Royal Aeronautical Society_ huffed: “It is notorious that many of our
+most capable design staffs prefer to base their technical work on the
+results of the NACA.” After World War II, when the complete picture
+of the astounding Nazi achievements in the field of aeronautics came
+to light, NACA was severely criticized for the U. S. lag. Much later
+it was blamed for permitting the U. S. to fall behind in the field
+of ballistic missiles. These shortcomings, I believe, were more the
+result of a national attitude than a specific research or policy
+failure on NACA’s part. By and large, considering its shoestring
+budget, NACA had performed ably. With only occasional exceptions,
+the U. S. aviation industry has held NACA in high regard. One reason
+is that the agency served as a training ground for many U. S.
+aeronautical engineers. For example, my childhood hero, Eddie Allen,
+was one of NACA’s first and best test pilots.
+
+From my point of view in 1950, NACA seemed a likely starting point.
+I knew that NACA kept a small stable of test pilots at each of its
+three major laboratories. Most of them were engineers, too--able
+to translate a deficiency encountered in the air into precise
+engineering terminology. A close association with these men for a
+period would be valuable experience. Thus, without knowledge of a
+specific vacancy, I mailed off a general application form to the
+government.
+
+There were no openings, the government replied. I wrote again and
+again without results. When graduation exercises were only a few
+weeks away, I felt I had to take some land of direct action. I
+decided to pay an unannounced visit to Laurence Clousing, NACA’s
+chief test pilot at Ames. Clousing, I knew, was one of the best in
+the business. If he did not know of a job, his advice alone would
+make my trip worth while.
+
+I remember everything about that day. It was remarkable not only
+because it was a turning point in my life, but also because it was
+filled with coincidences, minor but eerie. The first of the latter
+happened the moment I walked into Clousing’s office--unexpectedly, so
+I thought.
+
+“Hello, Crossfield,” Clousing said. He was a tall man with a
+deceptively shy manner. He seemed to me more like a college professor
+than a test pilot. He thrust a friendly hand toward me. “We’ve been
+waiting for you. Your wife called a few minutes ago.”
+
+I was very surprised by his greeting. I had told Alice only that I
+was going to see a “guy named Clousing down near San Francisco.” That
+she had been able to track me down to his office at the big NACA
+facility amazed me. This feeling soon gave way to concern. I was sure
+Alice would not call unless there was urgent news.
+
+“Is somebody ill?” I asked Clousing.
+
+“No,” he said. “She wanted to pass along the word that you received a
+reply this morning to your civil service application. You’re invited
+to Edwards for an interview. We have no openings here at all.” The
+most surprising fact of all in this news was that Alice had opened
+the letter. Not in seven years of marriage had she so much as touched
+a letter addressed to me. Well, I thought, it’s lucky she did. I
+turned to Clousing.
+
+“Edwards?” I asked. “Isn’t that Air Force?” At that time I knew only
+that Edwards was a desert test center for experimental airplanes in
+Southern California. It was at Edwards that Chuck Yeager had flown
+the X-1 through the sonic barrier. Industry test pilots from the Los
+Angeles area used the base for first flights of new planes.
+
+“NACA has a small experimental test group at Edwards,” Clousing said.
+“Two or three pilots and a few engineers and mechanics. They came out
+with the X-1 back in ’46. They’re doing some work there with other
+planes. It was supposed to be a temporary group but they’ve made it
+a permanent station now. Walt Williams runs the unit. The chief test
+pilot is John Griffith. Do you want to go down and see them?”
+
+I wasn’t too keen on Edwards. Clousing’s brief comments brought to
+mind a picture of a gypsy caravan from NACA camping in tents on
+the edge of the Air Force base. What a contrast to the scholarly
+atmosphere of the massive Ames installation! To me Ames was a known
+quantity but Edwards a big question. But Clousing had made it clear
+he was not hiring. Edwards, at least, was a foot in the door. I
+thought it might be worth a gamble.
+
+When I said yes, Clousing put through a call to Walt Williams to
+arrange a rendezvous. Soon I was on a train, chuffing slowly over the
+coastal mountains toward the great, desolate Mojave Desert.
+
+Today Edwards, like the rest of Southern California, has grown to
+spectacular proportions. It is a well-organized military base, manned
+by some 10,000 men, with a neat base-housing area, cross-hatched
+by streets named for pilots who have died in the course of duty at
+Edwards. It has a Base Exchange, an Officers’ Club, gigantic hangars,
+and all the rest. But on that day when I saw it for the first time,
+it was little more than a runway scratched out of the desert. The
+handful of pilots lived in “tarpaper” shacks and drank whiskey in a
+roadhouse run by an aging but colorful aviatrix named Pancho Barnes.
+
+John Griffith met my train in Mojave, a frontier town not far from
+Death Valley, once a stopping-off place for the famous twenty-mule
+teams which labored across the desert hauling borax. The brown wastes
+of the desert were harsh to my eyes, which had looked for so long on
+the green of the Northwest. I was not sure Alice would like it. Even
+in May the heat was stifling.
+
+Griffith, a stocky, powerfully built man about thirty-one years old,
+was appropriately dressed for the climate--slacks, sport shirt, dark
+glasses. I felt out of place in my blue serge suit, but John quickly
+put me at ease with his friendly smile and easy manner. We climbed
+into his car and drove along an arrow-straight, black-top road toward
+the base. It was hard to believe that this primeval environment was
+the center of aviation’s most advanced flying.
+
+On the way to the field I learned a little of the history of the
+NACA pilots at Edwards. The original group had consisted of Herbert
+Hoover, and Howard Lilly, both fine pilots. Lilly was killed when an
+experimental plane blew up on take-off. Hoover was killed later, when
+a B-45 jet exploded in the air; his co-pilot, John Harper, escaped.
+He subsequently went to work for Lear, Inc. To replace them, Griffith
+came from Lewis Lab and Bob Champine from the Langley Lab to be
+number two man. An able, sharp-eyed pilot, but not a very experienced
+one, Champine soon developed a distaste for experimental flight
+tests. He transferred back to Langley, leaving the opening for which
+I was to be interviewed. Griffith was the sole pilot, a World War II
+veteran. He flew for the Air Force in the Solomons and later joined
+NACA. Superior to him was Joe Vensel, chief of Flight Operations,
+then came Walt Williams, chief of the station.
+
+The NACA High Speed Flight Test Station occupied one of two small
+hangars in the sand bordering the runway. As we drew close, I saw
+there was just one building, a combination hangar and office. I
+was soon to learn that the NACA operation was, as I had envisioned
+it, completely parasitic. It leaned on the Air Force for water,
+communications, fuel, fire protection--everything but salaries,
+pilots, and engineers. But the primitive façade was deceptive. Inside
+there was a highly contagious, pioneering spirit. The NACA group at
+Edwards was ready to perform big deeds; even more spectacular plans
+were in the works.
+
+The principal reason for this spirit, I soon found, was the boss,
+Walt Williams, a thirty-one-year-old engineer from New Orleans. A
+cocky, hard-working operator, Williams had cut his teeth in NACA’s
+Langley Laboratory during the war. In 1946 he had come to Edwards
+with twelve men under his command, to supervise the research phase
+of the X-1 program. The plan then was that when Bell had finished
+the initial flight tests of the plane, Williams and his group would
+move in. They would fit the ship with instruments and begin recording
+scientific data on each flight. This scheme had been unavoidably
+delayed when Goodlin bowed out.
+
+After Chuck Yeager flew the plane through the sound barrier, other
+Air Force pilots moved in to take the controls and set new records.
+One of these was Major Frank K. (“Pete”) Everest, who zoomed to an
+altitude of 73,000 feet. Others followed: Captain Jack Ridley and
+Colonel Albert Boyd, who was then commander of the Edwards outpost,
+and the epitome of a service test pilot. Herbert Hoover of NACA flew
+the X-1 and became the first civilian to penetrate the sound barrier.
+
+There were actually _three_ X-1s, I discovered. The first, Yeager’s
+plane, which he nicknamed _Glamorous Glennis_ after his beautiful
+wife, had been shipped off to the Smithsonian Institution. The second
+X-1 had been turned over to NACA. The third X-1 was still at the Bell
+plant in Buffalo, New York, being fitted with a new low-pressure fuel
+system which would enable it to go higher and faster. But many, many
+months would pass before X-1 number three was ready for flight. It
+held a grim surprise.
+
+I talked first with Joe Vensel, chief of Flight Operations. He was a
+man cautious in decision but quick in physical movement. He bore the
+scars of a rough life of flying: shattered sinuses. At 40, he wore a
+hearing aid. Vensel had little to say or to ask.
+
+Griffith then took me directly to Williams’ office, a make-shift
+area in one end of the hangar. Williams met me with a firm and
+enthusiastic handshake. He bounced around the room impatiently,
+pausing frequently to run his hand through his crew-cut brown hair,
+or to doodle violently on a scratch pad. It was immediately clear
+that Williams was a man of action. I liked him on first sight. He and
+Griffith probed my background.
+
+“How is it you have so much single-engine time?” Griffith asked.
+
+“I like to fly,” I said. “I got my private license before the war.
+During the war I was an instructor at Corpus Christi, Texas. We were
+very busy. Lot of students. Lot of hours. I took extra students when
+I could. After the war I was active in the Naval Reserve.”
+
+“What about this stunt team?” Williams asked.
+
+And so it went. As the interview progressed, I learned there were
+two other pilots being considered for the opening, each with about
+half my flying experience. This competition, unsuspected until then,
+sharpened my senses. I talked earnestly about my desire to make a
+serious contribution to aeronautical science. Before the session drew
+to a close, Williams made it clear that the job was mine--if I wanted
+it. I didn’t want to appear overly eager. I parried for a while,
+seeking answers to a few questions of my own.
+
+“What kind of flying would I be doing here?” I asked. “It looks to
+me as though Chuck Yeager and Pete Everest and the other Air Force
+pilots have a corner on the market.” It was a deliberate needle and
+it obviously touched Williams on a sore spot. He responded with a
+spiel which sounded as though it had been drafted for a Congressional
+committee.
+
+“The research airplane was conceived at NACA’s Langley Laboratory.
+The funds are provided principally by the Air Force and the Navy.
+NACA has technical jurisdiction over the flight programs, which are
+designed to provide maximum data within a given time. Under the new
+concept, civilian test pilots of the companies concerned in the
+design and construction of the research airplanes make initial test
+flights, verifying established design and structural points, engine
+reliability, and so on. The Air Force pilots then take over and fly
+them with an eye to military application, under NACA cognizance.
+After that, so the plan goes, the ships are turned over to us here at
+NACA for detailed flight research. The ... ah ... the Air Force has
+been somewhat slow in turning over the planes, that’s true, but we
+have encountered one unpredicted technical problem after the other
+...”
+
+“I suppose--” I broke in. But Williams had not finished. He lunged
+out of his chair and paced back and forth, warming to his subject.
+
+“We are blazing new trails in aeronautical science out here. The data
+we are producing are fed directly into the aviation industry through
+NACA reports available to all. Industry engineers are applying the
+data to concepts for the next generation of jet fighters--a family
+of supersonic fighters. We’re testing everything here: straight
+wing, swept wing, tailless jobs. We’re running into all kinds of
+phenomena. Some of them have been predicted in theory and tunnel
+test; some are brand-new.”
+
+“What planes are you working with now?” I asked.
+
+“We’ve got an X-1 out there in the hangar now, and the X-4. Hell,
+come on out and I’ll show you.”
+
+Williams boomed out of the office into the hangar space. I followed,
+looking in detail for the first time at the collection of weird and
+fascinating planes. The hangar was busy. Mechanics swarmed over the
+little hot-rods, removing plates, pulling long snarls of wire from
+their insides, shoving calibration carts here and there. The whine of
+a pneumatic drill, accompanied by the staccato of a rivet gun, echoed
+through the high-beamed, arched ceiling. The scene reminded me of
+the feverishly busy pits at the Indianapolis race track a few hours
+before the 500-mile Speedway race on Memorial Day. The analogy is not
+far-fetched. These planes were nearly comparable to temperamental,
+overpowered, dangerous, finely-tuned racing cars. Edwards, in
+reality, was an Indianapolis of the air.
+
+A few of the planes, such as the X-1, were familiar to me; others
+were new. We stopped alongside the X-4, a tailless plane powered by
+two jet engines. It had just been turned over to NACA by the Air
+Force, Williams said, patting the side of the ship. It was a metallic
+white, like an icebox.
+
+“She was supposed to go Mach 1,” he said. “But she can’t make it.
+It’s a little tricky to fly. The engines flame out at altitude.
+She pitches a bit at Mach .9. British lost a couple of DeHavilland
+Swallows of similar design. Mystery why they crashed. Maybe we can
+find out with this baby.” Williams rattled on in this fashion as
+we moved about the hangar. We came to another beautiful ship which
+looked somewhat like the X-1.
+
+“This is the Douglas Skystreak, the D-558-I,” Williams said. “It’s a
+Navy project.”
+
+“Oh, yes,” I said. This was the model that killed Lilly. I recalled
+a few of the details of the program. “Gene May also flew that one,
+didn’t he?” May was a Douglas test pilot.
+
+“That’s right,” Williams said. “We have two of these left. This one
+is just like the X-1 only it has a jet instead of a rocket engine. We
+had another D-558 version here, swept wing with a jet using JATO for
+take-off, called the Skyrocket. Then there also is another swept-wing
+version with a jet engine and a rocket engine. It’s back at the
+Douglas plant now being modified to an all-rocket version. We’ll
+air-launch it from a mother plane like we do the X-1.”
+
+_All-rocket, air-launch, swept-wing._ I turned these phrases over
+briefly in my mind, little realizing then the impact this airplane
+would have on my future.
+
+“What do you expect from that?” I asked.
+
+“Well, the figures are classified, frankly. But in round numbers and
+stretching, we think she might reach Mach 2, and maybe 90,000 or
+100,000 feet,” Williams said. He spoke in a low, confidential tone.
+
+“Who is the pilot going to be?” I asked. “Gene May?”
+
+“No.” Williams said. “Douglas has a new pilot, an ex-Navy type named
+Bill Bridgeman.”
+
+“The Air Force doesn’t get this one?”
+
+“No. This is a Navy project. They do it differently. They’d just as
+soon have the manufacturer establish the limits of the airplane.
+Good, sharp outfit to do business with. They don’t mind racking up a
+few records, but it is not their first order of business.”
+
+The way Williams spoke of “records,” he conveyed clearly the
+impression that at NACA records per se were unimportant, if not
+frowned upon. We wandered back to his office and sat down.
+
+“Now,” he said, “there are about four other types in the works.
+Bell’s got a souped-up version of the X-1 coming out which will
+easily exceed Mach 2, or better. They also have a swept-wing rocket
+plane, the X-2, which is designed for nearly Mach 3 and about 150,000
+feet. Then there’s the X-3, a straight-wing job by Douglas. It is way
+behind schedule and very complicated. It might turn out to be a dud.
+Then we’ll have the Bell X-5, a jet-powered ship with an inflight
+variable-sweep capability.”
+
+My head was swimming with figures and visions of these fantastic
+airplanes. My top speed in an airplane then was maybe five hundred
+miles an hour, clocked in a dive in a Corsair. Williams talked of
+1500 and 2000 miles an hour as if those speeds were routine. I was
+sold.
+
+“I would have a shot at those airplanes?” I asked.
+
+“If everything works out,” Williams said.
+
+“The X-2 as well?”
+
+“If everything works out,” Williams repeated.
+
+“When do I start?”
+
+“We’ll let you know,” Williams said. He glanced at his watch. “You
+going back into Mojave to catch a train? Why don’t you hitch a ride
+with Drake and Carmen?”
+
+Hubert M. Drake and L. Robert Carmen together made up the “advance
+design” group at NACA’s Edwards installation. They were the
+“dreamers,” paid to look far into the future and scheme new ways
+to fly higher and faster. I didn’t know it then--and they didn’t
+discuss it--but Drake and Carmen were doing work at night in their
+homes on an airplane to put the best of dreamers to shame. It was a
+rocket-powered craft that would fly four thousand miles an hour and
+to an altitude of 500,000 feet. Five years later, after a tortuous
+journey through a jungle of bureaucracy, and endless modification,
+this craft became the X-15. Looking back now, I regard the fact that
+these two men were picked to give me a lift to Mojave as something of
+a coincidence.
+
+Of pressing concern to me at that moment was the fact that I was
+almost flat broke. I had hitch-hiked down to the Ames Laboratory on
+a Navy airplane and had intended to return to Seattle that same day
+by the same means. The plane had long since returned; I was stranded
+in the desert without nearly enough cash for a train ticket to
+Seattle. There was no money in my checking account. However, by the
+time I climbed out of Drake’s car at the bleak, dusty Mojave railroad
+station and bid my hosts farewell, I had a plan.
+
+I checked with the station master. There was a north-bound train
+scheduled to pass through Mojave at midnight. The daycoach fare to
+Seattle, via San Francisco, was about $20, and this was about $10
+more than I had.
+
+“What’s the next stop beyond Mojave?” I asked.
+
+“Martinez,” the station master said. He eyed me curiously.
+
+“Okay,” I said, “give me a ticket to Martinez.” It was about $7.00.
+
+I then placed a telephone call, collect, to my sister, Elena Ruth
+(“Babe”) Brown, who lived in Sierra Madre, just outside Los Angeles.
+When she answered, considerably surprised to hear from me, I told her
+I was taking the midnight train to Martinez and asked her to wire me
+$25 in care of the station master there. I had not often borrowed
+money in my life, but I didn’t mind asking her. Many years before,
+when she was a student at Berkeley, I had hocked my camera in order
+to lend her $40 for flying lessons, for which my father refused to
+pay.
+
+After Babe assured me the money would be sent immediately, I hung
+up and retired to a corner to count my remaining fortune. I spent
+another dollar at the Silver Dollar Cafe for dinner, then blew the
+rest on a ticket to the local movie. By still another coincidence,
+the picture was about a test pilot and Humphrey Bogart was the star.
+I plumped into a seat and watched while he wrestled with a rattling
+control stick, braving the frontiers of flight.
+
+Hours later I was still deeply absorbed, not in that turkey of a
+movie but in what I had seen and heard that day, when I felt a hand
+on my shoulder. A voice spoke:
+
+“Are you Mr. Crossfield?”
+
+Startled, I broke out of my supersonic reverie and spun around. It
+was the theater usher.
+
+“Yeah. I’m Crossfield.”
+
+“There’s a gentleman out front to see you.”
+
+I followed the usher up the aisle wondering who it could be. No one
+on earth knows where I am, I thought.
+
+To my astonishment, I found Babe’s husband, Claude, and behind
+him, my mother, Lucia, waiting in the lobby. My mother had been
+visiting my sister when I called. After I hung up she talked my
+brother-in-law into making the three-hour drive to Mojave to surprise
+me.
+
+“But how did you know I was in there?” I asked.
+
+“Well, I cased every bar in town first, while your mother waited in
+the car. I didn’t see you in any of them so I figured in a town of
+this size the only place left was the movie.”
+
+We laughed and made our way to a nearby restaurant. At midnight, $25
+richer, I boarded a daycoach on the train.
+
+Back in Seattle, I collected my Master’s degree in aeronautical
+engineering, resigned from my Naval Reserve unit, packed up the
+family--Alice, Becky, age two, and our new addition, Tommy--traded my
+1941 Ford for a ’49 Ford, and drove to the desert to begin a new life.
+
+Three weeks later many of my Naval Reserve comrades were mobilized
+and shipped off to Korea.
+
+
+
+
+CHAPTER 3 ►
+
+ _A Sense of Urgency_
+
+
+A harsh, bitterly cold December wind, gathering momentum over miles
+of flat desert, lashed the ramp behind the NACA hangar. I buttoned
+my jacket close and bowed my head as I pushed against it toward the
+airplane. Here and there I saw that the small puddles were frozen to
+solid ice. The desert warms up during the day, but on a winter night
+it is like the North Pole. Sometimes it snows at Edwards.
+
+I climbed into the cockpit and pulled on my crash helmet, grateful
+to be shielded at last from the frigid blast. Ralph Sparks, who,
+on that blue-cold morning, looked as though he was born before the
+Wright brothers, closed the canopy and removed the aluminum boarding
+ladder. I smiled and waved my hand sharply. Sparks claimed personal
+authorship of most of aviation’s achievements, but there were few
+mechanics at NACA, or anywhere for that matter, more able than he. He
+stood by while I wound up the engines. They caught, and I taxied out
+for my first X-4 flight, the first of a series of hurried checkouts
+in NACA’s stable of thoroughbreds.
+
+My first six months at Edwards had been a tumultuous time of hurry
+and change. Walt Williams, as a matter of routine, kept a fast pace.
+When the Korean War broke out, our outfit, like all of the aviation
+world, worked with a new sense of urgency. At the climax of the
+dramatic shift, NACA’s top pilot, John Griffith, resigned to take a
+job at Chance-Vought. In the new climate of the industry, journeyman
+test pilots were desperately needed. I checked out in a couple of
+jets, the F-84 and the Douglas Skystreak. Then, in the final days
+before Griffith’s departure, I gathered what information I could
+about the foibles of our temperamental champions. Suddenly, then, I
+was completely on my own. The entire NACA Edwards test program was
+dumped in my lap.
+
+Actually, I couldn’t have been more pleased. Looking back, I believe
+now that the months that followed were, professionally speaking, the
+happiest days of my life. I was then too new and too young to concern
+my mind seriously with government and industry politics. My approach
+to the job was completely starry-eyed. I could move at my own pace,
+always fast. I flew morning, noon, and afternoon in the strangest and
+most unpredictable airplanes man had ever devised. These flights were
+never long. Experimental airplanes are like powerful rockets. They
+blaze furiously for a few moments, during which the pilots strive
+to probe an unknown area, and then they sputter and die. The one
+big difference between the manned plane and the missile is that the
+pilot brings the multi-million-dollar plane back to earth for another
+flight. Usually.
+
+Before my flight in the X-4 that morning, Walt Williams and Joe
+Vensel clucked around the hangar like two old maids grooming their
+niece for a grand debut. I had read all the flight reports on the X-4
+and had picked Griffith’s brain thoroughly. I knew the weak points
+of the airplane: its two engines were erratic above 30,000 feet; at
+Mach .88 the plane became unstable; it broke into a steady porpoising
+motion, like an automobile cushioning over a washboard road. Beyond
+that, nearer the speed of sound, no one knew what would happen. The
+X-4 had never been flown there. Williams and Vensel added a fact I
+knew quite well: the plane was equipped with barn-door-sized speed
+brakes. If popped in flight they would slow the X-4 abruptly and
+allow her to withdraw from any zone of trouble.
+
+The X-4, by then, was a veteran of Edwards. The plane was conceived
+in the postwar years by Jack Northrop, an imaginative inventor and
+an unyielding advocate of the “tailless” concept. The X-4 was first
+flown by Northrop’s renowned test pilot, Charlie Tucker, in 1949.
+After considerable modification, it had been turned over to the Air
+Force. Chuck Yeager, Pete Everest, Colonel Richard Johnson, and Al
+Boyd flew it. Thirty flights later, NACA inherited the plane and its
+mechanic, Ralph Sparks, who had been with the project from the outset.
+
+I pushed the twin throttles forward and as the fuel surged into the
+burning chambers, the X-4 leaped toward the runway. In the distance
+I could see a plane leaving Air Force Fighter Ops, headquarters for
+the military test-pilot group. Pete Everest was the pilot of the Air
+Force craft, an early-model F-86. He would join me to fly “chase,”
+observing the performance of the X-4 and watching for danger signals
+from close quarters.
+
+Officially, no rivalry existed between the pilots of the Air Force
+and the NACA group. As Williams had said, the two jobs were poles
+apart. Once contractor pilots, such as Tucker, had demonstrated that
+the plane could fly, the Air Force flew it to evaluate military
+applications. Then NACA pilots put the plane through an exhaustive
+aerodynamic dissection, learning every new fact possible.
+
+In fact, there was a natural rivalry between the test pilots. Each
+day at Edwards, the pilots played out a kind of small-scale Olympic
+Games of the air. Occasionally these were major battles to break
+records, staged by rival Navy and Air Force. More often, they were
+small but significant demonstrations of a new flying technique or a
+daring maneuver into the unknown, a step beyond the previous pilot of
+the airplane. For example, some of the planes had vicious weaknesses.
+If, on a given flight, the pilot was able to skirt these, he had
+achieved a minor triumph, worth a toast at Pancho’s. Edwards was not
+the place to attract non-competitive pilots.
+
+Some of the reason for the keen rivalry lay in the Air Force’s
+approach to flight test. Along with its triumphs in the X-1, the
+Air Force, first at Wright Field, later at Edwards, had set out to
+create a cadre of schooled engineering test pilots on a par with the
+best in NACA and industry. For example, Yeager was not an educated
+engineer. He was an intuitive engineer, one of the best. He could
+feel in an instant a deficiency in an airplane and come close to
+pin-pointing its fault technically. A rare pilot, born to fly, like a
+figure-skater born to skate, Yeager set standards of conduct in the
+air that were emulated for years afterward at Edwards. The pilots
+adopted even his understated West Virginia drawl, and ever afterward
+the radio talk at Edwards reflected this. The pilots at Edwards--to
+judge by the radio talk--were raised on hominy grits and corn
+fritters.
+
+But Yeagers are rare. Later the Air Force sent vast numbers of its
+pilots back to college to study aeronautical engineering and, still
+later, founded a full-blown test-pilot school at Edwards, which in
+recent years has graduated a fine group of young, educated test
+pilots. But before this ambitious, challenging program, many Air
+Force pilots, resisting the engineering approach, died needlessly. We
+gave them little reverence: “Hell, he was dead before he took off.”
+
+I was not a member of the “inner circle” that morning in early
+December. I had met Yeager, Everest, Jack Ridley, Boyd, and the rest,
+but I had yet to prove my ability in the air. I knew that the moment
+Everest locked wingtips, he would be watching every move. He had
+flown the X-4. He would know when I goofed, and the word would soon
+get back to the others. Conceivably, some leeway might be allowed for
+the first flight, but it was not likely. Yeager gave little quarter
+in the air. On his first flight in the X-1, he says, he had been
+tempted to roll the ship in front of the Edwards tower, scant feet
+above the ground.
+
+When I received radio permission to take off, I firewalled the
+throttles. As the X-4 wobbled down the long, bumpy runway, I gingerly
+felt out the controls. Then the churning jets took hold, and the
+small X-4 abruptly lunged into the air. Backing off the stall point,
+I nosed her over gently and leveled out. Then I eased back on the
+stick and the tiny, tailless craft zoomed skyward like a winged
+rocket. Behind me, Everest had opened his F-86 wide, trailing a long,
+black snake of soot, but he could not keep up. I waited for him at
+altitude, rolling and stalling the plane, getting to know its special
+strengths and weaknesses. When Everest locked wingtips, I opened
+the throttle wide, once again leaving him far behind. As predicted,
+at Mach .88 the X-4 broke into its gentle but potentially dangerous
+porpoising motion. I opened the air brakes, and the X-4 slowed
+instantly, throwing me forward against my shoulder restraint straps.
+Everest hurtled by, chortling on the radio.
+
+The Edwards base now lay far below us, nearly obscured in the vast
+wilderness of the Mojave wastes. Here and there on the desert floor
+I could make out the mottled outlines of the curiously shaped “dry
+lakes.” These “lakes” are stretches of fine, closely packed silt,
+left behind eons ago by the retreating seas and bleached almost white
+by the hot desert sun. The soil of the lakes is quite unusual. When
+mixed with water, it becomes slimy like oil. Industrialists mined the
+soil as a lubricant for well drills. When the lakes are completely
+dry, the surface is hard and flat, like concrete, and thus ideal
+natural landing areas for airplanes.
+
+When it rains in the desert, the lake beds are temporarily put out
+of commission. The water, unable to penetrate the fine, self-sealing
+surface soil, collects on top in small pools, or sometimes, after a
+hard rain, in vast, shallow, real-life lakes. This water is swept
+back and forth by the brisk desert winds until it evaporates. The
+gentle movement of the water smooths the surface of the lake beds,
+eliminating bumps and ruts. During this “re-paving” process, the
+surface becomes mushy and slick, dangerous for a heavy airplane.
+There is sometimes a little rain in July which temporarily closes
+the lakes. But the hard rainy season usually begins in mid-December.
+Frequently, but not always, the intermittent rains keep the lake beds
+either flooded or soft until March or April. No one can predict the
+capricious desert weather.
+
+The Edwards base was set directly alongside one of these
+lakes--Rogers Dry Lake--which in earlier times, appropriately enough,
+had, like the great salt flats of Utah, been an automobile race
+track. During the rainy season, at times, I have seen the water on
+the lake so deep that it was lapping at the edge of the parking
+ramps, and so penetrating that shrimp eggs of some prehistoric age
+worked loose from the soil and came to life, mysteriously attracting
+sea gulls from the distant California coast. To maintain year-round
+operations, the Air Force had built a normal concrete runway at the
+base, butting against the dry lake. In the dry season, if required,
+the lake bed, marked by parallel black lines, could be used as an
+extension of the concrete runway. For the rocket planes, which
+required long take-off and landing areas, another runway, lying in
+the opposite direction and seven miles long, had been painted on the
+lake bed. Still other nearby lakes--Rosamond, Harper, Three Sisters,
+Cuddeback--were designated emergency landing areas. When flying
+experimental planes at Edwards, the pilots always kept within easy
+reach of one of the dry lakes.
+
+After about fifteen minutes in the air, I felt at home in the X-4.
+The plane responded so well, in fact, that it was hard for me to
+keep in mind that I was piloting a marginally stable, experimental
+race horse. Had all that talk of danger been the product of some
+public relations mill? I was beginning to feel my oats now, and a
+determination that hardly struck me as daring at the time seized me.
+I would loop the X-4.
+
+Heading back toward Edwards, the check-out virtually complete, flying
+wing to wing with Everest, without warning I pulled back hard on the
+stick. The X-4 climbed rapidly, leaving Everest far below. The desert
+disappeared from my windshield, replaced by the deep blue of the
+clear sky. In a few seconds the X-4 was flat on its back at 27,000
+feet. Suddenly all hell broke loose. A noise like the sound of a
+fifty-caliber machine-gun exploded through the cockpit.
+
+My maneuver had disrupted the smooth flow of air into the two engine
+intakes. Starved for air, and sensitive anyway at my altitude, the
+engines had rebelled, and after a flash of uneven running they gave
+up completely. I righted the plane and sheepishly called Pete Everest
+on the radio.
+
+“Lost both engines.”
+
+“Rog,” he said. Then I heard him calling Edwards Tower to report an
+emergency. I could visualize the reaction there: sirens screeching,
+fire trucks racing out to the runway, NACA’s Walt Williams and Joe
+Vensel perched on the edge of their chairs. Now working desperately
+to restart the engines in the air, and mentally locating the position
+of the emergency dry lakes, I silently cursed my boldness. I could
+imagine the talk that night: “That new fellow, Crossfield, down at
+NACA. Pretty green....”
+
+I managed at last to win half the battle. One engine coughed to life.
+If it kept running (a big if, indeed, at that point), I would have
+sufficient power, at least, to reach the Edwards base runway. Without
+the engines the X-4 would come in with a low lift over drag (L over
+D)--in other words, it would glide like a brick, but I would be
+spared the ignominy of landing on a lake remote from the base. Vensel
+was taking no chances. By radio he ordered me to land on the lake.
+
+As we lined up for the approach, I could see the emergency trucks
+parked along the edge of the lake; quite embarrassing. The X-4,
+already sluggish, began to settle toward earth. As we descended, I
+was further chagrined when Everest began to call altitude readings,
+interspersed with occasional helpful hints on how to fly a plane. He
+was ribbing and I had it coming, so when, finally, the X-4’s tires
+screeched on the lake, I switched off the radio receiver.
+
+Joe Vensel was waiting anxiously on the NACA ramp when I rolled to a
+stop in front of the hangar. I climbed down the ladder.
+
+“Well,” Vensel said, “what happened?”
+
+“I looped it and lost both engines,” I said. “Got an air start on one
+and stop-cocked the other.”
+
+“Damn,” Vensel muttered. He stalked back to his office.
+
+
+
+
+CHAPTER 4 ►
+
+ _Excitement and Frustration_
+
+
+“You might as well try a rocket flight,” Joe Vensel said.
+
+We were sitting in his office, which faced the NACA hangar workshop.
+His tone lacked enthusiasm. His whole attention seemed focused on the
+pencil he was twirling between his fingers.
+
+It was the day after Christmas, twenty days since my first X-4
+flight. The Chinese Communists had entered the Korean War,
+splitting and decimating our armies on the peninsula. The President
+had declared a state of national emergency. In the Pentagon the
+economizing Secretary of Defense, Louis Johnson, had been replaced by
+General George Marshall. The aviation industry, now overwhelmed with
+money, was gearing for a future freighted with uncertainty, perhaps
+a global war with the Soviet Union. Its engineers desperately needed
+data. Wind-tunnel results from scale models of the newly designed,
+supersonic, Century Series jet fighters--the F-100, the F-101, F-102,
+and F-104--had foreshadowed critical instability at high speed. Every
+man at NACA was anxious to press ahead.
+
+“Okay,” I said. “I’ll tell them to get 945 ready.”
+
+The number 945 was our mundane designation for the Douglas D-558-II
+Skyrocket, a research airplane with an impressive background and a
+sensational future.
+
+It requires much time and planning to prepare a rocket plane for
+a test flight. This was especially true in those pioneering days.
+Rocket engines are complicated and temperamental, something like the
+engines of expensive high-speed racing cars. They burn a powerful,
+dangerous fuel combination of liquid oxygen (Lox) and water-alcohol,
+and sometimes even more exotic fuels, which eat into the pipes and
+fittings, corroding or unsealing joints. The fuel is pumped into the
+engine through a complex maze of plumbing, which forever leaks and
+loses pressure. The liquid oxygen is very cold, approaching minus
+300 degrees Fahrenheit. This intense cold forms a coating of ice on
+the outside of the tanks and the plane, and permeates everything,
+sometimes freezing systems not designed for extreme temperatures. The
+preparation of a rocket engine for flight was always an adventure for
+our mechanics.
+
+I made my way into the hangar to pass on the word to Eddy Layne, our
+crew chief on 945.
+
+“How about it, Eddy?” I said. “Can we fly tomorrow?” The skin of 945
+lay about the hangar floor. The bare skeleton was under siege by half
+a dozen mechanics, who appeared to be devouring the plane like so
+many piranha fishes. It hardly seemed possible that it could all be
+reassembled in one day.
+
+“Sure thing, Scotty,” Eddy said. “Got a leaky regulator in the fuel
+tank, but we’ll get it squared away in a while. Go ahead and plan on
+it. Is this a speed run?”
+
+“No, just a check-flight,” I said.
+
+“I think Bridgeman and the Douglas people will be flying 943 in the
+morning. You might want to touch base with them.”
+
+“Right,” I said. It was obvious that I had not yet scored among the
+mechanics. What Eddy meant was that I had better check with Bridgeman
+and find out how to fly the 945. I had already done that.
+
+I remained in the hangar for some time, looking over the ship and
+recalling the plane’s history.
+
+In late 1944, when the Air Force and NACA launched the X-1, the
+Navy, as part of the overall research airplane program, began a
+separate project of its own, referred to as the D-558. (In the
+Navy’s hopelessly confusing aircraft terminology, the “D” stands for
+Douglas, the manufacturer.) The D-558 “Skystreak” was similar to the
+X-1 in shape; the main difference was that the plane was powered by
+a jet instead of a rocket engine. The X-1, which was intended to be
+launched in the air from a mother plane, would fly fast in brief
+bursts. The D-558, which was designed to take off conventionally from
+a runway, was slower, but it could stay aloft longer. Between the two
+designs, it was thought, the aerodynamics in the trouble area at, or
+just below, the speed of sound could be thoroughly blanketed.
+
+Three of the original jet-powered D-558 Skystreaks were built. In
+August, 1947, a couple of months before Yeager flew the X-1 through
+the sound barrier, Navy Commander Turner Caldwell, flying the first
+D-558, set a speed record of 640.7 miles an hour. Five days later
+Marine Major Marion Carl pushed the same plane to 650.6 miles an
+hour, a speed considered sensational at that time. In May, 1948, the
+“time bomb” engine in one D-558 blew up on take-off, killing NACA
+test pilot Howard Lilly. The second airplane became a Hangar Queen
+and was cannibalized for parts. The third Skystreak was still at NACA
+gathering data. I had flown it before my first hop in the X-4.
+
+From the outset the D-558 program grew into a second generation of
+airplanes. To distinguish these from the earlier models, we called
+the later ones “Phase Two” airplanes, which was short for D-558-II.
+The plane was popularly called the “Skyrocket.” Three Phase Two
+airplanes were built, all with the new swept wing. In 1946 there
+was then much controversy, but little swept-wing flight data except
+those which we had obtained from the Nazis. In each of the Phase Two
+airplanes, the power-plant or launch scheme was deliberately varied
+to cover a wide range of research possibilities. The first Phase Two
+model was, like the 558-I, powered by a single jet engine. Designed
+to take off conventionally, it was fitted with two small jettisonable
+rocket bottles (JATO) to help boost it into the sky. The second
+model, also intended for conventional ground take-off, was powered
+by a jet engine _and_ a rocket engine, similar to the rocket engine
+in the X-1. The third model (945), built to be dropped from a mother
+plane like the X-1, was also equipped with a jet and rocket-engine
+combination. Its maximum speed was about Mach 1.2, somewhat slower
+than the X-1’s top of Mach 1.4.
+
+Douglas test pilots John Martin and Gene May first flew these
+tricky Phase Two’s, taking off from the ground, burning the rocket
+barrel, the jet engine, or both at once. The adventures they logged
+would make a book in themselves. Ex-Navy pilot Bill Bridgeman of
+Douglas was later recruited to make the Phase Two air-launched
+demonstrations. By the time I arrived at NACA, the Phase Two
+Skyrocket was a familiar sight on the Edwards runway, and Bill
+Bridgeman was on his way to the Hall of Fame.
+
+Bridgeman flew the jet-rocket ground take-off version of the plane
+fairly regularly at Edwards. The jet-only JATO-boosted version never
+really panned out. The Navy ordered it shipped back to the factory
+for changeover to an all-rocket version, designed for an air-launch
+(causing even more model confusion). It was this plane that Walt
+Williams, in our first interview, hinted might reach Mach 2 and
+100,000 feet. NACA--I, to be specific--would get a crack at it after
+Bridgeman had worked out the bugs. The third Phase Two airplane, the
+air-launched jet-rocket combination, had been delivered to NACA in
+the fall of 1950, after Bridgeman had made three test air-launches.
+No NACA pilot had yet flown this model. This was ship number 945, my
+next challenge. In the long run it turned out to be a very useful and
+worthy research airplane in the trans-sonic zone, a work horse as
+well as a race horse.
+
+On the following day, when I reported to the flight line, lugging
+my parachute and crash helmet, the ground crews were ready. The
+Skyrocket had already been “mated”--snugged up like a bomb in its
+special nesting place in the belly of the B-29 mother plane. The
+Skyrocket’s fuel tanks, for both the jet and the rocket engine, were
+brimming. The B-29 mother-plane pilot was George Jansen, a top man
+for Douglas, and experienced in air-launch. Douglas intended to
+keep the mother plane until Bridgeman had checked out the all-rocket
+version of the Skyrocket.
+
+I spotted the tanned bald dome of Bill Bridgeman towering above the
+knot of men clustered near the boarding ladder of the B-29. He was
+dressed in a flying suit. A crash helmet dangled loosely from his
+right hand. I walked over.
+
+“You going along, Bill?”
+
+“Yeah. Might be able to help out a little,” he said with that
+wonderful friendliness that was his hallmark.
+
+“Fine. Fine.”
+
+We climbed aboard and made our way back to the bomb-bay compartment,
+into which the top of the Skyrocket fuselage protruded. The Skyrocket
+cockpit canopy was erect. A maze of wires and tubes--the umbilical
+cords--was plugged into the back of the Skyrocket, supplying power
+from the B-29 en route to the launch point. At the proper time I had
+only to climb into the cockpit, close the hatch, and fall away.
+
+Jansen lost no time. Through my earphones in the bomb-bay
+compartment, I heard him contact Edwards tower, and the two chase
+pilots, Fitzhugh Fulton and John Konrad, both Air Force types.
+In the following years, Fulton became something of a legend at
+Edwards. I think he must have spent three or four tours at the base,
+specializing in mother-plane operations. He launched most of the
+rocket pilots and was back again in 1959 to launch me in the X-15.
+
+Soon we were airborne, straining for altitude. I sat beside Bridgeman
+on a bench, going through the long pre-flight check-list. At 10,000
+feet the crew went on oxygen and I started to board the Skyrocket.
+
+I climbed down into the tiny cockpit, connecting my oxygen hose
+to the supply inside the Skyrocket. As Bridgeman towered over me,
+helping to cinch up my shoulder harness straps, I wondered how that
+long drink of water had ever managed to squeeze into the Skyrocket
+cockpit. Bridgeman and the launch operator slammed the canopy shut.
+The floodlights inside the bomb-bay compartment spilled through my
+windshields, affording enough light for me to see the instrument
+panel. At twenty minutes prior to launch, Jansen called the time.
+Following an item on the check-list, I lit off the jet engine. This
+added thrust would help the B-29 through the thin air and provide the
+Skyrocket with flying speed when I dropped.
+
+Now all hands in the air kept a sharp watch for signs of danger. They
+could come from a hundred points. At that time we had not yet lost a
+rocket-powered airplane, either in the air or on the ground. But it
+could happen at any moment--and did, in later months. The B-29s were
+something of a problem, too. They were fire-prone.
+
+A few minutes before drop I primed the rocket engines. Chase pilots
+Fulton and Konrad, who were flying alongside the B-29 beyond my view,
+reported routinely:
+
+“Prime looks good.”
+
+As we bore down over the dry lake at 35,000 feet, seconds before
+launch, I glanced one last time at the instrument panels and made
+ready. Launching a rocket plane and lighting off the engine properly
+is an exacting task. Improper observation of the numerous gauges
+and their reactions, or a small mistake in their analysis, can
+bring failure, possibly fatal. To gain maximum performance from the
+engines--the basic purpose of any research airplane flight--they
+should be touched off before the plane has dropped too far into the
+thick atmosphere. The plane must also be maintained at a precise
+angle of attack. If it noses down too steeply, precious rocket
+fuel is expended regaining lost altitude. If the plane is overly
+nose-high, the increased drag consumes fuel needlessly.
+
+In theory, the jet-rocket Skyrocket gave the pilot a nice edge.
+He could launch with the jet engine going full blast. This would
+help him maintain the plane’s equilibrium during the rocket-engine
+light-off.
+
+The next sixty seconds were crowded with excitement and frustration.
+Jansen, keying his radio mike, droned a brief countdown: “Five ...
+four ... three ... two ... one ... DROP.”
+
+I heard a rattle as the two bomb shackles holding the Skyrocket
+in its metallic perch were disengaged. Suddenly, then, brilliant
+sunlight poured into the Skyrocket cockpit, blinding me. I was
+falling like an elevator and flying!
+
+I pulled the nose up and climbed; there was not much time. The jet
+engine, fed by scoops that were far too small and inefficient,
+would soon starve for want of air. My fingers had flicked across
+the separate switches for the four rocket barrels. I felt a gentle
+forward surge, indicating a successful light-off. Chase pilot Fulton
+drawled on the radio:
+
+“All four going.”
+
+I glanced momentarily at the rocket pressure-gauges. They were in
+the green--I think. My eyes were still adjusting to the glare of the
+sunlight.
+
+Five ... ten ... fifteen seconds. My Mach meter and altimeter seemed
+to be running a clock-like race. Speed: Mach .9 and increasing.
+Altitude: 40,000 feet and increasing. My chase planes were far
+behind, left in a cloud of rocket dust. Altitude: 43,000 feet.
+
+In the next second, fifteen events--all of them bad--took place
+simultaneously. In the first brief instant, I was suddenly thrown
+forward against my shoulder straps, almost to the face of the
+instrument panel. I heard the jet engines popping crazily, then
+the rockets burned out, followed by eerie silence. I knew what had
+happened: the balky jet had flamed out; the sudden loss of thrust
+had sloshed the rocket fuel forward in the tanks, shutting down all
+four barrels. Suddenly my chest felt as though it were supporting the
+weight of a platoon of soldiers. The engines were out; cabin pressure
+was seeping off. The battery, which should have supplied ship’s power
+in the event of engine failure, responded slowly. Everything was out:
+radios and electrical instruments.
+
+In that particular airplane, the windshield defogging system was
+hooked directly into the electrical system. With no power to supply
+defogging air to the windshield, a coat of ice quickly formed,
+shutting off my vision. Now the emergency was complete; no power,
+no instruments, no cabin pressure, iced-over windshields. Breathing
+heavily under the strain of the decompression, I leveled the plane
+and then banked until the sun beamed directly on the windshield. I
+knew, at least, that I was pointed in the general direction of the
+lake, which lay to the west of my position.
+
+By strange coincidence, it happened that the same critical sequence
+of events had taken place on Bridgeman’s Skyrocket flight that
+morning. When I suddenly left the radio circuit, he guessed
+immediately what must be taking place in the Skyrocket cockpit. He
+yelled on the radio for chase pilots Fulton and Konrad to pull up and
+lock wingtips with my plane--to guide me, if possible, back to the
+landing area.
+
+My battery came on the line at last and began to pump power. To
+conserve it, I switched off all but the most important instruments.
+As I descended, the ice began to thaw and the breathing became
+easier. I reached up and scratched a small hole on both sides of the
+windshield. Now I could see Fulton and Konrad sitting on my wingtips.
+They flew formation on me until 10,000 feet, where the ice became so
+slushy that I could brush it off with my hand. I never wore gloves.
+Flying a sensitive airplane with gloves is like playing a piano with
+gloves.
+
+I brought the Skyrocket in dead-stick and made a normal landing on
+Rogers Dry Lake. The mechanics towed the powerless craft to the NACA
+hangar with a tractor.
+
+“Scotty,” Walt Williams said later, “if we can just get you through
+these first check-out flights, I think we’ve got it made.”
+
+
+
+
+CHAPTER 5 ►
+
+ _An Unusual Heritage_
+
+
+“Getting it made” was very important to me, and always will be. The
+quest for perfection is a compulsion with me, and has been since
+boyhood. One reason may be my unusual heritage. Another, without
+doubt, was my father. Then, as always, it would seem, there were
+those twinges of adversity, and stern compressions of circumstance,
+in early life, which Winston Churchill writes “are needed to evoke
+that ruthless fixity of purpose and tenacious mother-wit” which drive
+men to unusual endeavor. There was, too, an element of denial, an
+important factor in a man’s motivation, I believe.
+
+My family tree has always intrigued me. One reason may be that
+while I was growing up I was very conscious of it. There was a
+strong sense of “family” in our house, no matter how the luck ran.
+There was a Crossfield mold which we children--my two sisters and
+I--were expected to fit. We were constantly reminded that we were
+entrusted with a tradition that spanned almost the entire history
+of the New World. And because of the unusual mixture of our blood
+we were acutely aware of matters of race and prejudice. I know it
+is popular today to scoff, as decadent, at Southern traditions, and
+mock the proper Bostonians who cling to family ties, and to trumpet
+the dope-crazed sputterings of beatnik derelicts who, given complete
+head, would destroy all concept of God and family. Perhaps here, in
+this increasingly mobile society, this is one place we have failed. I
+cannot be held responsible for my family, but I am proud of it.
+
+My mother, for example, fiercely proud and uncompromising, was
+half Mexican. The other half was pure Irish, and a more fearsome
+combination one is not often likely to encounter. She was a direct
+descendant of a Spaniard named Holguin, a Conquistadore who served
+under Cortés during the Conquest of Mexico. Every inch a lady in the
+most severe Spanish tradition, my mother demanded extreme standards
+of conduct and discipline in our home. These were seldom relaxed, no
+matter how low our material circumstances, which at their nadir were
+very low indeed. I inherited a great deal from my mother: jet-black
+hair, dark eyes, a swarthy complexion, an insatiable curiosity, a
+touch of the romantic, an appreciation of music, and a flair for
+drawing and working with my hands. I profited even more by her
+example.
+
+My mother’s side of the family is a little complicated. What I
+know of it comes not from books and historical documents, but by
+word of mouth from my relatives. For this reason it is not precise
+but may be close. To describe it best I should begin with my
+maternal great-grandfather, Thomas Aloysius Dwyer, who from all
+accounts was an amazing character. Born in Ireland, he was one of
+the youthful cadets who figured in the great Irish insurrection of
+1848. He married a Lady Crocker who was, so the family story goes,
+a lady-in-waiting to Queen Victoria. Just how this politically
+incongruous match came about is lost in the mists of love and
+history, but no doubt it accounts, at least in part, for the somewhat
+adventurous, peripatetic aftermath. Thomas and Anne Dwyer immigrated
+to Boston. Soon thereafter they moved on to Corpus Christi and San
+Antonio, Texas, where Thomas Aloysius Dwyer, an educated man, became
+a judge and sired six children, including Thomas Aloysius, Junior.
+
+Judge Dwyer, remembered as a distinguished-looking man with a
+carefully manicured beard and pince-nez, was evidently not totally
+dedicated to the law. He developed a good many side business
+interests, including the shipment of various goods and supplies by
+railroad from El Paso to small towns in Mexico. He sent his son,
+Thomas Junior, my maternal grandfather, then sixteen years old,
+to Mexico to oversee these shipments. Tom Junior was a curious
+blend of hard-headed businessman and romantic. He reported to his
+father in beautifully scripted letters (some of which I have seen),
+and sometimes enclosed drawings and sketches stroked with skill
+and talent. In Jimenez, Mexico, the youthful, talented Tom Junior
+branched out. He became, successively, a Wells Fargo agent, the
+proprietor of a general store, a streetcar magnate (the cars were
+pulled by mules), a lumberman, and a distributor for the ubiquitous
+Singer sewing machines.
+
+In Mexico Tom Junior met, admired, and married a seventeen-year-old
+senorita named Paula Holguin, my maternal grandmother. Paula, both
+an artist and a musician, was truly gifted, stubborn, and proud. I
+enjoyed her piano-playing in later years, but communications between
+us were difficult: as a matter of personal pride she refused to speak
+any language except Spanish. In her ladylike way she was also quite
+fearless.
+
+The marriage between Tom Dwyer and Paula Holguin produced fifteen
+offspring, ten of whom survived childhood. One of these was my
+mother, Lucia. For a while the large family lived in happiness on a
+great, prosperous ranch. My grandfather’s businesses expanded. As new
+mines were developed in Parrall and Terron, Mexico, he sent men to
+open general stores and to establish wagon-train routes.
+
+Then in about 1910, the Mexican bandit Madero, who preceded Pancho
+Villa, rose up to strike down the prosperous. Americans especially
+suffered in this period of anarchy, and for a long while it was
+touch-and-go for my grandparents. As a child I listened in awe to
+the tales of how my mother stood off groups of marauding Mexican
+_banditos_ with a bull-whip. When the United States President
+declared he could no longer guarantee the safety of Americans in
+Mexico, Tom and Paula Dwyer sent the ten children by train to El
+Paso. My mother, Lucia, then 19, was one of the first to go. She
+was followed in time by the others, now virtually destitute, having
+lost everything in the retreat. Lucia, who was educated by nuns in
+a convent in Mexico, inherited much of her mother’s talent for music
+and art. She dabbled briefly at writing and then took a job teaching
+elementary Spanish in an American school in El Paso. A year or so
+later, in 1914, she went to the University of California at Berkeley
+to study for the summer. There she met my father.
+
+ * * * * *
+
+The Crossfields came from England; I have never been able to
+determine just when, but it was probably seven or eight generations
+ago. They settled in New England. There is a court record noting the
+marriage of a Crossfield before the Revolution. One branch of the
+family moved to Kentucky. The Scott in the name comes from the same
+family as does General Winfield Scott, who was, I’m told, a distant
+relative. Scott has been a middle name on the Crossfield side of the
+family for generations.
+
+My paternal grandfather, Amasa Scott Crossfield, was a lawyer from
+New England who married Louise Brown, a direct descendant of Governor
+William Bradford. I am certain of the latter point, because some
+of the Governor’s furniture was passed along in the family. It was
+traced to us and later asked for by a museum. We still have a highboy
+which I believe is authentic Governor Bradford.
+
+About 1885 someone conceived a plan to build a canal in Minnesota
+connecting Big Stone and Traverse Lakes to provide a direct water
+route between the Hudson Bay and the headwaters of the Mississippi.
+Somehow my grandfather Crossfield became interested in that project
+and moved from Boston to Browns Valley, Minnesota. (The Brown was
+no kin to my grandmother.) When the canal project fell through, my
+grandfather entered local politics. He was an Indian Reservation
+Agent and later he ran for and won a seat in the state legislature.
+I’m told that he won his first election when he bested his political
+opponent at knuckle-bending before a large crowd of voters. My
+father, Albert Scott Crossfield, one of three children, was born in
+Browns Valley.
+
+From all the family stories I’ve heard, I surmise that my grandfather
+Crossfield was a rugged, pioneering type, a two-fisted drinker
+with a restless soul, seeking new frontiers to conquer. In any
+case, he didn’t stay in Browns Valley long. Soon he turned up in
+the Philippine Islands as Chief of the Customs Department under
+the colonial administration of Governor William Howard Taft. My
+father, his brother, who later died, and a sister were raised in the
+Philippines. My father’s sister, Ruth, married Peter A. Drakeford, a
+brother of Sir Arthur Drakeford, Australia’s Air Minister in World
+War II.
+
+The move to the Philippines brought prosperity and success to my
+grandfather. He built up a coconut and hemp plantation, the Kumassie
+Plantation Company, on the Bay of Davao on Mindanao, which still
+exists, I believe. In time he became a pillar of the Philippines.
+He was appointed a judge of the Supreme Court in the Philippines.
+Contemporary with him was a woman journalist, Bessie Dwyer, an editor
+of the Manila newspaper, a daughter of Judge Dwyer of San Antonio,
+Texas, and my great-aunt on my mother’s side. Judge Crossfield and
+Bessie Dwyer were close friends in the Philippines.
+
+My father was a conscientious young man who took his schooling
+seriously. He was a scientist by nature, especially interested
+in chemistry. He took most of his secondary education in the
+Philippines, then graduated from high school in Berkeley, California,
+where he lived with his mother, who had temporarily returned to the
+States to give the children a U. S. education. Later he studied
+chemistry at the University of California and was a graduate Fellow
+at the Mellon Institute in Pittsburgh.
+
+Bessie Dwyer wrote to her niece, Lucia, then studying at the
+University of California, suggesting that she get in touch with
+the family of her good friend Judge Crossfield, then residing in
+Berkeley. By then my father was a graduate student taking advanced
+work in chemistry. When the two met, love bloomed and they were
+married in 1916. One chemical result of this union was me, Albert
+Scott Crossfield, Junior, one-quarter Mexican, with a sprinkling of
+pure English, Irish, Boston Brown, and the good Lord only knows what
+else.
+
+My father was slow and deliberate, a man who patiently looked at all
+sides of an issue and was forgiving, yet in his quiet, detached way
+quite demanding. As I think about it, he was a very unusual person.
+I have a lasting and profound respect for him.
+
+He was basically a chemist, a scientist, if you please, one
+whose natural bent leaned to theory but whose life led him into
+the practical application of science, or as we call it today,
+development, as opposed to pure research. When World War I broke out,
+he took a commission in the army and worked for the Chemical Warfare
+Department trying to perfect bizarre new weapons. After the war he
+turned to the petroleum industry. He was a pioneer in the then new
+field of extracting oil deposits from shale. This work ultimately led
+to an executive position with the Union Oil Refinery in Wilmington,
+at that time a small waterfront and refinery town in Southern
+California.
+
+Outwardly my father was the coolest man I have ever known. He used to
+tell me: “A gentleman never laughs, but he may chuckle. Nor does he
+cry.” When he punished me, he never displayed anger or emotion. He
+was completely detached about it, as though analyzing some chemical
+compound. I don’t think I ever heard him raise his voice. He was not
+altogether without personal fear, but I never saw any signs of it
+and, believe me, I searched diligently.
+
+He took great pains to disguise his courage. During the first World
+War, he was a leader of a small group of chemists who developed a
+new and effective gas mask, an urgently needed item in those days.
+My father was one of those who entered gas chambers to test the
+mask. The tests apparently were not always successful; the repeated
+exposures to gas in the chamber robbed him of much of his hair--my
+earliest recollection is that he was bald--and left a grim reminder
+on his body--white splotches where the gas had discolored his skin. I
+was quite old before I was able to worm out of him the fact that he
+had taken part in this hazardous experimental work.
+
+My father routinely worked seven days a week and eventually he rose
+to be superintendent of the Union Oil Company in Wilmington. On
+Sundays, when there was no school, he sometimes took me to the plant
+with him. In those days, as in these, the men kept a careful watch
+for fires; a refinery fire is a vicious and terrible catastrophe.
+One Sunday while we were walking through the “cracking plant” a fire
+broke out. My father ordered everyone to keep back. As I looked on,
+he draped a blanket over his head and asked the firemen who had
+answered the alarm to douse him thoroughly with water. Then, quietly
+and calmly he walked into that roaring inferno and closed off some
+valves in order to keep the fire from spreading. His burns were
+severe and he was confined to a hospital for days. Not a word about
+the fire ever was mentioned in our house.
+
+Dad was infinitely polite and proper. He was neither aloof nor
+snobbish, yet I think it is a fact that he was little understood by
+his friends and co-workers, perhaps because of his studied emotional
+detachment. Perhaps it was because of his granite-like principles
+about right and wrong. He was unyielding in this respect. On one
+occasion he clung to his principles so tenaciously that it cost him
+his position at the refinery and changed the whole course of his life
+and ours as well.
+
+The oil refinery in those days, around 1930, imported many Mexican
+laborers for the dirty work. They were paid, I believe, fifty cents a
+day, and they lived in shacks around Wilmington; the area soon became
+pretty much of a Mexican community. My parents had a natural sympathy
+and pity for these people and my father was outspoken at the refinery
+about this “exploitation” of alien labor. With time these feelings
+grew deeper and more pointed.
+
+When the depression struck Southern California, these imported
+workers were the first to lose their jobs at the plant. It was my
+father’s duty to fire them. A number were shipped back to Mexico, but
+a good many remained, out of work and penniless and, because they
+were aliens, not entitled to the usual governmental or community
+relief. Feeling responsible to some degree for the distress of these
+people, my father set aside a good deal of his own money for their
+support. My mother spent the money for food, scouring the markets for
+day-old bread and rejected vegetables which she cooked and passed out
+to the Mexicans. She was running a soup kitchen, really, and at times
+it seemed as though we fed half the population of Wilmington.
+
+As the depression worsened, the firing went on at a more rapid and
+ruthless pace. One day one of my father’s bosses pointed out to him
+that there were still people on the roster with Spanish and Italian
+names. That was true, my father replied, but those people were not
+aliens: they were Americans, born on the soil of the United States,
+and many of them excellent workers. Never mind that, they must be
+fired before the ones with Anglo-Saxon names, was the order from the
+boss. This my father refused to do, and he was thus forced to resign.
+He left the oil industry entirely. I do not believe there are very
+many men who would have given up a top position at the height of the
+depression for the sake of a principle.
+
+Our family was not destitute--far from it. Dad was not frugal, but he
+was not a spendthrift either, and during his years at the refinery
+he had managed to lay aside a healthy nest egg. He used most of this
+money to buy a small creamery. Like many chemists he was fascinated
+by the challenge of producing some unusual substance--a plastic, for
+example--from the waste-products of milk. I think his plan was to
+operate the milk company as a livelihood and spend his evening hours
+experimenting with the casein waste-products in a laboratory.
+
+He never realized this goal. Not long after he bought the creamery,
+a vicious price war erupted in Southern California, and in time it
+wiped us out completely. The trucks were overturned and the men were
+beaten up. When Dad began in the business, he bought the raw milk for
+six cents a quart and after it was processed sold it for about eleven
+cents a quart delivered to the home. At the peak of the milk war the
+raw-milk cost remained fixed by the NRA but the price on delivery
+fell as low as one and a half cents a quart. Caught in the squeeze,
+Dad trimmed the business to the bare bones, but his capital dwindled
+rapidly.
+
+The final days were grim. The whole family rushed to the rescue.
+My mother collected money on the milk routes, then being served by
+several trucks which were driven by my father and a man named Harold
+Babb. I often rode the trucks and ran up to the houses with the milk
+bottles. Later in the day I ran the bottle-washing machine, which
+cleaned about 7,500 bottles a day, all of which had then to be put
+into crates and stacked. I was not in the best of health. Often, in
+the midst of the grueling work, I was so tired that I hid behind
+the crates--where my father, who never seemed to tire, couldn’t see
+me--and bawled. Typically, my father refused to give up on that
+milk business until he ran through his last dime. When the business
+finally collapsed, he must have been hurt deeply, but he showed no
+outward signs of his feelings.
+
+There was one noteworthy facet of Dad’s character, which in
+retrospect seems important, and perhaps contradictory. Although he
+certainly held a tight rein on us children, at the same time he
+allowed us great individual responsibility. We were given complete
+freedom, for example, in our choice of courses in school. “What
+you make of your schooling is your own business,” he said. On the
+question of learning, he was not didactic, but had what was probably
+a shrewdly calculated way of spurring us on. At the dinner table,
+where we had the closest contact with him, he would never say, “Well,
+why don’t you know that?” about some subject. Instead he would say,
+“That’s strange. I thought you _knew_ that.” This, of course, made
+us feel like idiots and soon after dinner we were all flying to the
+encyclopedia.
+
+My father’s unusually severe and unyielding spirit dominated our
+home, where I can remember no emotional scenes. Every family problem
+was discussed with judicial calm, and the solution arrived at was not
+an expeditious one, but a just one as my father saw it. Mother was a
+full and enthusiastic partner in these discussions. She was treated
+by my father, and by us children as well, with regal respect. This
+atmosphere might have seemed to some outsiders as oppressively dull.
+I am certain it had a profound impact on me, a pint-sized kid who
+might otherwise have grown up to fear his own shadow.
+
+
+
+
+CHAPTER 6 ►
+
+ _An Isolated Environment_
+
+
+I believe the fact that I was told I would never be physically able
+to fly was the single greatest spur in my life. I was a healthy baby,
+but all this changed rather abruptly one day.
+
+In Wilmington we lived in a big pink stucco house on the corner of
+Lakme and L streets. There was a huge eucalyptus tree in the parkway,
+so large that its roots had tunneled beneath our house and disturbed
+the foundations. We were fond of that tree, but my father decided
+after painful consideration that it would have to go. Its removal was
+an enormous task, requiring many men, bulldozers, and other pieces of
+earth-moving machinery. The job took a whole day. I was five years
+old. There were no boys my age living on the block, so I usually
+played alone, or with my older sister, Elena Ruth, then eight. My
+younger sister, Mary Ann, was a toddler, going on three. The day the
+men removed the tree was a big one for all three of us. The weather
+was cold and damp, but we stayed outside from dawn to dusk watching
+as the bulldozer gouged the earth from the yard.
+
+This prolonged exposure left Elena and me with bad cases of
+pneumonia. She recovered quickly, but I was seriously ill. My lungs
+were severely damaged and my heart was affected. For a while my
+parents thought I was going to die. They sent for our priest, Father
+Skiperelli. I can still remember the moment he entered my room.
+The walls were covered with pictures of airplanes. Father “Skip”
+joshed: “But what about the Lord?” My mother led him to a picture of
+the Sacred Heart, almost obscured by the montage of airplanes. He
+administered the last rites.
+
+It was touch-and-go for days on end. My mother smothered me in
+mustard plasters. I was in a coma for some time. Our family
+physician, Dr. E. J. Rowan, knew a man at the University of
+California who was trying to develop a new serum for pneumonia.
+He injected some of this serum into my blood. Finally I began to
+recover, but the illness had left its mark. For years I was sickly
+and small--and would always be the smallest boy in my class.
+
+A year or so later, perhaps as an aftermath of the pneumonia, I came
+down with rheumatic fever. I was not strong and the fever struck
+me harder than it does most people. I was in bed, flat on my back,
+for at least four months, possibly longer. Then for the four years
+following--until I was about ten years old--every so often for weeks
+at a time I was made to lie down and rest until dinnertime. My mother
+and father thought I might be crippled for life. They didn’t tell me
+this. My father’s strategy was to feign complete indifference lest
+I feel sorry for myself. Not once did anyone ever say to me that I
+might be a cripple. On the contrary, my parents used to joke about my
+having developed “rheumatism” at so young an age. But I sensed that
+from a physical standpoint I was lacking.
+
+I grew to adolescence in an unusual, isolated environment, finding
+things to pass the long hours at rest that few other boys do.
+Although it now pains me to recall it, my mother taught me how to sew
+and knit, and I became quite adept at embroidering. I also became
+skilled at drawing. I had once withdrawn from school for a while, but
+my fifth-grade teacher, Mrs. Paymiller, came to my house to award me
+the class prize for art. My main interest, however, was aviation, and
+most of these long, lonely hours were devoted to it.
+
+This interest was stimulated originally, I am certain, by a close
+friend and neighbor of my father’s named Charles (“Carl”) Lienesch,
+a pilot for the Union Oil Company. The company maintained one
+airplane, a wire and fabric Eagle Rock (or “Eagle Brick,” as Lienesch
+used to call it). This was probably one of the very first “executive”
+airplanes. Lienesch, who was also a chemist, visited at our home
+frequently. He was a colorful character, quite a story-teller. I
+believe his rambling air stories bored my father and mother. But in
+me he had an eager one-boy audience. Lienesch brought fascinating
+word pictures into my restricted life, and I always looked forward to
+his visits.
+
+He gave me my first airplane ride. It took place in 1927, when I was
+about six years old. Oddly, I can remember but a few details of the
+flight, although it was undoubtedly the high point of my childhood.
+Lienesch remembers that after flying 45 minutes or so in the front
+cockpit of the biplane, I fell sound asleep. This, too, strikes me as
+odd--if not inconceivable, though my own youngsters today do this. It
+may be the lulling effect of the engine.
+
+In those times, everyone involved in aviation was a walking public
+relations man for the trade. I don’t know why Lienesch singled me out
+for a special pitch. It couldn’t have been simply the fact that I was
+an eager listener. In any case, my earliest recollection is that this
+generous friend was determined that some day I should be an aviator.
+Although he knew I was not too strong physically, he urged me on and
+continued to do so for many years. I really didn’t need much urging.
+Lienesch had captured me from the outset. When I was old enough to
+realize that my health was shaky, and told by some doctor that I
+could probably never pass a flight physical, I was more determined
+than ever to be a pilot.
+
+I leaned heavily on my imagination in those days. When I was about
+nine, during the time I had to rest each day after school, my mother
+set aside a special wicker chair for me in our small lattice-work
+“summer house” in the back yard. The chair had deep, downy pillows
+and broad arm-rests to hold my books and drawing board. To this chair
+I rigged some special devices of my own: an airplane control stick
+and rudder pedals. With the books lying open on the arm of the chair,
+I “flew” hour after hour, carefully following the instructions. In
+that chair I learned the correct stick and rudder motions for every
+conceivable airplane maneuver. My imagination took me across oceans,
+into deep valleys, and above the mountains. I dreamed of flying from
+California to New York non-stop and setting a new record!
+
+Meanwhile, I had become a model airplane addict. I built models
+of many airplanes then in the air. The models were not hastily or
+sloppily made. They were near-professional, I hoped. As I grew older,
+I sought absolute perfection. This work led, in turn, to considerable
+research into the theory of flight and aircraft construction. I read
+everything available on the subject and wrote away, for example, to
+NACA, for reports on various wing airfoils and aircraft structures. I
+kept meticulous files. Soon I was designing my own model airplanes.
+Later I helped some boys build Southern California’s first model
+airplane powered by a (handbuilt) gasoline engine.
+
+Flying was then a sports rage in Southern California. I think there
+were at least a hundred small airports in and around Los Angeles.
+When I could manage it, I used to hang around these places. I was
+impressed by any pilot. But I was especially fascinated when I heard
+about pilots who flew air races, which in those days were frequent
+and dangerous events. A boyhood hero of mine--heroine, rather--was
+Pancho Barnes, the aviatrix who later built the ranch near Edwards.
+In those days she was idolized locally, something like the way Amelia
+Earhart was nationally. Pancho had a new airplane known as the
+Travelair _Mystery Ship_. She swaggered around in boots and flying
+jacket and won nearly every race she entered.
+
+For several years Los Angeles, or more specifically Burbank Airport,
+was the starting point for the 1500-mile Transcontinental Bendix
+race to Cleveland. Carl Lienesch took me out to Burbank to watch the
+start. I can still remember the frenzied last-minute preparations
+by the ground crews, and the high-pitched whine as the ridiculously
+tiny, stubby-winged, man-killing planes took off into the darkness
+with no radio and no instruments. I saw and worshiped all the great
+pilots: Roscoe Turner in his Weddell-Williams Special, Jimmy Weddell
+in another Weddell-Williams, and Benny Howard in _Ike_, _Mike_, and
+_Pete_, and _Mr. Mulligan_, the plane that nearly killed him. I built
+models of all these planes, and followed air racing around the
+country, from long distances, as some people follow baseball games
+and players. I was aware of the most obscure racing pilots, and every
+new racing design that emerged from their garages and workshops.
+
+From one side of the family or the other, I must have inherited a
+broad stubborn streak. I did no special exercises or took no special
+medicines; but somehow, by sheer will power and the help of God, I
+began to regain my strength. I firmly believe that if the spirit is
+willing, the flesh will keep pace. I think my father’s example--his
+refusal to display physical or emotional weakness--influenced me
+tremendously in this regard. You can’t be around a man like that very
+long and feel sorry for yourself. I think, too, the fact that Carl
+Lienesch treated me like a normal, healthy boy who would obviously
+some day be a pilot, had a strong psychological impact on me. By the
+time I was twelve years old I was well on the road to recovery, and
+as a result of my long years of confinement a dedicated airplane
+fanatic.
+
+About that time I took over a newspaper route for the Long Beach
+_Press-Telegram_ from a boy named Norman Laird. By coincidence, or
+maybe it wasn’t coincidence, one delivery point on the route was the
+Wilmington Airport, a small grass field in a slough, operated by a
+great colorful aviator named Vaughn McNulty. McNulty had an Inland
+Sportster, a high-wing monoplane, which he used to teach people to
+fly and to take up passengers. There were a few other planes on the
+field--an old C-3 Cub, an Eagle Rock, and a Travelair.
+
+Those were tough days for small airport operators. The depression had
+hit Southern California and few people had dollars to shell out for
+airplane rides; fewer still had money for flight instruction. McNulty
+was ripe for the deal I proposed to him.
+
+The newspaper delivered at the airport cost him sixty-five cents a
+month. I offered to supply the paper free (I always had a couple of
+extras) in return for one half hour of flight instruction a month.
+McNulty agreed, I think, not because it was an equitable business,
+but because he was moved to help a starry-eyed kid get a start in
+aviation. I was tremendously grateful and performed odd jobs around
+the airport for McNulty: sweeping out the hangars, cleaning mud
+from the airplanes, and so on. My association with McNulty and the
+Wilmington airport was a very personal secret. My parents did not
+know I was taking flying lessons.
+
+By my thirteenth birthday I had logged several hours in McNulty’s
+Inland Sportster. I wasn’t yet ready to solo, but McNulty had taught
+me some of the basic rudiments of flying, how to handle an airplane
+in flight. For me each practice minute in the air was a fantastic,
+wonderful experience, and a tonic as well. Each minute removed me
+that much further from the possibility of backsliding into illness,
+and took me closer to my dream. I continued these flights, off and
+on, until my father became involved in the milk-price war and I was
+recruited to help wash those 7,500 bottles every day.
+
+In sum, the seed of my life’s ambition had sprung from a twinge of
+adversity and it grew boldly and intensely in the face of denial. By
+the time I was thirteen it was clear to me that nothing could stand
+in the way. Moreover, what had begun as ambition had, perhaps because
+of the stern compression of circumstances, subtly been transformed
+into an urgent drive toward perfection. I would be not only a pilot
+but the best damned pilot in the world.
+
+My father’s ill-timed move into the milk-processing business
+had certainly proved to be one of the “stern compressions of
+circumstances.” He was left at the depth of the depression jobless,
+virtually penniless and wounded in spirit, I think, although
+typically he showed no outward flicker of unhappiness or distress.
+I know the experience moved him profoundly. He broke all ties with
+the past. He gave up his chosen field of chemistry, at which he had
+excelled for eighteen years or more, and moved all of us to a new
+and totally different environment. It is idle, perhaps, to probe
+too deeply for motivation in matters of this kind for, as we know,
+nothing is so clear-cut as it may appear. My own belief is that in
+starting life anew he responded to what I believe is a basic and
+fundamental urge in all of us to return to the soil whence we come
+and where we shall return in death. He sold our house in Wilmington
+and bought a heavily-mortgaged, run-down 120-acre farm in the rich
+but remote Boistfort Valley near Chehalis, Washington, about midway
+between Seattle and Portland, Oregon. He got it for $50 an acre.
+
+I was both pleased and stunned when I first saw the farm. The setting
+was beautiful. Boistfort Valley was lush green and stayed that way
+the year round. It was a land of rich, virgin timber--towering
+Douglas fir trees--lovely grape arbors, and rushing, salmon-filled
+streams. A river ran right next to our property. About sixty acres
+of our farm lay along this river. There were twenty more acres under
+cultivation and these lay higher, on a hill overlooking the river. It
+was a clean, silent country, full of wild fruits and berries.
+
+Apart from the setting there was not much about the farm I could
+admire. The main house was a rambling, drafty, thirteen-room monster,
+with detached toilet facilities: a two-seater privy, which in the
+deep of winter was less than comfortable. Out back there was also a
+tottering barn, built in 1884, and a wobbly chicken shack, the whole
+enclosed by a broken-down, zig-zag wooden fence. Then in the winter
+there was mud, more mud than I ever dreamed existed on the face of
+the earth. The barnyard, the grounds, the paths, the driveway--all
+were a bottomless sea of mud.
+
+My father’s approach to this new challenge was somewhat startling.
+From the outset he was determined to transform that bruised and
+battered piece of ground into a show place. He was an intelligent man
+and his method was intelligent. He studied farming. He sought advice
+from other farmers. He consulted often with the county government
+farm agent. He stretched every dime to the breaking point. Typical,
+I think, was his scientific handling of the chickens. He despised
+chickens. Yet he became the champion chicken farmer in the valley. He
+did it by keeping greatly detailed, endless records. He logged every
+egg that was laid. He carefully analyzed the results of different
+feed combinations on the chickens, noting if a new type increased
+or retarded the laying rate, how frequently the chicken house had
+to be cleaned, and so on. Everyone laughed, until in due time his
+painstaking research began to pay off handsomely.
+
+He followed the same system with the cattle. His objective was to
+build up a dairy herd, the best in the valley. He couldn’t afford
+to buy good cattle: pure-breds cost four or five hundred dollars.
+Instead he bought grade cattle for $50 apiece or less. Then when
+he found a good cow, he bred her. Again he kept unending records.
+By trial and error, and trading cows left and right, he built up a
+herd of twenty-five, which produced a much greater return than the
+pure-bred herds.
+
+As I think back on it, my father had soon organized everything on
+that farm to perfection.
+
+The work was limitless. Every morning and night for seven days a week
+we milked those twenty-five cows. In the spring we did the plowing,
+a brutal, grueling, seemingly hopeless task. We couldn’t afford
+tractors or even good draught horses. We used cayuses, worn out from
+years of labor in the nearby logging camps. It was usually my fate to
+draw the walking plow. Near the river on the bottom land, the soil
+was a thick, black loam. We plowed two acres a day, moving at a fast
+clip, and worked several cayuses to death. In the fall we harvested
+the hay, wheat, and oats--a hundred tons, cured to a “T”--and stored
+them in the barn, after the appropriate and detailed data on the crop
+had been drawn up and filed away for study.
+
+After a year or so the farm was still a long way from a show place.
+But I do remember one evening when my father closed his account books
+with a smile. He said: “We’re now one dollar in the black, the net
+result of twenty years of work.”
+
+In the curious way that life unfolds, as the farm grew so grew Scott
+Crossfield. This parallel has never occurred to me until now. I
+arrived there weak and puny and not fully recovered from my childhood
+illness. But as the months passed--months of hard labor and good
+healthy food--I no longer pooped out easily or noticed any shortness
+of breath. I gradually became as strong as an ox. Consciously or
+unconsciously my father was transforming his own son, as well as a
+patch of earth. Perhaps somewhere in the unfathomable depths of his
+mind, my father knew what he was about. I will never know. I never
+came near reaching perfection, but from the moment I landed on that
+farm, with one exception, I never again became ill.
+
+As my own strength grew, so did my determination to achieve my life’s
+ambition. In one sense, the farm was also a denial, a greater one
+than my illness in Wilmington. I had been transplanted from the
+center of aviation to a remote outpost. Here in this isolation I
+developed a great thirst and craving for any news of my interest.
+This craving, I think, inspired resourcefulness and a sense of
+independence, which in turn fostered a boldness that might not
+otherwise have sprouted. I was not trapped in the routine of my
+interest, nor influenced by mediocrity, nor bound by the usual
+conventions. My mind was free to try anything that occurred to it.
+
+My room was on the second floor of our big house. After the day’s
+work, the last chores, I retired there not to dream but to work on
+model airplanes, or to read magazines and books on aviation, or to
+go through my files, which, after seven years, had grown to great
+proportions. I hung a blanket over the window so that my parents
+could not see the light reflecting on the ground below. There, alone
+with my thoughts, I worked until two or three in the morning.
+
+Out of this room emerged what I thought was a new and brilliant
+idea for making a radio-controlled model airplane. Such models are
+common now, but in those days the concept was fairly _avant garde_.
+Proudly I revealed my new idea to the son of a friend on the adjacent
+farm, a young man who was a Doctor of Physics at the University of
+Washington. He said it would never work. He followed this comment
+with a general lecture on sizing up and working within one’s
+capabilities. This lecture served only to convince me that nothing
+would stand in the way of building that model.
+
+Everything about the model was new and different. My greatest
+problem was to devise a lightweight structure to carry the enormous
+radio “payload.” For the fuselage I selected a new and radical
+method of construction known as “geodetic,” which had been devised
+and published by a British aeronautical engineer. (Later I learned
+that the British used this construction to build the World War II
+Lancaster bomber.) The finished fuselage weighed about half as much
+as with the usual methods.
+
+The development of the special radio gear, and the devices which
+would translate a radio signal into a movement of the model’s
+control surfaces, took months. Knowing little of radio circuits or
+the theory of radio, I had to start from scratch and teach myself
+everything--with the help of some ham operator friends. The result,
+if I may brag, was ingenious. It was as good as, or better than, the
+units I have recently seen in current radio-controlled models, with
+transistors and “printed circuits.”
+
+The final product of my labors, a graceful, gullwinged model, weighed
+a total of seven pounds and was capable of lifting a seven-pound
+payload of radio gear. In any man’s league this is very efficient
+aerodynamics. The model flew like a dream and the radio worked
+perfectly. Then one day during a flight the plane dipped behind a
+tree which interfered with the radio signal. The ship crashed and was
+destroyed.
+
+
+
+
+CHAPTER 7 ►
+
+ “_Take Her Up and Try a Spin_”
+
+
+I went to Boistfort High School, a consolidated country school about
+nine miles from our farm. There were fifty-six pupils in the whole
+school, quite a contrast to the big 3000-student schools in Southern
+California. The superintendent of Boistfort School, Carl Aase, was a
+most unusual man and to me, at least, a very generous one. For some
+strange reason my teachers have always made a lasting impression on
+me. I can recall everything about them, including their names: in
+kindergarten, Mrs. Wallin; first grade, Mrs. Clark; second grade,
+Mrs. Meade; third grade, Mrs. Thomas; fourth grade, Mrs. Humphries;
+fifth grade, Mrs. Paymiller; sixth grade, Mrs. Blossom. And so on.
+
+Carl Aase, an intelligent and resourceful man, became a good
+friend of my father’s. He visited our farm frequently, but he
+didn’t let this friendship stand in the way of doing his job, or
+of administering discipline to incorrigible boys. In this respect,
+he was quite like my father. Mr. Aase never displayed anger or
+emotion. Like the other farm boys, when I reached the age of fifteen
+I was a tough, scrappy youngster. We boys used to fight often, and
+occasionally Carl Aase would suspend me from school. He was very calm
+and matter-of-fact about it. “Scott,” he would say, “don’t wait for
+the school bus today. Just walk on home right now.”
+
+At first I was not an exceptional student. My grades averaged about
+“B.” They improved later when I was seriously preparing for college.
+But at sixteen my interests were many and my time too limited for
+concentrated study on anything but aviation, for which I was not
+given credit in school. I joined in 4-H Club work and raised several
+prize dairy animals. I was also intrigued by photography. I converted
+one of the unused rooms on the second floor of our home to a dark
+room. I took all the photographs and made the woodcuts for the school
+yearbook. I had no time for sports such as football, tennis, or
+swimming, and I haven’t found time for them yet.
+
+The farm and the school absorbed most of my hours. I got up early
+to do my chores, spent most of my day at Boistfort, in the evening
+returned to my chores, and then to my private room on the second
+floor. But there was one other spot to which I was drawn like a metal
+filing to a magnet: the Chehalis municipal airport. I didn’t get
+there as frequently as I wanted to. When I went, it was in secret. I
+didn’t want to trouble my parents with my ambitions to be a pilot.
+Although he never mentioned it directly, I believe my father hoped I
+would study law or medicine. A professional education, he thought,
+was a necessary part of a gentleman’s preparation for life.
+
+The Chehalis municipal airport was a cow pasture adorned with two
+skeletal airplane hangars, a tiny CAA weather shack, and a tattered
+wind-sock. It was home for about a dozen old wire-and-fabric
+airplanes, several of them derelicts and veterans of the first World
+War, which had then been over for eighteen years. The field was
+operated by a man named Donahoe, who somehow managed to stay one step
+ahead of the sheriff. The people who hung about that airport were,
+I think, typical of the depression era, young and old who almost
+on faith alone stuck with aviation, consciously and unconsciously
+knowing its future. Some, like me, were called “airport bums.”
+Chehalis Airport was a Garden of Eden to me. The pilots to a man were
+my special heroes.
+
+Whenever I had the money, which was seldom, although the amount
+required was ridiculously small, I took flight instruction from
+anybody and everybody. I was lucky to squeeze in one hour a month;
+many months went by during which I received no instruction at all.
+It was slow going and I’m not certain that the instruction was top
+quality. But I was learning, inching toward my first solo flight.
+It finally came quite unexpectedly, and it turned out to be rather
+exciting.
+
+“Why don’t you try it by yourself?” one of the pilots said to me
+one day at the airport. At this time I probably had accumulated
+about seven or eight hours of flight instruction. A solo flight was
+technically illegal: I had no student permit. But at Chehalis there
+was a sort of devil-may-care attitude about rules and regulations. A
+small knot of airport hangers-on gathered around us. “Yeah, Scotty,
+take her up and try a spin.” The crowd broke up with laughter.
+
+I crawled into the cockpit of the Curtiss Robin. It was a high-wing
+monoplane powered by a cranky OX-5, the engine that was used in
+World War I. Someone spun the prop and soon I was bumping over
+the cow pasture toward the end of the strip. Without fear or
+hesitation--indeed, very happily--I gunned the engine and horsed the
+Robin gracefully into the air. The deep green Chehalis Valley spread
+out below me. The engine, laboring heavily, took me to 4,000 feet,
+which was about the ceiling of that airplane.
+
+I flew about over the valley for ten or fifteen minutes, turning,
+twisting, and tracing lazy eights in the sky. This, I thought, was
+it, the absolute ultimate! Here man had a new view of his life and
+the world. He was detached, removed from the detail of it--the mud,
+the privy, the school fights, the chicken house, the slights and
+denials. Here, high in the sky, man’s vision was unobscured. He
+could see far and wide, the whole picture of God’s world, a model of
+grace and perfection. At the same time there was challenge: a man, a
+brain, some muscle, and a machine pitted against the air, a basic and
+important element of that earthly perfection.
+
+I was an ace now, zipping low over the battlefield returning to my
+aerodrome in France. Then I was Lindbergh, passing over wild Nova
+Scotia, eight hours out of New York, ready to bank over the cold gray
+Atlantic. Then I was Benny Howard, poised on the end of the runway
+at Burbank Airport in tiny _Mr. Mulligan_, ready for an incredible
+1500-mile non-stop flight to Cleveland. Then I was Scott Crossfield,
+setting off in a new plane of his own design to break the Los
+Angeles-to-New York record.
+
+The long years of denial made these moments far more endearing and
+meaningful than I can possibly describe. I wondered: did more denial
+lie ahead? Maybe I had better squeeze every drop out of this flight.
+Maybe I had better see how far I could go: find out where nerve left
+off and fear began. Find out, in one fell swoop, if I had it.
+
+“Try a spin,” the crowd had said. Well, while I’m about it, why
+not? The crazy thought absorbed my attention. I climbed higher. I
+deliberately pulled the nose up steep and stalled out. The Robin’s
+right wing dipped. Earth and sky alternated in the windshield. I was
+spinning.
+
+Suddenly I was aware of a strange and startling noise, a kind of
+banging, foreign to the ordinary noise of the plane. What was it?
+Quickly I pushed the stick forward and the rudder pedal hard left and
+brought the Robin to normal, level flight. The noise disappeared. Was
+I imagining something? What happened?
+
+I climbed back to altitude and dropped the Robin into a second spin.
+Once again the fearful racket began. Again I brought the Robin to
+normal flight. No, I definitely was not imagining the noise. It was
+not my nerves. It happened when I put the ship into a spin. Curiosity
+overwhelmed me. What was it?
+
+For the third time I climbed and spun the Robin. This time when the
+clattering began, I strained and looked behind me, searching for the
+answer. Then I found it: the rear door of the plane was loose. In
+ordinary flight the slipstream kept it firmly in place. But in the
+spin gyrations it was banging open and shut. I laughed aloud at my
+concern.
+
+Time was running out. I had to land. I banked in a large circle and
+lined up on the cow pasture. The Robin ghosted down. Her wheels
+struck the soft grass and she clung. I taxied toward the knot of
+people near one of the hangars, shut off the engine and climbed out,
+showing not a trace of excitement or elation. I was as dead-pan as an
+undertaker.
+
+“How’d it go?” someone asked.
+
+“Good,” I said. I knew they had watched the three spins. There was no
+need to brag about it.
+
+“No trouble?” Then with a start I realized I was the subject of a
+practical joke. The crowd _knew_ what happened to the Robin’s door
+in a spin. I was being hazed, like a college freshman. But I was
+determined to give them no satisfaction.
+
+“None at all,” I replied. I read disappointment on all their faces.
+
+I returned to the farm and my chores. At the dinner table that night
+I felt very proud. But I dared not say why.
+
+ * * * * *
+
+Carl Lienesch visited us from time to time on the farm. He no longer
+worked for the Union Oil Company. He had moved to Seattle, where
+he took a job as a Civil Aeronautics Board inspector. One day he
+proposed that I go up to Seattle with him to watch the first flight
+tests of Boeing’s new Clipper.
+
+Compared to anything I had seen, the flying boat looked huge,
+squatting on Lake Washington, on the eastern edge of Seattle. It had
+four powerful engines mounted high on the metal wing, and a towering
+single tail. The test pilot was Eddie Allen.
+
+Eddie Allen would have been quite surprised, I’m certain, to know
+how much the young man standing on the Lake Washington dock knew
+about him. By then my files on test pilots matched or surpassed my
+files on racing pilots and other famous characters in aviation. Jimmy
+Doolittle was far and away the most famous U. S. test pilot. On the
+East coast the top dog was James Taylor, who flew mostly for Grumman.
+On the West coast the top dog was Eddie Allen, who was also Boeing’s
+Chief Engineer. As I have said, he began his career with the old
+NACA shortly after World War I. At Boeing his word was considered
+law. He participated in the design of the airplane he would fly. If
+he didn’t think a piece of equipment ought to be on an airplane, it
+wasn’t put on the airplane. There was no great gap between Allen and
+the airplane designers. He _was_ an airplane designer.
+
+I watched as Allen taxied the mammoth plane through the water. The
+engines roared to life and the plane plowed through the water gaining
+speed. Allen lifted it a few feet into the air and splashed it back
+down again. A short while later he returned to the dock. The Clipper
+lacked fin area. Allen directed that two additional fins be added to
+the airplane.
+
+As we were driving back to Chehalis, Lienesch, visibly impressed by
+the flight, was garrulous. His expensive Auburn was making nearly a
+hundred miles an hour.
+
+“Now, Scotty,” he said, “if you’re going to get into the aviation
+business, Allen’s job is the one you want to shoot for. That’s the
+top of the ladder. You don’t want to be a barnstormer, or a racing
+pilot, or a military pilot. Get a degree. Be an engineer. Help
+build the airplanes. Then fly them and find out what you did wrong.
+Then fix it. That’s a real profession. It has dignity as well as
+excitement and challenge. You can combine all your energies and focus
+them toward one single objective: to improve the airplane. Who knows,
+maybe you might contribute something in this never-ending, restless
+urge of man to do better.”
+
+I was profoundly impressed.
+
+ * * * * *
+
+My father’s limitless energy and meticulous research--his drive for
+perfection--had a telling effect on the farm as the months rolled by.
+It was still far from a show place, but it was no longer bruised and
+battered. The herds were growing and producing. The chickens were
+profitable and were pointed to as examples by the County Agents. The
+barn had a new addition. We had stemmed the sea of mud somewhat with
+gravel walkways. The main house was equipped with an indoor toilet.
+The farm produced enough money to support us and to send my older
+sister, Elena Ruth, to the University of California in Berkeley.
+
+Although it appealed to me not at all, I was caught up in the rural
+way of life and naturally influenced by the people. As the son of an
+increasingly successful farmer, and naturally competitive, I took
+some pride in contending with the sons of other farmers. I became
+a leader in our 4-H Club. My pure-bred Guernsey bull, which I had
+nursed to a beautiful showpiece, won many prizes at county livestock
+fairs and brought me an invitation (which I accepted) to represent
+the State of Washington in the International Livestock Show in
+Chicago. I was also assured of a scholarship to Washington State
+College provided I majored in agriculture.
+
+None of this gave me any real satisfaction. My basic interest lay
+elsewhere and was deeply rooted. I liked to pal around with the
+farmers’ sons, but they were not my closest friends. Indeed, my
+really close friends seem a strange lot to me now. I probably fitted
+in perfectly.
+
+One of my friends was a ham radio operator, Art Beal, who was
+about forty years old. I first met him when he came to the farm to
+investigate my weird radio-transmitter signals which were disturbing
+the airways. He taught me a great deal about radio and helped me
+build the radio-control model. Through him I met Elden Reed, about
+twenty-five years old, and Bill Young, about twenty-eight, and blind
+from birth. All three were avid hams; they never seemed to sleep. All
+of us, together with a tomboy about four years older than I, Louise
+Wilrich, became fast friends. Art, Elden, and Louise all learned to
+fly at Chehalis.
+
+Bill Young was an extraordinary person. He lived on a small pension,
+alone except for his seeing-eye dog, and picked up extra money tuning
+pianos. In Nature’s strange way, having denied Bill sight, she
+developed his ears to perfection. Bill was often the only operator
+who could pick up signals from North Africa. During the war the Air
+Force used his cheap home-made gear and sensitive ears to communicate
+with North Africa when military radio could not get through. I
+remember the time when a thief broke into Bill’s house, robbed him,
+and killed his seeing-eye dog. I think that if the rest of us had
+caught the thief we would have killed _him_.
+
+When we went to the Chehalis airport to fly, or just to shoot the
+breeze with Donahoe and the other pilots, Bill always came along.
+However, the airplane was something of a mystery to him. He walked
+about, feeling the wings, the fuselage, and the propellers. But
+it was too big and complex and he couldn’t “see,” as he said, the
+whole concept of the plane. I think this distressed him considerably
+because in that crowd we talked of little else besides radio and
+airplanes. Bill’s inability in this regard touched me, because to
+me Bill was a kindred spirit, a piece of nature’s bruised fruit. I
+helped him to understand the airplane by bringing along my models.
+With these miniature versions he could “see” the airplane as a whole.
+
+It was about this time that I began building my own life-size
+airplane. The idea came to me one day when I read in one of the
+many aviation publications I subscribed to that a French company,
+LeBlonde, had produced a very lightweight, efficient gasoline engine
+of 15 horsepower. One of these engines successfully powered a small
+plane. There on the farm, over six thousand miles from France and the
+nearest LeBlonde engine, the seed took root and sprouted. An engine
+that small ought to be pretty inexpensive, I thought. If I built the
+airplane, I would find a way to buy the engine.
+
+As my father lacked enthusiasm for my flying, so he viewed with less
+enthusiasm my plan to build an airplane. I suppose any rational
+father would try to talk his son out of a scheme like that. But
+in spite of my father’s advice to the contrary, I was determined
+to carry the idea through. I worked late at night, drawing up the
+plans and designing my vehicle, the sum product of a 17½-year-old’s
+aeronautical know-how and skill with a pencil.
+
+I had long talks with my school principal, Carl Aase, about the
+material for the airplane. One problem was that the spruce I intended
+to use in the wing, tail, and fuselage was very expensive. Aase
+suggested that I substitute Port Orford cedar, which in the old days
+the Indians used to build canoes. It was strong and flexible, a good
+inexpensive local substitute. I saved my money and sent away for the
+cedar. Since I had little money, I spaced the orders far apart.
+
+I enjoyed building anything. This full-scale airplane that could
+take me into the boundless sky turned into an intense work of
+love. I doubt that ever in history an airplane was built with such
+painstaking care for detail. Each piece of cedar--one-inch square
+strips--was handled like a piece of gold. After steaming it into
+shape, I sanded it carefully and then laid it in place. Then I tacked
+it down with glue-coated nails (which I ordered as required, with no
+allowance for surplus) and mortised each individual joint. As with my
+models, I strove for perfection. It was slow going. It took months
+and months to complete the fuselage. Then I saved for more cedar,
+built some jigs and laid out the wing spars.
+
+Though I worked on the airplane only after my chores were finished,
+I always felt guilty about the time it took. In a way it was like
+waving a red flag in my fathers face. He was becoming very attached
+to his piece of the earth and its mounting production. I believe he
+hoped I would share his enthusiasm and in time take over. Perhaps
+because it was a symbol of my conflicting ambition, annoying to my
+father, I never finished the airplane. It became a kind of unfinished
+Hangar Queen--in this case Barn Queen. I would meet other Hangar
+Queens later.
+
+Carl Lienesch convinced me that my approach to my chosen profession
+should begin with a solid college foundation in engineering. Upon
+graduation from high school in June, 1939, my plan was to go straight
+to basic freshman engineering at the University of Washington. But
+this well-laid plan went astray. I was delayed a whole year by a
+variety of factors.
+
+In January of 1939, several months before I was to graduate, my
+younger sister Mary Anne, fourteen years old, was stricken by polio,
+and after a brief but severe illness she died in an iron lung. She
+was a pretty girl, already determinedly planning a career on the
+stage. Her sudden death was a stunning blow to my parents and me. It
+brought us closer together than ever before. To leave for college
+then, to leave my mother and father alone on the farm, seemed to
+me like deserting them. (My older sister was still enrolled at the
+University of California.)
+
+The farm was simply too big for my father to operate alone. For
+several years he employed a boy named Harold Jones, who lived nearby,
+to help with the heavy work. Over the years Harold became another son
+in the Crossfield home. But in 1939 Harold went away to college to
+study agriculture, and my father could not afford to hire a full-time
+employee to replace him. A year later it would be a different story.
+But now my father obviously needed my help.
+
+After turning these facts over in my mind, I decided to stay home on
+the farm for one year. At the time it seemed a dreadful decision,
+an agonizing delay, a frustrating denial. Yet I probably gained by
+it. In 1940, through the combined efforts of my father and myself,
+the farm was a going concern. We were able to afford automatic
+milking equipment and--believe it or not--a tractor. I traded my old
+Oakland jalopy (bought in high school for $26) for a 1935 Chevrolet
+and tuned the engine to near-perfection. I filled in some lacking
+school credits by taking correspondence courses in math, physics, and
+chemistry from the University of Nebraska. I logged an increasing
+number of flying hours at Chehalis airport with my constant
+companions, Art Beal, Elden Reed, Louise Wilrich, and Bill Young.
+
+
+
+
+CHAPTER 8 ►
+
+ _Change and Challenge_
+
+
+In retrospect, the brief twenty months of my life from September,
+1940, when I left the farm, to May, 1942, seem a disjointed period,
+a tumultuous time of change and challenge. Perhaps because of this
+it was in some ways the most fruitful. I was about eighteen when
+it began; by the time I was twenty I had entered the University,
+graduated from a civilian aviation school, officially soloed, and
+obtained my private pilot’s license, withdrawn from the University,
+worked for Boeing Aircraft Company, quit to join the Air Force
+briefly, worked for Boeing again, quit again to join the Navy. My
+course was solidly set straight toward the aviation world. During
+that important transition in my life, however, new and sharp
+influences disturbed my compass, causing it to “hunt.” One towering
+influence was the outbreak of World War II, which in one way or
+another disturbed the lives of all my contemporaries as well as my
+elders.
+
+When I left the farm in September of 1940, I marched upon the
+University of Washington with determined strides, as though I had
+only a few weeks in which to absorb all it could provide. Thumbing
+through the catalogue, I signed up for twenty hours of college
+courses per quarter; this was about twenty-five per cent above the
+average load. When my counselor discovered that I had to work to
+pay my way, he advised me to cut my schedule. He might just as well
+have been talking to a sphinx. I explained that I was accustomed to
+working long hours and sleeping only a little. He protested again and
+again, but eventually I won the argument. He gave up to let me find
+out the hard way.
+
+I was not used to many luxuries, but I must say I had a tough time
+of it during the first year in Seattle. I lived in depressing
+boarding houses which served up a monotonous diet at mealtimes, and
+I worked at odd jobs that I found through the University employment
+bureau. The first of these was an agonizing experience for a lad
+fresh from the farm. I was a glorified butler in a snooty sorority
+house. I tended the furnace, put on a white jacket to serve tables at
+dinnertime, and washed the dishes--all for twenty-five cents an hour.
+Later I found a job mowing lawns; then I worked in a gas station;
+then I became a chauffeur. Finally I turned my skill with a pencil to
+profit as a part-time draftsman, tracing radio circuits.
+
+The University was a fantastic well of knowledge and intelligent
+people, and my appetite to devour this knowledge was insatiable.
+I had neither time nor inclination to make many new friends or to
+join in the heavy college social life. (For a short time I shared an
+apartment with two Dekes, one a member of the University crew, but
+this didn’t work out at all.) I was a lone wolf on a special mission,
+moving steadily from class to class and part-time job to part-time
+job. It took hard study to overcome some of the gaps from Boistfort
+Consolidated School, which was seldom called on to provide college
+preparatory courses. At the end of three quarters my grades were
+averaging B. But in one year I advanced one and a quarter years in
+college.
+
+I went back to the farm for the summer of 1941. It was reaching
+perfection and the yield was enough so that my father could afford
+full-time workers. I helped harvest the hay and grain and did other
+chores, and still found time to smooth out and advance my flying.
+
+As part of the general defense preparedness the government was in
+the process of converting the old CAA pilot-training program to
+something new called Civilian Pilot Training (CPT), designed to
+encourage a great number of young people into aviation. The new
+program, affiliated with colleges and universities, amounted to a
+government subsidy for aviation ground school and flight training.
+Through normal channels it then cost about $200 to get a private
+license. Under CPT it was free. For me this bargain-basement offer
+couldn’t have come at a better moment. That summer I promptly
+enrolled in CPT at Centralia Junior College near Chehalis. Art Beal,
+Elden Reed, and Louise Wilrich joined me. Unfortunately Bill Young
+could not join us; but in the evenings he got much of what we had
+learned second hand.
+
+The flight instructor of our small, almost informal CPT class was a
+man of about fifty named Elvin V. Puckett, a one-time Montana cowboy
+with a weather-beaten face and large, strong hands. Years before,
+having tired of “riding fences” on a horse, Puckett bought a plane
+and taught himself to fly, thus patrolling the huge ranch boundaries
+the easy way. He went on to barnstorming, finally settling down in
+Washington State. Puckett “sat” an airplane as I’m sure he sat a
+horse, easy, relaxed, natural. Maybe he wasn’t the best instructor
+in the world, but he taught me one lesson that stuck: the pilot of a
+plane is captain of his ship and fully responsible for its operation
+at all times. “No one else should ever be allowed to interfere with
+the pilot’s controls or to overrule the pilot’s judgment,” he told us.
+
+As luck would have it, it fell to me to stick by that rule to my
+possible disadvantage on one of the biggest days in my early flying
+life. Having completed flying with Puckett’s class, now came time for
+the big test. A Civilian Aeronautics Administration inspector, G.
+S. Buchanan, climbed into my airplane to pass me or fail me for my
+private license. When we reached altitude, Buchanan leaned over and
+pulled the engine throttle to idle.
+
+“You’ve just lost your engine,” he said.
+
+Puckett’s rule ran through my mind. Yet, I thought, here certainly is
+the exception. I debated. But no, a rule is a rule. There should be
+no exceptions to rules in the air.
+
+I stared at Buchanan and said: “Keep your hands off the controls of
+this airplane.”
+
+He stared back.
+
+“When I’m flying this airplane, you are a passenger,” I said. “The
+passengers don’t handle the controls. If you want to simulate a lost
+engine, you tell me and _I_ will pull the throttle back to idle.”
+I pushed the throttle forward to regain air speed, thinking well,
+that’s that and I fail.
+
+As it turned out, Buchanan found the episode amusing and yielded.
+
+“All right,” he said. “You win. You lost an engine.”
+
+I pulled the throttle back and followed through with emergency
+procedures for a lost engine. When we got on the ground, Buchanan
+gave me an “up-check,” meaning I passed.
+
+Officially then I “soloed” in the summer of 1941 and got my license.
+But at that point I probably had more than fifty hours in the air.
+Quickly I moved up the grade, accumulating more time and passing
+official government tests for larger and more powerful airplanes. I
+bought a one-third interest in a Taylorcraft, but it cracked up on
+take-off at Tacoma and killed my two partners. It was a funeral pyre.
+The coins in their pockets were melted.
+
+I returned to the University in the fall of 1941 with my mind made
+up to stay off the sorority-house butler circuit. My search for a
+better-paying and more interesting job soon led to Boeing’s Seattle
+plant, which had just secured enormous contracts to build bombers
+for the U. S. Air Force and the British. Boeing was desperate for
+new people. The word was that they were hiring anything that walked.
+I applied for a job, planning to schedule my college courses around
+my work. But when I hired on for the seemingly fabulous wage of
+sixty-two cents an hour as an assembly page clerk--making certain the
+stockroom numbers were kept up to date--that plan went out the window.
+
+When I got my first look inside the Boeing plant I was fascinated.
+Everything about it thrilled me: the rattle of rivet guns, the
+heavy thumping of the presses, the shrill grinding of the saws, the
+whirling of the lathes. But greatest of all was watching an airplane
+grow in shape and perfection all in one room: from the confused
+beginnings of the production line to the end product which rolled out
+the door. In this environment thoughts of the ivy-smothered buildings
+at the University were lost. This was action. This was it!
+
+The pace in the plant is best described as frantic. The war was
+coming fast and the Air Force wanted airplanes yesterday. My job, as
+it turned out, couldn’t have been better suited to my purposes. I
+was not tied to any specific point; the whole factory was my domain.
+As an assembly page clerk, I was called or sent to every part of the
+plant and production line. Where there is strong interest there is
+strong retention. Quite soon all the apparent confusion made eminent
+sense to me, and I became intimately familiar with the problems and
+techniques of building real airplanes. In this job I was an observer
+with a free ticket to a great show.
+
+Some time around my twentieth birthday I was promoted to the position
+of production expediter, a glorified title for a bottleneck-breaker.
+In my new job I was to chase down certain parts that were not
+available in time and hand-carry or expedite them through their many
+processes so that they arrived at the assembly line in the right
+quantity at the right time. This work led to greater responsibility.
+Having noted my talent with a pencil, my boss assigned me the task
+of drawing up special change-orders and engineering change-orders
+for various small airplane parts. Most of this was “emergency”
+work, trying to salvage a part from damaged material, or devising
+a substitute for a part for which no material was available. This
+job, too, took me to all corners of the plant. I think that in a
+few months I learned as much as many men who work for years in an
+aircraft plant assigned to a specific detail. I worked long hours
+seven days a week and occasionally slept on the drafting table
+through the remaining hours of the night.
+
+When the Japanese struck Pearl Harbor, my duty was clear. I would
+have to lay aside my personal ambition and go win the war--in an
+airplane, of course. The week following Pearl Harbor I visited an Air
+Force cadet recruiting center and filled in all the papers. A few
+days later I reported for a physical examination. I flunked it. My
+pulse rate, possibly an aftereffect of my childhood illness, was too
+high. It might also have been the result of the long hard hours at
+Boeing. The Air Force doctor told me to rest up a few days and come
+back for a second try.
+
+The years of discipline from working on the farm and training under
+my father paid off. The disappointment was short-lived. I would do
+something about this. I would not be denied my life’s determination.
+
+I looked up a private physician in Seattle. Everyone, I suppose, was
+feeling patriotic in those days and they all wanted to help any boy
+get into the service. The doctor gave me a handful of pills--probably
+sedatives--and told me to take one before retiring, one on arising,
+and one just before the physical. The pills did the trick. I passed
+the physical.
+
+For a long time I was plagued with this high pulse rate on physicals.
+In due time I learned to control my pulse--to hold it down--almost
+by yogi. Once I tried the traditional trick of using the depression
+of a hangover to pass a physical. It worked, but it wasn’t worth it.
+Certainly this annoyingly high pulse rate never in any way hampered
+or restricted my endurance and flying ability, which may or may not
+prove something about the accepted routine of flight physicals.
+
+My boss at Boeing was greatly put out when he learned I had been
+“called up.” First he offered to get me a draft deferment, and then
+he insisted on it, declaring I was essential to the war effort. I
+couldn’t make him understand that I _wanted_ to go. Finally, to
+preclude drastic action on his part, I simply told him I was in the
+Reserves and there was nothing he could do about it. My friends at
+Boeing gave me a small farewell party, and off I went to the wars.
+
+I was back at Boeing a week later working at the same job.
+
+The Air Force shipped me from McChord Air Force Base near Tacoma
+to Williams Field, a processing center in Arizona. Williams was a
+madhouse. Evidently every recruiting office in the nation was swamped
+by boys eager to join the Air Force. The base was saturated with
+starry-eyed kids. There were no living quarters nor places to feed
+all these people. The officers in charge shipped me back to McChord.
+There I was told to go home and wait until there was an opening in a
+cadet class. While waiting, I returned to my old job.
+
+I waited and waited, wondering if the war would be over before I
+could get into the service. In the second week of February, with
+still no word from the Air Force, I went down to a Navy recruiting
+station. The requirement then for Naval Aviation cadets was at
+least two years of college. The Naval officers examined my record
+at Boeing, my University credits, my private flying background
+(some three hundred hours now), and waived the two-year college
+requirement. Frankly, I think they were overjoyed to snatch an Air
+Force cadet. I took three more pills, passed the Navy physical, and
+was sworn in on February 21, 1942, in Seattle. I then resigned from
+the Air Force.
+
+The Navy was giving primary training to some of its aviation cadets
+at Sand Point Naval Air Station in Seattle, a fact that pleased me
+no end, having briefly glimpsed the parched-earth and desolation at
+Williams Field in Arizona. I was scheduled to join a Cadet Class
+at Sand Point on the day I was sworn in, but I was delayed by a
+ridiculous but, to the Navy, vital matter. I am a “junior,” and
+that fact was duly published on my birth certificate. I never used
+the junior in my signature. Thus I filled out my Navy papers “A.
+Scott Crossfield.” When the discrepancy was spotted, the officers,
+following meticulous Navy regulations, insisted that my papers
+be returned and corrected. Because of this I missed my class. My
+reporting date was postponed until the next class convened on May
+7th, two and a half months later.
+
+While waiting, I kept on at my job at Boeing. As before, I worked
+seven days a week, never hesitating to accept greater responsibility.
+When I think about it now, I laugh at some of the quick and (to
+me) awesome decisions I made there. Actually, I suppose, the
+mind functions pretty clearly between the ages of nineteen and
+twenty-five. It is not yet encumbered by experience and mistakes, or
+corralled by conservatism, which is the product of fear of making a
+mistake. It is bold and aggressive, and difficult to deny.
+
+I believe those nine furious months at Boeing were among the most
+valuable in my life.
+
+
+
+
+CHAPTER 9 ►
+
+ _Manhood and Maturity_
+
+
+I served in the Navy four years, until I was twenty-four. I never
+achieved my goal of engaging the enemy plane-to-plane over the
+Pacific. After winning my wings I was waylaid as a flight instructor
+for eighteen months. I very nearly made it. When the war ended, I was
+in training in Hawaii with a carrier air group for the invasion of
+Japan.
+
+My Navy tour laid the groundwork for the contribution I made to
+aviation and the nation years later in a different kind of war. In
+the Navy I became a professional, disciplined aviator.
+
+Ironically, I almost flunked at the outset. It happened during my
+two months of “elimination” service in Seattle in May and June of
+1942. Like many men who already knew how to fly when they entered
+the military services, I found my past experience in the air not a
+help but a hindrance. A civilian pilot is an individualist. In the
+military a pilot is part of a closely meshed precision team. The
+adjustment is difficult to make. Civilian pilots learn many “bad
+habits.” One day my instructor said: “Crossfield, I don’t think
+you’re going to make it.” I did make it. In fact I never got a
+“down-check” although there was one close call.
+
+It was a glove that almost did me in. One of our final checks at
+Seattle was an emergency landing in a small tree-bordered field. My
+airplane was an old N3N or “Yellow Peril” biplane, built in about
+1933. While flying near this field one day my instructor gave me the
+signal to simulate an engine failure. I throttled back all the way
+and aimed for the field, calculating my glide-path, intending to make
+a perfect approach and landing.
+
+I miscalculated. We were quite low when I realized I had undershot
+the field and would have to open the throttle. My instructor reached
+this conclusion about the same instant. He moved his gloved left hand
+to the throttle. As I pushed forward a split second before him, his
+glove caught and jammed in the throttle bracket. He tried to pull
+the throttle back momentarily to disengage the glove. Unaware of
+this mishap, all the while I was pushing the throttle hard forward,
+wondering what was holding it.
+
+The ground was rushing up fast. I had to land. There was a hole
+between the trees that looked large enough to squeeze through. We
+grazed over a barbed-wire fence and penetrated the hole. It was too
+small. The right wing brushed the top of a tree, making a fearful
+racket on the taut dope-covered fabric of the wing. The plane bounced
+on the grass strip and rolled out. My instructor crawled out of the
+front cockpit, lit a cigarette, and paced about the plane, inspecting
+the broken ribs in the wing and the torn fabric. I sat in the cockpit
+awaiting the inevitable. Soon, I knew, I would be headed for a ship
+as a seaman second class.
+
+I wondered why my instructor was delaying. Then it dawned on me. He
+was worried that we had damaged the plane so badly that it would fall
+apart in the air.
+
+“As long as we’re here,” he said, “I’ll just stay on the ground and
+watch while you make a few precision landings between the markers
+over there.” This was the next phase of my test, scheduled to be
+carried out at another field. It was true that it would save time to
+do these maneuvers at this field. But I had a hunch the real reason
+was that the instructor wanted me to take that plane up and test-fly
+it--alone.
+
+Very well, I thought, I’ll do it. I got us into this fix. I gunned
+the engine and took off. The plane held together and I made the
+precision landings without further incident. The instructor climbed
+in and we flew back to main base. He gave me an “up-check,” but I
+believe I earned it by default--because he was ashamed to report
+the glove snafu and because I had tested the airplane for him.
+Thereafter, in the way some men respond to error, I was determined
+never to repeat that fiasco. In time and with exacting practice,
+landings became the strongest point of my flying.
+
+We moved from Seattle to the Naval Air Training Center in Corpus
+Christi, Texas--the big league. What a sight! It was the Boeing
+plant all over again. The Navy was just gearing for the instruction
+of aviators on a mass scale. Thousands of people were pouring into
+Corpus Christi each week. Everywhere new outlying flying fields were
+being scratched out of the dry, ugly Texas soil. Hangars, maintenance
+shops, barracks and officers’ clubs, it seemed, were sprouting all
+across the great expanse of Texas. It was semi-organized confusion on
+a grand scale. For the next six months, along with the fifteen other
+members of my cadet class from Seattle, I lived, studied, and flew
+hard while this transformation was taking place. We paid it scant
+heed. Our minds were set on learning our profession and going on to
+war, to the Pacific, where Naval aviators were desperately needed.
+
+The skies over Texas were black with airplanes flown by young
+inexperienced pilots, feeling their oats, frozen in the grip of that
+infantile phase all pilots must go through: flat-hatting, or buzzing
+the ground. I don’t know how or why all pilots get this disease.
+Maybe it’s simple showing-off, or some kind of deep-seated craving
+for the sensation of speed, or a reaction to the highly disciplined
+military formation flying. It is very dangerous. But a lot of fun.
+
+We had several special flat-hatting tricks calculated to stretch any
+pilot’s nerves to the breaking point. First there was wind-milling.
+The surface of Texas is a forest of windmill-driven water pumps. We
+used to dive at these lazily turning windmills, scream across the
+ground, lift the wing as we passed over the tower, and kick the
+rudder. When the plane’s slipstream hit the blades of the windmill,
+they would turn at tremendous speed, gushing water in a torrent, and
+probably grinding up the pump gears.
+
+Another trick was the rare sport of playing leapfrog with
+automobiles. We would spot a lone car driving on a long, straight
+Texas road. Then we would ghost down and land behind him. We would
+clip along, waving at the awestruck kids in the back seat, their
+noses pressed against the rear window. We’d gun the engine and hop
+over the moving car, taxiing on down the road at high speed. I saw
+one pilot do this to a moving van. When the plane’s slipstream hit
+the broad side of the van it knocked the truck into a ditch.
+
+Then there was the railroading. What better sport than to fly down
+a railroad track at night, directly toward an oncoming train, and
+at the last second turn on the plane’s landing lights and pull up
+steeply, all the while enjoying the vision of the engineer grinding
+his brakes into steel filings, wondering what he was about to smash
+into.
+
+Bridges, of course, held the greatest fascination to the youthful,
+inexperienced pilot. There was a bridge up near Smithville on the
+Colorado River that loomed as my greatest flat-hatting challenge.
+It was tricky because there was a little turn involved just before
+passing under the bridge. Flying below the river banks, the drafts
+and winds were confusing and I had to take care that the plane didn’t
+drift into one of the bridge foundations. I made several tries before
+I finally plunged under. As it turned out, there was plenty of
+room--fully twenty feet clearance between the bottom of the bridge
+and the water. My dream was to loop around that bridge, but for some
+reason I never did. No guts, I guess, or maybe I had a little sense,
+at that.
+
+These were rare diversionary moments in a rigid schedule of work
+and study. Mostly we flew in formation under strict observation. We
+advanced steadily in our profession, on the ground and in the air,
+learning about engines and propellers, navigation, night flying,
+bombing, gunnery, and the niceties of being a Naval officer. I
+learned one special discipline. On the night before a special
+check-flight, I would mentally fly the complete trip from take-off
+to landing, going through every motion of the controls and relating
+the movement of the plane to the geography. At Edwards many years
+later I was still able to commit a complicated experimental airplane
+flight to memory the night before flight. This left my mind free to
+concentrate not so much on flying but on gathering the aeronautical
+data we sought.
+
+In December, 1942, one year after Pearl Harbor, we graduated as
+ensigns and full-fledged pilots. I had just turned twenty-one. Of
+the twenty-five men who were commissioned that day twenty-three got
+orders to the fleet. Two drew orders to remain at Corpus Christi as
+flight instructors. I was one of the two. At the time it seemed the
+blackest day of my life. I partially offset my deep disappointment
+by thinking that I had been selected for the job because I was an
+outstanding pilot. But I am sure they just picked my name out of a
+hat. I came to this conclusion when I saw what poor pilots some of
+the instructors were.
+
+For six weeks I attended a school to learn how to be an instructor
+in advanced bombing and gunnery, then I was assigned to Kingsville
+Naval Air Station--a desolate outlying field. There I soon learned
+that instructors are not the infallible monarchs I had considered
+them when I was a cadet. Instructors are men like all other men,
+full of imperfections, contradictions, and uncertainties. Most of us
+were very young--twenty-one or twenty-two. We lived in dirty BOQs,
+engaged in seemingly endless cycles of new students, parties, poker
+games, graduation, new students, parties, poker games, graduation,
+new students, and so on. The pace we kept would defy all aero-medical
+studies on pilot fatigue--especially my own. I slept hardly at all. I
+flew probably four and sometimes six flights a day, with occasional
+time off during brief periods of bad weather. I never missed an
+assigned flight.
+
+The second stage of infantilism in an airplane comes when the pilot
+learns aerial acrobatics and can be sure of a captive audience. As
+instructors we had such an audience in our students. One sure way
+to get a rise was to make a series of barrel rolls around a tight
+formation of student airplanes. This was one of my specialties until
+one of the new instructors, a former student of mine, tried to
+imitate it. Evidently he had not first practiced the maneuver behind
+the student formation. He miscalculated and smashed into a student
+plane, killing himself, the student, and another student in the
+rear seat. After that, I was far more conservative in the air when
+students were around.
+
+I don’t mean to overdramatize this incident. Death is the handmaiden
+of the pilot. Sometimes it comes by accident, sometimes by an act of
+God. Over the years I have tried to become calloused about death.
+This attitude began at Corpus. Twelve out of the sixteen members of
+my original class at Seattle were eventually killed in airplanes.
+Hundreds of students, many of whom I knew well, passed through Corpus
+to a quick death in the Pacific. Eleven men in my training squadron
+were killed at Corpus. Indeed, come to think of it, three-quarters of
+all the pilots I ever knew are now dead.
+
+There was a camaraderie among the instructors, and a sharp sense
+of competition. Teaching bombing and gunnery week in and week out
+eventually turned us into pros. One reason was that we shot and
+bombed far more than anyone else, including pilots in combat. When a
+new class reported in, we instructors began with a “demonstration”
+of bombing and gunnery, each with a student in the back seat of the
+plane. For us this was a moment of high drama. Instructor was pitted
+against instructor. We laid huge money bets for high score. In our
+eagerness to win we very nearly drove our planes into the ground or
+into the target sleeves. It must have been quite an indoctrination
+for the students. Some of them resigned after the demonstration
+flight.
+
+We felt pretty good about our gunnery records until “Bogie” Hoffmann,
+a senior Navy pilot, came up from DeLand, Florida. A mustang from
+the famed Fighting 2 off the Lexington, Hoffmann, with Captain John
+(“Jimmy”) Thach, had developed a new gunnery technique. It was
+astounding in its simplicity and it greatly improved our scores.
+Alongside Hoffmann we instructors, supposedly the pros, felt like
+amateurs. I made every effort to hitch a ride in the back seat of
+Hoffmann’s plane when he made a demonstration. I strove to imitate
+him. The results were gratifying. From that point on, I met few men
+in the Navy who could seriously challenge me in aerial gunnery, but
+I could never touch Hoffmann’s shooting.
+
+Flying over Corpus shepherding my flocks amid the hundreds of planes
+milling about, both in daylight and at night, and with a near-crisis
+every ten minutes, I learned the value of stern discipline in the
+air. Too often in times of trouble I witnessed tragedies which could
+have been averted had the participants remained at least outwardly
+cool. Too many times I heard people shouting conflicting advice--and
+orders--into radio circuits. I saw then the advantage of my father’s
+detached, emotionless attitude. I deliberately emulated it, striving
+never to raise my voice but to take positive command in times of
+emergency and do what I thought was right. Some people--those who
+knew only this calculated glacial exterior--thought I was a cold
+fish. No matter. The technique paid off.
+
+One day, for example, I was leading a group of my students on a “tail
+chase”--a sort of follow-the-leader of aerial acrobatics, including
+loops, rolls, Cuban Eights, chandelles--the works. Somehow one of the
+pilots fell out of place and the prop of his plane chewed into the
+tail of the plane in front of him. The first word I had of impending
+catastrophe was a blast on the radio:
+
+“Jones. Land immediately. Your tail is chopped off.”
+
+The first thought of inexperienced aviators who get into trouble is
+to get back to earth quickly. They get down low only to find out the
+plane is no good and it is too late to bail out. The proper course is
+to keep all possible altitude until someone can find out how badly
+the airplane is damaged. I broke in on the radio circuit, my voice
+deliberately held low:
+
+“Jones. Remain at your present altitude until we check your airplane.”
+
+Jones started to argue back.
+
+“Shut up,” I said calmly.
+
+I moved in and took a look at his plane. Quite a bit of the tail was
+missing.
+
+“Head for base,” I ordered.
+
+I flew alongside, coaching him through gentle maneuvers to feel out
+the plane. One of these showed that if he slowed to ordinary landing
+speed, the plane would not fly. If he had followed the first advice
+on the radio, he would have been killed.
+
+“Okay,” I said. “You land that plane about ten or fifteen knots above
+normal speed.”
+
+Just then someone else broke in and radioed the base tower:
+
+“We’ve got a crash coming in! Emergency! Emergency!”
+
+This yelling only served to rattle the pilot of the stricken plane.
+Holding back my rage, I spoke on the radio:
+
+“Defer the emergency. We don’t need any special equipment. Jones,
+remember to land fast.”
+
+The pilot landed the plane, saving his own life and a piece of
+expensive government equipment. Experiences like these drove home
+the lesson never to permit foolish, though well-meant, interference
+to supplant a pilot’s responsibility in the air. The lesson is
+documented by a long roll of dead pilots.
+
+As the months rolled on the flying was hard, endless, and gratifying.
+Life in the BOQ at night was soft, endless, and boring. Night after
+night we gathered in one room or another and drank until the bottle
+was empty, hangar-flying and telling endless, untrue sea stories.
+I tried correspondence courses to pass the time, but the insidious
+magnetism of that fun-loving bunch of troops shot down that effort.
+It did not take keen observation to see this was not doing some of
+us any good. In a few it was reflected by poor flying which made
+me wonder about my own flying. Here I would not compromise in the
+slightest--this nonsense had to stop. I had to get off that circus
+wagon.
+
+I was engaged to a twenty-two-year-old girl from Seattle named Alice
+Knoph, a beautiful blonde who worked as a long-distance telephone
+operator. I met Alice on a double date back in the days when I worked
+at the Boeing plant. She was a vivacious Nordic type with a talent
+for singing, and she quickly became the delight of my life. She was
+engaged to a friend of mine, a picture I was determined to change. On
+our first date I told Alice I would marry her some day. She laughed,
+but six months later she was wearing my ring. Very sensibly we
+decided not to marry until the war was over.
+
+But one day in April, 1943, I called Alice on the telephone and
+asked her to come down to Corpus Christi and marry me. The call cost
+$56.00, but this and the money I sent her for train fare was the
+best investment I ever made. Her sudden answer to my call for help
+naturally dismayed her family. But in the end they became reconciled.
+Alice lost her luggage on the trip down. When we were married by a
+Justice of the Peace in Corpus Christi she wore one of my shirts as a
+blouse. A cab driver was best man.
+
+Alice and I rented an apartment in Corpus. Inevitably it became
+a hang-out for my bachelor friends among the instructors. There
+were too many parties. In that wartime atmosphere it was not quite
+possible to avoid a party even if we wanted to, which was not always
+the case. But when Alice came, it was as though I gained a balance
+wheel. My entire outlook changed.
+
+I was always profoundly conscientious about my students. Slipshod
+instruction in gunnery and bombing could cost a combat pilot his
+life. But now I took on a new, voluntary chore. I became a specialist
+at saving the pilots slated for wash-out--the imperfections of our
+factory. In a way it was faintly comparable to my job at Boeing, when
+I redesigned parts that would otherwise have been scrapped.
+
+I’m not certain just how or why I was moved to do this work. It may
+have started one day when I learned that an entire flight of cadets
+was about to be washed out. I looked into it and discovered that
+their instructor was a former student of mine. Had some imperfection
+in my own teaching caused this chain reaction? In any case, to my
+regular flights I added hundreds of hours of overtime work with these
+bruised pieces of fruit. To me this work, an attempt to mold these
+wayward men and their machines into perfect fighting units, was the
+most trying, and in some ways the most rewarding, of all. I tackled
+the job with missionary-like zeal.
+
+Most of the work amounted to patient tutoring, simply building
+confidence first, then teaching technique. Occasionally, however, it
+was a matter of using common sense. I remember one case. The cadet
+was an ex-theology student. He stopped at our apartment one morning
+after church.
+
+“Mr. Crossfield,” he said. “What can I do? I don’t want to give up.”
+
+He came in and sat down while Alice rustled up some coffee. This
+was a very sad case. The cadet had been before three different
+boards. Each board failed him. For some reason he simply could not
+make precision landings, which were crucial to flying on and off an
+aircraft carrier.
+
+While we sat waiting I looked at him, trying with him to ferret out
+his lack. Then I noticed his legs. They were the shortest I had ever
+seen on a man. An idea flashed in my mind.
+
+“Can your feet reach the rudder pedals?” I asked.
+
+“Yes, sir,” he said. But as I thought about it and mentally measured
+his legs in the cockpit, I knew he wasn’t being completely frank. He
+probably reached the pedals, but with difficulty.
+
+“Tell you what you do,” I said. “I’ll get you another flight and
+tomorrow when you go up I want you to put a pad--_two_ pads--behind
+your back. This will bring you forward and closer to the rudder bars.”
+
+Next day the student flew with two pads behind his back. From then on
+the precision landing was a cinch. It was that simple, after over two
+hundred hours of apparently indifferent instruction. The flying board
+reversed its decision and he went on to fight in the Pacific. I don’t
+know what happened to him.
+
+The best way to learn anything thoroughly, I believe, is to teach
+the subject to others. This is no new thought: college professors
+and scientists have known it for centuries. With each new student
+you begin all over, retracing the same fundamental course, each
+time exposed to a fresh, inquiring, and often challenging mind, and
+sometimes superlative ability. During my eighteen months at Corpus I
+logged 1,400 hours of single-engine time. Thus in one sense I learned
+to fly a thousand times, repeating the same familiar steps over and
+over and over, but each time adding a little knowledge and polish.
+
+I think that this single tour of duty, more than anything else, honed
+my flying to a point of near-perfection.
+
+
+
+
+CHAPTER 10 ►
+
+ _No Penalty for Being Late_
+
+
+The last fourteen months of my active Navy service amounted to a
+determined but futile endeavor to get to war. This crazy-quilt
+travelogue took me from Corpus Christi to Jacksonville, Florida,
+back across the country to San Diego, to Seattle, to Klamath
+Falls, to Seattle, to Pasco, to Arlington, to Seattle, to Hawaii,
+to Philadelphia, to Norfolk, and back again to Seattle. Along the
+way, intense operational training improved and broadened my flying
+considerably.
+
+The rat race began in September, 1944, when at last I was sprung from
+my duties as instructor in gunnery and bombing at Corpus and issued
+orders to the fleet. I was told to report to the Naval Air Training
+Center in Jacksonville, Florida, for a brief operational transition
+course. Alice and I packed our worldly belongings in our 1940 Mercury
+and set out. When I reached the new base and checked in, I was again
+forced to acknowledge that the Navy was not run for my express
+benefit. I had drawn an assignment to dive bombers.
+
+To a fighter pilot, being a fighter pilot is very important. Fighters
+are the _avant garde_, the lancers, the agile fencing foils of
+the fleet, the spearhead of offense and defense in any pitched
+air-and-sea battle. The forte of the fighter pilot is individuality,
+perhaps erroneously, but nevertheless romantically, inspired by two
+wars. I had connived to be assigned to fighters when I was a cadet
+at Corpus Christi. With mixed feelings of adherence to duty and
+instructions, I decided to try again to bend the course of events
+more to my inclinations. If I didn’t try, I thought as a salve to my
+feelings, what a waste of two years of intensive training!
+
+“Can’t I get fighter orders?” I asked the officer at the desk.
+
+“We don’t have any fighter-plane orders,” he said.
+
+“Well, in that case, consider me on leave.” I had about twenty-two
+days coming, as I had foregone leave since I was commissioned. My
+thought was to postpone my reporting date until some fighter orders
+came in. Alice and I rented a cottage on Jacksonville Beach. Each day
+for three weeks I drove eighty miles to the Naval Base to see whether
+any fighter orders had arrived.
+
+During this time--it was October 20, 1944, to be precise, and I
+don’t know why I remember the specific date because I remember few
+others--a hurricane struck the beach where we were living. This
+incredible unleashing of nature’s power was without doubt the most
+impressive thing I have ever seen in my life. The pounding sea
+ripped up the concrete seawall and stove in cottages. It swept over
+automobiles, including ours. I tried to save it, and others besides,
+feverishly working on the drowned-out engines while the wind-driven
+rain pelted me like BB shot. It was useless. I pushed the Mercury
+against a fence which I hoped would prevent the car from drifting out
+to sea. Then Alice and I caught the last Coast Guard rescue truck,
+which took us to a brick schoolhouse in an emergency housing area for
+the displaced people. Before that storm hit us I never quite realized
+the awesome force the earth has cached in its storehouses. When this
+model of perfection goes awry it is a sight to behold. Against this
+force man’s efforts seem feeble indeed.
+
+Against the U. S. Navy this man’s efforts were feeble, too. I was
+assigned to dive bombers, along with eleven other instructors from
+Corpus. Our instructor was a Marine and a wonderful aviator. He
+greeted us thus: “Boys, bombing is my business. If any of you want to
+put a little money on the bombing competition, I’ll be glad to match
+it.” Without telling him we had been bombing instructors too, we all
+laid bets. Dive bombing turned out to be far easier than the glide
+bombing we were doing in Texas every day for eighteen months. We won
+in a walk. The result was really to our benefit. In the strange way
+that a competent pilot shows his respect for other competent pilots,
+our instructor worked us night and day with no quarter, and gave us,
+rather than a transition, a post-graduate course in the finer points
+of dive-bombing tactics.
+
+As a result of my desire to be a fighter pilot, I found my rear-seat
+man an annoyance through no fault of his own. To this day I find
+it hard to justify a flight crew of more than one in almost any
+airplane. The additional crew encumbers the pilot and compromises the
+performance of the airplane with added weight and duplication. Most
+of the new rear-seat men remembered all the horror stories they heard
+in training school about target fixation on a dive. So whether the
+pilot liked it or not, the men insisted on calling out the altitudes
+during the dive. The only cure for this was for the pilot to recover
+at such high G that the rear-seat man blacked out. Sooner or later
+he’d get the point. But my man stumped me. He never gave up. Once I
+dived almost into the ground and pulled out viciously. On the way
+down the rear-seat man called the altitudes: “10,000 ... 5,000 ...
+2,000 ... 1,500 ... 1,200 ... 1,000 ... 800....” And from there on
+I was blacked out. Coming to in the climb, I could almost hear him
+shaking off the blackout, foggily picking up where he left off,
+calling altitude as we _climbed_. I gave up.
+
+A few weeks later came the last straw. Sometimes on our flights we
+carried aloft a three-pound bag of powdered gilt-paint pigment. If
+the usual floating targets were engaged by other flights, we tossed
+the bag of paint out of the cockpit. When it splashed into the
+ocean, it spread out and made a good substitute target. I handed my
+rear-seat man the paint bag and told him to drop it if and when I so
+instructed.
+
+It was an unforgettable take-off. By regulation we kept the
+greenhouse canopy open, and the cockpit was always very windy. About
+midway down the runway my rear-seat man got curious and opened the
+bag. Then he dropped it. The bag burst. The rushing wind caught the
+powdered paint and swirled it through the cockpit--a regular blizzard
+of gold. I was almost blinded. The gold flecks coated everything,
+including our faces and hands, sticking to the oil film that usually
+covered us on those flights. I cleared my eyes somehow and landed.
+The cockpit, the instruments, everything--and both of us--were
+beautifully gold-plated El Dorados. Weeks went by before I got all
+the flecks out of my hair. Incidents like this strengthened my desire
+for the lonesome fighter cockpit.
+
+Fate intervened favorably. After a couple of months, I was ordered
+to report to San Diego for fleet orders--without my rear-seat man. I
+packed the car again and we set off cross-country. Alice was about
+two months pregnant.
+
+We were leaving Shreveport the next morning when suddenly I recalled
+all the stories I had heard at Corpus about the bigness of the State
+of Texas. “I’m going to cross Texas the long way in one day,” I said
+to Alice. It was 986 miles to El Paso. We made it, but the cost was
+high. A little further along, in New Mexico, Alice had a miscarriage.
+
+My orders required me to report in “on or before” a certain day that
+January of 1945. Time was short. If I took Alice to a hospital I
+would have to leave her there alone in New Mexico, an unthinkable
+desertion. But I knew the long drive remaining would be dangerous for
+her. Trying to make the best of an impossible situation, we decided
+to push on as rapidly as possible to leave Alice in the care of my
+sister, Elena Ruth, who lived near Los Angeles.
+
+I drove on swiftly, without sleep, completing the cross-country
+drive from Jacksonville to Los Angeles in eighty-eight hours.
+When we reached my sister’s house, Alice was very ill. She almost
+died. It was a sobering lesson for a young man. I made up my mind
+then that no matter what challenge loomed in my life I would never
+tackle it at the risk of involving her or anyone else. I would go it
+alone--all the way. From that time on, Alice, with my encouragement,
+drew a protective cocoon around her life. She never inquired about
+what new Mount Everest I might be scaling, and in fact until she
+read this book she had little idea of the flying at Edwards. I’ve
+pointedly ignored it, both with her and the children. I’ve lived in
+two different worlds: in hers with our family, and in the world of
+my other love, aviation. This separation is a boon. It removes the
+insidious and encumbering influence of expressed day-to-day concern
+so common in the lives of pilots. And to some degree--to a great
+degree, I hope--it has spared her the anguish of waiting for the
+telephone call so many of her friends have received when their men
+bought the farm.
+
+When I was certain Alice was in good hands, I raced on to San Diego,
+reporting in twenty minutes before the deadline.
+
+Good news was waiting for me at the end of that mad journey. When I
+got there, the last man to report, some of the other pilots had been
+assigned to dive bombers, torpedo planes, and so on. But at the very
+last minute a request came through for a few fighter pilots for Air
+Group 37, based in the Seattle area, of all places. I snatched up the
+orders and hurried north to Seattle, then to Klamath Falls, Oregon.
+As soon as she was well, Alice joined me.
+
+We had time to visit with her family and to spend a few days on the
+farm in Boistfort Valley. I found my father and mother--like most
+farmers during the war--short-handed but more prosperous. My father’s
+research and diligence were bringing handsome returns. He was laying
+plans to build a modern barn with an automatic milking line, and to
+buy new power tools and tractors.
+
+He was reconciled to my chosen profession by then, but he openly
+urged me to do more. “A pilot,” he said, “is nothing more than a
+glorified chauffeur. Use your skill and talent in flying as a tool to
+help accomplish something lasting and significant for mankind.”
+
+From Air Group 37 at Klamath Falls I was re-assigned to Air Group
+51 at Seattle. We recommissioned that famed squadron and moved to
+Pasco, Washington. Air Group 51 prepared for war. We flew morning,
+noon, and night. Our skipper, Commander William Lamb, an Annapolis
+graduate, was one of the ablest men I have ever met. He rated others
+strictly by performance. Although I was a senior lieutenant, with
+many more flying hours than most of the pilots, I flew last man
+Charlie until I proved to him in the air that I knew what I was
+about. After that he assigned me to command a division. All Naval
+officers must assume a collateral duty, and as I had been with every
+squadron, I was assigned as an Engineering Officer. When we changed
+a wing, or conducted a major overhaul of an airplane, it was my job
+to take the plane into the air for the first test hop, to make sure
+it had been put back together properly. This was not flight-test
+work in its purest sense, but as close as I could come. I took keen
+satisfaction in squeezing longer life from some of those tired old
+birds and tried to keep them in near-perfect mechanical order, just
+as I did my automobile.
+
+One man I especially admired in that outfit was a boot ensign named
+Smith. He was a natural hunter like Sergeant York, or Gabreski, or
+Chuck Yeager. No matter how hard I tried--and I went full-bore--he
+could always top my score in aerial gunnery. He was eventually
+transferred to another outfit, but of all the men I knew in the Navy
+this Ensign Smith stands out in my memory like a sore thumb--or an
+unscaled Mount Everest. I don’t know what ever happened to him.
+
+We were scheduled to ship out on the aircraft carrier Cabot, but she
+broke a shaft, so our Group sailed to Hawaii, planeless, on an LSV
+that burned out a bearing and so proceeded at a top speed of six
+knots. It was one of the longest voyages of the war, I’m sure. The
+ship was crowded with aviators and soldiers. I remember it as one
+long Acey-Deucy tournament, which in the end I lucked out and won
+(the pot was $28.00). In Hawaii we were assigned to the aircraft
+carrier Langley and given brand-new, 400-mile-an-hour F6F airplanes.
+
+And that was as close as I came to the war. In Hawaii we moved
+down to the island of Maui and for several months trained with
+the Second Marine Division, preparing for the invasion of Japan.
+The training was quite realistic, with live ammo and bombs. We
+were assigned a specific landing point on the coast of Japan, and
+on Maui we practiced our invasion role on terrain similar to it.
+Then the scientists unlocked the power of the atom and ended the
+war. We boarded the Langley, lashed down our planes, and steamed
+to Philadelphia via the Panama Canal. We based in Philadelphia for
+a few weeks at Mustin Field. From there we moved to Norfolk for
+decommissioning. Alice had been waiting on the farm ever since I
+shipped off to Hawaii.
+
+For a while I considered remaining in the Navy after the war. It had
+many appeals for me. I met some of the finest men in my life in the
+Navy. It was a good life if you approached it from the right point
+of view in the right frame of mind. It was an opportunity to do my
+country a service in my chosen endeavor. The Naval Air Test Center at
+Patuxent River, Maryland, where new Navy planes are flight-tested,
+had just opened up, and I thought of applying for a test pilot’s job
+there. In fact I talked to Commander Lamb about it at length. He
+gave me little encouragement to buck the Academy men and those with
+technical training with my “trade school” background. I decided then
+to return to college for a sound engineering education. I was well
+grounded in aviation, but too many people, such as Commander Lamb,
+clearly held an advantage over me. If I had known then that the Navy
+would send many of its officers to college after the war to obtain
+engineering degrees, I might have stayed on and thus avoided the
+tight financial squeeze that soon followed.
+
+A lunatic episode, the maddest race of all, climaxed my Navy career.
+I’m not certain how it began. I think that the separating officer
+at Norfolk resented reservists who were deserting the Navy. “Okay,”
+he said, “we’ll separate you in Seattle, the point closest to your
+home, and fast, too. You’re due at the separation center there not
+‘on or about’ but ‘on or before’ five days from now. You’ll have no
+transportation priority.”
+
+“But how do you expect me to get to Seattle in five days with
+no priority?” I asked. It was November 1, 1945, and the entire
+transportation system of the nation was staggering under the load of
+returning servicemen. Without a priority commercial airlines were
+out of the question. All military airplanes were jammed. Trains were
+packing people in like sardines and running days behind schedule.
+
+“That’s your problem,” the officer said. He handed me my orders.
+
+This return trip to Seattle suddenly and curiously emerged as a great
+game. I don’t know why. I guess it was because the officer implied
+that I could never make it. _All right, I thought, if that’s the way
+it is, that’s the way it is. And I’m not about to report in late
+for the first time in my Naval career and spoil a perfect record._
+I packed a few clean clothes in a suitcase, sealed and shipped my
+foot-lockers (which arrived months later), and set off.
+
+From beginning to end the trip was insane. I left Norfolk on a train,
+standing in the aisle. We chugged north for a thousand years and then
+south for another thousand, then east, I think it was, and finally
+arrived in Washington, D. C., which is about a hundred miles from
+Norfolk--fourteen minutes by fighter plane. I made up my mind right
+then that I would get back on a train only as a last resort, after
+trying a mule. Incidentally, I still feel that way about trains. I
+checked in at Military Operations in Washington and by great luck got
+a hop almost immediately to Olathe, Kansas. I waited patiently there
+for a ride farther west, or north, or northwest, but the few planes
+that came through were jammed with priority passengers. The time was
+ticking by rapidly.
+
+When I heard that I might have better luck in Chicago, I wormed my
+way on board a military plane going there. In Chicago I felt richer:
+I was now far ahead of the train. I could have boarded a train in
+Chicago that day and made it to Seattle with ease. But the thought of
+that prolonged trip was enough to make me gamble. Heavier air traffic
+was moving across the South so I jumped on another military airplane
+and wound up in Fort Worth, Texas. This move put me _behind_ the
+train schedule. I had to make it by air, or else....
+
+In Fort Worth I waited. Without a priority it seemed hopeless. But
+luck is where you find it. I discovered very late that night that
+the Naval officer dispatching people on the airplanes was an old
+student of mine from Corpus Christi days. As a favor to a buddy, he
+stamped my orders with the lowest possible priority. Still it _was_ a
+priority and it moved me ahead of about a hundred people in the line.
+Hurrying now, for I was far behind the train schedule, I scrambled
+aboard a plane heading for Oakland, California, with an intermediate
+stop in Phoenix, Arizona. If I didn’t get bumped in Phoenix, I knew I
+had it made.
+
+I got bumped in Phoenix. I then had less than twenty-four hours to
+make it to Seattle.
+
+I paced the floor of the waiting room. The clock ticked on. Then
+a minor miracle happened. Completely unexpected, an airplane came
+through Phoenix headed for San Francisco. It was an old R4-D,
+converted to a hospital plane, manned by a flight crew and a staff of
+male and female nurses, flying back and forth between the East and
+West coasts, hauling the wounded to hospitals in the East and caring
+for them along the way. They were returning for more. I have never
+seen people so dead tired. I don’t think any of them had slept in a
+bed for a month. Yet they immediately turned their thoughts to my
+comfort. They gave me a sleeping bag, some hot coffee, and a ride to
+San Francisco. This little touch of humanity made me feel like a new
+man. Moreover, this hop to the Coast made up much lost time and put
+me ahead of the train again.
+
+In San Francisco I boarded an Air Force plane bound for Seattle. As
+fate would have it, just then some luckless pilot drove an airplane
+into a mountain nearby. The plane I was on was diverted from its
+destination to help in the search for survivors. They dropped me off
+at the end of the world--Medford, Oregon. I might have made it to
+Seattle by train yet--a ten-hour trip--but having come that close, I
+refused to give up, although I was getting pretty tired at this point
+and was badly in need of a bath and clean clothes.
+
+The next morning I met an Air Force colonel who had flown down to
+Medford in a B-17 bringing a ground rescue crew. At that moment he
+was debating with himself whether to return in heavy weather to his
+base at McChord Field, Tacoma, about thirty miles south of Seattle.
+I got into the debate, urging that the weather wasn’t so bad and that
+he return to McChord with me as his passenger. At about three in the
+afternoon we took off into a raging snowstorm. I sat shivering in the
+plexiglass nose turret.
+
+When we got to Tacoma about dusk the snowstorm was still in
+full fury. I think the Colonel would have sought another field
+then--probably _any_ pilot would have--except for the expression on
+my face which plainly said: “It doesn’t look so bad to me.” Coming
+from a Naval aviator, it was a challenge to this Air Force type,
+perhaps. He lowered the gear and we threaded our way up the river
+through the storm groping--and I do mean groping--for McChord Field.
+It was dark and snowing hard when we landed. The runway lights were
+on, the tower was manned, but otherwise there was not a soul to be
+seen. No jeep came out to the plane; hell, the weather was too lousy.
+
+My clock was running out. Without so much as a “thank you” to the
+Colonel, I plowed through the deep snow to a road where I hitched a
+ride in a truck that happened along. The truck dropped me at the base
+gate. I then moved out onto the main highway and thumbed a ride--I
+believe it took two rides--to Seattle. I arrived at the Processing
+Center at eleven o’clock that night, one hour before my deadline,
+November 6, 1945.
+
+I have recounted these last days and hours of my active Naval service
+in some detail for special reasons. For one thing, the recollection
+of that trip has always astonished and amused me, especially the
+way those Florence Nightingales just happened along in Phoenix in
+the hospital plane and took pity on a forlorn traveler engaged in a
+restless, disjointed journey, a crazy race against time. That was
+the dénouement of the trip; that hop really let me win. And to those
+people, whose names I cannot recall, I shall be forever grateful.
+Another thing: I think this screwball tale tells a lot about the
+workings of the feeble clot of gray matter which I call my mind.
+
+I should close this account by adding the significant fact that there
+would have been no penalty whatsoever if I had arrived late. Even a
+couple or three days late.
+
+
+
+
+CHAPTER 11 ►
+
+ _How Dark the Clouds_
+
+
+During my four years at the University of Washington in Seattle after
+World War II, I kept strong ties with Naval aviation. In early 1946 I
+helped organize a reserve squadron, VF-74, a group of mature “Weekend
+Warriors.” The pilots were experienced aviators, mostly married men
+and veterans of the war. Under Navy supervision we trained hard to
+achieve a high degree of readiness, prepared for instant mobilization
+in the event the nation went to war again. We flew drills two days
+a month and spent two weeks on active Navy duty every year. Our
+squadron was consistently among the leaders in Naval reserve gunnery
+scores, but we could never claim a trophy because our maverick pilots
+were indifferent to paperwork. For me personally, my tour with this
+hard-flying outfit provided not only the most rewarding moments in
+the air but also in one instance the most humiliating.
+
+The rewarding moments came during the months and months of weekend
+flights around Seattle. Our squadron was furnished a mixed bag of
+F6F and F4U Corsair airplanes, leftovers from World War II requiring
+constant maintenance. After the Navy demobilized, funds were scarce
+for reserve squadrons and thus our operations were run on a
+tight-fisted basis. One result was that we pilots could not shift
+around, checking out in different airplanes. I was an F6F pilot,
+restricted to that type of airplane. This annoyed me. The Corsair was
+considered something of a flying challenge, a fairly unstable plane,
+quick to stall and difficult to recover from a spin, but none the
+less a superior gun platform. I longed to master that beast and at
+the same time possibly improve my gunnery score.
+
+One day while I was waiting in the operations office for my airplane
+assignment, the officer detailing the airplanes piped up: “Hey, I
+need a Corsair pilot.” It happened that at that moment there were
+none around.
+
+“Put me down,” I called. I had been waiting for just such a chance.
+It never occurred to this officer to ask me if I were checked out
+in the plane. He neatly printed “Crossfield” on the blackboard in a
+space alongside the number of the airplane.
+
+In a way, airplanes are like women, that is to say impossible to
+understand fully, and often ticklish to handle. It takes a little
+time to get to know them, to find out how and to what they respond.
+Some must be manipulated by fingertips, with infinite finesse, others
+must be pushed around like trucks. Some forgive the pilot’s sins;
+some don’t. The Corsair was very nearly inscrutable. She was hard
+to figure, slightly forgiving, and she required a great deal of
+attention.
+
+I found this out under extraordinary circumstances. Soon after my
+name appeared on the board, I took off with five other planes. The
+flight had moved out so quickly I had time only to glance briefly
+at the airplane handbook in the cockpit. The flight leader was in a
+frisky mood. When we reached altitude he whipped the formation into
+the damnedest tail chase I have ever been in. I found myself in that
+totally strange airplane doing Cuban Eights, loops, barrel rolls,
+chandelles, and the Lord knows what else. Only a pilot can fully
+appreciate this situation, I suppose. Locked in that crazy ride, with
+one plane twenty feet ahead of me and another twenty feet behind,
+I really sweated. I thought to myself: “You damned fool. How’d you
+ever get into this?” But I wasn’t about to pull out, to admit that I
+couldn’t hack it.
+
+The Crossfield luck rode with me that day. I sinned, but the Corsair
+was in a forgiving mood. There was no mid-air collision. The whole
+flight came down alive and landed. From that point on I was a Corsair
+man and glad of it. My gunnery score improved. Much later someone
+noticed that my paperwork was not in order for that plane. But it was
+too late then and the fact was overlooked. The outfit was an action
+squadron.
+
+Our squadron skipper was Commander William Flateboe, a married man
+a little older than I, twenty-nine or so. We had served together at
+Corpus as instructors. When he was an ensign at Corpus, Flateboe was
+one of the wildest flat-hatters in Texas, a champion windmiller. When
+we organized the Reserve squadron, he was as conservative in the air
+as an airline pilot. But as the weeks and months dragged on, both
+he and I became restless and bored in the air and a second stage of
+infantile flat-hatting set in. I think I must have logged fifty hours
+flying below the rim of the Columbia River gorge.
+
+In the midst of this flat-hatting renaissance, the thought struck
+me that we ought to legalize our flat-hatting. Thus was born the
+13th Naval District Stunt Team, which in time became one of the best
+aerial stunt teams in the country, and we felt, of course, that it
+was _the_ best. There were four of us on the team: Flateboe, the
+“slot” man, Lou Colvin, a wingman, and an ensign named Bill Helsell,
+my usual wingman; I was the leader. The really remarkable fact about
+this stunt team was that we performed our precision formations in the
+supposedly dangerous Corsair.
+
+Helsell was a fabulous aviator, one of the few men I have known whom
+I completely trusted in the air. He was low on total flying hours,
+and from a technical standpoint he knew and cared little or nothing
+about airplanes, but he was a rare natural pilot.
+
+I first met him in a University car pool. He was the son of a Seattle
+lawyer. He studied engineering at Yale, achieving a straight A
+record; then he switched to law at the University of Washington,
+graduating cum laude. He was a dour-faced lad, outwardly a cynic and
+cold as ice. But that was a mask; he displayed many a kindness but
+feigned annoyance at the necessity.
+
+Formation stunt flying, to my mind, is the quintessence of
+precision, and beyond any doubt it requires much skill and intense
+concentration. All four planes, tucked in as tight as we could get
+them without scraping paint, flew through the air as though locked
+together by invisible steel bars. As the leader, I guided the team.
+The other three planes flew “on me,” adjusting speed in minute
+increments, always keeping their eyes fixed on my plane. If I looped,
+they looped in unison. If I rolled, they rolled in unison. If I
+pulled a Cuban Eight, they pulled Cuban Eights in unison. Had I flown
+straight into the ground, they would have flown straight in with me
+in unison.
+
+I set a hard pace. Striving for perfection and developing a flair
+for showmanship, which is the ultimate goal of most stunt teams,
+we worked at our drills at altitude. When we flew them cold, we
+performed right on the deck, a wingspan above the ground. We were
+soon very much in demand for various events. We felt that even in our
+aging Corsairs we could show the Regular Navy Blue Angels in their
+Bearcats a thing or two.
+
+The original team did not last long. Flateboe was the first to go.
+Something had been eating away at him. One weekend evening while
+working at the base on some papers, he got up and said: “To hell with
+it.” He jumped in an airplane and set a course to rendezvous with one
+of the squadron flights on a training exercise out over the Strait of
+Juan de Fuca. Flateboe overhauled the flight at great speed and wound
+his plane into a gigantic barrel-roll around the formation. That was
+the last anyone ever saw of him. He evidently dived straight into the
+water. Later Colvin dropped out, leaving Helsell and me to carry on.
+
+A subtle shift in emphasis then took place. Showmanship became
+secondary, the spectators unimportant. The stunt team changed into a
+delightful, though perhaps dangerous, aerial contest between two very
+competitive pilots. All attempts to make Helsell cry “uncle” failed.
+This contest reached its peak one day in Astoria, Oregon. I pulled
+out of a giant loop not more than twenty feet above the ground,
+screaming across the airport at 350 miles an hour. A tower, part of
+an adjoining skeet range, loomed in our path, dead ahead. I bore
+on, casually lifting my wing to clear the tower in the last second.
+Locked in beside me, Helsell skillfully followed my maneuver, never
+once batting an eyelash.
+
+“_That_ ought to scare you,” I radioed.
+
+“You’ll have to do better than that, Dad,” Helsell replied.
+
+There was a professional stunt team, a barnstorming outfit complete
+with wing-walkers and a delayed-parachute performer, giving a show
+on the same field that day. After we landed, the leader of this team
+came up to me and said: “Hey, fellow. Do us a favor, will you? Will
+you please stay away from the fields where we’re working? You’ll put
+us out of business.”
+
+I considered that one of the finest compliments ever paid us, but the
+man had no cause for worry. Helsell and I soon put ourselves out of
+business. One day during a regatta on Lake Washington, I led Helsell
+through a low-altitude formation roll over a crowd watching the crew
+races. Such a maneuver was routine to us then (we had logged five
+hundred hours of precision-stunt-flying), although by CAA regulations
+illegal. Probably a hundred amateur movie cameras caught the act. The
+13th Naval District received a mass complaint shortly afterwards and
+restricted us to an altitude minimum of 1,000 feet.
+
+“Hell,” I said, “at 1,000 feet it’s no fun.”
+
+“I know,” the Old Man said, “but that’s an order.” He abruptly ended
+the conversation. And with that the stunt team folded.
+
+Working with that team, working that fine artistry in Corsairs, was
+one of the most rewarding periods in the air I have ever experienced.
+Every second of each maneuver was a supreme satisfaction, a delight
+akin to playing fine music.
+
+With me the bad always comes with the good. The most humiliating
+experience I had in an airplane occurred during a routine drill with
+VF-74. The fact that I was a party to this fiasco has stuck like
+a lance in my side ever since. It seemed impossible that our fine
+outfit could pull such a blooper. It began one day while we were on
+two weeks’ active duty, flying out of Sand Point.
+
+It seems that the Naval Reserve unit in land-locked Denver, Colorado,
+was having difficulty in stirring up public interest and getting
+recruits. Someone conceived a grandiose plan: our whole air group,
+including VF-74, some twenty-five fighters and fifteen torpedo
+planes, would fly to Denver en masse and land amid contrived hoopla
+and press coverage. As a good-will gesture and public relations
+stunt, we would bring along an ice-packed salmon caught that same
+day in Puget Sound and present it to the mayor of Denver. Afterwards
+there would be a big official dinner party, more hoopla, and finally
+a gay time for us on the town, we hoped. We packed our smartest
+uniforms and took off.
+
+Disaster struck the torpedo planes flying in separate formation.
+Caught in a bad storm, they were forced to land on a field in Helena,
+Montana, in a stiff ninety-degree crosswind. The long crosswind taxi
+of these cumbersome birds burned out the downwind brakes on several
+of the planes. With no brakes the planes were finished, grounded. The
+salmon, a key item in the good-will gesture, was on board one of the
+torpedo planes. It never left Helena.
+
+The remaining airplanes, our twenty-five fighters, first ran into
+trouble at Ogden, Utah, when we landed to refuel. Fifteen of us took
+off without difficulty, but the engine of the sixteenth plane conked
+out on the narrow taxiway, blocking the remaining nine planes. They
+could not get into the air until the disabled plane was towed out of
+the way. The fifteen of us waited at altitude for a quarter of an
+hour, then radioed that we were pushing on alone. After all, there
+was a huge reception gathering at the Denver airport and we couldn’t
+be late. No, sir.
+
+We were falling behind schedule now and our leader elected to
+bypass the ordinary roundabout air routes and steer a direct
+course for Denver, about four hundred miles away. This course
+led us directly over the Continental Divide and some of the most
+desolate, mountainous country in the world, which from 15,000 feet
+had a remarkable sameness about it. I laid out a course on a chart
+but, as was customary in fighters, let the flight commander do
+the navigating. He miscalculated a compass heading and we drove
+on, aiming considerably south of Denver, all of us thinking he had
+reasons of his own for this course.
+
+After some time I was convinced that we were steering too far to the
+south. The same feeling overcame the other thirteen pilots in our
+formation. Suddenly the radio was alive with chatter and debate. The
+skipper broke in and said: “If I’m right, then in four and a half
+minutes we’ll pass over Waldron, Colorado.” Precisely four and a half
+minutes later we passed over a town on the fork of a river which
+resembled the plan of Waldron on the chart. There was an airfield on
+the opposite bank which seemed to confirm positively the skipper’s
+navigation. However, to make doubly sure, I peeled off and dived into
+the valley to check the name on any available sign. I missed signs
+but spotted a large “W” painted on the mountainside. It was Waldron,
+all right, I thought. The skipper was correct.
+
+Actually we were over Gunnison, Colorado, considerably to the south
+of Waldron. Gunnison, too, is located on the fork of a river with
+an airfield on the opposite bank. The “W” on the mountainside had
+nothing to do with Waldron. It was put there by the students of
+Western State College in Gunnison.
+
+Led astray by this strange set of coincidences, we flew on following
+the skipper, who predicted a second town lying ahead, Fort Collins.
+Twenty seconds later a town passed beneath our wings.
+
+“We are now forty miles north of Denver,” the skipper said. “Close
+into parade formation.” We pulled our planes together in neat
+formation, following the highway straight into Denver, or so we
+thought, then about ten minutes away. We flew and flew and flew.
+Fifteen minutes passed, but no sign of Denver, no familiar big-city
+haze, no gradual build-up of traffic on the highway, no increase in
+housing. On the contrary, the countryside looked, if anything, more
+desolate. Helsell, who usually had little to say, piped up sourly:
+“I’m logging a strong Las Vegas, New Mexico, beam.” Now we were very
+concerned. Time was ticking away.
+
+Again there was a confused debate on the radio. In the midst of it
+we passed over still another small town. I peeled off and buzzed
+it. The Rotary Club sign on the highway at the city limits read:
+“Alamosa.” Alamosa? No one knew where this could be. It was off our
+charts. Nine of our planes, low on fuel, pulled out of formation and
+landed at Alamosa.
+
+I radioed my wingman, Bill Helsell:
+
+“Nuts. I’m going to find Denver. You want to come with me?” He did,
+of course, so we cleared with the skipper and took off on our own,
+fiddling with our radios, trying to pick up a station, any station.
+Thunderstorms all around us gave little but static.
+
+Regretting now that I had not carefully tracked the skipper’s
+navigating, I retraced our course from memory on my plotting board.
+We had indeed come too far south and Denver lay to the northeast of
+us. We flew in that direction. Soon we picked up Trinidad radio,
+which I knew was south of Denver, but still off our charts. We
+homed eastward on Trinidad and then turned due north, on course to
+Denver at last. We picked up Pueblo radio beacon as expected. Homing
+on Pueblo, we flew into a very black thunderhead full of rain and
+lightning. In that weather we lost the Pueblo radio signal. Minutes
+later we relocated ourselves by radio. We had passed Pueblo, which
+was under the storm. We couldn’t see the ground.
+
+Long overdue in Denver, the authorities there became concerned about
+us and sounded a disaster alert. They figured we had exhausted our
+fuel. The Navy, the Civil Air Patrol, the Air National Guard, and the
+Lord knows who else, took to the air in search of fifteen Navy planes
+downed somewhere on the Continental Divide. The nine fighter planes
+blocked on the runway in Ogden had finally made it, sans fish, to
+Denver. There was great confusion at the airport over whether to wait
+for the lost planes or begin the ceremonies with the nine pilots.
+
+Helsell and I were doing our damnedest--almost. Used to conserving
+fuel, another of our private competitions, we were still in the air
+looking for Denver. Every time we saw a house we zoomed down to see
+if it held a clue. Convinced that Denver lay to the northeast, I made
+one more attempt to find it. We flew northeast and came up over a
+ridge right into the face of another black line of thunderheads. I
+began to lose heart. It was almost dark, we had only a half-hour’s
+fuel, the radios yielded only static. To plunge into that
+thunderstorm flying blind, in the Rocky Mountains, with the distance
+to Denver unknown, could be idiotic.
+
+“What do you think?” I radioed Helsell.
+
+“Do _you_ think we should turn back?” he answered.
+
+“Yes,” I said.
+
+“So do I.”
+
+And turn back we did, searching for the nearest airfield. At the
+point of turning we were exactly twenty-three miles southwest of
+Denver, or about six minutes by Corsair. The thunderstorm line was
+thin and lying on the last ridge before the midwestern plains.
+Denver was clear as a bell. If we had pressed on for six more
+minutes, we would have landed, salvaging part of the day, heroes,
+pride of the Navy. Instead we were bums. We landed on a mountainside
+field--elevation 9700 feet--in a small town called Fairplay,
+Colorado, and joined the skipper and three other pilots who had
+followed the same course.
+
+When I found how close we had come, I was mortified. The next day
+when we got to Denver, after the Navy sent a gasoline truck to refuel
+us, I was even more mortified. Captain Greber flew down from Seattle
+to chew us out.
+
+“I can understand the torpedo planes grounded in Helena, out of
+commission,” Greber said. “I can understand one plane, or maybe two
+planes, getting lost. By really stretching my imagination I can
+conceive of maybe six planes getting lost together. But fifteen
+airplanes, in largely clear weather on a four-hundred-mile flight! An
+hour-and-a-half hop. It’s beyond belief.”
+
+He was right. It was the most incompetent, unprofessional, ridiculous
+performance I had ever seen in the air, one that I could have
+tempered if I had held to my convictions and not quit. Worse was the
+fact that my decision also made Helsell look like a chump.
+
+This brilliant maneuver did little to boost recruiting in Denver,
+but it brought VF-74 fame of a different sort in Navy circles. For me
+it was a great personal lesson. Not once since then, either on land
+or in the air, have I ever turned back from any course that I set
+upon, no matter how dark the clouds that lay ahead.
+
+
+
+
+CHAPTER 12 ►
+
+ _A Short Man with Santa Claus Eyebrows_
+
+
+During my four years at the University of Washington, from 1946 to
+1950, the free-thinking, curious, intellectual atmosphere was a
+pleasure and a delight to me. I ate it up. Most of this time I held
+firmly on my course, but there were brief interludes when I was
+buffeted by contrary winds. Once, as I related at the beginning of
+this account, I was ready to chuck it all to fly the Bell X-1 rocket
+plane. On the opposite tack briefly, I seriously entertained the
+idea of remaining at the University as a teacher. For a time, at the
+University, my mind became overly absorbed in detail of theoretical
+analysis. A man named Seeger reversed this trend and sent me on my
+way.
+
+From the outset, my father warned me against becoming an academic
+bum, an all-too-familiar figure on our college campuses. “Let’s be a
+little careful here,” he said. “You don’t have the patience to be a
+pure theoretician. Your inclinations are to see things grow out of
+ideas and theory; you’re interested in things, pieces of hardware,
+that you can feel with your hands, proofs of theory.”
+
+This may have been a calculated taunt; I’m not certain. In any case,
+the remark stuck in my craw. It was a clear challenge, and it spurred
+me into a pile-driving effort at the University. Over the gentle
+protests of my academic adviser, I registered for an extraordinarily
+heavy load of classes, with the full knowledge that I had mapped out
+a grueling course of work and study. Since boyhood, long hours and
+hard work were routine for me. Every course of my free choice was
+“engineering,” applications of theory to adapt the things of nature
+to man-made shape.
+
+Alice and I readjusted to an austere budget. My income dropped
+drastically from Navy days, and we drew heavily on our savings to
+bolster the GI Bill income of about $90 a month. We moved into a
+microscopic apartment in a temporary wartime housing area. Here in
+this space, decorated with a few sticks of furniture, I studied until
+one or two every morning while Alice read or listened to the radio
+through some earphones I had rigged.
+
+The earphones didn’t last long. Whenever anything funny was said on
+the radio, Alice would naturally burst out in laughter. This was a
+weird experience--to sit in a small room with somebody who laughs
+periodically for reasons unknown. In time, rather than put up with
+that, we chucked the earphones and I resorted to natural powers of
+concentration.
+
+Our wants were quite modest and we purposely avoided the heavy social
+life of the University campus, but the rising cost of living forced
+me to seek part-time work. Alice, who found that the tiny apartment
+left her with time to kill, returned to the telephone company and
+took a job operating a small switchboard in the evenings while I
+studied. My first part-time financial venture, a car-repair business,
+was a flop. I enjoy working with my hands and tinkering with engines.
+But I made an ill-timed bid to repair a fleet of company cars and
+lost my shirt. After that I took the job in the University’s wind
+tunnel at fifty cents an hour.
+
+From the outset I was completely fascinated by that job. A wind
+tunnel is basic and fundamental. Here airplanes are born and grow to
+perfection. Here the imperfections are discarded--at least, that is
+the final objective. Here a man’s idea in miniature is tested against
+the great forces and laws of nature. Here the airplane grows to life,
+amid a thousand calculations and tests.
+
+The wind tunnel was for me a happy combination of study, theory,
+model airplanes, wonderful machinery, and work. Not surprisingly, we
+found that a pilot has a natural aptitude for wind-tunnel operations.
+Several other pilots were on the staff.
+
+Our tunnel team, mostly World War II veterans such as Joe Tymczyszyn,
+was a conscientious, energetic group. We devised new techniques to
+increase the efficiency of the tunnel and, as a result, set new
+records for operational speed and data output. The work was no
+schoolboy drill. It cost a company about $1,500 a day to use the
+tunnel. Company engineers were usually on hand when we ran the tests,
+and for us students this contact with the men in the industry was
+invaluable. In time I was promoted to Chief Operator of the tunnel
+and my salary was raised accordingly.
+
+Older and wiser now, I retraced a path through two years of basic
+college engineering. Then I advanced to my major, aeronautical
+engineering. In spite of my heavy academic load and the part-time
+work in the tunnel, I was so much in earnest that I was able to make
+all A’s and B-pluses in my courses, graduating in June, 1949, with a
+bachelor of science degree. I was elected to Tau Beta Pi and to Sigma
+Xi, the honorary scholastic societies for science and engineering. My
+father, a Sigma Xi, was surprised.
+
+Now ready to go on for my master’s degree, I was determined not to
+hang around and be an “academic bum,” as my father so tersely put
+it. I’d allow one school year, three quarters, not recommended, but
+I felt it necessary to set a limit rather than mark time waiting
+for an end point to appear. This may have been a mistake; my
+responsibilities were growing. Our oldest daughter, Becky, was a year
+old. Alice had left her job before Becky was born. After a few months
+the hard pace began to tell. I was wearing down--but too stubborn
+to admit it. My father got wind of this and stepped in. After
+elaborate subterfuge to avoid “helping” me, he lent me money that
+made it possible for me to give up all part-time work and concentrate
+exclusively on my studies. I was very grateful and studied all the
+harder. The loan meant that I could complete my course in three
+quarters, as planned.
+
+The University of Washington graduate course in aeronautical
+engineering is considered one of the best in the country. I found it
+lacking in one important respect. I felt that too much emphasis was
+placed on theory and philosophy and not enough emphasis strictly on
+engineering.
+
+My father was absolutely right in this respect: I am no theoretician.
+I deal best with application of ideas, not theories. Since, under my
+concept of it, I was working for a master’s degree in engineering,
+not theory or scientific philosophy, I became impatient with the long
+hours of theoretical work, the hypothetical cases which required
+abstract analysis and had no example in nature. I longed to deal
+with specific problems against which I could apply natural physics
+and come up with a physical solution. My approach brought me into
+frequent and sometimes stiff conflict with the graduate-school
+professors, most of whom were theorists at heart, like my father.
+
+The time came to submit my thesis. Nowadays, regrettably, theses
+are not required for master’s degrees at most schools. According
+to the concept, I was supposed to make a “new contribution to the
+art or science of aviation.” Most of my fellow students presented
+theses which contained some elaborate mathematical analysis. I tried
+something different. My thesis was “A Semi-Empirical Method of
+Obtaining Static and Dynamic Aerodynamic Parameters of Swept-Back
+Wings Analyzed on a Basis of Plan Form.” It was, if you please, a
+new and simplified method of predicting aerodynamic characteristics.
+It could be done with a slide-rule in a matter of minutes in place
+of hundreds of hours of computing-machine time. It was a tool to be
+used to attain adequate accuracy but replace the laborious rigid
+mathematical methods which were guesses anyway. It was influenced by
+my work in the wind tunnel and was, I think, a profitable blending of
+theory and practical application, the essence of engineering.
+
+This thesis stirred up tremendous consternation among some of the
+professors. One problem was that it wasn’t long enough, or didn’t
+weigh enough, for a master’s thesis. My wish was that I could have
+cut it to one page. Their position was certainly understandable. I
+hoped that mine was. The paper was accepted, probably by default. The
+faculty, who were all respected friends, agreed to let me disagree
+and certainly were not of a nature to flunk me for disagreeing.
+
+ * * * * *
+
+I think Alice has a slight touch of claustrophobia. She soon tired
+of the four walls of our small apartment and set out house-hunting
+around Seattle. One day she came home bubbling with news of a
+two-bedroom house in Clyde Hill, a section of Bellevue which almost
+fit our budget. The house was really charming, set in the middle of a
+small cherry orchard on a hillside. We splurged and moved in.
+
+The house was owned by an amazing character named Oscar Seeger, who
+lived on an adjoining tract of land. Seeger, a short man with Santa
+Claus eyebrows, was one of the most direct and dynamic men I have
+ever met. One night when he visited us, Alice suggested our house
+might be improved by installing a counter between the dining ell and
+the kitchen. Without a moment’s delay Seeger found a saw and ripped
+out an eight-foot section of the wall. The finished job was not
+thorough, but neither was it unsightly. I was somewhat stunned by his
+speed and skill.
+
+Seeger was the president of a small electrical contracting company.
+During World War II he tentatively branched into the manufacture
+of small aircraft accessories for Boeing--wash basins, seat arms,
+tables, and the like. When he discovered that Alice and I were
+scraping bottom financially, he arrived at the house one day with his
+company’s billing lists and asked if I would type and mail them out.
+(I had learned to hunt and peck on my father’s 1910 Corona portable.)
+For a time this billing was a regular monthly job. It helped
+Alice and me considerably. Later when Seeger had to submit formal
+blueprints on some job, I drew them for him on my drafting board set
+up in the bedroom. And after that we became very close friends.
+
+One day Seeger made me a business proposition. The airlines, he
+said, were asking for bids on 20,000 aircraft tables. Seeger located
+some surplus aluminum material which he thought he could get for
+a low price. If I designed the table, he said, and drew up the
+specifications, he would take care of the manufacturing. We would
+split the profits on a percentage basis which, the way Seeger
+presented it, was very generous--too appealing to ignore, in fact.
+
+Designing a table is no great feat, but I wanted to do it right for
+Seeger. I made a federal case of it. I set out to design the perfect
+aircraft table. I worked for hours, days, weeks. That damned table
+absorbed me as deeply as my studies at school and the Navy stunt
+team. Seeger became impatient.
+
+“Look, Scotty,” he said. “You’ve got the wrong idea about life.
+You can’t waste your time trying to design the perfect table. The
+important thing to do is design a table that will do the job, win the
+contract, and bring in the money.”
+
+“When I do something, I like to do it right,” I replied. I thought:
+Seeger is not an opportunist, but how different he is from my father,
+the absolute perfectionist.
+
+“We all try to do the best we can, Scotty. But do you realize that
+you could spend the rest of your life trying to design the perfect
+table? Did you ever see a table with four legs precisely the same
+length? The thing to do is give it all you’ve got for a reasonable
+time and then move on to something else. Absolute perfection is
+highly desirable but unattainable.”
+
+Reluctantly I hurried the design of that table. At the last
+minute--just under the wire--we got our bid in to the airlines.
+To my complete astonishment, we won. Seeger’s generous percentage
+brought in a nice piece of change. But more important, perhaps, was
+the total, amazing impact of Seeger. He gave me a new perspective on
+life. I gave up trying to build a table with four legs precisely the
+same length. From then on, I made the decision that the important
+thing was to do a job well, to the best of my ability, and move on.
+Had I not, it is possible that I might still be at the University,
+seeking perfection in my studies, or in the wind tunnel, or else
+energetically at work in some shop, striving to build the perfect
+valve or cotter key. Instead I moved on to Edwards.
+
+
+
+
+CHAPTER 13 ►
+
+ “_Barefoot Boy with Cheek_”
+
+
+It was a sparkly clear spring day in the desert, about eight months
+after I joined NACA at Edwards. When the Air Force B-29 mother
+plane reached 8,000 feet, its pilot, Captain Pete Sellers, passed
+that fact over the intercom. It was a signal to me: aft in the
+bomb-bay compartment, converted to nest the X-1 in the bomber’s
+belly, I climbed on the small elevator--a plank with aluminum-tubing
+guard-rails--hitched up my chute, and waved to the launch operator,
+Eddie Edwards. The elevator descended slowly through the bomb-bay,
+and presently I found myself precariously suspended over the
+wide-open spaces, battered by the slipstream. The vast, desolate
+desert lay in unobscured view in all directions.
+
+The X-1 “door” was on the side of the airplane. Thus it could not
+be entered, like the Skyrocket, from the mother plane’s bomb-bay
+compartment. The pilot had to go outside, below the mother plane.
+The elevator, seemingly a crude way to get to the X-1, was actually
+considered plush. In the early stages, back in 1947, Chuck Yeager had
+to climb down a ladder into the whipping slipstream.
+
+I eased into the cramped X-1 cockpit and waved my hand. The elevator
+ascended and presently came down again, bearing the X-1 door, which
+had been placed inside the bomb-bay compartment before take-off.
+I set it in place and dogged the handles shut from the inside. In
+preparation for my first flight in the X-1, I had practiced this
+maneuver several times on the ground.
+
+Actually, that day, the fitting of the door in place was much more
+difficult than I have made it out to be. The reason was that I had
+three broken ribs. This minor calamity had occurred several days
+earlier in the hangar while I was skylarking with the mechanics. I
+had playfully grabbed one by the seat of the pants and thrust him
+through the stockroom window. As his head disappeared over the sill,
+his feet came up and accidentally smacked me in the chest, cracking
+three ribs at once. I had sworn him and the others to secrecy. I knew
+that if Williams or Vensel found out, I would be grounded for a long
+period.
+
+There were two additional NACA pilots at Edwards then, Walt Jones
+and Joe Walker. Walt Jones, about 25, had been hired about the time
+John Griffith left NACA. A graduate of Purdue, he had served in the
+Air Force with Griffith. A handsome man, the son of a minister, he
+was short on flying hours but showed great potential. He later left
+NACA and was killed test-flying for Northrop. Joe Walker, my age, was
+an Air Force veteran of World War II, who had worked at NACA’s Lewis
+Lab. A superb foul-weather pilot, Walker specialized in de-icing
+experiments at Lewis. Walker was a Pennsylvanian, but he talked like
+a West Virginian, and had a slow easy-going manner and a toothy
+smile. But Jones and Walker were new to Edwards, and the demands on
+NACA were increasing. So I had my chest taped and flew anyway.
+
+My flight that day in the X-1, as planned, was nothing sensational;
+simply a check-out flight. By then, not surprisingly, I had acquired
+a reputation for encountering an emergency on first flight. I was
+determined that the X-1 check-flight would go off without a hitch.
+
+After I had dogged the X-1 door in place, there was still a long
+and monotonous climb to our drop altitude of 30,000 feet. I snapped
+my lap belt and shoulder harness and settled back, sweeping my
+eyes across the instrument panel, checking the pressures in the
+rocket-fuel tanks and other systems. Everything was normal, or as
+near-normal as it is possible to come in a research airplane.
+
+The X-1 was old then--going on six years--but she was still the
+fastest and best research airplane at Edwards. The main reason for
+this was the fact that the plane was a model of simplicity. When Bell
+had been assigned the job of designing her in 1944, they had ably
+and swiftly tamed a wide frontier of aerodynamic unknowns. They knew
+that a .50 caliber bullet had been fired supersonically, so they
+shaped the X-1 like a bullet. They stuck on a pair of thin, straight,
+stubby wings and a Navy-sponsored rocket engine, built by Reaction
+Motors, Inc., a small outfit working out of a garage in New Jersey.
+From beginning to end, Bell’s Chief Engineer Robert Stanley insisted
+on simplicity. The control system, instrument panel, landing gear,
+everything about the plane, were deliberately and forcefully held to
+a minimum of complexity.
+
+Stanley’s approach to research airplanes had paid rich dividends a
+hundred times over. After Yeager had cracked the sonic wall, and
+Pete Everest had climbed to 73,000 feet in the X-1, a dozen other
+test pilots had flown the ship during 1948, ’49, and ’50. _Glamorous
+Glennis_ was in the Smithsonian, but our X-1 had already logged a
+total of maybe forty-five flights. They had provided tons of data
+without a single flight casualty. It would continue to fly off and on
+over the next few years, providing data in the trans-sonic area and
+a never-ending challenge for its pilots. In its day, the X-1 was the
+king of the hot-rods.
+
+Approaching launch altitude, I got set for my first X-1 drop, priming
+the rocket engine, building up pressures in the fuel system. My
+chase pilots that day were Air Force Majors Jack Ridley, an old X-1
+hand, and Pete Everest. Tucked in close under the tail of the B-29,
+they watched the puffs of vaporized fuel snaking out prime lines and
+reported:
+
+“Prime looks good.”
+
+B-29 pilot Pete Sellers began the countdown. Suddenly I recalled a
+humorous incident which had happened one time when Bob Champine, the
+pilot I replaced at NACA, had reached this stage of an X-1 flight.
+It had been no fault of the plane, just a simple language snafu.
+An ex-Navy pilot, Bob always spoke in Navy terminology in the air.
+Seconds before launch, the pressure gauges fell off, and he decided
+to cancel the flight. From the cockpit of the X-1 he snapped on the
+radio: “Secure the drop.”
+
+Dick Payne, in the bomb-bay compartment, was then working loose the
+pins in the shackles which held the X-1 in its belly nest. Accustomed
+to working with Air Force pilots, Payne thought “secure the drop”
+meant “go ahead and complete the drop.” Champine had loosened his
+lap belt and was on the point of crawling out of the X-1 side door
+to return to the bomb-bay when his plane suddenly fell away from
+the bomber. Luckily he had time to snap himself down. From then on,
+“secure the drop” was used to rib all of us ex-Navy types.
+
+To achieve a good launch from the mother plane it is vital that
+the research plane be in proper trim. This means that the plane’s
+controls should be set for full fuel tanks. A pilot _could_ correct
+the control trim after launch, but an overly nose-up or nose-down
+setting at the moment of launch _could_ cause the plane to take off
+on a wild gyration.
+
+The X-1 stabilizer was always set on “trim” on the ground before
+take-off. That morning I had watched the engineer working with a
+template and inclinometer, attempting to align the stabilizer chord
+with the wing chord. I had done this many times on models in wind
+tunnels and knew it was quite easy to make a mistake. I had asked
+a few questions but the engineer replied, in effect, that he knew
+what he was doing. I was still feeling my way then with the ground
+personnel. I let it go.
+
+As it turned out, the engineer _had_ made a mistake. The X-1 was
+launched with a full degree in excess of normal stabilizer trim. The
+result was spectacular. When I dropped away from the mother plane,
+the X-1 pitched, stalled, and flipped on its back.
+
+Chase pilots Pete Everest and Jack Ridley, who had been flying
+beside me, quickly searched the skies, wondering where I disappeared
+to. When Pete spotted the X-1 below them, upside down, he was
+dumbstruck. At last, he found his voice and, with the aplomb he could
+always muster, spoke on the radio:
+
+“Well, _that’s_ certainly a new way to launch!”
+
+There was no use in blowing my stack, I thought. The launch was
+hopelessly botched. It was now clear to me that on first flight of
+any plane I was jinxed, and there was no reason to fight it. The
+thing to do now, I thought, was to make a respectable recovery from
+an impossible start. Get the plane right-side up, light off the
+rockets, and go for broke.
+
+I rolled out, cranking the stabilizer back to normal trim, and then
+I fired all four rocket barrels. When they caught, the X-1 lurched
+ahead, picking up speed. I held the nose steady and climbed. But
+there was no chance for high speed on that flight. During the
+unorthodox launch and recovery, the X-1 had fallen too far into the
+thick atmosphere. Drinking fuel at better than a ton a minute, her
+engine, I knew, would sputter and die in another eighty seconds. I
+focused all my attention on maintaining a positive gravity (positive
+G) pull on the airplane. If I porpoised and lost it, including
+weightlessness (zero G)--that unusual sensation one sometimes
+experiences in a fast-falling elevator--the fuel flow to the engine
+would stop, closing it down prematurely. At least I would try to
+avoid that.
+
+I did. I was hitting about Mach .9 and going through 41,000 feet
+when the last of the fuel whipped through the engines. The four
+barrels of the rocket engine blew out almost simultaneously, each one
+making a noise like a pop-gun. Following that, the X-1 was a tomb
+of silence. Except for the crackle of static in my earphone, and a
+gentle scrubbing of air on the fuselage skin, there was no earthly
+sound. I was now flying a glider--one of the world’s heaviest and
+fastest--which I would have to sail back to Rogers Dry Lake alongside
+Edwards Base.
+
+If misfortune had dogged my flight thus far, it was nothing compared
+to what happened next. Quick as a wink, on base leg for landing,
+the whole windshield was blanketed by a thick coating of ice. I was
+sealed in--blind as a bat. This time the cause was not attributable
+to the failure of machinery. The X-1 defogging system was simply too
+weak. On humid days it was not unusual for considerable moisture to
+collect inside the X-1 cockpit on the climb to pilot boarding-point
+while the door was off. At high altitude this moisture turned to ice.
+It was my first-flight luck to go aloft on a very humid day.
+
+When I reported an iced windshield on the radio, I received little
+sympathy from my fellow pilots. Jack Ridley laughed over the radio
+and, in his strange, falsetto voice, cracked: “Funny, isn’t it? Same
+thing happened to me the other day.” Both pilots joined me quickly,
+however, and pulled their fighters close in to my wingtips, standing
+by to guide me back to the lake-bed landing, if necessary. An old
+hand with iced windshields by now, I banked around and, with help
+from Ridley, lined up on the lake.
+
+By Hollywood standards, by now I should have been overwhelmed by
+fear. Beads of perspiration should have been popping out on my
+forehead, and my hand should have been trembling on the stick. Alas,
+such was not the case, nor have I ever known it to be amongst my
+fellow test pilots.
+
+So many people have asked me so many times whether I have ever
+experienced “fear” in the air that I have been compelled to think
+about this word and analyze it. My conclusions may be far from
+complete and slightly inarticulate, since I believe this word falls
+into the realm of philosophy, which is not my strong point. Fear, I
+think, is something that a man feels when faced with an unknown--when
+in spite of his background and experience he runs out of things
+to do. In a mechanical device such as a fast-moving airplane, an
+unexpected or unpredicted emergency often happens suddenly, and it
+is startling. Perhaps it is comparable to walking up behind a child
+and shouting “Boo!” The child is startled, and this is a better
+word than “fear” to describe the initial moment, I believe. If the
+circumstances are fairly routine, the child follows a pattern of
+action. He turns to see what has startled him. Observing the cause,
+he laughs away his concern. There are exceptions, of course--a
+startled child in a strange or hostile environment, for example,
+which may make a lasting impression.
+
+Pilots are occasionally startled like everyone else. The normal
+reaction to being startled, like the child’s, is to look for the
+cause. The pilot learns from long experience to determine this cause
+swiftly and positively. Then, in place of the child’s immature
+laughter, he turns to action. There are set procedures to put matters
+straight again. If, for example, a fire-warning light suddenly
+flashes on the instrument panel of a propeller-driven airplane, there
+are prescribed routines. The pilot shuts down the engine, cuts off
+the fuel lines, dumps a fire-extinguisher foam into the cowling, and
+feathers the propeller so that it does not cause unnecessary drag on
+the surviving engines. Then, if necessary, he must look for a field
+and land. If a pilot is certain of a bad fire in a jet, there is one
+prescribed procedure: get out fast in the ejection seat.
+
+When startled by an emergency, pilots whose minds dissolve into a
+frenzy which delays, interferes with, or prohibits corrective steps
+ought, I believe, to get into some other business. Beads of sweat on
+the forehead should come only from hard work or too much clothing; a
+trembling hand on the stick only from a hangover.
+
+Men who climb mountains don’t experience fear when faced by
+some crisis. They take the necessary steps to avoid the crisis.
+Experienced divers don’t melt into a panic when they face an
+aggressive shark underwater. They take the necessary counteraction.
+Ship captains don’t give up in despair when their craft founder. They
+launch the lifeboats.
+
+These are cases where the emergency comes swiftly and in an
+environment that seems to attract the purple-prose experts. But men
+and women in other walks of life face grave, unheralded emergencies
+every day of the week. Consider the ponderous emergencies big
+financiers must slide into as they deal on the stock exchange day
+by day. Or surgeons who probe the human body, or mothers who must
+deal promptly with gagging children. We never think of these people
+as dissolving into fits of fear, yet their responsibility may
+outweigh the lone pilot in his craft by a factor of a thousand or ten
+thousand. If something goes wrong, they take the necessary steps to
+settle it favorably. The incident is rarely noted publicly, as are
+the pilot’s emergencies.
+
+I suppose there are many people who go through all of life beset by
+a variety of fears. It could be fear of disease, of professional
+failure; fear of love or of not being loved; fear of the neighbors;
+fear of government, or their leaders, or fear of fear itself. All
+these people, in my book, would fare better in this life if they
+probed the cause of this fear, if they don’t know it already. Once
+the cause were known, they could, or should, take the proper action
+to right the situation, and rid themselves of it. This could even
+apply to those people who live in slave nations, under a constant
+so-called reign of fear of a different order. Witness the birth of
+this nation.
+
+I have been startled in an airplane many times. This, I may say, is
+almost routine for the experimental test pilot. But I can honestly
+say I have never experienced real fear in the air. The reason is that
+I have never run out of things to do.
+
+Some day I might. Conceivably, I might be locked helplessly in the
+cockpit of a burning airplane in a death spiral, unable to take any
+further action to save my life. Facing certain death which I was
+powerless to forestall, I might very well be overcome by fear. But
+for me this would be a very special kind of fear--a fear of coming
+face-to-face with a strict God who might look askance on the ways of
+a test pilot--and not be talked out of it. But so far I have been
+spared that ultimate confrontation.
+
+ * * * * *
+
+What concerned me that afternoon on my first flight in the X-1 was
+the landing--the possibility I might wind up in the ever-growing
+“Nose Wheel Club.” The X-1 had a most peculiar behavior pattern just
+at the moment of touchdown. In the final flare-out, when the three
+wheels were reaching for the ground, the plane sometimes bounced
+skyward without warning. Ordinarily a pilot in a plane that behaved
+thus would push forward on the stick and bring the nose down. If he
+did this in the X-1, the nose slammed hard and caved in the nose
+wheel. That master pilot, Yeager, had discovered by his native skill
+that if the pilot were to violate all his instincts and pull _back_
+on the stick, the plane would recover and grease on with no damage.
+Only Yeager and a few other pilots had avoided the Nose Wheel Club.
+It was no disgrace to prang a nose wheel, and to avoid it was a fine
+point of flying indeed, but I intended, as a matter of pride, to stay
+out of this club. The iced windshield, however, vastly complicated my
+first X-1 landing and made my nomination almost certain.
+
+As my altimeter unwound rapidly, I searched the X-1 cockpit for a
+rag, a tool, anything I could use to rub off the coat of ice. There
+was nothing. I had no handkerchief in my flying coveralls. But
+wait....
+
+I loosened my shoulder straps and bent over, pulling at the
+shoestrings of the low-cut oxford shoe on my right foot, thanking my
+lucky stars I hadn’t worn flying boots. In two seconds I had the shoe
+off. Then I took off my right sock and replaced my bare foot on the
+right rudder bar. The metal was frightfully cold. My foot clung to
+the bar stickily, like one’s hand on the bottom of an ice tray just
+out of the freezer. Using my cotton sock as a scraper, I rubbed hard
+in one spot on the front windshield, just over the instrument panel.
+
+By the time we had descended to 5000 feet--gliding like a brick--I
+had worn a small hole in the ice, enough to permit me to see the
+X-1’s nose and the long desert lake bed stretching ahead. I squinted
+one eye and fixed the other on the small hole like a peep-sight,
+lining up the parallel black lines painted on the dry-lake floor.
+Ridley was droning off my decreasing altitude, but I didn’t need him.
+I flared out at 135 miles an hour.
+
+I brought the stick back slowly; the air speed got low and the right
+wing dropped sharply, scraping the desert floor as I touched down. I
+threw the stick to the left at just about the moment the nose wheel
+touched. The X-1 rolled out straight and level, rumbling firmly
+across the hard-packed silt. The nose wheel held.
+
+The usual caravan of vehicles, trailing a huge rooster-tail of dust,
+tore out across the lake and clustered around the small white bird.
+When I undogged the X-1 door, a mechanic lowered it to the ground. I
+climbed out--with my right foot bare as a baby’s behind.
+
+Someone shouted: “Where is your right shoe?”
+
+When I held it aloft for all to see, another voice cried: “Barefoot
+boy with cheek.” Then they all broke into laughter. I knew that at
+Edwards, at least, I had it made.
+
+[Illustration: My maternal grandfather, Thomas A. Dwyer, my
+grandmother, Paula, and their children. My mother, Lucia, is third
+from right.]
+
+[Illustration: My paternal grandfather, Judge Amasa Scott Crossfield.]
+
+[Illustration: My mother, Lucia, just after her marriage.]
+
+[Illustration: My father, Albert Scott Crossfield.]
+
+[Illustration: Elena Ruth, Mary Ann, and I, 1928.]
+
+[Illustration: Our home in Wilmington, the eucalyptus tree at right.]
+
+[Illustration: Carl Lienesch.]
+
+[Illustration: McNulty’s Inland Sportster and budding aviator, 1935.]
+
+[Illustration: Farmer’s son, 1937.]
+
+[Illustration: Showing prize Guernsey bull.]
+
+[Illustration: With seaplane models, 1932.]
+
+[Illustration: This gas-powered model logged over 1,000 flights.]
+
+[Illustration: The radio-controlled model with geodetic construction.]
+
+[Illustration: A corner of my shop on the second floor of the
+farmhouse.]
+
+[Illustration: High school graduate, 1939.]
+
+[Illustration: The ill-fated Taylorcraft.]
+
+[Illustration: Aspiring cadet, 1942.]
+
+[Illustration: My home for almost two years, an SNJ over Corpus
+Christi.]
+
+[Illustration: Dive bombers in Jacksonville, 1944. Rear-seat men
+kneeling, SBD airplane in background. I’m standing second from left.]
+
+[Illustration: F6F fighter pilot, Pasco, Washington, 1945.]
+
+[Illustration: Corsair pilot, 1946.]
+
+[Illustration: A few of the veterans of the Denver fiasco returning
+to Seattle, 1947, much subdued. I’m on extreme left.]
+
+[Illustration: Alice and I visiting the farm in 1947. Our Dalmatian,
+“Cadet,” in the center.]
+
+[Illustration: Beginning a new circle. Tommy tries on the helmet. NAA
+photo.]
+
+[Illustration: My mother in 1947.]
+
+[Illustration: My father in 1947.]
+
+[Illustration: The family, 1960. Photo by John Bryson.]
+
+[Illustration: The X-1, rocket engines ablaze, is tested on the
+ground. Bell photo.]
+
+[Illustration: Preparing to mate the X-1 to the mother plane. Bell
+photo.]
+
+[Illustration: The X-1 snugged into position. Bell photo.]
+
+[Illustration: The X-1; straining for altitude. USAF photo.]
+
+[Illustration: “Slick” Goodlin going down the elevator to enter the
+X-1 cockpit. Bell photo.]
+
+[Illustration: Three ... Two ... One. Drop! Bell photo.]
+
+[Illustration: The X-1, rocket engines ablaze, is tested in the air.
+Bell photo.]
+
+[Illustration: The X-1 landing. USAF photo.]
+
+[Illustration: Chuck Yeager climbing out of the X-1 cockpit. Bell
+photo.]
+
+[Illustration: John Griffith of NACA, my boss, after an X-1 flight in
+1950. NASA photo.]
+
+[Illustration: Bell’s Joe Cannon and the X-1 (No. 3) “Queenie,” at
+Edwards, 1951. Bell photo.]
+
+[Illustration: Sad demise of the “Queenie.” Cannon survived. Bell
+photo.]
+
+[Illustration: The mother plane was also damaged. Bell photo.]
+
+[Illustration: Yeager, his linemen, and the support equipment for an
+X-1-A flight. Bell photo.]
+
+[Illustration: The second generation X-1s in parade formation. Bell
+photo.]
+
+[Illustration: Straining for altitude. Bell photo.]
+
+[Illustration: The X-1-A; Three ... Two ... One. Drop! Bell photo.]
+
+[Illustration: The X-1-B gliding home. USAF photo.]
+
+[Illustration: Chuck Yeager surrounded by Edwards personnel
+immediately following his record-breaking Mach 2.4 flight and violent
+tumble. Note crewman at left inspecting cracked canopy. Bell photo.]
+
+[Illustration: Mutual admiration society. Chuck Yeager and Kit Murray
+wearing partial-pressure suits, and the history-making X-1-A in
+background. USAF photo.]
+
+[Illustration: X-1-B starts a new Nose Wheel Club. NASA photo.]
+
+[Illustration: NASA’s modernized X-1-E joins the club. NASA photo.]
+
+[Illustration: The price of progress. Remains of the X-1-D. Quick
+action saved Everest. Bell photo.]
+
+[Illustration: A similar demise for the X-1-A. NASA photo.]
+
+[Illustration: The X-3; straining for altitude. Douglas photo.]
+
+[Illustration: The X-4 in flight. USAF photo.]
+
+[Illustration: The X-5 about to touch down on lake bed. USAF photo.]
+
+[Illustration: The XF-92-A on Crossfield Pike. NASA photo.]
+
+[Illustration: The nose wheel got tired. NASA photo.]
+
+[Illustration: My stable of thoroughbreds, posed before the old NACA
+hangar. From left: Skyrocket, Skystreak, X-5, X-1, XF-92-A, X-4. NASA
+photo.]
+
+[Illustration: Joe Vensel and NACA pilots. From left: Joe Walker,
+Stan Butchart, Jack McKay, and a cigar-smoker. NASA photo.]
+
+[Illustration: The sonic wall was Yeager’s, the hangar wall was mine.
+NASA photo.]
+
+[Illustration: The Skystreak in flight. NASA photo.]
+
+[Illustration: The D-558-II Skyrocket, my loyal steed for four years.
+Douglas photo.]
+
+[Illustration: The faithful grooms: the Skyrocket ground crew. NASA
+photo.]
+
+[Illustration: Mating the Skyrocket. NASA photo.]
+
+[Illustration: Straining for altitude. Douglas photo.]
+
+[Illustration: Three ... Two ... One. Drop! NASA photo.]
+
+[Illustration: Skyrocket in flight. Douglas photo.]
+
+[Illustration: Gliding home again. Douglas photo.]
+
+[Illustration: Touching down on the lake bed. Douglas photo.]
+
+[Illustration: Walt Williams hears it first: Mach 2, Nov. 20, 1953.
+NASA photo.]
+
+[Illustration: The Skyrocket and her three record-holders. From left:
+Bill Bridgeman, Colonel Marion Carl, and the farmer’s son. Douglas
+photo.]
+
+[Illustration: The X-2 and her Air Force team of jockeys. Clockwise
+from center: Pete Everest, Iven Kincheloe, and Mel Apt. Bell photo.]
+
+[Illustration: Ground-testing the X-2. Bell photo.]
+
+[Illustration: The X-2 nested in the mother plane’s belly. Bell
+photo.]
+
+[Illustration: Straining for altitude. Bell photo.]
+
+[Illustration: Three ... Two ... One. Drop! The X-2. Bell photo.]
+
+[Illustration: The X-2 lands on the lake bed. NASA photo.]
+
+[Illustration: Skip Ziegler joins the Nose Wheel Club. Bell photo.]
+
+[Illustration: The X-2 and her record holders: Mel Apt in cockpit,
+Iven Kincheloe on the ladder. Note scorched paint on the nose. Bell
+photo.]
+
+[Illustration: Mel Apt and the second X-2 died on the desert. Bell
+photo.]
+
+
+
+
+CHAPTER 14 ►
+
+ _The Need for Speed_
+
+
+THE DESERT SPRING had fused almost imperceptibly with early summer.
+The temperature climbed to a routine 105 degrees in the shade.
+Edwards became a hell of wind and sand. The wind moaned through the
+cracks in the temporary buildings; the sand and dust heaped in piles
+on the sills and in the corners. I considered it a minor miracle that
+the mechanics could keep the jewel-like machinery of the research
+airplanes operating in such conditions. We pilots retreated, between
+flights, to the comfort and cleanliness of air-conditioning. One
+day in late May, 1951, I was killing time in Walt Williams’ office,
+sipping coffee and discussing the future of the research airplane
+program which had by now become inextricably entwined with my own
+future.
+
+“Walt, I’m telling you we have got to move in and do something about
+Bell’s X-2. The whole deal is going sour.”
+
+My feet were propped up on the edge of Williams’ desk. An NACA
+research airplane pilot at Edwards got to be an old hand fast in
+those days. I had been there almost a year: I was an old hand. I
+had accumulated more than half a hundred flights in the X-4, X-1,
+Skyrocket, and D-558-I. I had flown supersonic. I was becoming wiser
+in the ways of government and industry politics. One had to at NACA,
+because the agency was caught in the middle of all the political
+currents. The X-2 situation was one of those touchy ones.
+
+NACA existed to serve the industry. It received its planes from the
+military services which, in turn, were customers of the industry.
+Thus it was dependent on everyone for survival and, as I learned,
+it was important not to bite the many hands that fed it. The
+competition among the aircraft companies striving to sell their
+products to the military was intense, as was the competition among
+the various military services. Thus there were always a hundred minor
+controversies going on. We at NACA, to survive, tried to remain aloof
+from these internecine battles, taking protection behind the cloak
+of science. The information we garnered was passed out impartially
+to all of industry and the military services. If the military asked
+our advice about a certain competitive airplane, we responded in
+double-talk and purposely contrived, abstruse mathematical formulae.
+We had to do this. The governing body of NACA itself was a committee
+composed of the leaders in aviation. Any conclusion NACA reached was
+instantly known everywhere in the aviation world. It was like working
+in a fish bowl.
+
+All of this naturally generated conservatism within NACA. Before we
+passed judgment or recommended a course of action, we had first to
+weigh the impact on half a hundred points of contact. Thus, while we
+flew fast in the air, we moved at a snail’s pace on the ground.
+
+The data from my flights were accumulating by the bushel-basketfuls.
+But all of these were concerned with the subsonic, sonic, and
+trans-sonic zones, about which we were beginning to know a great
+deal. In our thoroughness, I felt, we were losing sight of the forest
+for the trees. The new supersonic Century Series fighters, which
+could outfly our research airplanes, were almost on the point of
+factory roll-out. There were a thousand different things we didn’t
+know at Mach 1.5 and above. Two especially grave unknowns loomed
+before us: high-speed instability and aerodynamic heating. What
+we needed was much more speed to stay out in front of the combat
+airplanes. In short, our research airplanes were too slow, and NACA
+was not, in my opinion, doing enough about it.
+
+After the fabulous success of the X-1, the Air Force had invited
+Bell to build a second generation of straight-wing, rocket-powered
+X-1 airplanes. These were to be larger, faster, with longer-burning
+rocket engines. The planes were to have a “combat cockpit,” an
+uninspired idea of someone who thought the craft _might_ be used for
+brief high-speed reconnaissance bursts over enemy territory. These
+airplanes were designated the X-1-A, X-1-B, X-1-C, and X-1-D. Some
+said these planes might fly at Mach 3--three times the speed of
+sound. At the very least we knew they would nearly double the speed
+of the original X-1s.
+
+These planes were conceived shortly after Yeager’s historic flight
+in the X-1. By then the ingenious team sparked by Bob Stanley, which
+had pioneered the X-1, had left Bell. Advanced airplanes are not
+the product of a company, but the product of men with boldness and
+imagination. The Air Force blew hot and cold on these advanced X-1s
+and supplied money, virtually a month-by-month dole. As time passed,
+inevitably the airplanes grew in complexity and they fell far behind
+schedule. Even the third model of the original X-1, which was being
+converted to a low-pressure fuel system, had not yet been delivered
+to NACA.
+
+The same fate had overtaken the much-heralded X-2, which I was
+supposed to fly for NACA in due course. The X-2 had been designed
+years earlier, only a few months after the original X-1s. Two ships
+were under construction. In concept the X-2 represented a tremendous
+jump over the X-1. On paper it had over eight times the power--a
+15,000-pound-thrust Curtiss-Wright engine--sharply swept wings, and
+an escape system--a nose that could be separated from the main body
+of the airplane in emergency. The X-2 was to be built of stainless
+steel in order to withstand the tremendous frictional heat it was
+expected to encounter at its maximum speed of nearly Mach 3. Its
+windshield was to be tinted to resist solar radiation, which might be
+a menace at the X-2’s maximum altitude of 150,000 feet. However, the
+X-2 was already three years behind schedule.
+
+Altogether, then, Bell had seven rocket airplanes in the plant in
+various stages of construction. All of them were capable of flying at
+over twice the speed of sound. All of them were behind schedule, and
+falling farther behind every day. Meanwhile, at Edwards, no one had
+yet exceeded Yeager’s speed of Mach 1.4, set in the original X-1. The
+new military fighters were designed to exceed that speed. Even faster
+military fighters were then in the advance design stage.
+
+“If we don’t watch out, Walt,” I said, “we’re going to be coming up
+with these data a day late and a dollar short. The gap is closing.”
+
+Walt Williams, of course, knew this as well as I. But there was
+little that NACA could do about it. The situation was an “Air Force
+problem.” The Air Force supplied the planes. The Air Force’s main
+attention was focused on producing enough airplanes, right that
+minute, to fight the Korean War.
+
+“Walt,” I said. “We have the technical say-so with these aircraft.
+We can make recommendations through headquarters in Washington. Why
+don’t we propose that I be assigned to the Bell plant and bird-dog
+this thing in our behalf?”
+
+“Nobody would buy that, Scotty,” Williams said. “We can make
+technical judgments when invited to do so, but we can’t stick a man
+in the plant full-time.”
+
+“Why not?” I asked. “We need these planes in a hurry, don’t we?”
+
+“Well,” Williams said, “I really don’t think you know what you are
+proposing. Geez. Can you imagine an NACA man in the Bell plant? And
+you of all people?”
+
+I had developed something of a reputation as a driver and an
+iconoclast. It was not strictly my doing. Part of it was the fact
+that I had arrived coincidentally with the outbreak of the Korean
+War, and the new sense of urgency had come at the same time. It was a
+fact, however, that I frequently challenged the accepted method. Like
+many other pilots, I particularly deplored the growing gap between
+desk designer and pilot. Machinery was being put in illogical places
+with little thought for pilot efficiency or maintenance ease; the
+mounting overemphasis on safety had reached the point where engineers
+were putting cotter keys in cotter keys. All of this was slowing us
+down at a time when we urgently needed to be picking up speed.
+
+As for my proposal to go to Bell to bird-dog the lagging rocket-plane
+program, on reflection I am certain now that it was the goal of my
+life trying to peck through its shell prematurely. I realize now the
+time was far from propitious. The X-1, X-2 thing was a mess, and in
+time it would become worse. Had I gone there, I might have helped
+some. But I might also have fallen far short of my dream.
+
+I let the matter drop. Williams had been around NACA far longer than
+Scott Crossfield. I knew and admired him as a man of action. I was
+certain that if he could perceive even the faintest glimmer of hope
+of NACA’s bailing out the rocket planes, he would be in favor of
+positive action, and in spite of the prevailing conservatism within
+the agency, would press for it. Obviously, the safest course as far
+as Bell was concerned was hands off.
+
+“Besides, Scott,” Williams said, dangling a diverting sweet, “you
+have the Skyrocket program.”
+
+I couldn’t argue that point.
+
+ * * * * *
+
+The Skyrocket then was the one bright ray of hope on an otherwise
+darkly blotched horizon. Douglas Aircraft was a big, bustling
+corporation with enormous military and commercial business. The
+company had withstood the postwar aviation famine quite well. In
+fact, it had thrived on production orders for DC-6 transports,
+and Navy carrier-launched fighters. At Douglas there had been
+money and engineering talent enough to sustain a healthy research
+and development program, which included, of course, the D-558-II
+Skyrocket. During the fall of 1950 the emphasis had been placed on
+the conversion of the original jet-only (JATO boosted) Skyrocket to
+an air-launch, all-rocket vehicle, which conceivably might reach Mach
+2 and 100,000 feet. On paper it was easily capable of shattering
+Yeager’s X-1 speed record of Mach 1.4 and Everest’s altitude record
+of 73,000 feet. The Navy and Douglas were anxious.
+
+Bridgeman and the Douglas crew had arrived with the all-rocket
+Skyrocket in January of 1951. The plane had been parked in the
+Douglas hangar next door, alongside the older jet-rocket version of
+the Skyrocket. When the word got around, it caused a sensation. I
+hurried over to take a look at the ship, which I would fly soon after
+Bridgeman had established its “envelope,” and had, incidentally,
+scratched up some new speed and altitude records for the Navy.
+The ship was dazzlingly white. Its lines were similar to the old
+Skyrocket, except that it was cleaner. The jet engine scoops were
+gone.
+
+When Bridgeman first climbed into the Skyrocket, snugged in the belly
+of the mother plane, Yeager and Everest flew chase for the Air Force
+with more than casual interest. However, the first blush paled. The
+Skyrocket was new and untried. Like all new research airplanes, it
+was dogged by trouble during the de-bugging stage. During January,
+February, and March, 1951, Bridgeman had gone aloft six times in the
+mother plane. Six times the launch had been canceled at the last
+minute.
+
+On the seventh attempt, in April, a hair-raising event occurred that
+will never be forgotten at Edwards. When the mother plane bore down
+over the launch point, all gauges were in the green. Bridgeman, who
+through no fault of his own was gaining a reputation for being a
+Reluctant Dragon, was pressing hard for a launch. At the last second
+a tank pressure fell off. Grudgingly Bridgeman reported:
+
+“No drop. This is an abort.”
+
+He prepared to go through abort procedures to return to the base.
+Then to his horror he heard the mother-plane pilot, George Jansen,
+ticking off the launch countdown on the radio: “Ten, nine, eight,
+seven....”
+
+“No drop! No drop!” Bridgeman shouted over the radio. Everyone heard
+him but Jansen, who had keyed his radio mike for the countdown.
+Nobody, not even the star Bridgeman, could get through to George.
+Frantically, Bridgeman brought the plane’s ailing machinery to life
+and squared away for an undesired launch.
+
+Falling away from the mother plane, Bridgeman lighted the rocket
+engines. The Skyrocket roared heavenward, just short of Yeager’s
+record speed of Mach 1.4. Bridgeman growled over the radio:
+
+“Goddammit, George, I _told_ you not to drop me.”
+
+“You got keen friends, Bridgeman,” said Everest, who was flying chase
+that day.
+
+After that incident, countdowns were shortened; research airplanes
+were equipped with a switch on the instrument panel, connected to a
+light on the mother-plane instrument panel. A green light meant the
+rocket pilot was ready to launch, and only if it was on would he
+be launched. And so far as I know, no pilot after that was dropped
+against his will.
+
+The Douglas test program dragged on through May and June. At NACA
+we became very anxious to take over the airplane. In fact, in an
+unprecedented move NACA headquarters wrote Douglas telling them,
+in effect, to hurry up. We urgently needed the Douglas plane for
+high-speed flight data. Another reason was that the word had
+gotten around that Bridgeman was afraid of the airplane. This was
+unfortunate because Bridgeman, I thought, was one very superlative
+pilot. He later admitted that flying the Skyrocket unnerved him. But
+the delay in the Douglas flight program was not his fault. It was
+the usual work of the gremlins which flock to research planes like
+seven-year locusts.
+
+Not long after my chat with Walt Williams the slow-starting Douglas
+Skyrocket program blazed into a stem-winding finish. In the next
+four powered flights, the last of which took place on August 15,
+1951, Bridgeman flew the Skyrocket to a speed of Mach 1.87 and an
+altitude of 79,000 feet. Both figures were records by a wide margin.
+Bridgeman assured his place in the Hall of Fame, and demonstrated
+that the Skyrocket was all that they had hoped. Bill went on to the
+X-3 and some brilliant airmanship. The Navy, now holding the official
+records, beamed, and Douglas released a flood of press handouts. With
+little ceremony NACA took over the plane and mother ship, assigned me
+as Skyrocket pilot, and I got set to probe the high-speed mysteries
+the Skyrocket had already brought to light.
+
+These mysteries somehow leaked to the press, which sensationally
+proclaimed that Bridgeman had discovered a phenomenon known as
+“Supersonic Yaw.” Actually we had expected it. Bridgeman had expected
+it. It was one of those unknowns about which we urgently needed data.
+Reduced to simplest terms, “Supersonic Yaw” meant that airplanes
+nearly became directionally unstable at high speed in thin air. The
+nose turned sideways and the plane skidded obliquely through the
+air. What we had to do then was to find some means of improving the
+controls or the design of airplanes to avoid it, or else develop
+a technique for living with it. This was one reason alone for the
+need for speed. The same thing could happen to our military planes,
+causing needless death in peace and war.
+
+Following Bridgeman’s footsteps, I made four quick flights in the
+all-rocket Skyrocket. The first flight was, in a way, a milestone
+for me. I broke my first-flight jinx, launching and flying with no
+unusual difficulty. I achieved a speed of Mach 1.6 and an altitude of
+60,000 feet. These were not records, but we at NACA were not out to
+set records. We wanted to find out in actual flight about Supersonic
+Yaw, among many other things.
+
+On all flights the Skyrocket was loaded with hundreds of pounds of
+delicate instruments which recorded every significant fact about the
+flight: speed, altitude, G forces, pressures, air flows. Bridgeman
+had intuitively conceived a method of taking the plane to its near
+limits without meeting disaster. Under his skillful coaching, I
+successfully carried out his idea, and the information we recorded
+kept the engineers busy for months. After these four flights the
+plane was laid up for some badly needed repairs which had been
+deferred during our quick investigation.
+
+One day not long after I had completed the last of these flights, I
+stopped at the coffee machine to pass the time of day with Hubert
+Drake and Bob Carmen, NACA’s long-range design “dreamers.” In a
+friendly way they probed for first-hand information about the
+Skyrocket.
+
+“How’d it go?” Drake asked.
+
+“It was all right,” I said. “You people and Douglas had already
+sensed what to do and I just did it. No special trick. We got the
+data, but the problem is that the airplane is already old for its
+time. The plane is obsolete for those speeds.”
+
+“Yes, I know,” said Drake.
+
+“Some day I hope we can get ahead of this game,” I said. “I would
+like to see a research airplane built from scratch that can fly like
+it is supposed to--stable, that is--and far enough ahead of the
+game to provide some useful data to industry. In another few months
+they’ll be catching up with us.”
+
+“You ought to come down and see our stuff,” Carmen said.
+
+“What have you got?”
+
+“We think we have an airplane that can perform at Mach 6 and fifty
+miles,” Drake said.
+
+“How do you get that kind of performance?”
+
+“It’s simple. First off, the mother plane is a rocket plane. She has
+five Viking engines. The research airplane, a modified X-2 with a
+one-rocket engine, rides piggy-back. You take off and launch at Mach
+3 and about 70,000 feet. The research airplane goes on up to maybe
+Mach 6 and maybe 250,000 feet. It’s all done with existing hardware.”
+
+I had a vision then of trying to make ready and light off the five
+temperamental rocket engines on the mother plane. The effort would
+be something like the invasion of Europe. The odds that everything
+would work, and that the research airplane would launch--and light
+off--were, conservatively, about a hundred to one. Still, it was an
+idea. Dreamers should never be discouraged. An engineering analysis
+of the Columbus voyage had shown it couldn’t be done.
+
+“Well, why don’t you write it up and send in a report?” I asked. “God
+knows someone ought to try to get ahead of the game. That would be a
+big jump forward.”
+
+“We _did_ write it up,” Drake said, crumpling his paper coffee cup.
+He aimed carefully but missed the big G.I. can.
+
+“What happened?”
+
+“We turned it in to Walt Williams,” Drake said. “That was back in
+November, 1950. He read it and said it was ‘premature.’ Told us to
+pigeon-hole it for a while.”
+
+The Drake-Carmen report was still in a pigeon-hole, gathering dust.
+In later years Walt Williams still felt it was wise to delay that
+report. Maybe he was right. Had it been brought forward in late 1950,
+NACA might have been laughed out of school. No one else was ready.
+
+
+
+
+CHAPTER 15 ►
+
+ _Disaster on the Race Track_
+
+
+The success of the Navy-sponsored Skyrocket caused great
+consternation in the Air Force camp at Edwards. Suddenly two of
+Bell’s rocket planes were made ready--or _almost_ ready, as it turned
+out--for flight. One was the long-awaited X-1, model 3 (called
+“Queenie”), with a low-pressure fuel system, thus putting its debut
+years behind those of its sister-ships, _Glamorous Glennis_ and
+the NACA’s X-1. The second Bell plane was the X-1-D, one of the
+second-generation X-1s with the larger fuel tank and the military
+cockpit. In the strange way of schedules, the X-1-D was completed
+before the X-1-A and X-1-B. The planned X-1-C was never built. Its
+parts and funds were cannibalized to complete the A, B and D models.
+
+The X-1-D was a new animal, a strikingly fast, dangerous research
+airplane. On paper it could reach Mach 2.5 or maybe Mach 3. Like most
+of the planes arriving at Edwards in those tumultuous, fast-moving
+days, its design was already outmoded. We knew that the X-1-D would
+be unstable at very high Mach numbers. Its new fuel system, nearly
+identical to that in Queenie, was untried, and full of bugs. Under
+such circumstances, caution was the better part of valor. But no. At
+Edwards occasionally the temptation to throw caution to the winds
+was overwhelming. As Pete Everest has written in his book, _The
+Fastest Man Alive_, mincing no words: “... we had a chance to set
+another record that would be much harder to beat.”
+
+Everest goes on: “Bell flew half a dozen tests to prove the new
+rocket ship’s flying characteristics and tested the rocket engine
+in run-ups on the ground.” The historical accounts show that in
+actual fact _two_ test flights were made, neither of them thorough or
+conclusive because of pressure of schedule and poverty. On the first,
+the X-1-D was carried aloft, empty of fuels, cut loose, and steered
+back to earth, as a glider, by Skip Ziegler. On the second, the X-1-D
+was fueled for a powered flight with Everest but aborted when the
+fuel system malfunctioned. The tests had been, to say the least,
+inconclusive.
+
+Then, as Everest writes, “I was selected to take it up and see what
+it could do wide open.” In short, Everest elected to take over the
+X-1-D, which had never been flown under power, and never flown at all
+by Everest, on a maximum-speed run on first powered flight. That he
+agreed to this at all, I think, demonstrates remarkable courage. That
+the Air Force would sanction such a first flight has always been a
+mystery to me. They were smarting badly from Bridgeman’s licking.
+
+That day in August, 1951, was a dark one in Edwards’ history and a
+very lucky one for Pete Everest. Al Boyd, then a brigadier general,
+and still commander of Edwards, elected to fly chase. Jack Ridley was
+co-pilot of the mother ship, a B-50, a more powerful version of the
+B-29. At 10,000 feet Everest put on his helmet and crawled from the
+mother ship’s bomb-bay into the X-1-D cockpit. He noticed right off
+that the rocket plane’s gauges were in the red. There was a leak; the
+tank pressures were sagging.
+
+Everest climbed back into the B-50 bomb-bay compartment for a
+conference with Jack Ridley. They agreed “reluctantly,” Everest
+reports, that the flight should be canceled. Everest returned to the
+X-1-D cockpit to jettison fuel. Standing in the seat of the plane,
+he reached down to pressurize the tanks. As he did, a bone-jarring
+explosion shook the X-1-D and nearly threw Everest to the floor of
+the cockpit. A tongue of fire licked into the mother ships bomb-bay
+compartment.
+
+Everest leaped from the X-1-D cockpit into the B-50 bomber. Seconds
+later Jack Ridley pulled an emergency lever and the burning X-1-D
+fell away from the bomber, trailed by bits and pieces of the B-50
+which were shattered loose by the force of the rocket-ship explosion.
+The $5 million X-1-D crumpled onto the desert floor, a costly
+disaster on the race track.
+
+It was lucky for Everest that the X-1-D blew up when it did. In the
+haste to launch the flight, the plane had only half a load of liquid
+oxygen. Had Everest launched, the X-1-D would have been so much out
+of balance that it would have spun in, instantly and uncontrollably.
+The ship had no ejection seat.
+
+ * * * * *
+
+Joe Cannon, a test pilot for Bell, had been chosen to make the
+initial demonstration flights in the Queenie. With the new
+low-pressure fuel system and larger fuel tanks, some thought that
+Queenie might crack Mach 2. This would put her a shade beyond the
+record Bridgeman made in the Skyrocket. Queenie had “U. S. Air
+Force” painted in large letters on the fuselage. Whether Cannon or
+some Air Force pilot, such as Yeager or Everest, flew it, the Air
+Force technically would regain the record. After that, NACA would
+take charge of the plane for high-speed instability and aerodynamic
+heating investigations. I was to fly the Queenie for NACA.
+
+The new low-pressure fuel system in Queenie gave much trouble. Bell
+ground engineer Q. C. Harvey, a fox-terrier type with limitless
+nervous energy, was nearly frantic from the thinly-veiled pressure.
+The Bell ground crews cut corners. In early November on the second
+“heavyweight captive” flight--a trip to launch altitude with fuel
+tanks loaded for test purposes--Joe Cannon could not jettison the
+plane’s fuel. The B-29 mother plane returned to earth, bearing Queenie
+fully loaded with volatile fuel.
+
+It was something of a trick to purge the little planes of fuel on the
+ground. The B-29 moved into the dump area, still mated. Cannon began
+the ground-jettison routine. Suddenly a tremendous explosion rocked
+Edwards. Queenie and the mother plane were enveloped by swirling,
+vaporizing liquid oxygen.
+
+Cannon had removed the side door of the X-1. Through the fog the men
+saw him come through the opening, feet first. Then they saw his head
+and heard him yelling:
+
+“Get the hell out of here! She’s going to go!”
+
+Joe Cannon scrambled down to the ground and ran away from Queenie as
+fast as his legs could take him. The concrete ramp was flooded with
+the slippery, dangerous Lox. He fell headlong into a puddle of fuel.
+The Lox “burned” through his clothing and froze his skin, putting him
+out of action for nearly a year. Queenie and the mother ship went up
+in a burst of smoke and flames. Fortunately, no one was killed. The
+loss of the $4 million Queenie was severely felt at NACA.
+
+The Navy retained the speed and altitude records. The official
+investigations into the X-1-D and Queenie explosions went on for
+months and ultimately delayed the delivery of the X-1-A and X-1-B
+nearly two years. After the official report came out, all rocket
+airplanes of this series were extensively modified. At NACA our
+own X-1, in which I had completed about a dozen flights since last
+overhaul, was considered “fatigued” and was withdrawn from active
+flying. We launched a project to redesign and rebuild our X-1. The
+plane was redesignated the X-1-E, and years later it got into the
+air. But it never really produced again. For all practical purposes
+it was retired that fall.
+
+Along about the same time--that grim fall of 1951--we gave up hope
+on still another promising airplane. This was the celebrated Douglas
+X-3, a weird-looking, needle-nose craft with two jet engines and
+brief straight wings. The X-3 was designed to cruise for long periods
+at very high speed, hopefully near Mach 2. But she had fallen victim
+to the cotter-key crowd. No more complicated, botched-up, dangerous
+airplane was ever produced, unless it was the XF-92-A, which I shall
+deal with in time.
+
+Bridgeman was waiting patiently at Douglas to make the first
+flights on the long-delayed X-3. I talked to him about the plane
+occasionally, since like the Skyrocket it was ultimately slated for
+NACA. It was possible that I might be named X-3 pilot along with my
+other duties. In time, Bridgeman made twenty flights in the plane.
+Happy to be rid of it then, he turned it over to Chuck Yeager and
+Pete Everest, and never again flew an experimental airplane. Yeager
+and Everest flew the plane three times each. “It was one of the most
+difficult airplanes I have ever seen,” Everest said.
+
+Apart from its sheer mechanical complexity, the basic trouble with
+the X-3 was that it was underpowered. The high-thrust engines, which
+had been planned for it, fell behind schedule and then were canceled
+because of lack of funds; the interim engines used yielded only about
+fifty per cent of the desired thrust. Thus it required every trick in
+the book to get the heavy X-3 into the air and keep it there without
+falling out. When Yeager and Everest, with few regrets, turned the
+plane over to NACA, we tried unsuccessfully to fix it. Walker made
+about twenty flights. The X-3 became a glamorous Hangar Queen, useful
+mainly for publicity photographs. I never got to fly it.
+
+Thus the Douglas Skyrocket became by default the lone high-speed
+workhorse at Edwards. I was the lone jockey for a while. As the weeks
+sped by, the NACA Skyrocket team began to mesh with carrier-deck
+efficiency. We often flew the Skyrocket every other day--such
+“turn-around” time was then considered a near-miracle--probing the
+dark mysteries high in the sky. No Skyrocket flight was ever routine.
+But I got to know the ship so well that I could land it dead-stick on
+the dry lake and coast right up on the NACA parking ramp in front of
+the hangar door--without brakes! This saved my hard-working ground
+crew the trouble of going out to the lake with a tow-tractor.
+
+ * * * * *
+
+The floor of the Bell plant in Buffalo was immaculately clean.
+In one corner behind a curtain the shell of the X-2 lay awaiting
+inspection. In another corner engineers had rigged a simulated
+cockpit and control system. I was there with Walt Williams and other
+NACA and Air Force engineers to pass an interim judgment on this
+much-delayed airplane. I was especially interested because if the X-2
+were ever finished I would fly her after Skip Ziegler had made the
+demonstrations.
+
+I walked up to a mechanic, working near a row of dry-cell batteries.
+I knew these batteries were to be installed in the X-2 to supply
+power for the control system. I picked up a battery.
+
+“What’s this for?” I said to the mechanic.
+
+“My God!” he yelled. His face was white. “Don’t pick that up. It’s
+delicate. It’s for the X-2 control system. If you jar it, it might
+break.” It was a new and sophisticated kind of battery.
+
+“You don’t mean it?” I said. Then I smashed the battery down on the
+bench. Sure enough, five plates broke and the battery short-circuited.
+
+Later I learned from a Bell engineer that the delicate batteries had
+been shipped to Bell from the manufacturer in a nitroglycerine truck.
+I said to the engineer: “You really expect to put that kind of stuff
+in an airplane that will be subject to God knows what kind of loads
+and shocks in the air?”
+
+“Don’t ask me, Scotty,” he said. “I just work here and we have a
+thousand bosses in every corner of the government.”
+
+While the X-2 control system was a studied attempt to make a
+tremendous step, there was much we did not like about it. I noticed
+that when I operated the stick in the simulator cockpit, it whipped.
+The simulator, for demonstration purposes, was set to operate only
+at full design loads, which was far from a realistic measure. At my
+insistence the simulator was rigged to carry low-load conditions.
+Guessing what force the whipping stick might display, I asked Pete
+Everest, a member of the Air Force inspection party, to get in the
+cockpit and try it.
+
+The demonstration was far more dramatic than I could have hoped. When
+Everest pulled on the stick, the electrical units took hold, the
+stick whipped violently, and Everest, a small man, was thrown clear
+out of the cockpit.
+
+This highly sophisticated control system, which had already cost $4
+million, was symptomatic of the disease that had drained the X-2
+program (many programs, in fact) of its vitality. It obviously could
+not be made suitable for the X-2 in time, and although it meant some
+further delay on delivery of the airplane, Bell was asked to come up
+with a reliable and simple control system. Under the revised plan X-2
+number 1 was to be hastily equipped with cables, which would not
+overly delay the glide tests scheduled to take place at Edwards. X-2
+number 2 would have a hydraulic-control system. Similar units would
+be installed in X-2 number 1 after the glide tests.
+
+The X-2 with cable controls arrived at Edwards in June of 1952, hung
+in the belly of the B-50 mother plane. I should say the shell of
+the X-2 arrived. The lagging engine (itself overly sophisticated)
+was still on the test bench at Curtiss-Wright. In its place was
+concrete ballast. Everybody at Edwards must have turned out to see
+the X-2. Few of them realized then that the ship was jinxed. They saw
+only a sleek, swept-wing airplane, looking as though it were moving
+supersonically while sitting still on the ground.
+
+The X-2 had the conventional nose wheel; and the main landing gear
+had been made a broad ski which protruded from the fuselage just
+below the wing center-section. The main purpose of the glide test was
+to check on the nose-wheel ski concept. Bets were laid when Ziegler
+went aloft in the X-2 on his first flight. It was important that the
+gear work perfectly. A powerless rocket plane landing dead-stick
+cannot go around for another try.
+
+I watched from the sidelines. The X-2 was heavy, and the B-50 mother
+plane labored to reach launch altitude of 30,000 feet. Then I saw the
+X-2, looking like a tiny white toy in the deep blue sky, fall away
+cleanly. Powerless, silent, Skip guided the plane toward Rogers Dry
+Lake. His flare-out, at 200 miles an hour, looked good. The skid and
+nose wheel popped out. The X-2 touched and the nose wheel failed.
+When it collapsed, the plane churned around on a wingtip, gouging a
+hole in the desert runway.
+
+The plane was repaired and the landing-gear unit improved. They
+also added “whisker skids”--smaller skis midway under each side
+of the wing. Skip Ziegler tested the new gear without incident.
+Then Pete Everest made one hair-raising test--the left whisker ski
+extended only after the right ski had jarred the earth--and the
+X-2 was shipped back to the factory for installation of the new
+hydraulic-control system and the rocket engine.
+
+Months later the plane was ready for “captive” fuel tests. These
+were conducted not at Edwards but over Lake Ontario, near the Bell
+factory, because of Ziegler’s dedicated zeal to get the program
+rolling. On the second captive fuel test in May, 1953, an explosion
+ripped through the X-2. The blast and flames reached into the mother
+ship’s bomb-bay, killing Skip Ziegler and a Bell crewman, Frank
+Walko. The X-2 was cut loose and plunged flaming and exploding into
+Lake Ontario. The B-50, blown skyward and gutted by the explosion,
+somehow stayed together long enough for Bell pilot Bill Lewshon, with
+brilliant flying, to get it back on the ground. Then it was junked.
+
+ * * * * *
+
+Dr. Hugh Dryden, one of the world’s leading aeronautical scientists,
+was Director of NACA. Technically, Jimmy Doolittle was chairman
+of the main National Advisory Committee for Aeronautics, which
+reported directly and only occasionally to the President. But
+Dryden was Doolittle’s chief general. Dryden, an older man who wore
+thick glasses, ran NACA day by day. He had a slow, deliberate way
+of talking. If ever a government agency was the perfect image of
+its director, it was NACA. In Dryden’s face you could see it all:
+conservatism, scholarship, wisdom, caution. His office in an old
+building on H Street in Washington was Spartan. It might have been
+the office of a college professor.
+
+I was there on an urgent mission--back on a familiar theme.
+
+“Dr. Dryden,” I said. “This X-2 program is in serious trouble. What’s
+lacking is a Bob Stanley or a Skip Ziegler, if you will. The drive
+has gone out of the X-2 project. If we’re not careful, sir, it’s
+going to wind up like the X-3, a great big expensive Hangar Queen.
+
+“I know this is an Air Force project, that they’re funding it. But
+I think it is time we stepped in and took a firm hold. That plane’s
+supposed to come to us for serious aerodynamic investigation. There’s
+another investigation going on about the explosion. It may take
+months. The control system hasn’t been checked out. The engine is so
+far behind schedule you can’t say anything good about it.”
+
+“Well, you certainly seem quite interested in this program,” Dryden
+said. He weighed each word.
+
+“Yes, sir,” I said. “I am supposed to fly the airplane and I would
+like to do so before I retire.”
+
+“What do you propose?”
+
+“I propose that I be assigned to the Bell plant on temporary duty.
+There I’ll help every way I can to spark the program to completion.
+Then I’ll make the demonstration flights for Bell. Then I’ll return
+with the plane to NACA at Edwards and complete the flight-test
+program. I have talked with Bell people about it and they think the
+idea has some merit.”
+
+Dr. Dryden’s answer surprised me, frankly. “Very well,” he said. “If
+Williams approves, you may try it.”
+
+I returned to Edwards on Cloud Nine. The X-2 plan, as I had
+envisioned it, would be immensely valuable experience and background
+for my future. It would give me time in a rocket-plane factory,
+flight-test experience in the most advanced airplane man had
+conceived, and inevitably a little public notice which, I was
+learning, was a necessary part of moving ahead in my field. The X-2
+was not the ideal because it amounted, in effect, to bailing out a
+sinking boat. But it was a start.
+
+“Damn it, Scotty,” Williams said, “we really need you around here.
+The X-2 can wait. That plane may kill more people yet.”
+
+“But Walt,” I said. “When you hired me you said I’d get a crack at
+the X-2. That was three years ago and we haven’t got the plane yet.”
+
+“Well, maybe it’s okay with me if it’s okay with Vensel. He’s your
+boss. He has the final say-so. Tell him it’s up to him.”
+
+Vensel said no. He implied I was urgently needed at Edwards.
+
+
+
+
+CHAPTER 16 ►
+
+ _Bright Light Under a Bush_
+
+
+I eyed the new ship skeptically. White as a lily, it was the X-5,
+another product from Bell. The ship was powered by a single jet
+engine, and from a distance it appeared fairly conventional. What
+was vastly different about the X-5 was that its wings could be swept
+to several different angles in flight. Two X-5s had been built. One
+was turned over to the Air Force; NACA got the other. Joe Walker was
+project pilot and had gotten our program off the ground. I was to
+make my first check-out flight.
+
+“What do you want on this flight?” I asked Thomas Finch, an NACA
+engineer.
+
+“The flight plan calls for aggravated stalls,” he said. These would
+help define the safe low-speed limits of the airplane.
+
+“What do you mean, aggravated stalls?” I said. “How far?”
+
+“Use your own judgment,” Finch said. “But if you can take her well
+into the stall region, that’ll be fine.”
+
+The wings were to be swept to sixty degrees that flight. I cooled
+down the runway, followed by an Air Force chase, and climbed rapidly
+to altitude. I had read the manual on the airplane and all of the
+early flight reports, which had been prepared by Skip Ziegler before
+he died over Lake Ontario; I had also been briefed by Joe Walker.
+The X-5 handled in the air like a three-wheeled automobile. It was
+loose and danced crazily. Even so, we thought it would make a fine
+research tool. With its high sustained speed just under Mach 1, and
+its variable sweep, NACA could explore a wide variety of unknowns. It
+was like having a whole stable of swept-wing airplanes in one.
+
+I climbed to 25,000 feet and reported to chase that I would make
+several aggravated stalls. I pulled back on the throttle and eased
+back the stick. As the X-5 slowed, she began to buffet; slower and
+slower, more and more buffet. Suddenly her nose veered sharply to the
+left. In a split second, the X-5 turned 180 degrees. Then she dropped
+precipitously into a spin. My first-flight jinx was back.
+
+A kaleidoscope of brown desert, blue sky, and white clouds passed
+dizzily in review in my windshield as the X-5 wound up steadily
+toward the desert floor. I pushed the stick hard to forward left
+and bent on full right rudder--the prescribed spin-recovery-control
+maneuver--but the X-5 stubbornly refused to conform. Then I tried
+every trick in the book, pretty thick by now, after those years of
+flying unstable airplanes at Edwards. After a drop of over 10,000
+feet, the X-5 pulled out.
+
+Walker had run into the same thing. This slow-spin-recovery was a
+dangerous weakness of that airplane. Since the Edwards area was 2500
+or more feet above sea level, we made a careful note on the plane’s
+flight handbook _never_ to perform maneuvers which could result in a
+spin below 20,000 feet.
+
+ * * * * *
+
+“Did you get the word on Popson?” Joe Walker asked. Popson was an Air
+Force pilot assigned to fly the Air Force’s X-5.
+
+“No,” I said. “What happened?” I had just come in from a trip to the
+East Coast.
+
+“He was assigned to do aggravated stalls at 12,000 feet. He spun in.”
+
+I was sick. We had somehow failed in a basic NACA mission--getting
+information to the right place in time.
+
+Popson was a well-qualified pilot. If there had been better
+coordination between Air Force and NACA, he might be alive today; his
+flight plan was his death warrant, as so often happened. He was dead
+before he took off, the thirteenth pilot to die at Edwards. Following
+custom, a street was named in his honor.
+
+ * * * * *
+
+Bell’s Bob Woods was a tremendous man. He’s dead now, so there is no
+way to check, but I think he weighed at least three hundred pounds.
+He was the last of the Great Guns of an era at Bell. In spite of the
+X-1 and X-2 difficulties, Wood carried on in the grand old style. You
+had to admire his vision and political guts.
+
+Woods had a talent for hypnotizing a crowd--or anyway _me_, at least.
+And so it was in the spring of 1952, during a semiannual meeting
+of the full NACA Aerodynamics Subcommittee at the Ames Laboratory,
+Woods stood before a blackboard. From my inconspicuous seat in
+the background, I stared at his girth and the vast outpouring of
+enthusiasm as he made a case which, to me, was as fascinating as his
+size.
+
+“As I see it,” Woods went on before the large meeting of industry
+designers, “this would essentially be a research aircraft and come
+under NACA jurisdiction. The information it returned would be made
+available to all. The craft would be mounted on top of a vertical
+booster, in effect a ballistic missile. Launch speed would be 4,000
+or 5,000 feet a second. The booster would fall away. The vehicle
+would continue a climb to about eighty miles. On descent, recovery
+would be effected by a deployed parachute. The booster vehicle could
+essentially be a V-2 type missile.
+
+“This vehicle would enable us to probe a number of unexplored areas.
+Aerodynamic heating at hypersonic speed. Weightlessness for the pilot
+and research airplane machinery.” As he talked, a lieutenant stood by
+to flip through a set of expertly drafted drawings demonstrating each
+point.
+
+“Gentlemen,” Woods concluded, “I don’t think I have to stress the
+need for an advanced research vehicle. The best thing we have in
+the hopper now is the X-2 and we all know the limitations of this
+aircraft, which has not even flown yet. We must face up to the fact
+that we are going to do something about this or sit back and let the
+Russians take the lead.”
+
+I listened eagerly while the brass kicked around Woods’ proposal.
+There were many pros and cons from a technical standpoint.
+
+As I say, Bob Woods had something of a magnetic personality. After
+the meeting at Ames, he paid us a visit at Edwards. Then, I suppose,
+he went on to NACA headquarters in Washington and probably on down to
+talk to John Stack at NACA’s Langley Lab in Virginia. In any case,
+all at once, all the somnolent parts of NACA were suddenly awake and
+chirping simultaneously about a new advanced research airplane. One
+reason was that the timing was good. The other rocket planes were in
+trouble or dropping far behind schedule. The missile engineers were
+then beginning to squeeze enormous thrust out of a single rocket
+barrel, more than twice the power of the V-2 rocket engine developed
+by the Nazis. The Army’s Redstone missile generated 75,000 pounds
+thrust, about ten times the thrust of the engine in the Douglas
+Skyrocket. It was clearly time to take advantage of this rapid
+technological advance.
+
+Walt Williams came alive with enthusiasm. He called in Drake and
+Carmen and asked them to pull out their advanced report which had
+been pigeon-holed the year before.
+
+“Damn it,” said Williams, “if Woods can get up before a meeting of
+the Aerodynamics Subcommittee and propose shooting a man eighty miles
+into space in a missile, I guess we can propose the five-engine
+monster.” The Drake-Carmen report, with Williams’ endorsement, was
+sent on to the Langley Laboratory for serious study.
+
+None of this produced any immediate results in terms of hardware. The
+Drake-Carmen proposal was rejected out of hand. The Woods proposal,
+because it came from industry, got the full NACA treatment--that
+is to say, a rejection, complete with technical data attached.
+Basically, no one at that time was in favor of the “ballistic”
+approach, although the U. S., and NACA, specifically, would return
+to exactly that same approach for Project Mercury some five or six
+years later. However, all this activity set NACA planning toward
+a more or less “conventional” advanced research airplane in the
+range of Mach 6 and 100-mile altitude. As everyone knows, once the
+ponderous machinery of a government agency is set in motion toward an
+objective, it can hardly be stopped.
+
+During the weeks that followed, I paid this paper-study airplane
+more than casual attention. From exactly this kind of start, I knew,
+eight years earlier Kotcher, Stack, and Woods had given birth to the
+X-1 and ushered in a new dimension in aviation. With rocket engines
+now ten times more powerful, were we on the threshold, were we in
+the very act of conceiving a new generation that would make the X-1
+pale by comparison? Man had yet to fly at Mach 2 and we were talking
+of Mach 6 and altitudes of 100 and 200 miles. This was Buck Rogers
+stuff, space flight. This was it!
+
+I knew instinctively that my future lay in that paper airplane.
+It was then no more than a column of figures together with NACA’s
+resolution to investigate its possibilities. But in my mind it was a
+thing of steel, or titanium, or whatever material it would be built
+of--a sleek, perfectly engineered object, a thing of marvelous beauty
+and near-perfection, a boyhood dream in real life.
+
+The X-15 had been born. The name of the game was to get aboard it
+somehow, and at the right time.
+
+ * * * * *
+
+The months rolled by at NACA. I flew sometimes two or three flights
+a day in the X-4, X-5, and other craft. But my biggest effort was
+reserved for the Douglas Skyrocket. Lacking other high-speed rocket
+airplanes for data purposes, I gradually pushed the Skyrocket to
+Bridgeman’s record of Mach 1.8 and beyond. In fact, during the
+spring of 1953 after I had logged some thirty flights in the bird,
+I regularly flew to Mach 1.8 and frequently to Mach 1.9 or a little
+more. Since we had no real technical reasons to exceed it, I kept
+below Bridgeman’s altitude record of 79,000 feet. My speed in the
+Skyrocket was, of course, a world’s record. Typical of NACA we
+hid this bright light under a bush, and Dr. Dryden ordered me to
+stay below Mach 2. It mattered only a little to me. I had grown
+up professionally within NACA and had come to accept urgency in
+record-making as childish.
+
+The military thought otherwise. That year, 1953, the world was
+celebrating the fiftieth anniversary of flight, and the publicists
+were casting around for a sensational drum-beat in memory of the
+Wright brothers. In short, a new speed or altitude record. That
+summer the long-awaited Bell X-1-A, a sister-ship of the ill-fated
+X-1-D, arrived at Edwards. With it came the Air Force’s star, Chuck
+Yeager, temporarily released from another assignment. We knew what
+he would be shooting for: Mach 2. If he made it, he would go down
+in history as the first man to fly Mach 1 and then Mach 2. It was
+a publicity agent’s dream, a perfect unveiling for the fiftieth
+anniversary of flight.
+
+The Navy had not the slightest intention of letting the Air Force
+pluck this plum without a stiff fight. One day in the summer of 1953
+Marine Colonel Marion Carl arrived at NACA. Carl is one of the most
+fabulous aviators in history. A leading ace in World War II, Carl had
+set a speed record in the original D-558-I back in 1947. Since that
+time he had been engaged in other assignments in Washington and was
+top pilot for the Naval Air Test Center, Patuxent River, Maryland,
+the Navy’s counterpart of Edwards. Carl had never flown a rocket
+airplane. But Walt Williams called all of us into the office to
+announce that the Navy was “borrowing” the Skyrocket for a few days.
+Colonel Carl would try to beat Bridgeman’s altitude record of 79,000
+feet and set a speed record of Mach 2.
+
+“That will really make Yeager’s job tougher,” Williams said.
+
+I threw myself into the venture as enthusiastically as if the flight
+had been planned for me. One reason was that Carl, a big lanky guy,
+was immensely likable and a superb aviator, in my book. I had to
+admire his guts. There weren’t many pilots in the world who would
+deliberately jump in the Skyrocket and go for broke. We stayed up
+late at night. I told him every detail of the Skyrocket, all her
+quirks and strong points, what to beware of, just how to balance on
+that knife-edge high in the thin air, how to avoid the dangerous
+Supersonic Yaw that had bothered Bridgeman and myself. In many ways
+this was superfluous: he had done considerable cramming before he
+came.
+
+Carl had one advantage over most beginning rocket-plane pilots. The
+NACA Skyrocket team was unbeatable. The plane was by now almost
+completely debugged. He could count on efficiency and competence up
+to the moment of launch, and a mechanically near-perfect bird in
+flight. The rest was up to him.
+
+The first two flights were failures--he never launched. On the
+first I flew chase. Carl experienced some difficulty in the strange
+Skyrocket cockpit and I was too far away to help. Thus on the second
+flight I rode in the mother-ship bomb-bay compartment. I helped
+Carl suit up and strapped him in the Skyrocket cockpit. Then, up
+until the moment of launch, I helped Jack Russell operate the mother
+plane’s manual Lox top-off system, pumping Lox into the tanks of the
+Skyrocket to replace boil-off. Since liquid oxygen (Lox) “boils away”
+at altitude, we had equipped the mother plane with a Lox “top-off
+system,” which keeps pumping Lox into the research airplane until a
+few moments before launch. Full Lox tanks also mean a longer rocket
+flight, always a prime objective. Carl would need every ounce we
+could squeeze in to break an altitude record. The second flight
+ended much like the first. Frankly, I was amazed at the limitless
+competence of the man in a brand-new and, to him, hostile environment.
+
+On the third flight and first launch Carl made it. After a perfect
+light-off he stood the Skyrocket on its tail and blazed to 85,000
+feet, beating Bridgeman’s record by a healthy 6,000 feet. His
+recovery in that thin air was adroit, and he landed the ship
+dead-stick on the lake, beaming with pride. Now he was ready to
+tackle the speed record, to rack up Mach 2 for the Navy.
+
+This would be tough, I knew. My top speed in the Skyrocket, and
+Carl had to exceed this first, was Mach 1.96. I had achieved that
+speed only after months of flying in the ship, of learning to tread
+the knife-edge with extreme care and skill. In that airplane even
+the slightest over-pressure on the stick would cut the speed back
+drastically and botch a flight. It would be tougher in summer, when
+the air was warmer. The Skyrocket performed best when it was cold.
+
+Colonel Carl made two unsuccessful tries for Mach 2. Then, under
+pressure from some conservative elements in Navy headquarters, he
+gave up the attempt, after failing to come close. Ever since, I have
+held Carl in highest regard. In five brief Skyrocket flights he had
+shattered the world altitude record. His record is usually omitted
+from most aviation-record summaries. I think that is because he was a
+Marine. But Carl, in no sense a small man, had never raised the point
+himself.
+
+Carl’s performance made a lasting impact on me. After he left
+Edwards I began to think hard about records. The names of the
+famous rocket pilots hummed through my mind: Yeager, Boyd, Ridley,
+Everest, Bridgeman, Carl. I had seen enough of these men to know
+that when they spoke they commanded the attention of four-star
+generals and admirals, even Dr. Dryden. Although only one (Ridley)
+was an engineer, when they made a suggestion about an airplane it
+was considered a command, and millions were spent on their intuitive
+say-so. Their authority had been built not only on a foundation of
+tens of thousands of data points wrung from research airplanes, but
+mainly from singular, spectacular bursts--records.
+
+With the right man at the controls I knew the Skyrocket could reach
+Mach 2, though not easily. Scott Crossfield might be the man, the
+first man to fly at Mach 2. If so, who knew what the future held?
+
+
+
+
+CHAPTER 17 ►
+
+ _Light in the Open_
+
+
+“What’s the situation on the X-1-A?” Williams asked. I had just come
+from an inspection of the ship, which was being readied for flight in
+the Edwards Air Force hangar.
+
+“There are some technical difficulties in the airplane, some of them
+critical, I think. I’ll give it to you in a report,” I said.
+
+“Is Yeager going to go?” Williams asked.
+
+“All out, that’s for sure. He was trying to feel me out a little,
+find out what we were doing with the Skyrocket. I didn’t tell him,
+although I let drop it was a pretty high Mach number. They’re going
+to get this flight in before the Wright Brothers Memorial dinner if
+it kills them.”
+
+“Don’t say that.”
+
+“I didn’t mean it that way, Walt.” I said. “But everything indicates
+that this airplane is going to go directionally unstable at Mach 1.8
+and above. I’m sorry to see they have pulled Yeager back especially
+for this. Something might happen. He is going to Mach 2 or faster if
+he can.”
+
+“How about giving me a written report on the inspection? At least
+we can show we were trying to make this thing as nearly safe as
+possible. I’ve already put in one objection and gotten my ears
+pinned. Don’t get into the flight operations aspects, just confine
+the report to the systems inspection.”
+
+“Okay, Walt.” I turned to leave.
+
+“By the way,” Williams said, “we’re supposed to get some stuff
+together for this proposed advanced research airplane. I’ve got
+a report here prepared by O’Sullivan, Brown, and Zimmerman from
+Langley.”
+
+My heart skipped a beat or two.
+
+“What do they recommend?” I asked.
+
+“It’s not a recommendation for a specific airplane configuration.
+They think some more study should be given. They want to run a
+lot more wind-tunnel studies on shapes. They especially want to
+investigate aerodynamic heating. They’ve sent the report to all
+NACA facilities for general comment, and in some cases for specific
+engineering studies. Most of the technical work will be done down
+at Langley--the aerodynamic heating phase. They’ve rigged up a
+shotgun-type wind tunnel that will give them a micro-second blast as
+high as Mach 16. Miniature stuff, but a start.”
+
+“What can we do to keep this thing rolling, Walt?” I asked.
+
+“_Keep_ it rolling? You mean _get_ it rolling good and fast, don’t
+you? This thing could die on the vine right quick if the right people
+don’t push it.”
+
+“All right, _get_ it rolling.”
+
+“What I’d like _you_ to do, Scotty, is prepare a report--take your
+time, a couple of weeks, if need be--outlining the operational phase
+of the proposed advanced research airplane. Make this a real positive
+report. Write it as though the airplane were a definite thing and
+don’t overstress the problems. Show them that for us the flight
+program of this airplane would be strictly no sweat.”
+
+“I can do that because I believe it will be no sweat,” I said. “What
+kind of guide-lines have they given us on speed and altitude?”
+
+“The numbers they’re kicking around now are Mach 6 and 75 miles
+altitude, close to 400,000 feet.”
+
+I got up and walked to a map which covered one part of the wall in
+Williams’ office. I made some mental calculations and spaced off some
+distances with my thumb and little finger stretched to maximum.
+
+“I think you’ll probably have to launch some place over Salt Lake to
+make a powered flight and land at Edwards,” I said.
+
+Williams got up and joined me before the map.
+
+“How about this area around Las Vegas?” he said.
+
+We stared at the patches on the map which outlined the many dry
+lakes. There was a long string of them between Edwards and Salt Lake,
+forming almost a straight line. Any of the lakes along the route
+could serve as an emergency strip if something went wrong.
+
+“How far is it from here to Salt Lake?” Williams asked.
+
+“About four hundred miles,” I said.
+
+He sat down and doodled on a scratch pad. He slammed open his desk
+drawer and pulled out a slide-rule. He figured swiftly for several
+minutes, scratched his closely cropped, stiff hair. I noticed that it
+was beginning to gray.
+
+“I think that’s it,” he said. “If the mother plane is fast enough,
+you can take off from here, fly to Salt Lake in an hour or so and
+launch. The research plane would be back here on the ground in half
+an hour more.”
+
+“Our first aircraft in space,” I said. In NACA’s vernacular we called
+it “extra-atmospheric flight.”
+
+That afternoon I began my report: “Operational techniques for a
+research airplane of the type proposed in reference (a) will _not_
+present difficult problems if operational people have a strong voice
+in the philosophy of the design and function of the airplane and its
+parts....”
+
+I went on to discuss some of the technical details of the mother
+plane, the launch speed and altitude and recovery phases,
+recommending the Salt Lake area as a launch point. Then I digressed
+into a discussion of the pilot safety and escape mechanisms,
+emphasizing that all could be performed adequately by following known
+procedures and making use of existing techniques. I expressed doubt
+that cosmic radiation or zero G weightlessness would prove a problem,
+although at that time, typically, there were experts in these fields
+who had made a federal case of each.
+
+I concluded my report: “Directly proportional to operational
+problems, and hence of vital importance, is the complication of
+the airplane devices and over-engineering of the systems. From the
+inflight point of view, the pilot-protection items lose their value
+if reliability and airplane performance are sacrificed.”
+
+In short, let’s not botch up the airplane like the X-2 and X-3. Keep
+it simple, always realizing that performance means pilot safety and
+performance comes in this sense from reliability.
+
+I completed the report on the following day and forwarded it to Walt
+Williams. Thus, little by little, and much too slowly for our money,
+the X-15 was taking shape in people’s minds.
+
+ * * * * *
+
+They had towed the XF-92-A far down on the lake bed. It was sensitive
+to crosswind and the more the take-off run was directly into the
+wind, the better. Pete Everest was ready to make the last Air Force
+test flight before turning the plane over to NACA. After the plane
+was in place, the wind changed slightly. But that was enough to
+cancel the flight. I was in Williams’ office with Everest.
+
+“Well, Scotty,” he said, “you’re going to fly the plane next week.
+Why don’t you go down to the lake and get it? You can taxi it back
+and lift it off the lake, just to get the feel of it.”
+
+I grabbed my flight gear and drove down to the airplane.
+
+The XF-92-A was the worst-flying airplane built in modern times that
+I know of. It was a delta-wing plane, the first modern delta job
+manufactured in the country. Originally the plane was designed for a
+ram-jet engine. When that engine fell by the wayside, the XF-92-A was
+fitted with first one jet engine and then another. It was a hopeless
+mess, a patchwork quilt of fixes upon fixes. It was underpowered,
+under-geared, under-braked, and overweight. It was a nightmare. When
+it first arrived at Edwards in the early days, Chuck Yeager washed
+out the gear on take-off. After company demonstration, and Al Boyd’s
+flight, by Air Force order only three Edwards pilots were permitted
+to fly the plane: Yeager, Everest, and Crossfield. The Air Force was
+not sorry to turn it over to me.
+
+I climbed into the cockpit, pulled the canopy shut, and got set for a
+fast taxi, and shallow lift-off, back toward the base area. I gunned
+the engine, and the plane, heavy with fuel, wobbled into the air. I
+had read the manual and talked at length with Pete Everest. I knew
+the plane was weak on brakes. One way to stop the roll was to hold
+the plane nose-high--very high. With the lake bed running out on me,
+I horsed back on the stick and brought the nose up. My speed fell off
+only slightly. I pulled back hard on the stick and nearly stood the
+beast on her tail. She plopped down on the lake but continued to roll
+like a Ferrari.
+
+I was in trouble. The lake was all but gone. I was barreling toward
+a cluster of sand dunes, unable to stop the plane. Well, Crossfield,
+I thought, the old first-flight jinx is working hard, and this time
+you’re going to wrap this plane up in a ball. It would be a mess,
+too. The plane was fully fueled, all the tanks around the engine and
+wheel-wells were brimming. Even under the best of circumstances, she
+was a fire-trap.
+
+I figured a way to save my own hide. I could see that a small bluff
+lay ahead directly across my path. I would let the plane roll on
+until an instant before it smashed into the bluff. At that second I
+would retract the gear, turn on all the fire-extinguishers, blow off
+the canopy, and, as the belly skidded onto the bluff, jump out and
+run. I stop-cocked the engine and shut down all the circuit breakers
+and pumped what little brake I had, first left then right, to dodge a
+couple of sand islands in my path.
+
+As the plane raced on toward the bluff, I suddenly noticed a narrow
+dirt road going off to my left. Could I make that? I jammed on the
+left brake with all my might. The small brake seized for a split
+second, then fell off on the lake floor, a molten mass of metal.
+But the plane had turned slightly toward the rutted dirt road and I
+turned it still more by sheer will power. When I hit the road, the
+tires blew and burned. But the plane stayed straight and level. A
+hundred yards up the road, it finally ground to a halt. I pulled the
+fire-extinguishers and jumped out.
+
+After that the dirt road was facetiously renamed the Crossfield Pike
+in my honor. Everest cracked: “You know, Scotty, you’re the only
+pilot still alive at Edwards who has a road named after him.”
+
+One of the weakest points of the XF-92-A was the engine installation.
+During the early phase of the program before I flew it, we burned
+out an engine on almost every other flight, laying the ship up for
+repairs for weeks on end. In fact, it took eighteen months to log
+eighteen flights. We made many changes in the installation and
+operational procedures, so that by the time I flew it we fortunately
+never lost another engine. But every time I took off in that plane
+I held my breath until I reached sufficient altitude to use the
+ejection seat, if necessary. The pilot never really flew that
+airplane, he corralled it.
+
+I made twenty-five flights in her during the summer and fall of 1953.
+On the last one, in October, she collapsed on the lake bed while
+taxiing after landing. The nose wheel simply got tired and buckled.
+The plane ground-looped and came to rest, teetering on the nose and
+one wingtip. After I was sure that it would not fall over on me, I
+crawled out.
+
+The plane never flew again after that. It was finished and no one
+shed any tears. Some mechanics patched it up, and for a while it was
+used for publicity purposes as a static exhibit at air shows, Rose
+Bowl parades, and so on.
+
+From an engineering standpoint I should not be overly harsh on
+the XF-92-A. Actually, the combined Air Force-NACA flight program
+produced a great deal of information which ultimately made the
+Convair F-102 delta-wing fighter and its newer sister-ship, the
+F-106, feasible airplanes. The data we accumulated from the XF-92-A
+enabled the F-102 and F-106 to achieve an acceptable stability in
+flight, and thus the darned thing had accomplished its purpose.
+
+ * * * * *
+
+Not long after the final demise of the XF-92-A, I visited the office
+of “Perk” Perkins, the Navy liaison civilian stationed at Edwards.
+He was the very valuable contact for NACA when we needed something
+from the Navy. He had been in the thick of the Marion Carl altitude
+and speed attempts in the Skyrocket. He was a good friend.
+
+“Perk,” I said, “I can’t be here officially. Dr. Dryden has ordered
+me not to take the Skyrocket to Mach 2. But this is a Navy-sponsored
+plane and I thought I would kick around some possibilities with you.
+Something that the Navy would think beneficial.”
+
+Perkins caught on fast. My case made sense. Yeager was going to
+take the X-1-A to Mach 2, come hell or high water. The X-1-A was
+a new bird. We knew it would be unstable above Mach 1.8. Yeager
+had already encountered instability above that speed on a practice
+run. Knowing Yeager, though, the chances were he would make it. The
+Wright Brothers dinner was coming up. We could achieve Mach 2 in the
+Skyrocket because after scores of flights we had learned to live
+with its instability. I knew the plane well. I could fly it. “U. S.
+Navy” was stamped all over the project. The Navy would get the credit
+without risking a failure. If I failed, no one would be the wiser.
+
+“The only thing is,” I said, “the pressure for this flight must come
+from the Navy direct to Dr. Dryden on the highest levels. It’s going
+to be tough because Dryden does not want to challenge the Air Force.
+He’ll be caught in the middle but it ought to be interesting.”
+
+I left Perkins’ office wondering if I had not slipped a cog. Imagine
+Crossfield proposing a record attempt. Imagine Dr. Dryden approving
+it!
+
+In the best Navy tradition, Perkins was a resourceful and decisive
+man. Right off, he found out that the Navy’s Chief of the Bureau of
+Aeronautics, Rear Admiral Apollo Soucek, was visiting on the West
+Coast. Perkins tracked him down. Soucek had no objections, provided
+the matter had been cleared through the Chief of Naval Operations in
+the Pentagon. Perkins got on the wire to the Pentagon and talked with
+our old friend Marion Carl. Carl knew just how to do it, apparently,
+because a week later Dryden sent word to Walt Williams to say that
+the Mach 2 restriction on the Skyrocket had been lifted. Williams was
+dumbfounded and for some reason suspicious of my role in this caper.
+
+“It’s up to you now, Scotty,” said Perkins. “The Pentagon says we
+can have one try at it. If we miss, we have to step aside for Chuck
+Yeager.”
+
+“I won’t miss,” I said.
+
+ * * * * *
+
+The timing was splendid. I was not aware of it then, but a change was
+taking place within NACA. The cost of operating its laboratories was
+mounting in direct proportion to the increasing complexity of modern
+airplanes. NACA urgently required advanced tools to probe new areas
+of flight. These had to be in place in a hurry if they were to do any
+good. But money was hard to come by. The administration, in general,
+had taken a dim view of “research,” and NACA’s contributions were not
+easy to explain in lay language. NACA was about to bring its light
+into the open. The Mach 2 proposal must have fitted very neatly with
+NACA’s new plans.
+
+In fact, a few days later, to my astonishment Dr. Dryden’s able
+assistant, Walter Bonney, arrived at Edwards. Bonney, a good-natured
+man then a few years my senior, had worked for Bell Aircraft for
+years as a public relations man. In 1949 Bonney had joined NACA in
+Washington, where he soon discovered that his talents as a flack were
+not so appealing as his talent for writing history. In the prevailing
+atmosphere Bonney went underground and began preparing the most
+thorough and objective history of aviation yet conceived. For years
+my hobby had been aviation history. During the years Bonney and I had
+spent many hours together on this subject. I had turned over to him
+my collection of research.
+
+“Walt!” I said. “What brings you to Edwards? We’re not doing anything
+out here an aviation historian would be interested in.”
+
+“Son,” Bonney said, tossing me a quizzical smile, “I’m not a
+historian on this mission.” Bonney called everyone younger than he
+“son.”
+
+I knew then that Bonney had come out to handle “press relations” in
+the event I was successful in reaching Mach 2. What was happening to
+staid old NACA, anyway?
+
+
+
+
+CHAPTER 18 ►
+
+ “_Fastest Man on Earth_”
+
+
+November 20, 1953, was a cold, blustery day on the desert. I arrived
+at the ramp before daybreak, shivering from the frigid wind and weak
+from a bad dose of influenza. I had slept only a few hours. But it
+mattered little how _I_ felt. My mind and body would be called upon
+to perform full-bore for only four critical minutes. I had no doubt
+that both could be summoned to peak at the proper time. The important
+thing was how the Skyrocket shaped up.
+
+She was snugged under the belly of the B-29 mother plane, almost lost
+in a swirl of liquid oxygen fog, which boiled out of a vent. Pipes,
+wires, and hoses leading from the ground-equipment carts and fuel
+trucks were plugged into her top and sides. A swarm of mechanics,
+heavily bundled against the cold, fretted about. In the background
+was a steady, eerie, high-pitched whistle caused by pressure dumping
+overboard through a relief valve, signifying to all that the
+Skyrocket was ready for action. It was a falsetto call to arms.
+
+In truth, the Skyrocket was being called upon to perform a minor
+miracle. She was not designed for supersonic flight in the first
+place. In concept she was old, years old, and even at Mach 1.8 we
+were pressing her far beyond rational limits. One simple fact made
+her go fast: the 200-second blast of her enormously powerful rocket
+engine lighted off in mid-air at 35,000 feet, where we could take
+advantage of the thin air. If the Skyrocket took off from the ground,
+which she was not designed to do, even with her rocket engine going
+she would not exceed the speed of sound. Too much time would be lost,
+too much fuel consumed, leaving the ground and climbing through the
+thick air that lies between the earth and 35,000 feet. The secret lay
+in the air-launch. And even with an air-launch, the best any ordinary
+team could hope for, with luck, was a speed of Mach 1.9. Bridgeman
+and I had already crowded her limits. This speed was achieved in the
+thin air above 50,000 feet, where at any instant the Skyrocket, not
+designed for flight in those regions, could skid slightly and then
+tumble wildly out of control.
+
+After months of working together, the NACA Skyrocket team had learned
+many little tricks to save time and gain an edge on the unknown. Take
+the prime, for example, when we squirted a preliminary shot of Lox
+through the engine, to chill it down for the big start. The prime
+exhausted through a tube in the rear of the bird. As soon as the
+prime flowed smoothly, we launched. If we delayed, we wasted valuable
+Lox-energy. Jim Newman, an observer in the B-29, had learned to
+anticipate the prime. He could tell on the first puff if it was going
+to be good. As another example, I had perfected a rhythmatic method
+of lighting off the four rocket barrels so that each tube gave us
+every ounce of impulse it was capable of exerting.
+
+All else being equal, in the final analysis the speed we achieved
+depended directly on how much fuel we could carry. Here, too, we had
+tried a trick. If we pumped the frigid, unstable, boiling liquid
+oxygen into the Skyrocket about four or five hours before flight
+time, giving it time to “settle down,” we knew we could squeeze
+in a few more pounds. Storing the freezing liquid in the airplane
+for so long a period caused the ship to transform into a gigantic
+deep-freeze. Because of this, we called the procedure “cold-soaking”
+the airplane. We also chilled the alcohol fuel for higher density.
+
+The way our orders read, we had only one chance to crack Mach 2.
+There could be no mistakes and thus we did everything possible to
+grease the ship, hoping to gain a knot of speed or save an ounce of
+weight. Everyone scoffed, but I had the crew wax the glistening white
+wings and fuselage. We placed masking tape over every aperture and
+crack. We replaced the stainless-steel prime and jettison tubes, used
+only in an emergency fuel-dump, with lightweight aluminum tubing.
+We carefully bent these tubes so they curved into the blast of the
+rocket engine. Once I had lighted off and no longer required them,
+they would burn away and fall off, shedding another few pounds of
+drag from the Skyrocket.
+
+ * * * * *
+
+“How’s everything, Jack?” Jack Moise, one of the B-29 launch-panel
+operators, had, along with the whole crew, been awake most of the
+night nursing the Skyrocket. He was an able mechanic and a cool
+head in the air at launch time. He often operated the liquid oxygen
+top-off system in the mother plane, pumping in the last bit of fuel
+before launch.
+
+“She looks real good, Scotty,” Jack said. “We’re ready to load
+hydrogen peroxide.” We used peroxide as a fuel for the Skyrocket’s
+fuel and Lox pumps that supplied the rocket engines with the
+high-pressure propellants at tremendous rates. The peroxide
+solution--ninety per cent--was so strong that a rag doused in the
+liquid would spontaneously burst into flames.
+
+“Go ahead,” I said. I tightened my jacket against the cold desert
+wind.
+
+Moise gave the signal and the peroxide flowed from a truck into the
+Skyrocket. But a calamity was in the making--one of those unfortunate
+“accidents” that always seem to haunt the record-breakers at
+Edwards. The long “cold-soak” had frozen shut a hydrogen-peroxide
+vent fitting. The dangerous liquid, pumped in under pressure, sought
+an escape route. It overflowed into a manifold, rushed through a
+pipe, and suddenly burst out of an untaped port near the rear of the
+Skyrocket, showering Jack Moise. He yelled and covered his face with
+his hands.
+
+A quick-thinking mechanic, Kinkaid, grabbed a fire hose and brutally
+splashed Moise full in the face with water. Without a second’s
+delay we hurried Moise to the flight-line emergency dispensary.
+There they carefully rinsed his face and eyes and stripped off his
+peroxide-soaked clothing. His face was blotched white in a few spots,
+but fortunately these disappeared within a few days.
+
+Coming out of the doctor’s office, I saw Kinkaid sitting on a bench,
+waiting for a check-up. He was soaking wet.
+
+“You better get out of those wet clothes,” I said.
+
+“No, Scotty, it’s okay. I’m warm,” he said.
+
+I was about to leave when a question flashed into my mind. Why would
+Kinkaid, wet as he was, be “warm” on so cold a day? The answer came
+quickly: he, too, was soaked with peroxide, a thermite bomb, ready to
+burst into flames.
+
+I’m sure Kinkaid thought I had lost my mind. I ran to him and began
+peeling off his many layers of clothing--two pairs of trousers, long
+underwear, a jacket, sweater, and shirt. When at last he stood before
+us completely nude and looking sheepish, I saw that his arms and
+legs were bleached white. We had saved him from serious injury and
+possibly a consuming peroxide fire.
+
+This near-disaster delayed our preparations, but not much. Back at
+the ship another mechanic thawed the peroxide fitting with a hot-air
+gun, and soon the Skyrocket was loaded, ready to go.
+
+Herman Ankenbruk, the project engineer, had spent many hours
+working out a flight plan that would give the Skyrocket maximum
+performance--and then some. Usually after drop I flew the plane on a
+giant parabolic course, going uphill and then pushing over, achieving
+maximum speed in a mild dive. Everything was timed to the split
+second. Too much climb would rob me of rocket-engine burning time on
+the descent. A sloppy pushover would leave the Skyrocket at too low
+or too high an altitude at burn-out. The high-speed dive lasted only
+a few seconds. Plunging earthward, the Skyrocket soon encountered
+thick air, building up a dragging shock-wave on the nose. When
+the drag equaled the thrust of the rockets, they shut off and the
+Skyrocket slowed like a truck hitting a brick wall.
+
+After a brain-numbing analysis of all previous flight data and
+endless conferences with me, Herman advised me to climb to 72,000
+feet. The winds aloft that day blew from the east. A launch in the
+western end of the valley, heading east, might add a few miles per
+hour, we thought. The cold temperature that day suited the Skyrocket
+fine.
+
+ * * * * *
+
+The success of the flight to a large extent depended on the
+performance of the mother-ship crew. On this day especially, the
+Lox top-off had to be perfect. Each drop of Lox pumped in at the
+last moment added precious micro-seconds to the burning time. I
+was completely confident. Jim Newman, I knew, would anticipate the
+prime and call it right. The mother-plane pilot, Stan Butchart, an
+old friend from the war and the University whom I had recruited for
+NACA, would drop at precisely the right point at the best speed and
+altitude. He had done so many times in the past. These men were pros.
+
+At 10,000 feet I crawled into the familiar cockpit of the Skyrocket
+and the canopy was slammed shut. All the gauges were in the green.
+Only one thing worried me. When we reached altitude, it was my job to
+pressurize the cockpit of the Skyrocket by releasing compressed air
+through a valve. There was no gradual compression. The gas exploded
+into the cockpit in one burst. The effect on the pilot was similar
+to that a diver might experience with a split-second change in
+depth. The sinus tubes sometimes clogged and built up pressure that
+telegraphed a racking pain through every cavity in the pilot’s head.
+Long before, from years of flying and pressure-chamber work, I had
+developed that dreadful occupational affliction of pilots: tortured,
+mangled sinus channels. On two occasions in the past the pain had
+been so severe at pressurizing that I had had to cancel. I worried
+now about how my influenza might have complicated my sinuses. It was
+possible they might be unbearably painful.
+
+Against this possibility I had brought along a piece of insurance, a
+small cork. Preparing to pressurize, I reached back and plugged the
+cork in the compressed-air tube outlet. I turned the valve and eased
+the cork out of the pipe slowly. The pressure in the cockpit built up
+gradually and caused me no pain whatsoever. When the cabin-pressure
+gauge reached the green, I reported by radio to Butchart:
+
+“Pressurized.”
+
+We droned on toward launch point, our path marked by four snowy-white
+contrails. The air was slightly turbulent and we bounced more than
+usual. The Skyrocket creaked in its mechanical nest. Too busy to
+care, I set my stop-watch and began the pre-launch routine. I
+pressurized the fuel tanks. The gauges, thank God, held steady in the
+green. Then I turned the switch on the Skyrocket panel which blazed a
+green “ready” light on Butchart’s panel in the B-29.
+
+“Going to prime,” I intoned on the radio. There was no dramatic
+nonsense on our radio circuits. Almost before I had completed my
+sentence, Jim Newman called back:
+
+“Prime looks good.”
+
+“Five, four, three, two, one. DROP!” Butchart called the countdown
+with almost exaggerated calm.
+
+The Skyrocket fell away on its elevator course, and a blinding flash
+of sunlight hit my eyes. When the ship rolled gently to the right,
+as usual, I trimmed quickly and hit the rocket-barrel switches,
+pausing a split second until each caught. The Skyrocket surged ahead.
+I pulled back on the stick and the horizon disappeared from my
+windshield. I called Butchart by radio for a steer.
+
+“You’re to my right and going uphill, Scotty,” Butchart said, placing
+the Skyrocket in relative position to the mother plane. This was
+important because in the steep climb I couldn’t tell direction.
+
+“All four going good,” chase Captain Givens reported. I soon left
+them far below and behind.
+
+With luck the rocket barrels would burn a total of 200 seconds.
+These three minutes would spell success or failure. While the
+Skyrocket bored steadily toward the heavens, I prayed silently to
+God. “Don’t let me goof this one.” Meanwhile I kept my eye glued to
+the needle-ball, air-speed and altitude instruments, an archaic but
+very effective method. If they charged ahead too much or dropped off
+suddenly, I would burn fuel needlessly. The way Herman had calculated
+it, I had to ride an imaginary parabola in the sky, veering no more
+than a few feet off course. This was the delicate knife-edge.
+
+Coming up on 72,000 feet, I began the push-over. The Skyrocket,
+engines blazing furiously, arched nicely and began the big downhill
+run. This was the supreme moment: the Olympic bobsled run, the
+80-meter ski-jump, the first and last downhill lunge on my wild
+roller-coaster. I prayed that the barrels would burn a few more
+seconds. My eye now alternated from the Mach meter, which was slowly
+edging toward the magic 2.0 reading, to the needle and ball; if
+either deviated, precious energy and speed were lost.
+
+I could hear the usual chatter on the radio from chase: “Do you have
+him in sight?”
+
+“No. I see the exhaust. But I can’t see him. He’s lost in the sun
+some place.”
+
+“Well, I’ll ease over the base and try to pick him up when he gets
+back down here.”
+
+“Rog.”
+
+The Skyrocket was performing like an Olympic champion. She held true
+on her spectacular dive. The rocket engine burned several seconds
+longer than usual--207. The “cold-soak” had paid off. The Mach meter
+needle edged past 2.0 and hung at 2.04. WE HAD MADE IT! I had become
+the first man to fly at twice the speed of sound, and this historic
+milestone had been automatically recorded by the data instruments in
+the Skyrocket.
+
+The rocket engine cut off with a pop-pop-pop-pop, just about the
+instant the Skyrocket entered the “thick” air. The ship slowed
+abruptly, throwing me forward against the shoulder straps. I drew
+back on the stick and began the pull-out, still coasting at better
+than Mach 1.8, taking care to see that the ship did not fall off the
+knife-edge. Dropping silently back through Mach 1.0, the Skyrocket
+for a brief instant shook harshly, like a wet dog drying his fur.
+
+Now it was time for the dead-stick lake-bed landing. Coming over the
+edge of the lake at 15,000 feet, I whipped the ship into a victory
+roll. As I slowed, the chase planes found me and closed on my
+wingtips. I lined up for the let-down.
+
+The Skyrocket’s wheels touched down between the two long black lines
+painted on the dry-lake bed at precisely the point I had picked to
+land. She rolled to a stop twelve minutes from launch. Walt Williams,
+followed by Walter Bonney, ran up to the side of the ship, awaiting
+my report. I pushed back the canopy and looked at Bonney.
+
+“I don’t think you’ve wasted your time coming out here.” He beamed.
+
+ * * * * *
+
+“Scotty, how did it feel?” It was a mob scene in a room of the
+Statler-Hilton Hotel in Los Angeles. In the glare of spotlights,
+newsreel cameras ground and flash cameras exploded in my face. The
+reporter who asked the question, one of about fifty jammed in the
+room, held his notebook in hand, pencil poised. Other reporters
+were shouting from all corners of the room. The phone was ringing.
+Everybody wanted an interview. National magazines were on the scent.
+Walter Bonney was in his element. At last NACA had hit the big time
+in his business, too.
+
+How did it feel? I turned the question over in my mind slowly, gazing
+blankly at the reporter. How did you explain how it felt in a word or
+two, which was all he wanted? Tell them you didn’t believe in making
+records? Tell them it was part of a careful lifetime plan? Reveal the
+secrets of the proposed advanced research airplane? Tell them you
+just wanted to show Yeager a thing or two?
+
+“Well, if you want to know the truth,” I said, “I didn’t feel good
+yesterday. I had the flu. A real bellyache.”
+
+The newsmen scrambled out, leaving Bonney and me to sort through a
+hundred or more invitations to make speeches, appear at football
+games in the half-time, and other scientifically significant events,
+and to fend off still more reporters who wanted to write “human
+interest” stories about me and, worse, my family. It was a new
+and zany world to me. That night when I picked up a Los Angeles
+newspaper, I stared dazedly at the black headline two inches high and
+eight columns long:
+
+ PILOT FLIES MACH 2 AND GETS BELLYACHE
+
+A few nights later I was guest of honor at a ceremony in San Diego.
+Sitting next to me at the head table was movie star and swimming
+champion, Esther Williams. We all waited patiently while some Air
+Force general droned through a long, prepared speech about the
+marvels of science and airplanes in particular. Finally my beautiful
+dinner companion, dressed in a tight-fitting gold lamé dress, was
+called upon to speak.
+
+Esther Williams approached the mike. Leaning over the lectern until
+her best features were prominently spot-lighted, she spoke slowly:
+“You know, I’ve been getting a lot of static all night long about
+sitting next to the fastest man on earth. But I don’t believe it. He
+hasn’t laid a hand on me yet!”
+
+I only wished that the exceedingly eminent Dr. Dryden had been there
+to see the crowd double up on the floor with glee. NACA had indeed
+arrived at a turning point. Scott Crossfield, too.
+
+
+
+
+CHAPTER 19 ►
+
+ “_Leaf in a Tempest_”
+
+
+I was king of the race track for three weeks. Then the old master,
+Chuck Yeager, did it again. He shattered my record, but he nearly
+died doing it.
+
+I had been expecting the coup de grâce at any moment. Chuck had been
+scheduled to fly the X-1-A on the day after my Mach 2 flight in the
+Skyrocket. But when I logged Mach 2, the Air Force team pulled back
+and regrouped, as the military say. Yeager now had his hands full.
+Pete Everest describes this Air Force record-breaking in his book:
+“By this time the old X-1 record had long since been broken by both
+Bridgeman and Crossfield, so there was no question of keeping ahead
+of them. Our problem now was trying to catch up.”
+
+In early December Chuck flew the X-1-A Mach 2 and caught up. To quote
+Everest again: “We had matched Bridgeman and Crossfield even money
+and now we raised the bid.” Yeager would gun the X-1-A all out.
+
+I watched these warm-ups--between my own press conferences--with more
+than casual interest. The Wright Brothers Memorial dinner was just a
+few days away. If Chuck failed, the Navy and Douglas could publicly
+boast a clean sweep: Carl’s 85,000-foot altitude record and my Mach
+2 speed record, both set in the Skyrocket. Yeager flew on December 12.
+
+I took up a post that day on the Edwards radio circuit, to listen in
+on the flight from the ground. Jack Ridley and Major Arthur “Kit”
+Murray flew chase. I heard them routinely chatting on the air as the
+mother plane bore down on the launch point at 32,000 feet. Then like
+the crack of a starting pistol we heard the mother-plane pilot snap
+to the co-pilot:
+
+“Drop her, Danny.”
+
+In my mind’s eye I could see the X-1-A falling rapidly away from the
+mother plane and Yeager adroitly moving the controls. Now I knew he
+would be hitting the four rocket-switches at intervals, blasting
+skyward. In a matter of three minutes he would reach the finish line.
+The seconds ticked by slowly.
+
+“Got him in sight, Kit?” It was chase Ridley speaking to chase Murray.
+
+“No,” Murray replied. “He’s going out of sight. Too small.” That was
+a good sign--for Yeager.
+
+The radio circuit was silent. There was no word from Yeager. I
+dragged on a cigarette thinking: It’s just like him to keep everybody
+on the hook.
+
+Then suddenly all hell broke loose. Something was wrong. I became
+aware of it when I heard Murray and Ridley shouting over the radio to
+Yeager.
+
+“Chuck! Chuck! Yeager! Where are you....”
+
+Then Yeager came on the air, his voice hoarse and rasping, and barely
+audible:
+
+“I’m ... I’m down ... I’m down to 25,000 feet ... over Tehachapi.
+Don’t know ... whether I can ... get back base or not....”
+
+“At 25,000 feet?” Ridley asked incredulously.
+
+“I’m ... I’m ... Christ!”
+
+“What say, Chuck?” Ridley called. “Chuck!”
+
+“I say ... don’t know ... if I tore ... anything or not ... but,
+Christ!”
+
+Yeager was obviously in serious trouble. The word flashed across the
+base. Emergency trucks screamed toward the flight line. Helicopters
+lifted off, heading for Tehachapi. We leaned over the radio speaker,
+hanging on each word. Race-track competition was one thing, but now
+a pilot’s life--a _great_ pilot’s life--was in jeopardy. I felt
+helpless--almost sick.
+
+“Chuck from Murray,” the radio crackled. “If you can give me altitude
+and heading, I’ll try to check from outside.” The chase pilots were
+trying desperately to find Yeager’s tiny craft, to guide him back to
+base, to tell him if his wings were still in place.
+
+“Be down at 18,000 feet. I’m about ... be over the base at 15,000
+feet in a minute,” Yeager reported.
+
+On the ground we cheered the master on. His last radio report
+indicated he would make it. His voice had new confidence.
+
+“Yes, _sir_,” Murray snapped on the radio.
+
+We heard the routine as Chuck jettisoned and vented fuel tanks. He
+sounded much better. The chase closed in.
+
+“Does everything look okay on the airplane?” Yeager called, lining up
+for the lake-bed landing.
+
+There was still time to bail out if the ship was busted. But he
+got little help. In his eagerness Murray had lined up on the wrong
+airplane, a T-33 jet trainer. Quickly Murray shifted targets and
+gunned his engine to close on Yeager’s craft, but it was too late.
+Yeager was already letting down, committed.
+
+“I don’t have you, Chuck,” Murray called.
+
+“I’m on base leg,” Chuck reported. His voice sounded firm and strong.
+“I’ll be landing ... in a minute.”
+
+We heard some additional chatter and then Yeager said:
+
+“Going to land long. I would appreciate it if you’d get out there and
+get ... this thing ... this pressure suit. I’m hurting ... I think I
+busted the canopy with my head.” He landed like the pro he is.
+
+ * * * * *
+
+Yeager’s had been the fastest and wildest airplane ride in history.
+The grim details of it spread through Edwards, hurriedly passed along
+by tongues stammering in disbelief and admiration.
+
+After drop, Yeager had lighted off the four X-1-A rocket barrels
+one by one to achieve maximum speed. He pointed the X-1-A’s nose
+toward the deep blue and at 75,000 feet he pushed over. The X-1-A,
+in level flight, roared to Mach 2.42, or about 1600 miles an hour,
+faster by a wide margin than man had ever flown before. Then in that
+rarefied air, at a speed the X-1-A was not designed to fly, the plane
+“uncorked.” The X-1-A tumbled wildly like a “leaf in a tempest, a
+cork in a flooding stream,” as Everest puts it.
+
+The X-1-A spun uncontrollably, dropping 51,000 feet in fifty-one
+seconds, smashing Yeager about in the cockpit. As Yeager later
+recalled the experience: “The voices have no reality in this lost
+moment of your life. You’re taking a beating now and you’re badly
+mauled. You can see stars. Your mind is half blank, your body
+suddenly useless as the X-1-A begins to tumble through the sky. There
+is something terrible about the helplessness with which you fall.
+There’s nothing to hold to and you have no strength. There is only
+your weight knocked one way and the other as the plane drops tumbling
+through the air. The whole inner lining of its pressurized cockpit is
+shattered as you’re knocked around, and its skin where you touch it
+is still scorching hot. Then as the airplane rolls, yaws, and pitches
+through a ten-mile fall, you suddenly lose consciousness. You don’t
+know what hit you or where.”
+
+Probably no other pilot could have come through that experience
+alive. Much later I asked Yeager, as a matter of professional
+interest, exactly how he regained control of the ship. He was vague
+in his reply, but he said he thought that after he reached the thick
+atmosphere, he had deliberately put the ship into a spin.
+
+“A spin is something I know how to get out of,” he said. “That other
+business--the tumble--there is no way to figure that out.”
+
+The Air Force squeezed in by the skin of its teeth. Yeager’s new
+record was triumphantly announced at the Wright Brothers Memorial
+dinner in Washington. Yeager received many accolades. I didn’t
+begrudge him one of them. If ever a pilot deserved praise for a job
+well done, it was Yeager. After that X-1-A episode, he never flew a
+rocket airplane again.
+
+ * * * * *
+
+While it still retained control of the X-1-A, the Air Force itched to
+make a try for an altitude record. As Everest says: “While we waited
+for the engineers to tell us why Chuck got into trouble, we began an
+alternate program to set a new altitude record....”
+
+By then Everest must have come to believe his own Air Force press
+releases. He says: “Bill Bridgeman’s record of 79,000 feet in the
+Douglas Skyrocket was the mark ... to beat.” In reality the “mark
+to beat” was Marion Carl’s 85,000-foot record established in the
+Skyrocket. But, as I said, Carl’s record was seldom included in the
+aviation-record summaries.
+
+Major Kit Murray, who had flown chase for Chuck Yeager on the
+ill-fated X-1-A flight, was picked as pilot for the Air Force
+altitude attempt. His boss, Pete Everest, was reserving his strength
+and skill for the X-2 flight program, if and when the airplane became
+ready. Murray had flown chase on the X-1-A many times, but he had
+never flown a rocket plane. Even so, as Everest puts it, Murray was
+“well qualified” for this all-out attempt in the unstable X-1-A.
+After long months of study, and conferences with Yeager, he was
+thoroughly familiar with the airplane. However, as Everest reports:
+“... we approached his flights with extreme caution.”
+
+Inevitably there were delays. Murray’s “gravy flight,” as the Air
+Force termed the record tries, did not arrive until June of 1954.
+After drop and light-off Murray duplicated Yeager’s flight plan up to
+65,000 feet. Then in place of Yeager’s high-speed run, Murray raised
+the nose of the ship sharply and zoomed toward the sky. At 90,000
+feet Murray pushed over in a gentle parabola, his speed just under
+Mach 2. Says Everest: “Had he kept the nose up he could have gone
+higher.... We wanted to play this one safe and use proper techniques
+and not take chances.”
+
+Then, Everest goes on, in spite of these “precautions,” the X-1-A
+flipped out of control, virtually duplicating the final phase of
+Yeager’s last X-1-A flight. As Everest explains it: “In thin air
+of the upper atmosphere the plummeting rocket ship uncorked and
+fell forty thousand feet before Kit was able to get control again.
+Because he was going considerably slower than Yeager when he tumbled,
+fortunately he did not take as bad a beating. After regaining control
+he returned safely to base and landed, having flown higher than any
+other human being.”
+
+Murray had topped Carl’s record by 5,000 feet.
+
+Following these demonstrations the X-1-A and its sister-ship, the
+X-1-B, which had undergone several check flights by Everest and
+Murray, were turned over to NACA for aeronautical research and
+investigation. In his pilot report Pete Everest recommended that both
+planes, “by using a cautious approach,” could probably be flown to a
+maximum theoretical speed of Mach 2.5, or just a shade faster than
+Yeager flew the X-1-A on his record-breaking flight. Neither airplane
+was ever flown again to such speeds and altitudes.
+
+By then the need for an advanced research airplane of stable design
+was urgently felt throughout the entire aviation industry. At NACA,
+Edwards, we then had four rocket planes in our hangar. These included
+the X-1-A and the X-1-B, our rebuilt X-1, renamed the X-1-E, and
+the trusty Skyrocket. All these airplanes were obviously unstable
+above Mach 2; the Skyrocket could just barely squeak through to that
+speed. The swept-wing X-2, by then almost ten years old from a design
+standpoint, was at Edwards, in Everest’s able hands, but the engine
+was still not ready for flight test. On a powerless glide test, with
+ballast, the X-2 nose wheel had again skewered, causing the plane
+to ground-loop at high speed, badly shaking Everest. This convinced
+us--if we needed convincing--that the X-2 was really jinxed.
+
+It was vital for the research airplanes to reach far ahead of the
+military combat airplanes. Already the first of the Century Series
+supersonic fighters had arrived at Edwards, and Air Force pilots
+were flying at impressive speeds, encountering dangerous instability
+and high-altitude engine malfunctions. One of these military planes,
+a Lockheed F-104 straight-wing, lightweight day-fighter, with the
+pilot’s pilot, Tony Le Vier, at the helm, cracked Mach 2 only a few
+months after my Mach 2 flight in the Skyrocket. However, it was plain
+that if we had learned more from the research airplanes in time, the
+F-104 and the military planes that came with it--the F-100, F-101,
+and F-105--good as they were, would have been immeasurably better
+craft. At that time, moreover, the advance designers were laying
+plans for a new generation of Mach 3 military airplanes. We had
+yet to achieve Mach 2.5 in research airplanes. So the requirement
+for data was even more pressing. It is possible to tell a great
+deal from wind-tunnel data, of course, but wind-tunnel data are
+always corrected with assumptions, which inevitably contain errors.
+Airplanes must be flown full-scale to find out the true story. In
+reaching to Mach 6, the NACA’s paper-study advanced research airplane
+would provide a long-overdue and much-desired quantum leap.
+
+ * * * * *
+
+The plane was slowly making its way into the world. In April of 1954
+NACA completed its engineering studies, proposing a design that
+looks very much like the X-15 of today. After the usual headquarters
+shake-down, NACA forwarded this report to all of the senior members
+of the main NACA committee and to the chairman, Jimmy Doolittle. A
+few weeks later, in July of 1954, NACA brass met with the Pentagon
+brass to hammer out the final details of the airplane. During this
+meeting the Navy revealed that Douglas had prepared a paper study
+of an “advanced Skyrocket,” with essentially the same performance
+of the NACA-conceived craft. This report was received with great
+interest, and some of its suggestions were later absorbed into the
+X-15 program. But it was clear from the outset that the X-15 would be
+primarily an Air Force show, with the Navy playing a supporting role.
+There was not enough money in the kitty to build both Navy and Air
+Force versions of a Mach 6 research airplane.
+
+ * * * * *
+
+“About all this airplane will do is prove the bravery of the pilot.”
+The speaker was the chief designer of a large aircraft manufacturer,
+addressing a very influential body, NACA’s Aerodynamics Subcommittee.
+The Subcommittee was composed of the chief design engineers of the
+major aircraft companies of the United States. They were meeting
+at NACA’s Edwards facility for a final rehash of the X-15. At
+that pronouncement my heart skipped a beat. I was sitting on the
+sidelines, a very interested bystander.
+
+From conception the X-15 had proved controversial, just like most
+matters in the highly competitive, uncertain aviation industry. Some
+engineers believed NACA should reach for higher speed in measured
+increments, that is to say, Mach 3, Mach 4, Mach 5, with separate
+vehicles. Experts in the new and growing field of aero-space medicine
+believed that zero G weightlessness and cosmic radiation would render
+flight in the fringe of space, or in space itself, impossible.
+Structural experts worried about the “re-entry” heating of the X-15.
+It was known that the plane would glow red, like a blacksmith’s
+forge, when it plunged back into the thick atmosphere. What known
+metal could withstand so hot a blast and retain its integrity? Still
+others were concerned about the very low L over D of the X-15.
+Designed for stable, high-speed flight in rarefied air--or no air at
+all--on landing, the ship would come in fast, dropping like a brick.
+
+These were technical details. Even more significant was an ominous
+philosophy underlying this historic meeting. By then--October,
+1954--the U. S. had embarked on a massive, semi-crash program to
+build a family of long- and medium-range ballistic missiles, to
+include the Thor, Jupiter, Atlas, and Titan. In anticipation of these
+weapons, missile-test vehicles had already achieved speeds--Mach 10
+and up--that made our manned-aircraft efforts seem puny, indeed, in
+some people’s eyes. These test vehicles were accumulating a vast
+storehouse of limited-flight data within and beyond the atmosphere
+on high-speed control, structure and aerodynamic heating. It was not
+precisely airplane-type information, but it was very closely related.
+Thus some of the engineers questioned the very need for a high-speed
+manned research aircraft. Detractors suggested that an automatic
+missile-type guidance system replace the pilot in the X-15.
+
+Without quite realizing it, these engineers, who must always look
+five to eight years down the road in their business, were, in a way,
+debating the future of the manned airplane, as we think of it. Not
+one of them would then have come right out and said that the manned
+aircraft was diminishing in importance. On the contrary, they would
+have protested it to the heavens. But the impact of the guided
+missile was beginning to be felt, even though none of the proposed
+missile weapons had been test-fired. In a subtle way, the missile was
+creeping into all considerations of future projects. The fact that
+the need for the X-15 and a pilot to fly it was questioned at all was
+clear proof.
+
+Despite strong objections the NACA Aerodynamics Subcommittee at this
+meeting put the final stamp of recommendation on the X-15, in effect
+ratifying Dr. Dryden’s course of action in Washington. Like other
+research airplanes in the past, the X-15 would be an “open secret,”
+that is, everything learned in its construction and flight operations
+would be made available, through NACA and contractor reports, to all
+of industry. The airplane would be thrown open to all industry for
+bids. The Air Force would supply ninety per cent of the funds, the
+Navy about ten per cent. When completed, it would be flown at Edwards
+in accordance with the scheme I had developed earlier and presented
+to Walt Williams. Just _who_ would fly the plane was left open for
+further consideration. The whole project was to be carried out with
+high priority as a “matter of national urgency.” A few weeks later
+the Air Force called for bids.
+
+Subsequently NACA displayed unusual boldness in dealing with the
+Department of Defense over the proposed technical flight program of
+the X-15. NACA demanded and received sole authority to determine who
+should fly the airplane, and to what speed and altitude it should
+be flown on each flight. Deference would be shown the Air Force,
+of course, since that agency was footing most of the bills for the
+plane, but NACA made it clear that aeronautical research would take
+precedence over record-breaking. The X-15 would shatter existing
+records, all in the line of business.
+
+There was much that worried me after the aeronautical design titans
+had departed Edwards. As I saw it, there was danger that the X-15
+would wind up with too many cooks. Almost any member of the many
+interested agencies had the authority to impose his ideas on the
+airplane. Each was a specialist in one field or another; each an
+advocate of this or that controversial, and often unproven, concept.
+The overall shape and power requirements of the plane had been fixed
+by physical law, but everything else was subject to change: the
+instruments, the control surfaces, the control mechanism, the landing
+gear, the escape system, and a lot of things yet to be invented.
+The X-15, subjected to many individual influences, might wind up
+not the ultimate, but a “bucket of worms” (all too familiar) as the
+inevitable result, and far too late.
+
+One thing worried me more. This was the growing influence of the
+unmanned missile that had been so evident at the meetings. This same
+influence had permeated the staff at our Edwards outpost. One day
+during a bull session with the pilots, one of them said to me:
+
+“You know, this X-15 might very well be the ship that closes a grand
+era in aviation. The last of the great manned airplanes.”
+
+“The hell you say!” Anger flushed my face. “The X-15 won’t close
+anything. On the contrary, the X-15 will open a whole new era in
+aviation: the second phase, the second fifty years. Centuries from
+now historians dealing with space flight will look back to the X-15
+as a starting point. They will compare its flights to the great
+voyages of discovery, to the exploratory probes of Prince Henry the
+Navigator’s captains down the coast of Africa, preceding the voyage
+of Columbus. This is the beginning, not the end.”
+
+“Say, Scotty,” one of the pilots said, “you feel pretty strong about
+that airplane, don’t you?”
+
+“You’re damned right I do.”
+
+And that was a fact. I did.
+
+
+
+
+CHAPTER 20 ►
+
+ “_Please Come to a Complete Stop_”
+
+
+Over the swiftly passing years the face of the Edwards base had
+dramatically changed. The Air Force, NACA, and civilian contractors
+had erected modern, air-conditioned offices, engineering spaces, and
+massive hangars. A new concrete runway, miles long and as much as
+two feet thick, crossed the flatlands. Installations for fueling and
+testing experimental airplanes and rocket engines were now formal,
+restricted areas. Pancho’s Happy Bottom Riding Club was gone, gobbled
+up by the Air Force, which pushed the boundaries of the base in all
+directions, including up. The sleek, modern Edwards tower occupied
+the space that once held the complete, historic town of Muroc. The
+old tarpaper “Kerosene Flats” living area had been replaced by
+comfortable housing. Edwards was big and busy, encumbered with red
+tape and a new formality.
+
+The people had changed, too. General Al Boyd’s one-man show, the
+jet-age flying circus, had passed into history. The new Edwards
+commander was a no-nonsense general, Stanley Holtoner. Holtoner
+endeared himself to no one by deliberately snubbing Pancho Barnes,
+but he reorganized the expanding base on a businesslike basis. The
+Air Force pilots who had reigned in my early days at Edwards--Ridley,
+Wolfe, Sellers, Bryce, Hoover, Lathrop, Gregorious, Popson--were
+gone, almost all to their graves. Yeager had moved on to other
+assignments. Only Pete Everest hung on, playing a tight-fisted
+waiting game with the lagging X-2.
+
+The shift to the elaborate new NACA “laboratory” had considerably
+changed the atmosphere in our outfit. More distant now from the
+mechanics, and the smell of grease and fuel, we discarded our sport
+shirts for business suits and ties, and played the scientist role
+to the hilt. This was inevitable. NACA’s record at Edwards had far
+exceeded all expectations. Our prolonged tour on the frontier of
+flight had not only developed millions of data points, but new theory
+as well. We had challenged many old and accepted wind-tunnel methods.
+We had raised warning flags on trouble to come and desperately tried
+to head it off. In truth, the High Speed Flight Station was no longer
+a gypsy caravan camped on the fringes of Edwards, but a solid,
+permanent NACA installation, an important new source of aeronautical
+think-how and know-how. Occasionally I longed for the old racing-pit
+days, the time of sweating all night long side-by-side with a bunch
+of mechanics over a balky valve, but I knew this deprivation was the
+price of progress.
+
+The emphasis in the air had changed as well. The rocket airplanes
+were still far and away the most spectacular craft on the base.
+But the big push was now placed on the new production airplanes,
+which were afflicted with the aches and pains of faster and faster
+speed. These airplanes had to be made safe--or as safe as humanly
+possible--for the green Air Force second lieutenant just out of
+flight school.
+
+The aches and pains had been anticipated years earlier. Flying
+near the speed of sound, an airplane creates a resisting field
+in its path. The air immediately ahead of the plane, in effect,
+is transformed into a rugged area of angry sound waves which
+criss-cross, backwash, tumble, speed up, and slow down, behaving
+somewhat like the foaming water in an ocean wave when it tumbles
+against a rock-bound coast. In the beginning at Edwards the job
+was to design and fly a plane to the edge of this coast. The
+bullet-shaped X-1, deliberately built to withstand tremendous
+stress, had blazed right through to the smooth beach beyond. But
+military airplanes, which could not be so heavy and brutal, had a
+tough time of it. As they felt their way along, they were battered
+and smashed about in the surf. And when they finally reached the
+beach, they still had trouble.
+
+The most common afflictions the airplane experienced in piercing the
+turbulent trans-sonic air were two abrupt, divergent motions which
+we called pitch and yaw. These were terms adopted, appropriately
+enough, from the seamen. Pitch describes the movement of the airplane
+if the nose suddenly and unexpectedly jerks up or down, like the
+bow of a ship in a heavy sea. Yaw describes the movement of the
+airplane if the nose cocks sharply to left or right, somewhat like
+the clumsy wallow of a vessel in a following sea. When or if both
+abrupt movements occur simultaneously--a dreadful and often fatal
+sequence--it is called “coupling.”
+
+The impact of pitch and yaw on the airplane varies with altitude
+and speed. In the thick air of low altitudes a fast-moving airplane
+pitching or yawing severely is subjected to intense strain, so much
+that it is not uncommon for the ship to disintegrate in mid-air.
+At higher altitudes where the air is much thinner, a fast-flying
+airplane can “take” a greater divergent motion. If it yaws, pitches,
+or couples, the airplane simply skids through the air in whatever
+awkward or ungainly position it assumes. However, an airplane in
+such altitudes must be slowed before it reaches the thicker air;
+otherwise, it will enter this blanket beyond stress-design and
+disintegrate. At any altitude, if a plane flips out of control, the
+pilot must respond with care and skill. Over-controlling, or pumping
+on the wrong controls, compounds the problem.
+
+There was no known way to avoid completely such divergent motions in
+supersonic airplanes built especially for combat and near-routine
+take-off and landing on ordinary airfields. Thus, from the beginning
+we had focused attention on “damping” the motions, striving for
+minimum instability by various wing and tail designs, angles of
+sweep, and mechanical devices on the wing called fences and slats.
+Control systems were devised with a built-in “damping” system which,
+in theory, automatically sensed a divergence and automatically moved
+the controls just enough to compensate. These were called SAS, short
+for Stability Augmentation System.
+
+After production airplanes were delivered to Edwards, the
+experimentation continued unabated. New vertical tails and fancy
+devices were tacked on the airplanes. The horizontal stabilizers were
+moved to new positions on the fuselage.
+
+During 1954, like other pilots at Edwards, I was swept up in the new
+race to bring the fast new jets within safe flying limits. I made
+twenty-five additional flights in the Skyrocket in support of these
+experiments. In between, I went aloft many times in early-model
+production aircraft such as the F-84-F, an advanced version of the
+Republic Thunderjet; the F-102, a direct outgrowth of the horrible
+delta-wing XF-92-A; and the “hard-wing” F-86--so-called because its
+automatic slats were removed--which had been hastily engineered
+especially to destroy MIGs in Korea. The F-86 Sabrejet particularly
+held my interest from an aeronautical-engineering point of view.
+The plane had already earned its niche in history, and hundreds
+were flying from Air Force bases, but its complete range of dangers
+had yet to be defined in any report. The thought that some second
+lieutenant might be killed because we at Edwards had fallen down on
+the job haunted me. I resolved to do something about that particular
+airplane.
+
+Customarily we began investigations which would push an airplane to
+the limit at high altitudes, where the air was thin and the ship
+would stay in one piece if it uncorked. Joe Walker, Stan Butchart,
+Jack McKay, a promising new pilot at NACA, and I divided the
+hard-wing F-86 work, starting at 40,000 feet and working down slowly.
+As we edged down into the thick air at lower altitudes, the F-86
+pitch-up became more violent and dangerous. Our boss, Joe Vensel,
+drew the line. He ruled that we could not deliberately uncork the
+airplane below 30,000 feet.
+
+ * * * * *
+
+“But the most important area,” I said to Walt Williams, protesting,
+“is down around 25,000 feet. That’s where the military pilot can get
+in serious trouble, chasing a target sleeve or something. If this
+plane has a serious divergence at that altitude they ought to know
+about it.”
+
+“Look, Scotty,” Walt said, “we’re in the middle. We can’t come up with
+a negative opinion of some company’s airplane like that. All we can
+do is fly the thing and collect data and present the data objectively
+in an NACA report.”
+
+“Okay, fine,” I said. “Then let’s keep on going. Let’s do the
+30,000-foot data and then drop down to 25,000 feet.”
+
+“That’s up to Vensel,” Williams said. “He’s your boss.”
+
+“Vensel says no.”
+
+“Then the answer,” Williams said, “is no.”
+
+For the first time in my life I deliberately violated my boss’s
+orders. Without rechecking with Vensel, I recorded the hard-wing
+F-86 maneuvers at 25,000 feet. As we all expected, the pitch-up was
+severe. The airplane held together--North American traditionally
+built rugged planes--but the stress, or G force, caused me to black
+out. A pilot bent on a mission other than paying strict attention to
+the unique maneuver could get in serious trouble. When I turned over
+the data, Vensel was understandably incensed. After the data were
+released--to save the lives, I hope, of some pilots--Vensel pouted
+and claimed I had conducted the test at 25,000 feet to prove that the
+other pilots were “chicken.” Walt Williams called me to his plush new
+office, decorated with new space-charts, and gave me unshirted hell.
+I guess I tossed it back as fast as he dished it out.
+
+ * * * * *
+
+Another of these advanced planes with supersonic aches was the North
+American F-100. It had been flying experimentally, off and on, about
+one year, when we received the twenty-third production model at NACA
+in September, 1954. She was a powerful, wonderful beast, capable of
+reaching Mach 1.3 in level flight. At that stage in her test-flight
+program, mechanics spent fifteen hours working on her for every one
+hour she spent in the air. She had a reputation for being mean,
+if mishandled. She had uncorked and disintegrated, killing North
+American’s top test pilot, George Welch. There was a big debate
+raging among the pilots at Edwards about whether or not the F-100
+could be landed dead-stick. North American had not yet demonstrated
+it. It fell to me to find out on my first F-100 flight.
+
+We were down for an 0800 take-off, but the unbeatable NACA mechanics
+were ready ten minutes before, so I went aloft ahead of schedule,
+before the radars and tracking stations were warmed up to zero in
+on me. There had already been built at North American new, bigger
+vertical tails for the F-100. We needed some specific data points.
+Our F-100 was packed full of NACA instruments. The ship was not a
+research airplane. I had declined a chase plane.
+
+Poised on the end of the new three-mile concrete runway, I
+fire-walled the throttle. The F-100 rolled, picked up speed, and then
+stood on her tail, afterburner blazing, climbing almost vertically
+into the desert sky. I was quite impressed. The F-100 was no toy but
+it handled well. By then, North American had built thousands of F-86
+jets in all models and it was obvious they knew what they were doing.
+
+When I reached 35,000 feet, I leveled the ship. At that very instant
+a blaze of red flashed on my instrument panel. Fire in the compressor
+section! My old first-flight luck was stalking me again. (It had
+never left me, really. Some time before this, during a first flight
+in a new F-84-F, I had run into serious trouble and made an emergency
+landing on the lake.)
+
+There were two fire-warning lights in the F-100. One covered the aft
+end of the engine, the other covered the forward end, or compressor
+section. A fire, or heating up, in the aft end was not uncommon in a
+jet with afterburner. If the pilot throttled back or otherwise varied
+the running conditions of the engine, it usually disappeared and the
+light went off. But a fire warning in the compressor section, crowded
+with fuel lines, gear boxes, and other vital parts, was serious
+indeed. Usually a compressor section fire did not last long; it raced
+through the intake into the compressor and the plane disappeared in a
+puff of smoke and flame. There was an old and tired axiom about it at
+Edwards: “If you see a compressor fire-warning light and you haven’t
+blown up, well, you’re going to in just a second.”
+
+A small notice riveted to the panel next to the compressor
+fire-warning light informed me:
+
+ COMPRESSOR SECTION FIRE WARNING LIGHT ON:
+ STOP-COCK ENGINE. IF LIGHT REMAINS ON BAIL OUT.
+
+A hell of a sign to put in a cockpit, I thought. It inhibits one’s
+thinking.
+
+I got busy fast. I throttled back on the engine. As I did, the
+fire-warning light flickered and dimmed. Then it flashed back on
+again full-strength. Following the instructions on the panel, I
+stop-cocked the engine completely, turning off all fuel valves.
+The engine unwound and settled down to a slow wind-milling. The
+fire-warning light flickered but remained on.
+
+When the powerless F-100 slowed to glide speed, the leading edge
+slats, which provide lift and stability in slow flight, cracked and
+extended automatically. This produced a steady rumbling noise which
+I assumed to be the fire blazing in the engine air-intake directly
+beneath my feet. (At that time few pilots had remained in an F-100
+with a wind-milling engine long enough to hear that slat noise.)
+
+I called NACA radar and asked them to take a look through their
+field-glasses and see if I was trailing smoke. Since I hadn’t blown
+up yet there was a possibility that the fire might blow itself out.
+As a matter of professional pride, I was reluctant to abandon a new
+airplane that was still in one piece. Somehow, NACA radar failed to
+find me. After several garbled radio exchanges with them, I snapped
+impatiently: “Never mind.”
+
+The fire-warning light blazed steadily. However, I saw no other signs
+of real fire, so I concluded that it was a false warning. I would
+bring the ship down dead-stick. To my knowledge at that time, only
+one man, North American test pilot Bob Hoover, had ever dead-sticked
+an F-100. On that one occasion the struts had been pushed up through
+the wing, demolishing the plane. As a matter of fact, North American
+test pilots were then flipping coins to see who would deliberately
+bring an F-100 in dead-stick to fulfill a requirement of the Air
+Force acceptance tests. I was not concerned. Dead-stick landings in
+low L over D airplanes were my specialty. Every test pilot develops a
+strong point. I was certain that my talent lay in dead-stick landings.
+
+With the engine then idling and generating no energy to the plane’s
+systems, I was running out of hydraulic pressure to operate the
+controls. Following the handbook instructions, I pulled a lever which
+extended a miniature “windmill” into the slipstream. This “windmill”
+churned, building up pressure in the hydraulic lines. Unknown to me,
+there was a major leak in the line. The windmill was not helping, but
+hurting me. It was pumping hydraulic fluid overboard as fast as it
+could turn.
+
+I called Edwards tower and declared an emergency. All airborne
+planes in the vicinity of the base were warned away from the lake
+area. I held the ailing F-100 on course, dropping swiftly, lining up
+for a dead-stick lake landing, following the same glide-path that
+I used for the dead-stick Skyrocket. I flared out and touched down
+smoothly. It was one of the best landings I have ever made, in fact.
+Seconds later, while the F-100 was rolling out, the remaining bit of
+hydraulic pressure in the control lines drained out and the controls
+froze.
+
+I then proceeded to violate a cardinal rule of aviation: never try
+tricks with a compromised airplane. The F-100 was still rolling at
+a fast clip, coming up fast on the NACA ramp, when I made my poor
+decision. I had already achieved the exceptional, now I would end it
+with a flourish, a spectacular wind-up. I would snake the stricken
+F-100 right up the ramp and bring it to a stop immediately in front
+of the NACA hangar. This trick, which I had performed so often in the
+Skyrocket, was a fine touch. After the first successful dead-stick
+landing in an F-100, it would be fitting.
+
+According to the F-100 handbook, the hydraulic brake system--a
+separate hydraulic system from the controls--was good for three
+“cycles,” engine out. This means three pumps on the brake, and that
+proved exactly right. The F-100 was moving at about fifteen miles an
+hour when I turned up the ramp. I hit the brakes once, twice, three
+times. The plane slowed, but not quite enough. It was still inching
+ahead ponderously, like a diesel locomotive. I hit the brakes a
+fourth time--and my foot went clear to the floorboards. The hydraulic
+fluid was exhausted. The F-100 rolled on, straight between the
+yawning hangar doors!
+
+The good Lord was watching over me--partially anyhow. The NACA hangar
+was then crowded with expensive research tools--the Skyrocket,
+all the X-1 series, the X-3, X-4, and X-5. Yet somehow, my plane,
+refusing to halt, squeezed by them all and bored steadily on toward
+the side wall of the hangar.
+
+The nose of the F-100 crunched through the corrugated aluminum,
+punching out an eight-inch steel I-beam. I was lucky. Had the nose
+bopped three feet to the left or right, the results could have been
+catastrophic. Hitting to the right, I would have set off the hangar
+fire-deluge system, flooding the hangar with 50,000 barrels of water
+and ruining all the expensive airplanes. Hitting to the left, I would
+have dislodged a 25-ton hangar-door counterweight, bringing it down
+on the F-100 cockpit, and doubtless ruining Crossfield.
+
+Chuck Yeager never let me forget that incident. He drew many laughs
+at congregations of pilots by opening his talk: “Well, the sonic wall
+was mine. The hangar wall was Crossfield’s.” That’s the way it was
+at Edwards. Hero one minute, bum the next. The fact that I was the
+first pilot to land an F-100 dead-stick successfully, and memorized
+elaborate and complete instrument data on the engine failure besides,
+was soon forgotten.
+
+The F-100 is a tough bird. Within a month NACA’s plane was flying
+again, with Crossfield back at the helm. In the next few weeks I
+flew forty-five grueling flights in the airplane, pushing it to the
+limits, precisely defining the roll coupling. (On one flight the
+coupling was so severe that it cracked a vertebra in my neck.) These
+data confirmed, in actual flight, the need for a new F-100 tail,
+which North American was planning to install on later models of the
+airplane.
+
+Every night after landing, I taxied the F-100 slowly to the NACA
+ramp. At the bottom, placed there on orders of Walt Williams, there
+was a large new sign, symbolic of the new atmosphere at Edwards. It
+said:
+
+ PLEASE COME TO A COMPLETE STOP
+ BEFORE TAXIING UP RAMP
+
+
+
+
+CHAPTER 21 ►
+
+ _End of the Line_
+
+
+During my first five years at Edwards NACA achieved a remarkable
+safety record. No NACA pilot had bought the farm; no airplane had
+been lost through accident. This was due partly to luck, partly to
+excellent maintenance and a thoughtful approach to flight test. But
+our luck was bound to run out. It did, finally, in August, 1955.
+
+I was sitting at my desk in the pilots’ room, roughing out a report
+on a Skyrocket flight--the old ship was still going strong--when the
+emergency broke. Somewhere high over the base, Stan Butchart, the
+B-29 mother-plane pilot, was about to air-launch Joe Walker in the
+X-1-A. I was absently following the progress of the flight over the
+radio loudspeaker as mother-plane pilot, chase pilot, and Joe Walker,
+strapped in the cockpit of the rocket plane, talked back and forth,
+getting set for the drop.
+
+“We have a fire.” The words crackled from the loudspeaker. I snapped
+to attention.
+
+“Fire?” Butchart repeated.
+
+“Yes. There’s been an explosion.”
+
+I raced upstairs to the NACA control tower. Soon it was jammed with
+NACA engineers and mechanics, crowding the loudspeaker, shouting
+conflicting accounts of the accident, and helpful and unhelpful
+suggestions.
+
+By that time NACA had had possession of the flashy X-1-A, in which
+Yeager and Murray set their speed and altitude records, and her
+sister-ship, the X-1-B, for a little over one year. We had not logged
+much flight time on the ships. NACA had shipped them back to the Bell
+factory for ejection-seat installation, and then filled both planes
+with data instruments. All this took time and delayed the flight
+program. The installation of the ejection seats caused considerable
+controversy. I was in favor of proceeding without them because of
+the urgency of the program and because Yeager, Murray, and Everest
+had demonstrated that the airplanes could be recovered from unstable
+flight. As senior pilot my views were carefully weighed, but the
+majority at NACA favored the escape device.
+
+The fire that broke out in the X-1-A was later traced to a similar
+source as that which destroyed the X-1-D, Queenie, and the first X-2
+over Lake Ontario. After those accidents the airplanes were modified
+to reduce the possibility of a single catastrophic explosion. In
+theory, a fire from that source might be “controlled,” or held down
+to a smouldering effect. This was all theory, however. In my view, a
+fire in any airplane was dangerous. A fire in a rocket plane, loaded
+with tons of Lox and alcohol, brought to mind the picture of a bomb
+with a lighted fuse. In my opinion, there was only one thing to do:
+get rid of it, and fast.
+
+Each rocket-plane pilot had worked out, in conjunction with the pilot
+of the mother ship, a procedure to follow if an emergency developed
+in either plane. Jack McKay, who had developed into a very able test
+pilot, and I had agreed with Butchart that if something went wrong
+_after_ either of us had entered the cockpit of the Skyrocket and had
+closed the canopy, he would immediately jettison the rocket plane,
+leaving the rocket-plane pilot to look after his own hide. As a
+matter of fact, McKay and Butchart later ran into such an emergency.
+One day something went haywire in a propeller on the B-29 mother
+plane. As agreed, Butchart instantly cut loose the Skyrocket. A
+split second later the B-29 prop tore loose and cartwheeled through
+the space the Skyrocket had just vacated. McKay landed without
+difficulty; but had Butchart not cut the parasite plane loose, the
+prop would have ripped into its fuel tanks, causing an explosion that
+would have killed everyone, including McKay.
+
+“What’s the situation up there?” Vensel yelled into the control-tower
+mike.
+
+“Well, we’ve got a fire in the X-1-A,” Butchart replied coolly. “We
+got Joe Walker out of the cockpit. He’s standing by in the bomb-bay
+compartment now. The fire’s pretty bad. I figure we ought to drop
+this thing pretty quick.”
+
+“Now let’s not take any chances,” Vensel said. “Don’t try to save the
+airplane if there’s any danger.”
+
+I fought down an urge to grab the mike and tell Butchart to pull
+the jettison lever then without another second’s delay. But he was
+already getting enough advice from the ground, and I couldn’t get
+near the mike, anyway.
+
+The Air Force chase plane was piloted by Major Kit Murray. He had
+been tucked up close to the X-1-A when the explosion occurred. The
+X-1-A wheel doors had blown off and smashed into Murray’s plane.
+
+Above the chatter in the control room I heard Murray report: “I might
+have a little damage here. I’ll try to stick around ... Butch, you’re
+getting a lot of smoke out of the back end. The Lox and hydrogen
+peroxide are dumping overboard....”
+
+Murray, with a plane damaged to an extent no one thought to
+investigate, was still hanging on, relaying an account of the scene
+from the outside. But how long could he remain on station with a
+damaged plane? Was he needlessly risking his own life?
+
+I ran to the nearest telephone and put through a call to Air Force
+Fighter Ops. Pete Everest answered.
+
+“Pete,” I said, “Murray’s up there. His plane’s been hit. How soon
+can you get a relief chase plane up?”
+
+“We’ll be up there in five minutes,” Everest said, ringing off
+hurriedly. I think he jumped into an airplane and flew up to relieve
+Murray. In any case, Murray soon landed without further difficulty.
+
+Now a big debate was raging in the NACA control room about what to
+do: keep the rocket plane attached to the mother plane and try to
+save it, or throw it away? No one asked me my opinion, but I gave it
+anyway:
+
+“Throw that damned thing away as fast as you can.”
+
+The experts thronging the control room soon swung to this conclusion.
+Then a second debate arose over where to drop the airplane. There was
+concern that the X-1-A might fall on a house or an automobile. Vensel
+called the Air Force and requested they assign a remote bombing area
+into which the stricken rocket plane might be jettisoned. While this
+discussion took place, the fire in the X-1-A raged about the plane.
+
+A new thought flashed to my mind. If the Lox had drained out of the
+rocket plane and the alcohol remained in its tank, the plane would be
+dangerously tail-heavy. When it fell away from the mother plane, it
+might pitch up sharply, perhaps fatally ramming the mother plane. Had
+the fact that the Lox drained away reached Butchart amidst all the
+bureaucratic chatter about where to drop the X-1-A?
+
+I ran downstairs and found a radio mike in a secluded room.
+
+“Butch,” I called, breaking in on the radio circuit. “This is
+Scotty.” I kept my voice low, trying to restore some semblance of
+order in the chaos on the radio circuit.
+
+“Go ahead, Scotty,” Butchart replied.
+
+“The Lox is drained, Butch. Be sure to pull some G’s when you drop
+her. Otherwise, she’ll pitch up and might climb right into the
+bomb-bay.”
+
+“Okay, Scotty, already thought of it, thanks anyway. I’m going to cut
+her now. I’m pulling G’s. I’m in a hard left bank. I think it will go
+okay.”
+
+Butchart pulled the lever and the smoking X-1-A disengaged from the
+mother plane. As we feared, the tail-heavy plane pitched up. In fact,
+it climbed right by the B-29 and almost _looped_ before dipping and
+spinning crazily into the desert floor.
+
+Butchart received further instructions from the ground. Among other
+things, he was advised to land the mother plane as quickly as
+possible. I knew Butchart’s good judgment would prevail. He would
+check his ship thoroughly, with landing gear down and locked, before
+descending. Butchart had brought many damaged airplanes back to base
+in the Pacific during World War II.
+
+This accident reduced our stable of rocket airplanes to three: the
+X-1-B, the X-1-E (still being slowly rebuilt by hand), and the
+Skyrocket--and set off another prolonged investigation which grounded
+the Bell airplanes. It also influenced the future of the Bell X-2.
+That jinxed ship had finally arrived back at Edwards and was then
+being feverishly prepared for its first powered flight by Pete
+Everest and the Bell crew. Following the loss of the X-1-A, the Air
+Force passed the word that if the X-2 had not flown by December 31 of
+that year, the project would be completely abandoned. The plane would
+be consigned to the Smithsonian.
+
+Facing this harsh deadline, Everest finally got off a shaky powered
+flight. It took place on November 18, 1955, less than six weeks
+before the expiration date set for the X-2 program. It was almost
+ten years to the day since the X-2 had been conceived, and about
+three years and five months after Skip Ziegler had made the first
+X-2 powerless glide flight at Edwards. Everest held the X-2’s speed
+subsonic and landed hastily after a fire broke out in the tail of
+the plane. This flight gained the program a reprieve--an extension.
+In spite of this Pyrrhic victory, it seemed dead certain at the time
+that the X-2 would never provide the U. S. with useful aeronautical
+research data in time. The other rocket planes in our stable were
+almost obsolete.
+
+ * * * * *
+
+By comparison, NACA’s advanced research airplane, then officially
+dubbed the X-15 (the experimental vehicles from the X-6 to X-14
+were mostly unmanned missiles), was showing strong promise. Six
+months after the Air Force asked for bids, or by June, 1955, all
+returns were in. Four companies--North American, Bell, Douglas, and
+Republic--submitted proposals. The lack of interest among the other
+aircraft companies is explainable. Research airplanes, as their
+stormy history clearly indicates, are unprofitable projects from a
+management standpoint. In the beginning they require superlative and
+expensive design and engineering talent. They do not result in big
+production orders, which are the bread and butter of the industry.
+Since the X-15 was an NACA project, all information and new theory
+and ideas developed with the plane would be made available without
+charge to all of industry. Many companies reasoned: why assign our
+most talented people to develop ideas which our competition can
+exploit?
+
+The bids were meticulously analyzed. The Republic proposal was
+extraordinarily good, but it showed clearly that the company lacked
+experience in the research airplane field. The Douglas airplane was
+essentially a redesigned version of the “advanced Skyrocket,” which
+its engineers hoped to sell to the Navy. The Bell airplane looked
+very good and demonstrated the company’s long experience in rocket
+airplanes. But because of many political factors, Bell’s wonderful
+flair for exotic inventions, and the recent performance of the
+X-1-A and X-2 planes, the Bell bid was not approved. In retrospect,
+it seems to me that from the beginning the contract was almost
+pre-ordained for the fourth company, North American.
+
+Ironically, many at North American, for many of the reasons just
+cited, were not seriously interested in building the X-15. Its
+designers, like those of other companies, had huddled with NACA
+engineers to find out what was wanted. Afterward the North American
+advanced design group came up with a scheme superior in detail to,
+but in general outline quite like, the other proposals. Actually,
+the North American proposal was carried through only as a “design
+exercise” for the company engineers, a not uncommon practice in
+the industry. One man, however, Harrison (“Stormy”) Storms, Chief
+Engineer of the Los Angeles Division, with a long-range look ahead,
+had sparked a growing interest in the endeavor within the high levels
+of the company.
+
+There were several reasons why the Air Force found North American
+the ideal company to build the X-15. For one thing, North American
+was an old friend of the Air Force and primarily an Air Force
+contractor, with an outstanding history going back to World War II,
+when it produced P-51s and B-25s by the thousands. At that time North
+American had built more jet airplanes--F-86s and F-100s--than any
+other company, and its relationships with the Air Force were close
+and very simpatico. North American’s engineers were conversant with
+high speeds and the problems of aerodynamic heating and instability.
+The company had great depth, in terms of engineering talent and
+money, on which it could draw in case of trouble. Its Rocketdyne
+division was producing the most powerful and reliable rocket engines
+in the U. S.--the power-plants for the missiles Thor, Jupiter, and
+Atlas. North American engineers were then in the advance design
+stages of a Mach 3 fighter, the F-108, which would benefit directly
+from the X-15 experience. Finally, North American, a Los Angeles
+corporation, was convenient to the Edwards test base.
+
+ * * * * *
+
+“Walt, I want to make a proposal to you.”
+
+“What is it, Scotty?” Williams said. He bounced out of his chair and
+paced about his office. I followed him with my eyes, but I didn’t
+move from my chair.
+
+“Do you remember my proposal in 1953 to Dr. Dryden to go to Bell and
+ride herd on the X-2?”
+
+“Sure. Certainly.”
+
+“You see where the X-2 is now,” I said. “That would have been a
+pretty good idea if we had followed it through. Right?”
+
+“Maybe,” Williams said. “Then again, maybe not. It may be that no one
+could have salvaged the X-2. Why?”
+
+“I’ve been thinking about this X-15,” I said.
+
+“Well, now, that’s a surprise. You wouldn’t kid me, would you? Have
+you been thinking about anything else?”
+
+“It’s a little difficult to spend time thinking about it, what with
+having to do most of your thinking besides.” At that, Williams
+chuckled and tossed his pencil at me, missing by yards.
+
+“Okay, Scotty. I can see you’re being real serious,” he said. “What
+do you have in mind?”
+
+“I want to do with the X-15 what I proposed for the X-2. I want to be
+assigned to the North American plant full-time on the X-15 project,
+carry out the company demonstration flights, and then return with the
+airplane to NACA, Edwards, and make the maximum-performance flights.
+I want to get in on the project from the beginning and stay with it
+right on through to completion.”
+
+Williams sat down heavily in the chair behind his desk. He doodled on
+his scratch pad, rubbed his head, turned and peered out the window,
+staring fixedly into the desolate wastes of tumbleweed, and said
+nothing for fully three minutes. I could imagine in detail every
+single political thought running through his mind. (The stars had
+long since gone from my eyes.) I could see him mentally arranging
+the complicated chessboard, putting NACA men, North American men,
+Air Force men, and other industry men in their proper starting
+order and mentally playing the game through. I had done it many
+times myself. Apart from the strictly personal relationships, there
+were larger questions to resolve in this game: how would it affect
+NACA’s relationship with the Air Force, with North American? How
+would it affect the operation at Edwards? What about the Air Force
+pilots--Pete Everest, Chuck Yeager, Kit Murray, and the other
+experienced hands? There were a thousand moves that might leave the
+King--in this case, Williams--or the X-15 program--vulnerable.
+
+“Why does this thing mean so much to you?” Williams asked me.
+
+“I’ve told you before, Walt. We must do something to get one of these
+research airplanes built in time to do some good,” I said.
+
+“But what will North American say?” Williams said. “That’s a huge
+company. A good company. They’ve got about five thousand engineers on
+the payroll down there. You know how they’ll react if we come butting
+in.”
+
+The answer from Williams was already coming through loud and clear.
+It was “no.” His reasons for arriving at that conclusion were
+perfectly sound, but the answer ill-suited my ambition. The time
+had come, I knew, to part company with NACA. It would not be easy
+to walk away dry-eyed. I had cut my teeth there, and formed many
+deep and lasting friendships, including that with Walt Williams. My
+future, however, lay not with NACA but with the product of its total
+genius, the X-15.
+
+“Walt, this is the end of the line,” I said.
+
+“Scotty. You want to think this one over carefully. You’re not a
+young pilot any more--you’re thirty-four. If past history is any
+example, that plane won’t be flying for a long, long time. You might
+be forty years old by then, and they might be looking for a younger
+pilot. A hundred things could go wrong.”
+
+“But you don’t understand. It’s _not_ just the flying. I _do_ want
+to fly the plane. But I want to help _build_ it, too. I want to be a
+part of that airplane,” I said.
+
+“We’ve still got a lot of airplanes around here you can be part of,”
+Williams said. “You practically built the X-1-E yourself. And if they
+ever finish the X-15 you can fly that, too--if you live that long.”
+
+“I’m sorry, Walt. I may never be able to explain this properly to
+anyone. But I am going with that airplane.”
+
+
+
+
+CHAPTER 22 ►
+
+ _End of an Era_
+
+
+I drove slowly, gaping at the pale green hangar-sized North American
+production buildings strung along the south edge of Los Angeles
+International Airport like some titanic freight train. Hundreds
+upon hundreds of automobiles were parked bumper to bumper in lots
+adjoining the buildings. Inside those buildings, I knew, tens of
+thousands of skilled workmen were riveting away on the last few
+hundred of the six thousand Sabrejets the Air Force had ordered,
+and tooling up for mass production of the supersonic F-100. Having
+taken the measure of its size from close quarters, I then understood
+how North American had ground out 43,000 airplanes in World War II.
+It was a tremendous operation--five hundred times the size of NACA,
+Edwards--a company that had built more airplanes than any other firm
+in the world. Its bid for the X-15 alone--about $50 million--almost
+equaled the yearly budget for all of NACA.
+
+ * * * * *
+
+“How do you do, Mr. Crossfield.” North American’s president, Lee
+Atwood, a thin, soft-spoken man with deep-set green eyes, held out
+his hand. In stark contrast to the California environment, he was
+meticulously dressed, conservative style. An aeronautical engineer,
+in 1948 he had taken over day-by-day operation of North American
+from the dynamic Dutch Kindelberger, the famous airplane-builder who
+gave North American its great fame and reputation. Dutch had moved
+up to be chairman of the board of directors. Atwood offered me a
+seat and then returned to sit behind his broad desk. The office was
+mahogany-paneled and decorated with deep green potted plants.
+
+As I wound up for my pitch, it occurred to me that I was then about
+to address one of the most important men in the aviation industry.
+That I was in his office at all, I believe, was due solely to the
+fact that I was the first man to fly at twice the speed of sound. In
+the two years since I had made the record, this flight, technically
+insignificant though it was, had opened many doors. Like Yeager,
+Everest, and Bridgeman, I came to know four-star generals and other
+big shots in aviation on a first-name basis. For example, I had
+met Atwood the previous year in New York when at a gathering of
+aeronautical engineers he presented me the Lawrence Sperry award for
+my high-speed flight work. It was a farce, in a way, but for a man on
+a mission it made the job a lot easier.
+
+I was not really up to the interview that day. I was suffering from
+influenza, the same malady that weakened me on the day of the flight
+which paved my way to Atwood’s door. My nose was draining and every
+few minutes I had to take out my handkerchief and blow. It was
+annoying. I probably impressed Atwood as the least likely physical
+specimen to fly the X-15 he ever saw.
+
+“Mr. Atwood, I want to come to work for North American on the X-15
+project.” I paused to let this sink in, and to see if it might bring
+an immediate “no.” Mine was something of a bold and unorthodox move,
+to put it mildly. North American already employed a team of perhaps
+thirty test pilots, bossed by Bob Baker and Jack Bryan, both of
+whom had been with North American for many years. No doubt many of
+these pilots had their eyes on the X-15 and were fully capable of
+test-flying it. I had long since learned that big corporations like
+North American did not usually draw from the outside. They used
+their own talent of special jobs.
+
+“Rocket planes are my business,” I said, blowing again. “I’ve been
+flying them for five years at Edwards, as senior pilot for NACA. I
+not only flew them, I laid out flight-test programs, recorded the
+data, drew up the reports, and presented NACA conclusions. I also
+oversaw maintenance and participated in the rebuilding of the X-1-E
+to the extent of laying out the new propulsion system--a combination
+of the best features of the Skyrocket and the X-1--and other
+hardware.”
+
+Atwood interrupted me briefly to receive an important telephone call.
+I blew my nose and cursed my flu. When he hung up, I rolled on.
+
+“I know you have a very experienced organization down here with
+plenty of able talent. But if you have never tackled a rocket
+plane, there are some special problem areas. There’ll be a lot of
+problems on this particular ship. It’s revolutionary. We’ve had a
+bad history in research airplanes, as you know. Delays. Explosions.
+Investigations. Instability. I think I can contribute. And I’d like
+to have the privilege of working on this airplane. I want to help
+make it as nearly perfect as possible and get it to Edwards in time
+to do some good.”
+
+“What do you want to do specifically?” Atwood asked. It was clear
+from the telephone call I had overheard that he was a man of a few
+well-chosen words.
+
+“I’d like to start from the beginning. Work on the plane as an
+engineer, helping with the systems, in a sort of advisory capacity.
+In that way, when it came time to fly the airplane, I’d be thoroughly
+familiar with all of it, down to the smallest bolt. During the
+construction I could interject my experience with other rocket
+airplanes. At the same time, as an ex-NACA hand, I’d be useful as a
+liaison with that agency during all phases of construction and flight
+test.”
+
+I talked on, stressing my strong points--my master’s degree in
+aeronautical engineering, my background in the wind tunnel at the
+University of Washington, my brief experience at the Boeing plant
+in Seattle during the early days of World War II, my Navy tour
+as a flight instructor, my experience in manufacturing aircraft
+accessories, my flight and engineering record at Edwards. Whether
+it was all this combined, or the simple magic of Mach 2, I don’t
+know, but in spite of my influenza and runny nose, Atwood, as is his
+nature, gave me the benefit of the doubt.
+
+As president of North American, Atwood bossed six separate divisions
+of the company. Only one of these, the Los Angeles division, would
+build the X-15. A president of a company of that size delegates total
+authority to chiefs. He doesn’t hire men off the streets and thrust
+them upon his lieutenants. He operates by suggestion.
+
+“Would you like to go down and talk to Ray Rice about this? The
+proposal is a kind of unusual arrangement for us. His division will
+build the airplane and he knows what kind of people he needs.”
+
+“Certainly,” I said.
+
+“When can you get by to see him?”
+
+“Right now, if it’s convenient.”
+
+Ray Rice, Chief Engineer of the Los Angeles Division, bought my
+proposal, I have often thought since, with some reservations.
+
+At that time the X-15 project was still so new in the company and
+I was so new to the company that there was no specific job slot
+available to me. Thus I was hired, more or less, as a consultant, and
+didn’t really learn who my boss was for a long time.
+
+ * * * * *
+
+Coincidental with my move to North American, in December of 1955,
+the great and glorious era at Edwards was in the twilight of its
+life. The Skyrocket, after a total of about 130 flights, was slated
+for moth-balls. The X-1-E, so long in the rebuilding, flew shortly
+after my departure but never lived up to our expectations. Soon it
+was grounded for good, when NACA learned that the pilot’s boot-tips
+might strike the instrument panel in the event of an emergency
+ejection. The X-1-B made a few more flights, some to collect advanced
+information for the control system of the X-15, but this airplane was
+old before its time and it, too, was ultimately grounded. The X-2,
+the plane I was supposed to fly in the spring of 1951 for NACA, was
+still slowly winding her tragic course into history, six years or
+more behind schedule.
+
+A few weeks after I departed Edwards, Pete Everest took the X-2
+on her second powered flight, firing only one of the two rocket
+barrels. In the weeks following, in a startling burst of activity,
+he clicked off six additional powered runs, achieving on his eighth
+and final flight a speed of about Mach 2.9, or 1900 miles an hour.
+When Everest landed, as he wrote in his book, he telephoned his wife
+and said, “Honey, you are talking to the fastest man in the world.”
+She was--and his 1900-mile-an-hour flight in that unstable airplane
+was, in my opinion, remarkable. As Everest himself said, “Control was
+marginal and if the pilot overcontrolled or maneuvered the airplane
+too violently, anything could happen.”
+
+Walt Williams was anxious to take over the X-2 for NACA in order to
+press ahead with a series of aerodynamic heating studies at extreme
+speeds. But after its years of frustrating toil and heartbreak, the
+Air Force understandably was not about to turn the plane over until
+some additional records had been chalked up. On the verge of his
+departure for other duties, Pete Everest assigned two new, young Air
+Force pilots to make these flights. Iven Kincheloe, a handsome blond
+captain, a graduate of the Empire Test Pilot School, and a Korean
+ace, would make the altitude attempt. Captain Milburn (“Mel”) Apt,
+a balding veteran of Edwards, would make the speed attempt. NACA
+dutifully protested these flights, pointing to the dangers involved.
+The Air Force compromised, setting a deadline of November 1, 1956,
+for turning the plane over to NACA, whether or not Kincheloe and Apt
+were successful.
+
+Kincheloe came up to bat first. He made one check-flight in the X-2,
+under Everest’s direction. Then after Everest left, Kincheloe reared
+back to hit a home-run. He opened the engine wide when the X-2 was
+dropped, and pointed the tapered nose skyward, the stick hauled full
+back in his lap. On the first two flights the X-2 reached high,
+but not high enough. On the third try, Kincheloe’s fourth flight
+in the X-2, he succeeded. The X-2 hurtled to 126,000 feet. In that
+rarefied air, when it ran out of momentum, the X-2 fell back toward
+earth. When the plane reached the thicker atmosphere, Kincheloe, in a
+remarkable piece of piloting, recovered, slowed, circled, and landed.
+He never again flew a rocket airplane. On the strength of these four
+flights and his inexhaustible enthusiasm for the business, the Sunday
+newspaper supplements labeled him “Mr. Space.”
+
+With the NACA deadline coming up fast, Captain Mel Apt, who had not
+yet had a check-flight in the X-2, made hurried preparations for
+a final effort to break Everest’s speed record. Four days before
+his time expired, he launched in the X-2 for the ship’s thirteenth
+powered flight. There was evidently no time for a preliminary flight
+at low speed. In any case, the Air Force did not specifically limit
+Apt on his first flight. He dropped, flicked on the rocket barrels,
+and flew a near-perfect parabolic flight plan. The X-2’s rocket
+burned six seconds longer than it ever had before. Mel Apt drove the
+X-2 to the amazing speed of about Mach 3.1, or 2,094 miles an hour,
+beating Everest by a wide margin.
+
+The thirteenth flight proved to be the unlucky one. At the end of the
+speed run the X-2 behaved as many had predicted. It cartwheeled out
+of control, subjecting the X-2 and Apt to tremendous G forces. He
+could not recover. As the plane whipped into a deadly inverted spin,
+he tried to abandon ship. He blew the nose capsule and it separated
+from the main fuselage, but before he could dive out and open his
+parachute, the capsule struck the desert floor with terrible impact.
+Apt was killed, the X-2 destroyed. Around Edwards, Pete Everest’s
+title was changed from “Fastest Man in the World” to “Fastest Man
+Alive.” A new street at the base was named in Apt’s honor.
+
+That was the final, dreadful end of the X-2. In eleven years from
+start to finish, the program had cost the U. S. millions of dollars.
+It robbed two excellent pilots and one crewman of their lives and
+destroyed, altogether, three airplanes. In its total of thirteen
+flights the X-2 had provided the U. S. a speed and altitude record,
+but precious little else. The X-2 yielded hardly a scrap of
+aerodynamic heating data, the purpose for which it was intended. The
+premature loss of the ship left the U. S. without a research airplane
+to probe the Mach 3 zone and created, in a sense, a larger and more
+urgent mission for the X-15.
+
+The way I see it, that last flight of the X-2 drew the curtain on the
+grand era at Edwards. It closed out what might be called the first
+phase of the history of the experimental research airplane in the
+United States. The big NACA installation went on, of course, piling
+up data points by the tens of thousands, which proved useful. But all
+the old race-track excitement was gone completely. There was no plane
+to probe exciting new areas.
+
+Edwards became a place of hard work and routine. NACA pilots wrung
+the last drop from the group of tired planes. The Air Force pilots
+concentrated on the newest production-model jets--Republic’s F-105
+fighter-bomber; North American’s experimental F-107; Convair’s F-106,
+a faster, larger version of the delta-wing F-102; and Convair’s
+delta-wing, medium-range bomber, the B-58. The Navy pilots were busy
+de-bugging a stable of comparable carrier-deck fighters and bombers,
+and a pilotless missile, the Regulus.
+
+I don’t mean to imply that the test work was not dangerous. On the
+contrary, it was hair-raising at times and many pilots lost their
+lives. Missing from the busy, formal scene, however, was the echoing
+boom of a rocket engine exploding to life at 35,000 feet, the long
+snaky trail of white rocket exhaust across the sky, the satisfaction
+of the free drink at Pancho’s, another milestone on man’s inexorable
+journey toward the stars reached or passed. In the period following
+the loss of the last X-2, almost everybody who cared to flew Mach 2
+regularly in production-line airplanes. But no faster.
+
+It is only human to be nostalgic, and to view one’s own life from a
+special point of view. So I draw some satisfaction from the thought
+that my work on the frontier of flight contributed considerably to
+the story of the grand era at Edwards. True, I came on the scene
+late, three years behind Yeager’s epic Mach 1 flight; and I left
+early, about nine months before Mel Apt’s epic Mach 3 flight. But I
+had come when the experimental plane program was picking up, as the
+new ships came from the factories, and I left just before the whole
+show ran out of steam.
+
+In those five years I logged only six hundred hours in the air, but
+what hours they were! When I flip back through my own flight book, I
+am astonished. Where did I find the time? Eighty-nine flights in the
+Skyrocket; eleven flights in the X-1; a grand total of one hundred
+rocket flights. For what it’s worth, that total is about equal to
+all the rocket flights of Yeager, Everest, Marion Carl, Bridgeman,
+Murray, Kincheloe, and Apt put together. No less interesting were
+the twenty-five flights in the XF-92-A, thirty-two flights in the
+X-4, twelve flights in the X-5, sixty-five flights in the F-100,
+seventeen flights in the D-558-I, three flights each in the F-102
+and F-84-F, one flight in a B-47 which I had studied years earlier
+in the University of Washington wind tunnel, thirteen flights in an
+F-86, one flight in a Navy F9F, sixty-four flights in the YF-84,
+and scores upon scores of routine flights in the wide variety of
+propeller-driven airplanes in NACA’s stable. I had even flown,
+briefly, a Hiller helicopter.
+
+In sum, I believe it is fair to say that I was good for NACA and NACA
+was good for me. My six hundred hours of flight time, plus countless
+hours of preparation and analysis on the ground, helped lay bare
+many secrets in the trans-sonic area. It was a small contribution,
+admittedly, but when taken together with all the aeronautical
+research and experimentation in the United States, I believe it
+helped to advance the state of the art. At the same time, the
+education provided me by NACA in engineering, flying, industry and
+government politics, and a thousand other things, was invaluable. At
+NACA, Edwards, I graduated in my field. Most important, I found the
+means of bringing my life full circle, to the X-15, the airplane that
+would begin a new era at Edwards, the second phase in the turbulent
+history of the research airplane, the second fifty years of aviation
+history.
+
+
+
+
+CHAPTER 23 ►
+
+ _Secrets in the Cafeteria_
+
+
+Building number 20, a relic of World War II, stood across the street
+from the main North American engineering offices, almost lost in a
+towering cluster of manufacturing buildings adjoining the Los Angeles
+International Airport. Building 20 housed the cafeteria for North
+American employees. During the first half of 1956 a cramped space
+alongside the cafeteria, which we called the “garret,” served as
+home for the X-15. The space was restricted. A North American guard
+stood watch at the doorway, which bore the sign: SECRET. UNAUTHORIZED
+PERSONNEL PROHIBITED. Visitors cleared to enter our workroom had
+first to sign a log book and be vouched for by an escort known to the
+guard on duty. It was all very hush-hush.
+
+Under ordinary circumstances, North American builds airplanes like
+Detroit builds automobiles--on a razzle-dazzle production-line basis.
+The plant people are divided into teams which specialize--excel, I
+should say--in various fields of aeronautical engineering, design,
+and manufacturing. One group, the Advanced Design Section, conceives
+the new airplanes, inventing and laying out drawings of concepts.
+This group then takes these plans and, working closely with the
+Washington office of North American, submits proposals to the
+government or, in the rare instance of a commercial airplane, to
+airline executives. If the government buys a North American design,
+or awards a production contract, the remaining teams of the plant,
+amounting to some 16,000 people, move in to transform the layout
+drawings and specifications of the Advanced Design Section to working
+hardware.
+
+This is an immensely complicated task, much too involved to describe
+in detail here. In brief, North American project engineers, working
+hand-in-glove with demanding “customer” project engineers, rough
+out a working concept of the airplane after first settling on the
+engine, or engines, usually furnished separately by the customer. In
+the initial stages the toughest problems are the weight and balance
+analyses, crucial to the final performance of the airplane. This
+delicate work goes on for months, turning hair gray and keeping many
+engineers preoccupied with wind-tunnel models of varying shapes and
+designs. The goal is to squeeze maximum performance out of the total
+package, taking into account infinite variables such as engine power
+and fuel consumption. Few people realize it, but in these days the
+fuel of an airplane, which, of course, constantly diminishes during
+flight and can change the center of gravity of the ship, sometimes
+accounts for sixty per cent of the total weight of the airplane at
+take-off.
+
+When the general scheme is finally agreed upon, and the equipment
+to go into the airplane, such as armament, navigational and safety
+devices, has been fixed, North American project engineers then call
+upon all sections of the plant for help. Hundreds of engineers in
+the structures, aerodynamic, thermodynamic, manufacturing, and
+sub-systems design departments, go to work, designing specific pieces
+for the airplane--instrument panels, for example, and landing-gear
+shock absorbers, dive brakes, windshields, and fuel tankage. At the
+same time, still another team builds a full-scale “mock-up” or dummy
+model of the airplane, complete with instrument panel and moveable
+controls, which the design engineers use to insure that all of the
+tens of thousands of pieces of the puzzle fit properly before they
+order production.
+
+The entire process from that point on is an endless, nerve-shattering
+battle to design parts that will perform the required task for the
+least weight. Every pound of payload (that is, armament, fuel,
+passengers) in an airplane can add more than seven pounds of weight
+to the total structure which the engine, with a fixed thrust, must
+force through the air. The drive to save weight is restrained only by
+safety considerations. Even these are pared to the bone. The safety
+factor of a big, lumbering merchant ship is about ten to one; that
+of a modern jet airplane, about one and a half to one, at best. The
+reason is simple. On a ship an engineer can design a motor to run,
+say, an electric fan, with little concern for total weight. Thus he
+builds it big and tough. It works fine, but it weighs twenty pounds.
+On an airplane engineers design a fan to perform the same job, but
+stay within a weight limit of, say, one pound. The result is a thin,
+sophisticated product--usually new and untried--with a minimum margin
+of safety.
+
+The North American Project Engineer rides herd on the entire plant
+force assigned to his airplane, watching schedules and doling out
+weight restrictions to engineers like so many gold doubloons.
+Each piece that goes into the airplane is tested for strength and
+reliability a hundred times over, under the amazing variety of
+temperature ranges which the modern airplane encounters in flight. A
+sample is fitted in the mock-up. When all the parts are in place, the
+customer conducts a formal inspection of the dummy plane, probing for
+weaknesses, suggesting improvements, and usually adding items, again
+driving the engineers into weight-trimming frenzies. Many additional
+customer checks follow the mock-up inspection as the work progresses.
+
+When, at last, the customer is satisfied, or as nearly satisfied
+as possible, he gives a green light and the North American Project
+Chief “freezes” the design. At that point detailed engineering
+drawings are released to the Manufacturing Division or to various
+subcontractors--“vendors,” as we call them in the trade.
+Manufacturing brings all of the tens of thousands of parts together
+at the right time and place on the assembly line, and soon thereafter
+the near-miracle is done. Finished airplanes roll out the door for
+a final painting or polishing in the California sunshine. Following
+several shake-down flight tests by North American pilots, the new
+planes are then delivered either to Edwards for customer tests, or,
+if the airplane is a proven concept, to operational units specified
+by the customer.
+
+The experimental X-15 did not fit this general production scheme.
+It began like other North American projects in the Advanced Design
+Section. But because it was something special and only three models
+would be built, North American conceived an unusual method to see
+the X-15 to completion. Management formed a special team under
+direction of Advanced Design, but divorced from the other departments
+of the plant, each man a specialist in one phase of aircraft design
+or manufacturing. To boss this group, management selected Charles
+Feltz, a 39-year-old mechanical engineer, who was pulled off the
+F-86 project. Lacking other quarters for this new team, management
+temporarily assigned it to the cafeteria building.
+
+Charlie Feltz was truly astonished by the assignment. Until he was
+named to head it, he had never heard of the X-15 project. It may
+seem surprising, but in a huge, decentralized company such as North
+American, project engineers are busy with their own problems and
+rarely have time to rub elbows with advanced design engineers, and
+vice versa. Moreover, from its inception the X-15 was a closely
+guarded secret. Thus Feltz was stunned by it all when I joined the
+X-15 group--consisting of eleven North American engineers besides
+Feltz--in the garret adjoining the cafeteria.
+
+ * * * * *
+
+“Morning, Charlie,” I said, sticking out my hand.
+
+Feltz was sitting at a cluttered desk pushed into one corner of
+the X-15 home. He was a short man with rumpled, graying hair and
+deep green eyes. He was a native of Texas, a graduate of Texas Tech
+and, as I soon learned, he affected a country-boy air. He dressed
+informally and butchered the King’s English. Behind Charlie’s
+relaxed exterior, however, lay a steel-trap mind and an unyielding
+ambition to build good airplanes. He had joined North American in
+1940, on the eve of the industry’s gigantic expansion. He had not
+only survived the production ordeal of World War II but had also
+risen to the top of the best company in one of the most competitive
+professions in the world. In many ways Charlie Feltz reminded me of
+Chuck Yeager. In appearance and ability he was to the design of an
+airplane what Yeager was to the flight of an airplane.
+
+“’lo, Scotty,” Feltz said, eying me casually. “Welcome aboard. Maybe
+you can give us some idea what this darned thing is all about.” He
+raised up a sheaf of about twenty drawings which had been passed on
+to him from the Advanced Design Section. Appropriately enough, I
+noted, these drawings had been prepared by two engineers named Owl
+and Canary. Having won the competition, these engineers had moved on
+to other projects and were no longer concerned directly with the X-15.
+
+It is true that in the beginning North American management,
+completely absorbed with profit-making production-line airplanes such
+as the F-86, F-100, and other series, paid the X-15 scant attention.
+At first the X-15 was an annoyance to be tolerated. To be perfectly
+frank, only a few of us on the small X-15 team really grasped the
+fierceness of the tiger we had by the tail. Feltz, however, happened
+to be one who knew. It was characteristic of him to play ignorant
+about it. As I learned, that was his way of finding out even more, or
+of sizing up new men assigned to him.
+
+If the X-15 ill-fitted North American’s usual method of producing
+an airplane, I certainly ill-fitted the X-15 team concept. I was
+something of a mystery at first, a kind of fifth wheel. I did
+not work directly for Feltz. I was hired by someone else and my
+paycheck came from another source. For all Feltz knew, I might have
+been some vice president’s son-in-law. The arrangement for both
+of us, accustomed to a more or less rigid bureaucratic structure,
+was awkward and uncomfortable. In contrast, say, to those of a
+structural engineer or an aerodynamic heating engineer, my duties
+were undefined. Lacking a specific slot on the team, Feltz entered
+me on the rolls as a “Design Specialist,” which seemed broad enough
+to cover my general role as a high-level adviser or consultant to the
+project.
+
+On that first day, after Feltz had introduced me to the small X-15
+team, we returned to his desk and talked a long time about the ship.
+Although the precise limits or mission of the airplane had not yet
+been established, the general outlines were known and the design had
+more or less been set by NACA engineers together with Hugh Elkin’s
+Advanced Design group. There was enough on paper to indicate that
+Feltz faced the most challenging assignment of all aeronautical
+engineers in the fifty years of aviation history. After our talk I
+went back to my desk, lost in wondrous thought.
+
+ * * * * *
+
+What was this big tiger we had by the tail? I studied the sheaf of
+drawings Charlie Feltz had turned over to me. I was familiar, of
+course, with the various bits and pieces, but this was my first
+opportunity to think of the project in terms of hardware. It was
+enough to excite any pilot or engineer.
+
+In her three-dimensional profile, as conceived then, the X-15 shape
+appeared fairly conventional. In the side view she looked something
+like a high-performance jet fighter, poised in a level position,
+resting on nose wheel and center skids. (The X-2 skid concept had
+been carried on to the X-15 primarily as a weight-saving measure.)
+She had a tall, sweeping, vertical tail, elongated nose, and a
+smoothly fared-in, V-shaped cockpit canopy. Her wings were stubby
+and straight, like those on the X-3; they were mounted far aft on
+the exceptionally long, trim fuselage, almost butting against the
+horizontal stabilizer.
+
+According to the drawings and concept in those early days, the X-15
+would be carried aloft in the belly of a B-36 mother plane. The B-36
+was an enormous ten-engine bomber, built by the Air Force in quantity
+to deliver the nation’s largest nuclear bombs. In time, on this
+peaceful mission, the B-36 would depart Edwards with its fifteen-ton
+load and head to the launch point near Salt Lake, Utah, four hundred
+miles to the north. The mother plane would drop the X-15 at a launch
+speed of Mach .7 and at an altitude of about 35,000 feet, fast
+enough to insure stability at launch and high enough to avoid the
+fuel-wasting contact with the “thick” atmosphere. On its own then,
+the X-15 would fly south toward Edwards over the route we at NACA
+had conceived several years before. The rocket engine would burn for
+88 furious seconds, consuming eight tons of fuel. After burn-out the
+X-15 would coast silently on course for Edwards and land dead-stick
+but hot on Rogers Dry Lake in the desert.
+
+The one fact that made the X-15 far from conventional was the
+power-plant. It was not shown in detail on the drawings, but the
+entry on the specification sheet told all: “ENGINE. REACTION MOTORS,
+INC. XLR-99. THRUST 57,000 POUNDS AT 40,000 FEET ALTITUDE.” Like
+the engine in the X-2, this engine was to be throttleable; it had
+nine times the power of the Reaction Motors engine in the X-1 or
+Skyrocket. It would generate nearly one million horsepower, or as
+much power as seven Navy cruisers. On a shallow, ballistic-flight
+profile, it would hurtle the X-15 to a maximum speed of 7200 feet
+per second, which is over a mile and a quarter a second, 75 miles
+a minute, and better than 4500 miles an hour, or about Mach 7.0,
+twice as _fast_ as man had ever flown. On a “zoom,” or steep
+ballistic-flight profile, the powerful engine could boost the X-15
+to an altitude above 250,000 feet, twice as _high_ as man had ever
+flown. In between those extremes, the X-15 could explore more unknown
+areas than all of the research airplanes in history, and then some.
+
+To meet these dramatic dimensions of flight and to perform her role
+as a research tool, the X-15 had some new and startling wrinkles
+which were detailed in the specifications. For example, in addition
+to the conventional control system for flight in the relatively
+thick air girdling the earth, the X-15 was to be equipped with a
+set of “ballistic” controls to steer the ship in the virtually
+airless space above 200,000 feet. These were small rocket motors on
+the nose and wingtip through which the pilot could squirt a jet of
+hydrogen-peroxide steam to tilt the wing or raise or lower the nose.
+This system had never been tried. But NACA was already busy with an
+experimental set of ballistic controls it had installed in the Bell
+X-1-B rocket plane. Jack McKay later tested the system at an altitude
+of 70,000 feet.
+
+When the X-15 plunged from its extreme altitude back into the thick
+coating of earth-atmosphere, it would be subjected to intense
+frictional heat like a meteorite, or the nose cone of a ballistic
+missile. To withstand this tremendous heat, estimated to be dozens
+of times greater than any airplane had ever before experienced,
+the fuselage nose and wing leading edges were to be built of an
+ablating material which would absorb the brunt of the heat and then
+erode and melt away, leaving the major portion of the fuselage and
+wing-structure intact. The remaining skin of the airplane was to be
+made of a new metal known as Inconel X, a nickel alloy capable of
+withstanding heat up to 1200 degrees Fahrenheit without losing its
+structural integrity. This metal would also serve as a conductor to
+soak up heat throughout the plane. One of the principal purposes of
+the X-15 was to see what effect extreme temperatures would have on
+the airplane structure and equipment, not to say the pilot.
+
+Such, then, in briefest outline, was the grand and simple concept.
+It was truly revolutionary to me. For fifty years we had struggled
+to learn to fly within the earth’s atmosphere. It had been fifty
+years of sheer technical agony. Now we had designed an airplane
+that would not only fly double the speed man had ever flown in this
+coating, but also zoom beyond it--to the fringes of space. The ship
+would soar a few moments in this dark weightless void. Then it would
+make a _controlled_ descent into the atmosphere and finally land
+on an airfield like an ordinary airplane. It occurred to me that
+the X-15 was more than simply an airplane or research tool. It was
+the prototype of man’s first space ship. In time, it was clear, all
+useful, piloted space craft would follow in the trail blazed by the
+X-15.
+
+How could I best help Feltz in this fabulous project? Sitting
+silently at my desk I thought about it for many hours. I could see
+the mock-up inspections that lay ahead, the inevitable delays,
+breakdowns, and requests from the customer for added equipment. The
+X-15, if permitted, could become the perfect pigeon for every new
+invention, half-baked or otherwise, of every engineer in the country.
+Each new device would add more and more weight to the total and,
+since the engine thrust was fixed, cut the performance. It would
+also add to the complexity and inevitably delay the day I first flew
+her. This past pattern of research airplane growth simply could not
+be allowed to happen with the X-15 and cause her demise like a few
+of her predecessors. Someone had to resist it, if possible, before
+it began. Most of these additions, I knew, were likely to occur in
+the cockpit, or “pilot’s office,” my special province, the command
+post of the X-15. With my background in rocket planes and as the
+X-15’s designated pilot, I concluded, I was probably least vulnerable
+politically and thus best equipped to say “no.”
+
+Thus, that day, my specific role in the X-15 project was defined to
+my satisfaction. I would be the X-15’s chief son-of-a-bitch. Anyone
+who wanted Charlie Feltz or North American to capriciously change
+anything or add anything in the cockpit, or in the whole X-15, for
+that matter, would first have to fight Crossfield and hence, I hoped,
+would at least think twice before proposing grand inventions. This
+negative approach was not a role I particularly treasured. It was
+quite foreign to my nature, which is basically positive, I think. But
+I was willing to play any role that would best serve our ends and
+contribute to the prestige of the nation by seeing the X-15 completed
+and flying on schedule.
+
+
+
+
+CHAPTER 24 ►
+
+ _Ullage and Capsules_
+
+
+We gathered close around Charlie Feltz’s desk in the garret. In
+two months our team had grown, seriously crowding our temporary
+quarters. Feltz now had two assistant project engineers, Bud Benner,
+a 33-year-old Pennsylvanian, capable, ambitious and relatively new
+to the company, and Raun Robinson, an old hand who had been around
+North American since the beginning of World War II. L. Robert Carmen
+had finally broken his “dreamer” partnership with NACA’s Hubert
+Drake. Now Carmen, who had helped Drake conceive the five-engine
+rocket-mother plane idea in 1950, was a member of the X-15 team. He
+was way out most of the time, too far into space for us, but destined
+to make one crucial suggestion that would pull us out of a deep hole.
+
+We were all still new to the project and new to each other, feeling
+our way carefully, sizing up the talents and weaknesses of the
+individual players. It is not easy to start from scratch and organize
+a major-league team. In the field of rocket airplanes there were
+no minor leagues to draw upon. The major teams at Bell and Douglas
+which had preceded us in history had long ago drifted apart. Except
+for Carmen and myself, no one on the X-15 team had any experience
+whatsoever with rocket airplanes.
+
+What we lacked in experience we made up in spirit. Although we still
+had not yet been completely “recognized” by North American--the dark
+secrecy surrounding our project hurt us from this standpoint--each
+of us knew, or was beginning to wake up to the fact, that we were
+working on something very special and important. In no sense was the
+approach routine. Feltz set the pace. He worked twelve to fifteen
+hours a day seven days a week; the rest of us fell into step without
+complaint. Although overtime was normally paid for extra working
+hours, no man on the X-15 team got it.
+
+“All right,” Feltz said to the group around his desk. “Here is the
+bad news. In two months we have jumped from a 28,000-pound airplane
+to a 31,000-pound airplane. That’s three thousand pounds added
+weight.”
+
+Someone let loose a long, low whistle. All of us knew the plane had
+been getting heavier, but this was the first time Feltz had totaled
+it up.
+
+“To make matters worse,” Feltz added, “the specific impulse of the
+XLR-99 engine has dropped, according to Reaction Motors. It’s down
+from 278 to 269.” Specific impulse was our technical way of stating
+the efficiency of the engine, hence airplane performance.
+
+“What does that mean in velocity altogether, Charlie?”
+
+“Maximum velocity has slipped from 7200 feet per second to 5700.
+That’s about twenty per cent loss in speed, a little over a complete
+Mach number,” Feltz replied. When Feltz was glum, he could be glummer
+than any man I ever met. He reached his nadir that morning.
+
+The engine under discussion, the XLR-99, was a customer-furnished
+item over which we had no control. If it failed to live up, it was
+not the fault of North American or our team. At that point North
+American’s Rocketdyne Division had built more rocket engines than any
+other firm in the free world. In one of its original X-15 proposals,
+North American had suggested an NAA-built Army Redstone rocket engine
+as a power-plant for the X-15. In that year, 1955, NAA tested the
+Redstone engine perhaps 5,000 times with singular success. But
+the Air Force picked Reaction Motors to supply our engine. There
+were good reasons for this decision. RMI had long experience in
+building rocket-airplane motors, reaching back to the early days of
+the X-1. Furthermore, North American’s Rocketdyne Division was very
+busy designing and building new engines for the Air Force ballistic
+missiles Atlas and Thor. The Air Force was reluctant to dilute the
+division with still another complex engineering project.
+
+It was no easy task the Air Force assigned RMI. In many ways the RMI
+engine project for the X-15 was as revolutionary as the X-15 itself.
+The customer hoped to wipe out all past weaknesses of rocket-airplane
+engines. The goal was to come up with a “dream” engine many times as
+powerful as any in the past, and throttleable as well. The demands
+placed on RMI from the standpoint of reliability and precision
+were unprecedented. In our eagerness and search for perfection, we
+frequently became impatient with RMI. The fact that RMI was a small
+company facing a tremendously complex job on a fairly modest budget,
+with a thin line of engineering talent, rarely entered into our sharp
+discussions. Lying a full continent’s distance away and completely
+beyond our jurisdiction, RMI naturally became a favorite whipping boy
+in our camp. We blamed them unfairly in some instances. Later they
+were absorbed by Thiokol, a large company specializing in design and
+production of solid-propellant rocket engines for ballistic missiles.
+
+“I think we can get some of this back,” Feltz said, referring to the
+lost velocity.
+
+We leaned over a drawing which Feltz had spread across his desk. For
+background Feltz began to explain the external shape of the X-15,
+changed from NACA’s original views.
+
+“On the X-1 and X-2 they mounted the maintenance tunnels on top and
+bottom,” Feltz said. Maintenance tunnels were housings or large pipes
+through which wiring, control cables, and plumbing were routed. Like
+missiles, the main body of a rocket airplane consists of a series of
+fuel and oxidizer tanks, as large in diameter as the fuselage. The
+wiring and plumbing cannot run through the sealed tanks; it must go
+around. Thus the tunnel concept was born years before.
+
+“We found out in the wind tunnel that if we shift these tunnels
+from the top and the bottom to the side,” Feltz continued, “we can
+fair them out like a wing stub, running the length of the fuselage.
+This surface will add to the lift and give us more efficiency.
+Besides that, the tunnels being at eye-level will make for easier
+maintenance. We tried running them all the way out to the nose, but
+we got a severe pitch-up in the wind-tunnel tests. So we just cut
+them off here, right behind the cockpit.”
+
+The new X-15 tunnel concept, the idea of George Owl, was absolutely
+ingenious. There is no other way to describe it.
+
+“Now, back to the weight,” Feltz went on. “We have still another
+problem. NACA is demanding a three per cent fuel ullage. Three per
+cent of eight tons of fuel is a lot of weight. It’s damned near five
+hundred pounds.”
+
+“Ullage? What the hell is that?” one of the younger engineers asked.
+
+“Ullage is the allowance to be made for the fact that no tank can be
+completely filled,” Feltz explained. “In other words, we get five
+hundred pounds shaved off the total fuel supply. That means two or
+more seconds less burning time on the engine.”
+
+We were all mentally calculating the performance penalty.
+
+“Now, the big weight increase on the airplane itself comes from the
+customer. The ablating leading edges and nose are out. They believe
+these might make the plane unstable. At least, the wind-tunnel tests
+seem to indicate that. So from here on, the leading edges will be
+solid Inconel X. That will add considerably to the airframe. In
+addition, there’s some more instruments to go in, and more dampers
+for the control system.
+
+“To get the performance back, we’re going to add six inches to the
+diameter of the fuselage and lengthen the tanks within the airplane.
+That will give us 2500 pounds more fuel capacity. But that’s as far
+as we can go with it. If we get any bigger, the weight of the tankage
+and fuel already begins to offset the gain of the added fuel. It’s a
+point of diminishing return. With the bigger fuselage and some ideas
+I have to save weight in the landing gear, I figure we can get the
+velocity back up to 6600 feet a second. That’s a net loss of only
+half a Mach number at maximum speed--down to Mach 6.5.
+
+“But I want to tell you right now,” Feltz went on seriously, “I don’t
+intend to add another ounce to this airplane. It weighs 31,000 pounds
+now. It will weigh that when we roll her out. That means all you
+people have to trim every doggone thing out we can.”
+
+“Say, Charlie,” an engineer said. “You know we got a space between
+frame 210 and 220 that you can see through. If you don’t watch out,
+someone’s going to stick something in there.”
+
+“How big is that space?” Feltz asked.
+
+“About ten cubic inches, I’d say.”
+
+“Well, now,” Feltz said, “I just might cut a few inches off the
+length of this danged airplane. That’ll get rid of the space. No one
+can put something there if the space is gone.”
+
+The meeting broke up in gales of laughter. But the engineers were
+soon glum again, busy at their desks figuring new ways to save
+weight. I hung behind. Feltz had indicated he wanted to talk to me.
+
+“Scotty,” he said, propping his feet on a corner of his desk, “we got
+more problems. This one could really bust us for good. Take a look at
+this.”
+
+He handed me a letter addressed to North American from a high-ranking
+Air Force general. I scanned through it hurriedly, stunned by the
+contents. The letter said that under new Air Force policy _all_ Air
+Force aircraft would be equipped with “escape capsules” rather than
+ordinary ejection seats. An escape capsule could assume many forms.
+Basically it was a “can,” as we called it, in which the pilot could
+enclose himself before ejecting from a disabled airplane. In theory
+the capsule would protect the pilot from wind-blast, heat, and high
+G forces associated with modern high-speed escape. The Air Force
+policy change had been prompted by experiences such as that of North
+American test pilot George Smith who had bailed out from an F-100
+at supersonic speed. The blast tore the skin from his face. It was a
+miracle that he lived, really.
+
+“Does this mean us, too?” I asked.
+
+“It says _all_ new Air Force planes. The Air Force is paying for this
+one.”
+
+“How much will this cost us?” We referred to weight like money.
+
+“Twelve hundred pounds at least, to start,” Feltz said.
+
+“That’ll ruin us.” I mentally estimated the total added weight to the
+plane--over eight thousand pounds. It would cost us at least a Mach
+number in performance, maybe more, and I knew it would take years to
+develop the capsule.
+
+I could see in my mind the new problems the capsule would generate.
+Set within the cockpit, all the wires, controls, and plumbing would
+have to pass through it. It would have to be big or heavy enough to
+withstand the impact with the earth to avoid breaking the spine of
+an escaping pilot. It would require automatic ejection and automatic
+separation devices, and a parachute that would deploy automatically.
+In short, the capsule meant not only added weight, but greatly
+increased complexity, a dozen more things that might go wrong.
+
+“This capsule thing,” I said. “It looks good on the surface, I know.
+But has anybody ever really engineered this thing out? We had a
+capsule nose on the Skyrocket but knew from the wind-tunnel data that
+if you separated the nose from the fuselage, the G force would be
+so great it could kill you. I made up my mind I would never use the
+Skyrocket capsule. I would ride the ship down and bail out. The X-2
+has a capsule nose. It will probably kill the pilot, too.”
+
+“You don’t have to convince me, Scotty. The way I look at it, if
+something goes wrong, the cockpit of the X-15 is the safest place
+to be, at least for a while. It’s going to be pressurized with
+non-inflammable nitrogen gas. You can’t have a fire. You can’t have
+a fire in space, anyway, because there’s no oxygen to feed it. The
+cockpit is stressed for plenty of G forces. If you are moving at
+maximum speed, that in itself means nothing is wrong. If something
+goes wrong, it means inevitably that the plane will slow down fast.
+So what’s wrong with just staying in the cockpit until you get down
+low enough and slow enough to eject?”
+
+“I agree,” I said. “What can we do about it?”
+
+“Well, we’re not going to get exception to an Air Force policy ruling
+with a phone call. The way I see it, we’ve got to engineer this thing
+out with a fine-tooth comb. Since this falls into the pilot’s realm,
+I think it would be a good one for you to take on. Call on anyone in
+the plant that you need for help. We’ve got to shoot this down or
+we’re dead.”
+
+I turned to with a vengeance. I asked a half-dozen engineers to set
+to making studies on the big electronic brain in the main plant.
+Meanwhile I searched all the technical literature, pulling any and
+all engineering studies of escape systems. In the end, our team put
+in a total of 7000 engineering man-hours on this study. When it was
+completed, I was more convinced than ever that a capsule escape
+system was no good for the X-15. It might be suitable for combat-type
+airplanes. But for the X-15 it was superfluous.
+
+In Santa Barbara, California, a few weeks later I presented the
+complete study to a gathering of Air Force and industry big shots.
+The presentation, probably the most thorough ever assembled on
+this subject, critically analyzed all escape capsule concepts as
+applied to the X-15. In every case, as I showed in chart upon chart,
+they were found wanting. Capsule development would increase the
+weight of the X-15 from 31,000 to about 40,000 pounds and delay the
+completion date perhaps years. The cost in terms of money would be
+enormous and unless a more powerful engine were used--at a cost of
+more millions--the X-15 would never be more than a Hangar Queen. And
+finally, I concluded after two hours at the lectern, the pilot would
+be no better off than he would be in the X-15’s special ejection
+seat. The audience, I hoped, was impressed.
+
+A few weeks after that, in July, 1956, our customers came to North
+American for the first formal cockpit inspection. By then we had
+finished the cockpit mock-up, complete with instruments and a control
+system. The X-15 cockpit had no capsule escape system. It was rigged
+with the original X-15 ejection seat, a specially-designed affair
+with a new type of pilot-restraint harness and small stabilizers to
+“weather-vane” it into the wind blast and prevent fatal tumbling
+or oscillation. A small solid rocket, developing the thrust of the
+engine in the F-86, would blast the seat up and behind the X-15.
+The seat, without a formal reversal of Air Force policy, passed the
+inspection with flying colors. There was no alternative, really. Tied
+to the XLR-99 engine as we were, if the customer had insisted on a
+capsule for the X-15, would have killed the ship right then.
+
+After the customers departed, Feltz said to me:
+
+“Scotty, you really earned your pay on that one.”
+
+“Somebody’s got to be stubborn and hold the line,” I said. “It might
+as well be me.”
+
+
+
+
+CHAPTER 25 ►
+
+ _Girdles, Brassieres, and Shattered Sinuses_
+
+
+At sea level, where most of us live, man breathes a mixture of twenty
+per cent oxygen and eighty per cent nitrogen. As man moves up higher
+into the thinning air, the percentage of oxygen and nitrogen remains
+the same, but the amount in each breath diminishes and breathing
+becomes more difficult. Most of us have experienced this sensation at
+high-altitude mountain resorts or retreats, where the breath becomes
+“short” and campfires or cigarettes which thrive on oxygen are
+difficult to keep going. Nowadays man carries his own oxygen to high
+places. Mountain climbers, seeking new and more dangerous heights,
+pack lightweight oxygen flasks so that they can continue climbing at
+near-normal rates. Pilots flying above about 15,000 feet must, by
+regulation, wear rubber “oxygen masks” to keep themselves constantly
+supplied with pure oxygen from a tank in the airplane. These masks
+are fitted to the jet pilot’s crash helmet, or “hard-hat,” which he
+wears to protect his skull against a rough landing.
+
+In high-flying passenger airliners designed specifically for
+transporting large numbers of people it is impractical to supply
+each person with an oxygen mask. Instead, the whole cabin is
+“pressurized,” meaning that the thin air through which the plane
+flies is scooped up, compressed, and fed into the cabin under
+pressure. In this way the airplane cabin moves through its hostile
+environment like a submarine hull through the ocean, and like
+submariners airline passengers may walk about the cabin freely and
+unrestrained, just as at low levels. At higher altitudes where
+the jets fly economically, cabin pressurization for commercial
+airliners is complicated by the fact that the cabin must be tougher
+and the compressed air demands are high. This introduces new weight
+and structure problems which must be balanced against payload and
+safety factors. The “mysterious” crashes of the first British Comet
+jet-airliner series were caused when the cabin structure failed under
+pressure. The Comets, of course, have been beefed up since then. In
+light of the Comet experience, our own jet airliners were subjected
+to exhaustive structural analysis and test before they were put
+into service. Today they are a much safer means of travel than the
+automobile.
+
+In the unlikely event of cabin-pressure failure on a commercial jet
+airliner there is little cause for concern. Individual oxygen masks,
+stowed in the service compartment over each passenger seat, would
+pop down virtually into the laps of the passengers. The passengers
+would breathe through these devices until the pilot brought the plane
+down to an altitude of, say, 7000 feet, where no artificial breathing
+devices are required.
+
+At altitudes above 45,000 feet the human body requires more than a
+supplementary supply of oxygen. In an unprotected environment the
+water and blood of the human body, held back only by human skin and
+accustomed to sea-level pressure, seek to “boil” or “explode” into
+the thinner air outside the body. The skin is not strong enough to
+contain this force. At present there is no reason for a commercial
+airliner to exceed an altitude of about 40,000 feet, so for ordinary
+passengers this factor is no problem. But for the military pilot
+or test pilot who flies above 45,000 feet some additional means of
+protection must be provided in case the cabin pressurization of the
+airplane fails. And, incidentally, the chances of a cabin-pressure
+failure in a single-engine combat or test airplane are much greater
+than those in a multi-engine airliner or bomber.
+
+For want of a better name the emergency devices supplied to pilots
+who fly at extreme altitudes are called “pressure suits,” simply
+because they exert a restraining pressure on the skin and chest,
+which helps keep the blood and breathing in a normal state. Even
+under the best of circumstances the best of pressure suits is
+uncomfortable and restricting--clumsy, like a deep-sea diver’s
+outfit. The pilot must go aloft with his suit completely rigged,
+ready to operate the instant it automatically senses a cabin-pressure
+failure. This is somewhat comparable to a diver who must sit inside a
+submarine hull in full deep-sea rig.
+
+Pressure suits are infinitely complex. Not only must they be made
+sensitive to pressure, they must also be cooled at all times;
+otherwise, the pilot would faint from the heat generated by his
+sealed-in body. The windshield on the sealed pressure-suit crash
+helmet must be designed so that it does not fog or frost over when
+the pilot exhales against it. The suit must contain an independent
+oxygen supply, a parachute, and floatation capability, in case
+the pilot has to bail out at high altitude, possibly over water.
+Since the pilot wears the suit during the complete flight, it must
+support his radio earphones and mike. And it must have rubber
+bladders--anti-G devices--which automatically inflate when G’s are
+pulled on the airplane, to keep the pilot’s blood from draining from
+his head and causing a blackout. To complete the pilot’s protection,
+the suit must be worn with special gloves, boots, and insulating
+layers against heat and cold.
+
+Indeed, as I think about it, the pressure suit is far more complex
+than the deep-sea diving rig. And for the high-flying pilot it is as
+important and necessary as the diver’s suit. Without it he cannot go
+aloft.
+
+ * * * * *
+
+The history of the pressure suit in this country is long and
+tortuous, paralleling the history of the modern airplane. For the
+benefit of posterity it should be the subject of an exhaustive study.
+All spacemen will wear some type of pressure suit, and they might
+want to know its origin. Meanwhile, my knowledge of early work on
+the suits is hazy. The first pressure suit I know of was built for
+aviator Wiley Post before World War II by Goodrich Tire and Rubber
+Company. It was a monstrous thing of rubber, closely resembling the
+analogous deep-sea diving rig. I don’t think it was ever used more
+than once or twice in flight. During World War II the armed services,
+absorbed with more vital matters, advanced the pressure suit not a
+whit. But after the war, when it was obvious that airplanes would
+some day fly routinely above man’s tolerable limits, the Air Force
+and Navy both embarked on low-key, back-burner types of pressure-suit
+research and development programs, funded on shoestring budgets.
+
+The Air Force and Navy experts differed sharply then on the
+approach to the pressure suit. Eager for quick results, the Air
+Force contingent at Wright Field, sparked by Dr. James P. Henry,
+believed the best solution was a partial-pressure suit, that is, a
+cloth-rubber suit which would cover not the full body but critical
+portions of it--originally only enough to enable the pilot to get
+back down in a hurry if the plane’s cabin pressure failed. The Navy,
+eying future space travel and capability to stay on target for hours,
+chose to go to a full-pressure suit, one that would support a human
+being on the face of the moon. In 1947 a young lieutenant named Paul
+Durrup, at the Naval Aircraft Factory in Philadelphia, drew up the
+Navy specifications which served as the basic full-pressure suit
+guide-lines for a decade.
+
+In spite of the shortage of money, the Air Force’s
+partial-pressure-suit program inched ahead significantly. By 1949,
+when Pete Everest was ready to try for an altitude record in the X-1,
+Wright Field had produced a partial-pressure suit which, amazingly
+enough, worked. This suit, in fact, saved Pete Everest’s life. On
+one flight above 60,000 feet the X-1 cockpit canopy cracked and
+the cabin-pressure gas escaped. The laced partial-pressure suit
+automatically came into play, squeezing Everest along the torso,
+arms, and legs, supporting his skin. He landed, uncomfortable but
+unhurt. When Bill Bridgeman later flew the Skyrocket to 79,000 feet,
+he wore a similar suit with an improved helmet.
+
+Just prior to my NACA assignment to the all-rocket Skyrocket in late
+1951, I naturally developed more than a casual interest in pressure
+suits. The Air Force issued me a partial-pressure suit, which I
+used in the NACA airplanes. Eventually I wore out two Air Force
+partial-pressure suits during my many Skyrocket and X-1 flights. The
+Air Force had done the best job possible, considering its budget,
+but as a pilot who anticipated close association with pressure suits
+during prolonged high-altitude flight in the X-1-A and X-2 series, I
+was looking for something a little better.
+
+This search took me to the Navy’s pressure-suit lab in Philadelphia
+in 1951 and shortly thereafter into the strange and wonderful world
+of a brassiere and girdle manufacturer.
+
+ * * * * *
+
+“I’m Scott Crossfield,” I said, extending a hand to the Navy group at
+Philadelphia. The laboratory was a small loft crowded with manikins,
+sewing machines, plaster of Paris molds, regulators, airbanks, and
+all the novel tools of this arcane trade. Lieutenant Commander
+Harry Weldon, who had inherited the project from Lieutenant Durrup,
+introduced me around.
+
+“I’m going to be doing some high-altitude work at Edwards and I want
+to check around and see what you fellows have for me to wear,” I
+said. “I have an Air Force partial-pressure suit. But there are some
+things I don’t like about it. I understand you fellows are working on
+full-pressure suits which would better suit our plans.”
+
+“That’s right. But our approach is a long-range one here, looking
+toward the future. We still have a long way to go with this program.
+We don’t get much money from the Bureau. They say: ‘Who the hell
+wants to walk around on the face of the moon?’”
+
+“We might be walking around on the moon before you know it,” I said.
+
+“That’s what we believe. Here, have you seen this suit? This is a
+David Clark suit, model number 7. It’s the most advanced thing we
+have. It was designed for me.”
+
+Commander Weldon proudly displayed Clark’s latest creation. I noticed
+in the rear of the building an altitude chamber, a heavy tank from
+which air could be drawn to simulate the vacuum of high altitude.
+
+“Mind if I try this thing in the chamber?” I asked.
+
+Weldon hesitated. Then after glancing at his co-workers he said, “Why
+not?”
+
+I put on the suit. It was made of rubberized nylon over which was
+stretched a layer of flexible white cloth. When the suit expanded,
+the cloth would hold the rubber in place close about the body,
+something like the principle of the inner tube and tire on an
+automobile. The helmet was attached to the suit the same way.
+
+I climbed into the chamber and closed the heavy steel door. The
+mechanics drew air out of the tank until I had reached an “altitude”
+of 90,000 feet. The suit worked well. I thought it far superior
+to the uncomfortable partial-pressure suit, and with improvements
+I thought it could be better. After the chamber was “lowered” to
+earth-atmospheric level, I climbed out and removed the suit, rattling
+off comments.
+
+I learned much later that my stint in the altitude chamber was the
+first time the suit had ever been tested under extreme conditions. I
+was surprised. I had simply assumed that the suit had been wrung out,
+perhaps hundreds of times. In later years Weldon and I often laughed
+about my being his “guinea pig.”
+
+I went directly from the Navy laboratory to the factory of the suit
+manufacturer, the David Clark Company in Worcester, Mass. David
+Clark, the owner and president of the company, turned out to be
+one of the most interesting men I have ever met in the aviation
+world. He was a stocky man of about fifty-five, with bushy eyebrows
+and delicate hands which, like his mind, seemed to be always in
+high-speed motion. He was a chain-smoker, shifting from cigarettes to
+cigars without missing a beat. He was proud and stubborn, but gentle
+by nature, the patron and father confessor of the David Clark Company
+family of employees, who were as loyal and hard-working a group as I
+have ever seen.
+
+Clark had begun his career in New England as a young man in the
+garment trade. Right off, he invented a knitting machine that would
+automatically make a seamless, one-piece, two-way-stretch girdle
+which, for its time, was considered fantastic. (The structural loads
+imposed on a girdle, as we all know, can be tremendous, and a machine
+that can build a good one automatically is an amazing engineering
+accomplishment, believe me.) With his ingenious machine Clark had
+all but cornered the important, expanding girdle market. Braving
+new frontiers, Clark moved into manufacture of brassieres, which,
+considering _those_ structural loads, was even more awesome.
+
+During the war Clark became interested in the military field,
+inventing and making boots, shoes, helmets, goggles, anti-G suits,
+ear-muffs to protect crewmen from engine noise, and other specialty
+items. Since 1941 almost every piece of pilot “soft goods” has
+been pioneered by Dave Clark. The brassieres and girdles were his
+bread-and-butter business, but he was a compulsive gadgeteer and thus
+found himself in the pressure-suit line, not because there was money
+in it but because it was a new challenge to his inventive mind.
+
+I returned to Edwards immensely impressed with the David Clark
+operation. In late 1951 I wrote a letter to NACA headquarters,
+recommending that we encourage the Navy-Clark pressure-suit effort.
+This letter was forwarded routinely to the Navy. The Navy lab in
+Philadelphia was encouraged by this show of interest and immediately
+set to work on a “crash basis.” Clark, investing his own money
+in the project (there was little official contract money behind
+the work), built several suits by hand. He sent some men to NACA,
+Edwards; I worked with them, welding and gluing various pieces of
+the complicated suit into place. This work went on for months and it
+gave me solid groundwork in pressure suits that later paid handsome
+dividends.
+
+It also led indirectly to one of the most agonizing physical
+experiences of my life. We had no chamber at Edwards for tests,
+and I decided to use an airplane if I could get high enough. So,
+wearing the tried and true partial-pressure suit, I took off one day
+in a war-weary P-51, one of NACA’s miscellaneous test planes, and
+climbed as high as it would go. When I reached 43,000 feet, the suit
+automatically pressurized. Then for the next twenty minutes or so I
+tried to go higher, nursing the complaining airplane to 44,000 and
+then 44,500 feet, finally to 45,000 feet, reporting by radio to the
+ground.
+
+The flight seemed to go perfectly, but the next day I had an awful
+headache. The pain was indescribable. It forced me to bed, where
+I remained for twenty-two days, my first illness since childhood.
+No amount of drugs, not even morphine, would ease the pain. Then,
+thank God, it went away. The doctors were baffled. No one could ever
+explain it. Some said it was the suit; some said I had contracted the
+“bends”; they later said “sinus.” The mystery remains unsolved to
+this day.
+
+Little by little, we brought the Clark full-pressure suit to a state
+of near-perfection. We switched regulators, experimented with new
+cooling systems, and a dozen different helmet-defogging devices. When
+Marion Carl came out briefly to borrow the Skyrocket for his altitude
+record, he wore the new Clark full-pressure suit. We stayed up half
+the night before his flight working out last-minute adjustments to
+the suit and making parts on a lathe. In my view, the fact that he
+wore this untried, jerry-rigged suit to 85,000 feet on his third
+flight made his record all the more remarkable. (When Kit Murray
+broke Carl’s altitude record about a year later, he wore an Air Force
+partial-pressure suit.)
+
+A ludicrous piece of journalism temporarily derailed our efforts
+to bring the Clark suit to operational perfection. The new money
+allotted the Navy lab at Philadelphia had naturally generated public
+interest in the pressure suit. A national magazine, now defunct,
+sent a writer to Philadelphia who composed a story describing the
+Clark suit in glowing terms. This pleased Commander Weldon, the Navy,
+and the Clark Company. But when the magazine photographer arrived
+in Philadelphia to take pictures, he was not impressed by the dirty
+khaki-colored Clark suit. It didn’t seem glamorous enough to be a
+“space suit.” To satisfy the photographer’s demands the Navy people
+pulled out a big, bulbous, experimental pressure suit that was years,
+if not decades, old, and dead from a development standpoint. But it
+was photogenic. The photographer was satisfied; his editor selected
+the picture of the hopelessly obsolete concept for the cover of the
+issue containing the article.
+
+This misguided publicity unintentionally touched off a minor but
+bitter pressure-suit battle between the Navy and the Air Force or,
+rather, brought the long-standing feud over the approach to the suit
+into the open. The ins and outs of this flap are much too complicated
+to relate here. The upshot of it all was that the pressure-suit
+people--both partial and full--got new and unprecedented
+appropriations. The Navy’s Philadelphia lab, for example, received
+what in that poverty-ridden field was considered a small fortune,
+$250,000. As the battle rolled on, alas, not the David Clark Company,
+but the firm whose suit had been on the magazine cover, received the
+contract to build the Navy’s full-pressure suit. All the money David
+Clark had spent out of his own pocket availed naught. The knowledge
+we had gained in years of pressure-suit work was turned over to a
+competitor. Such are the breaks of the aviation trade. Typically,
+Clark never complained. He is a true patriot and sporting competitor.
+
+The Clark suit was too good to die. When the Navy lost interest,
+the Air Force at Wright Field began to eye it with considerable
+excitement. A foresighted Wright Field technician, Ernie Martin,
+awarded Clark a small but encouraging contract to continue work
+on the suit, even though it was competitive with other Air Force
+projects. Clark kept on, spending large sums of his own money.
+Feeling somewhat responsible for his deep and profitless plunge into
+the pressure-suit field, and convinced that his suit was the ultimate
+answer for the Air Force and specifically the X-15, which I would
+fly, I urged Clark on and helped him with experimental work as best I
+could. I believe that during my five years at Edwards I logged more
+time in pressure suits than most of the pilots put together. This
+time the intense pressure completed the destruction of my sinus
+cavities. When I left Edwards they were shattered.
+
+In 1953 and 1954 during the preliminary studies on the X-15 at
+NACA, I had urged the incorporation of a full-pressure suit in
+the ejection-seat concept. The helmet and full suit would provide
+additional blast-protection for the pilot in the event of bail
+out, an argument I effectively used against the capsule. The
+suit I proposed had all the best features of the Clark suit. The
+North American X-15 bid included the Clark-type suit, listed as
+a contractor-furnished item. Because of my long background in
+pressure-suit work in general, and past association with the David
+Clark Company in particular, the X-15 pressure suit naturally became
+one of my special projects at North American. In time, the Air
+Force’s Wright Field lab took over the development work on the suit
+and supervised the altitude-chamber tests. But the final product was
+a direct outgrowth of the old NACA-Navy-Clark suit which I first saw
+at Philadelphia.
+
+Knowing much of the discouraging history of pressure suits, I tackled
+my new responsibility with grim determination. But I was unaware then
+that during those early days of the X-15 Dave Clark had a whopping
+surprise up his sleeve. It was a new “break-through” (and here I mean
+that overworked word in its literal sense) that would revolutionize
+the full-pressure suit business. In time the Clark-X-15-Air Force
+suit would become the standard full-pressure suit for the Air
+Force. A copy would be worn by the Mercury Astronauts, the seven
+men scheduled to orbit the earth in a capsule. It would serve as a
+prototype for suits to be worn by the first U. S. spacemen to land on
+the moon.
+
+
+
+
+CHAPTER 26 ►
+
+ _The Agricultural Approach_
+
+
+“And that, gentlemen, is the story of the X-15 to date.” My
+assistant switched on the lights in the briefing room. The group
+I was addressing--the fifth that month--was part of an Air Force
+headquarters inspection team. In aviation circles word of the X-15
+was beginning to spread. We were besieged by official delegations
+from NACA, the Pentagon, and Congress, who wanted to know what it
+was all about. Charlie Feltz abhorred briefings--they seriously
+interfered with his work, for one thing--and had dumped this “public
+relations” chore on me. Through growing experience I developed an
+hour-long “road show,” complete with slides of charts and artists’
+conceptions of the ship, and I thought it was pretty good. I could
+spout the speech in my sleep and, I think, frequently did.
+
+“Are there any questions?” I concluded.
+
+“I have a question about the seat,” a captain spoke up. “As I
+understand it, the pilot may spend long hours in the cockpit on the
+ground before take-off and during flight to launch point. Have you
+given any thought to a seat cushion, an air-inflatable or foam-rubber
+base, to add to the pilot’s comfort? Seems to me it’s asking quite a
+lot for the pilot to sit on cold, hard steel for all that time.”
+
+“Captain, as I believe I pointed out earlier, our overriding
+consideration in this airplane is saving weight. There are, of
+course, foam-rubber seat pads and inflatable air cushions under
+development. There is even an undulating air cushion which gently
+massages the behind during prolonged flight....”
+
+“Yes,” the captain said. “I have read reports on these projects....”
+
+“Well, any one of these seat pads could weigh as much as a pound,
+maybe two pounds. In the final analysis this is pure luxury payload.
+To take it into the air, we must add seven or maybe fourteen pounds
+to the overall weight of the airplane. Besides, these pads might slip
+around during ... ah ... shall we say ... the rough portions of the
+flight profile.
+
+“Now, I’ll tell you what we did about this. We sat down and said
+to ourselves: ‘Who in this country has had the most experience in
+keeping someone in a seat under rough conditions over prolonged
+periods?’ The answer, we found soon enough, was the International
+Harvester Company, manufacturers of tractors and farm equipment. We
+learned they had investigated the natural frequency of a man’s spine
+and how long a spring you should sit him on, and what’s the best
+shape of the seat, so that he gets the best opportunity to stay on a
+piece of farm equipment bouncing over rough ground, bearing in mind
+that a farmer might ride that seat twelve to sixteen hours a day.”
+
+“Is that a fact?” the captain asked in wonderment.
+
+“That’s a fact,” I said. “So you will see that the seat in the
+X-15 is an exact duplicate of a tractor seat, with apologies to
+International Harvester. It’s of minimum weight and maximum comfort
+and will keep the pilot solidly in place in event of rough flight.
+
+“Around here, we call this type of engineering the agricultural
+approach, getting right down to fundamentals, as basic as land and
+seed, and figuring the thing out. It’s typical of our thinking on
+this airplane.”
+
+
+
+
+CHAPTER 27 ►
+
+ _A Tornado Named Stormy_
+
+
+Harrison (“Stormy”) Storms, Chief Engineer of the Los Angeles
+Division, who had sparked the initial management-level interest in
+the X-15 project, remained aloof from the day-to-day work on the
+airplane. But as Chief Engineer (he had replaced Ray Rice, who moved
+up to a Vice President’s slot), the technical responsibility for the
+ship was his. When we ran into trouble, he was first to answer the
+alarm and bring his high-level prestige and authority to bear. At no
+time was he ever more than a few minutes away.
+
+As time passed and all of us began to see the full dimensions of our
+tiger, Stormy came around more often. By then, the fall of 1956,
+we had moved to larger quarters on the second floor of the main
+engineering building. Our team had grown to about sixty-five men, and
+every day we leaned more heavily on the various departments of the
+plant for aerodynamic, heating, structural data, and other help.
+
+Stormy was short and wiry, 41 years old, a native of Chicago. As
+a young boy he had developed an obsession for aircraft through
+contact with model planes. He took a master’s degree in Mechanical
+Engineering at Northwestern University and later made advanced
+studies in aeronautical engineering at Cal Tech. When the Japanese
+attacked Pearl Harbor, Stormy joined North American. A tough,
+uncompromising, technical man, and an articulate one as well, Stormy
+had fought his way to the top of North American. Although for years
+he had lived in the nation’s outdoor playground, Southern California,
+Stormy ignored the comforts and luxuries of life. Every waking moment
+he devoted exclusively to thinking of new and better ways to make
+airplanes.
+
+Stormy naturally became one of the ideal men to lay new proposals
+before the military. Thus when the Preliminary Design Section came
+up with a new concept, Stormy took it to Washington and pounded the
+halls of the Pentagon. He became a master at handling a presentation
+because, for one thing, he hated to lose a competition. He was
+scrappy, cocky, and confident. Under his direction the Los Angeles
+Division all but cornered the market of the future flying Air Force.
+Stormy had won the competition for the Air Force’s advanced fighter,
+the Mach 3 F-108, and the advanced bomber, the Mach 3 B-70, both of
+which would benefit from the X-15’s flight experience. There were no
+other advanced combat aircraft in the Air Force inventory.
+
+In the fall of 1956 the X-15 ran into serious trouble, both from
+political and technical standpoints. Air Force Captain Mel Apt had
+just died in the crash of the final X-2 airplane. The basic cause
+was high-speed instability, a weakness in the airplane that was
+predicted years before. The loss of the X-2 denied the X-15 program
+badly needed flight experience and data in the Mach 3 zone and raised
+many new questions about acceptance of high-speed instability. The
+loss, in effect, vastly broadened the area which the X-15 would
+have to explore. From a political standpoint, it put North American
+and the government on the spot. If the X-15 also turned out to be
+unstable and crashed as a result of this instability, it might
+jeopardize not only all future research airplanes but also the entire
+future of manned aircraft. Thus in a twinkling the X-15 became an
+enormously important project at North American--indeed throughout
+the government and aviation industry--bringing to a climax a problem
+that had bothered us for some months.
+
+According to the preliminary design studies and wind-tunnel tests,
+the X-15, with its high-swept vertical tail, would be unstable during
+certain brief periods of the flight profile. It is impossible to
+build an airplane that can fly at six times the speed of sound and
+land like a conventional airplane without a compromise somewhere
+along the line. We had compromised in the tail. Its shape was not
+ideal. After the X-2 crash Stormy moved in like a tornado.
+
+The top members of the X-15 team gathered in his office. Stormy was
+emphatic and wasted no words.
+
+“This airplane is going to be directionally stable. One week from now
+I want all of you back here with every tail-study you have made on
+this configuration. I want the weight analysis, flutter studies, drag
+studies, the dive-brake studies, the whole works from A to Z. Bill
+Johnston says we have got to add some more tail below the fuselage,
+so be thinking about that.”
+
+We were back one week later with the paperwork in hand. Our engineers
+had collected data from wind tunnels and other sources on every
+conceivable tail shape. Ideally for our purposes, the best was
+one that looked like the tail of a ballistic missile, with fins
+protruding full length above and below the fuselage. But a fin below
+the fuselage conflicted with the rear landing-gear arrangement, the
+two skids which we had moved all the way aft to save weight. The
+lower fin would stick down below the skids and dig into the ground
+and become the world’s fastest plow, as we jokingly called it.
+
+The discussion in Stormy’s office was deeply technical and no joke,
+though. We pored over the paper studies, matching weight and drag
+against performance, proposing, rejecting, theorizing. The problem
+was complicated by a variety of factors. For example, the dive
+brakes were attached to the upper tail. According to our design
+scheme, to gain the biggest bite in the air the upper tail would
+move as a complete unit. Then there was the nagging question of the
+shape, or airfoil, of the upper and lower tail sections. Seen from
+above in cross-section, a diamond-shaped tail was best because
+the air “clung” to it better at low speeds. But at high speeds a
+diamond-shaped tail, thick at the middle of the diamond, would add
+little but weight to the X-15. Our goal was to conceive a new tail
+shape without adding an excess pound.
+
+We were in the midst of discussing a truncated lower tail, one that
+would not scrape the ground on landing, when Stormy suddenly exploded:
+
+“Why the hell can’t we simply drop the lower tail in flight, just
+before landing? We don’t need it then. It’s during the high-speed,
+high-altitude phase that we need it.”
+
+“Drop it? Drop the ventral?” someone asked, startled. “It’s never
+been done. How would you drop it?”
+
+“Blow it off with a ballistic charge,” Stormy shot back. “Who cares
+if it’s never been done? No one ever built an X-15, did they? This
+ventral could have a small parachute to lower it to the ground after
+it’s jettisoned. It would cost us only a few pounds.”
+
+We thought that over for a while. It was indeed a startling idea.
+But, as we finally concluded, why not?
+
+Next we tackled the airfoil of the tail, batting around the diamond
+shape versus other, more conventional shapes. As related, the diamond
+was the best approach for the X-15’s low-speed flight, and it would
+still have some high-speed advantage. The one problem was that it was
+marginally adequate and much too heavy.
+
+“What would happen,” Stormy asked, “if we cut that diamond shape off
+in the middle? Slice it right in two. Once the air passes the hump of
+the diamond, it has finished its work. It separates from the surface.
+The air won’t know it if the rear of the diamond isn’t there. That
+might cut the weight of the tail in half.”
+
+He was right. Wind-tunnel studies showed that the air behaved
+properly with only half a diamond, as seen in cross-section. We
+chopped the diamond in half, with the result that the X-15 in
+final form has a tremendous, wedge-shaped upper and lower vertical
+stabilizer, about which much ill-informed speculation has been
+spread around. It was no more and no less than a new attempt to get
+the most tail for the least weight. With this innovation, plus the
+droppable lower ventral (also wedge-shaped), the X-15 was supplied a
+tail that would make it completely stable in all speed ranges. Thanks
+to Stormy’s ingenious mind and courage, it was done despite the
+strong objections.
+
+ * * * * *
+
+In November of 1956 the design of the X-15 was frozen, and a special
+team started work on the mock-up of the airplane. The dummy mock-up
+was completed in a frenzy the night before our formal customer
+inspection in December, 1956. As I recall it, the painters were up
+half the night putting finishing touches on the wood and soft-metal
+fuselage. When we saw the “complete airplane” the following day,
+squatting behind a walled-off area marked “SECRET,” we were amazed
+and proud. All the parts fitted, and to the untrained eye the
+airplane in its final shape appeared ready to take off. We had
+reached this point, from conceptional design to mock-up inspection,
+in twelve months flat. Considering the product we were building, I
+believe this must be a record of some kind.
+
+About a hundred customers, including both NACA and Air Force
+personnel, came to the North American plant to gawk at and criticize
+our tiger. Among these was my old friend and boss, Walt Williams, who
+was still running NACA’s High Speed Flight Station. Now that the X-2
+had gone by the boards, I could see the eagerness in his face. He
+was literally panting to get his hands on the X-15. I might add that
+we at North American were equally eager to deliver it to his test
+facility.
+
+I escorted Williams about the dummy airplane. His mind was churning
+with questions. He, of course, knew about the new tail concept--we
+reported all changes or modifications on the X-15 to our customers
+immediately, and NACA passed them on to the industry--but when he
+saw the rear of the full-scale model for the first time he eyed it
+skeptically. I put his mind at rest with a technical dissertation,
+flavored with a smattering of North American sales pitch. Williams
+poked his head inside the cockpit, shotgunning questions.
+
+No detail, however small, was overlooked in this inspection.
+For example, one Air Force officer, after a careful survey
+of the instrument panel, said to me: “Scotty, I don’t see a
+landing-gear-position-indicator light on the panel. How will you know
+for sure if your gear is down?”
+
+“The wiring and gauges for gear-indicator lights, we figured, would
+weigh about five pounds. Now when you get right down to it, they
+really aren’t necessary. Figure this. You’re coming in dead-stick at
+200 miles an hour ready for touchdown. To maintain your air speed
+and prevent a high rate of sink near the ground, it’s best not to
+put the gear down until the last few seconds. Otherwise, the drag
+would be too great. So you pull the gear handle. If the gear doesn’t
+come down, you’ve had it. You have no engine power. You can’t take
+off and go around again for a second landing. So what good does a
+gear-position-indicator light do you?”
+
+All in all, our customers gave us a hearty pat on the back. The
+X-15 passed its inspection with flying colors and Charlie Feltz
+released the engineering drawings. To be sure, there were many minor
+requests for changes. I believe they totaled about ninety-five,
+half of which we had anticipated. At the time of the inspection,
+in fact, our engineers were busy modifying these items. The only
+really big proposal that emerged from the inspection was an idea of
+Walt Williams’ that the X-15 engine be designed so that it could
+“idle” while the plane was still mated to the mother ship. Williams
+wanted this to avoid the prospect of an engine failure after drop.
+But that was a problem for RMI, not North American. The engine was a
+customer-furnished item.
+
+ * * * * *
+
+The one cloud gathering on the X-15 horizon at that point in history
+was the rocket engine. Facing unprecedented problems, the thin line
+of technicians at RMI had wavered and fallen back. By mock-up time
+the XLR-99 engine was six to eight months behind the overall X-15
+schedule and, we guessed, destined to drop even further behind
+schedule. For all of us on the X-15 team, this turn of events,
+inevitable in an advanced technological jump of that order, caused
+great concern and loud cries of anguish. We knew that in the end such
+a delay would reflect on our own efforts at perfection.
+
+Once again Stormy took the reins. After several prolonged meetings
+with our propulsion engineers, we wrote a letter to the Air Force
+which loudly rang the alarm. North American again offered to supply
+the engine from its Rocketdyne Division. But it was too late. By then
+the Air Force was heavily committed to the RMI effort. Contracts had
+been let; many millions had been invested in the small company. North
+American’s Rocketdyne was still busy supplying engines for Atlas and
+Thor, and designing even more powerful rocket engines, and the Air
+Force was still opposed to calling upon the division for technical
+assistance for the X-15. We would have to sweat it out.
+
+I was considerably put out about the engine delays. The engine was
+obviously crucial to the entire project. If it failed, we all failed,
+and I in particular failed in the goal of my life. The situation
+reached the point where I was no longer invited to attend the
+rocket-propulsion meetings. On that one subject I had turned into an
+outspoken zealot, and the others soon tired of my needling.
+
+
+
+
+CHAPTER 28 ►
+
+ _Wilting Straws in Plaster of Paris_
+
+
+The impasse in the perfection of the full-pressure suit was primarily
+in the restraining material or “tire” which holds the inflatable
+rubber “inner tube” against the pilot’s skin. Many materials were
+tested to keep the ballooning inner tube in place against the skin,
+but each was so heavy and rigid that when the suit was in operation,
+the pilot was trapped in a bulbous vise, unable to move his arms,
+legs, or head. The suit engineers tried to offset this by hinging
+the elbow, neck, wrist, and knee joints with bellows and bearings.
+But the end result was a complicated, mechanical monster, obviously
+unsatisfactory for a pilot working within the tight confines of an
+airplane cockpit, and quite marginal if escape from the aircraft
+became necessary.
+
+David Clark’s suit number seven, which I had first tested in the
+altitude chamber in Philadelphia in 1951, was an attempt to get away
+from the “stiff” suit concept. It was a step in the right direction
+but a long way from an operationally sound item. But if enough time
+and effort are devoted to any technical problem, the solution will
+come eventually. Obsessed with this new challenge, David Clark kept
+plugging away, with Air Force support, and in time came up with the
+answer.
+
+He revealed it to me one day in his factory, not long after
+we completed the X-15 mock-up inspection. After a tour of his
+fascinating plant we went to his private office. I could tell that he
+was bursting with pride.
+
+“Scotty,” he said, “did you ever see one of those ‘Chinese fingers’
+made of straw? You know, those things you put your index finger in?
+You try to pull your finger out and the straw grips it even tighter?”
+
+“Yeah, sure,” I said. “I used to play with those when I was a kid.”
+
+“Well, take a look at this. I made this on an airplane when I was
+going up to Alaska last month to see my daughter.” He passed me a
+sample of hand-woven material which looked not like a Chinese finger
+but something like an Anchor Fence, except that it was made of nylon
+thread. I gave it a good pull and right off I saw what he was driving
+at.
+
+“We call this ‘link-net’ material in the trade,” Clark said. “I think
+it’s the answer to the pressure-suit restraining cloth. It will work
+just like the Chinese finger. If you bend your arm, the material on
+top will contract and the material on the bottom will stretch. It
+also twists easily from side to side under stress. At all times you
+will have an even pressure on the rubber bladders. It’s as flexible
+as cotton cloth, strong as steel, and weighs little or nothing.
+I think that with this material and the new regulators and other
+improvements we can give you a complete full-pressure suit with a
+total weight of thirty-five pounds.”
+
+“What?” I was astonished. At best, present equipment for the job
+added up to as much as 110 pounds, give or take a few.
+
+“Yes, thirty-five. Now it’s going to take a little time because we
+have to make this stuff by hand. But maybe we can come up with a
+machine to weave it.”
+
+Our long-standing faith in David Clark had paid off. The link-net
+material proved to be the great “break-through” in the full-pressure
+suit game. It relegated all the stiff suits to the junk-heap. The
+restraining material was as flexible as a suit of long-johns and
+almost as comfortable. It eliminated the need for bellows-joints at
+the knees and elbows and for bearings at the shoulders and wrists.
+
+As I was leaving the factory we passed through the Research
+Department. Amid the great humming looms and rattling sewing
+machines, I spotted a piece of shiny cloth lying on a long table. The
+material looked somewhat like silver lamé. I went over and picked it
+up.
+
+“What is this?” I asked Clark.
+
+“That’s a piece of nylon with a vacuum-blasted aluminum coating. Just
+something one of the boys was trying out.”
+
+“Pretty glamorous looking.”
+
+Then a light went on in the back of my mind. “Say, Dave, why don’t
+you make the outer cover of the pressure suit out of this material,
+in place of that awful-looking khaki coverall?”
+
+“Whatever for?”
+
+“You remember that time down at Philadelphia when they took that
+picture for the magazine cover? We don’t want to make that mistake
+again. A coverall of this material would look real good, like a
+space suit should--photogenic. To justify it technically we can tell
+them this silver material is specially designed to radiate heat or
+something.”
+
+“A marvelous idea, Scotty. I’ll make the boots and gloves out of
+black material for contrast.”
+
+“Great touch,” I said. Ever since then all pressure suits have been
+silver.
+
+ * * * * *
+
+I made my way to New York City. To save his fitters expensive,
+time-consuming cross-country trips each time they modified or
+improved the new suit, Clark suggested that we mold a “statue” of me
+just as I would sit in the cockpit of the X-15. I bought the idea
+without a second thought. How I lived to regret it! Believe me, no
+one can claim to have lived the full life until he has been cast in
+plaster of Paris.
+
+The appointment Dave Clark arranged in New York took me to a
+ratty building on 42nd Street just off Broadway. John Flagg, now
+a vice president of the Clark Company, met me, and together we
+took a squeaky elevator to the studio of a theatrical sculptor.
+He specialized in devices for stage sets, armor suits, horribly
+distorted masks, and the like. The proprietor, a tall, balding man
+with a walrus mustache, was a “mad artist,” a Romanian whose name I
+have forgotten. He had an assistant, just off the boat and unable
+to speak English. The studio turned out to be a cluttered, unheated
+attic. It was mid-winter.
+
+“Very well,” the artist said, rubbing his hands from the cold, or the
+unexpected windfall, or the artistic challenge standing before him,
+I’m not sure which. “We’ll make a plaster of Paris mold in two parts,
+the body and the head. Later we will cast the statue in this mold.
+Now first you must strip down completely and shave all the hair off
+your body except your head.”
+
+“_All_ the hair off my body?” I asked incredulously.
+
+“Yes,” the artist replied. “_All_ of it. Otherwise, it will stick in
+the plaster of Paris.”
+
+“I don’t have a razor,” I said feebly, eyeing the nearest exit.
+
+“Never mind, Scotty, I’ll go get one,” John Flagg said, chuckling.
+He ran down the stairway and in a few minutes was back with a small
+electric razor, the size used by ladies.
+
+“I don’t know how in hell I’ll ever explain this on my expense
+account,” he said, “but here it is.”
+
+I stripped, put on an athletic supporter, and shaved the exposed
+portions of my body. After applying a thick coating of vaseline to my
+skin, I sat down on a rickety chair, feeling like a half-frozen Greek
+god. The mad artist prepared the plaster of Paris mixture, screaming
+in Romanian and gesticulating wildly at his assistant, pausing at his
+work only to stand back to size up his victim. I noted with dismay
+the ripples on my stomach in a sitting position. I would be cast
+forever with a row of rubber tires on my waist!
+
+The artists erected a mold about my body and then, without warning,
+began slapping on the frigid plaster of Paris. At the beginning
+it felt like being immersed in ice water, but as time passed my
+sealed-off body heat began to build up, and for the first time since
+I entered the attic I was warm. But soon I was too hot, sweating and
+breathing heavily under the increasing load of plaster.
+
+The artists erected a cage of steel within the plaster to hold it
+together. Then they turned me upside down in the chair and did the
+other side. I waited in stolid agony for the plaster to harden,
+afraid to move a muscle lest the mold be ruined and the process
+repeated.
+
+“Now we must do the head,” the artist said. “This is the most
+difficult part. You’re not subject to claustrophobia, are you? Do you
+prefer to breathe through your nose or mouth?”
+
+“Mouth,” I said. “No, I don’t have claustrophobia.”
+
+The creation of the head mold was slightly different but no less
+taxing. First they covered me with a kind of rubbery moulage, and
+after putting two paper straws in my mouth so I could breathe, they
+then applied the plaster. After a few minutes the straws wilted
+and I could barely suck in enough air for survival. I couldn’t
+swallow because the movement of my Adam’s apple would destroy their
+work. With my head rigidly set in the heavy mold, I listened as
+the artists babbled. Their voices seemed to come from far away,
+from some deep cave. They watched me closely. With their heads so
+encased, some people become overwhelmed by claustrophobia and come up
+fighting--ripping at the mask.
+
+John Flagg was doubled up on the floor with laughter.
+
+Before applying the plaster over the rubbery moulage, the two artists
+had laid a string across my head from shoulder to shoulder. The idea
+was that when the mold hardened it could be cut in two and thus
+removed by pulling the string, something like opening a package of
+chewing gum or cigarettes.
+
+Now a great debate arose between the two artists about when to pull
+the string. Actually, this _is_ a matter for careful consideration
+because the string must be pulled at exactly the right time. If it is
+pulled too soon, before the plaster has hardened enough, the whole
+thing crumbles, or the seam rejoins. If it is pulled too late, after
+the plaster becomes hard and brittle, the mask must be chiseled off
+and the process begun all over again.
+
+In the midst of the debate, the head artist remembered he had to make
+an urgent telephone call. He disappeared from the room, leaving
+his assistant to watch over the victim. It was clear from muffled
+conversation that the assistant was very concerned. He touched the
+plaster repeatedly, testing its hardness, shook his head glumly and
+paced the floor, obviously as torn by indecision as Hamlet. Finally,
+he could stand it no longer. He rushed over and pulled the string.
+
+A few moments later the chief artist returned and smilingly said:
+“Well, now, it is time to pull the string.” Then with a look of
+horror he saw that he had been beaten to the punch. He exploded and
+turned on the assistant in fury, babbling in Romanian, English, and,
+I think, six other languages.
+
+“I’ll fire you--you don’t know anything about this work--I’ll have
+your visa revoked--you’ll go home on the next boat--” And so on.
+
+The mold held together, after all. It was finally removed and I could
+breathe again. I tried to wash the vaseline coating from my body with
+cold water, and then I got out of there as fast as I could.
+
+As it turned out, the crazy artist made a fairly creditable statue
+from the mold and my rubber tires were immortally preserved. Clark
+used the statue to make number one and number two X-15 pressure
+suits. As far as the fit was concerned, they were perfect as long as
+I didn’t gain a pound.
+
+ * * * * *
+
+After that I spent the equivalent of years of flying in the Air
+Force’s altitude and test chambers at Wright Field testing the Clark
+pressure suits. The Air Force people--notably the Command Flight
+Surgeon of the Air Research and Development Command, Brigadier
+General Don Flickinger--displayed keen interest in the work and
+their support was unlimited. We wrung out the suits, not only in
+repeated “trips” to 150,000 feet altitude, but also in ovens and
+refrigerators, to make sure they, to say nothing of the pilot, could
+stand up under extremes of temperature.
+
+These prolonged tests became somewhat of a minor physical challenge
+for me. The aero-medical officers at Wright Field submitted, half
+jokingly, that considering my age (I was then 36) my body would never
+take the beating. When they matched my performance against the data
+accumulated on human guinea pigs over several years, my record defied
+their statistics.
+
+“You’re a physical freak,” someone remarked. “No one can take that
+kind of punishment. How do you do it?”
+
+It seemed superfluous to point out that for centuries man has been
+outperforming and outliving the statistics of the physicians, and
+that, as I have said before, if the spirit is willing the flesh can
+exceed all probable limits. History is full of such accounts. Teddy
+Roosevelt is a good example.
+
+ * * * * *
+
+The sled track at Edwards was the brain-child of Air Force Colonel
+John Paul Stapp, an aero-medical officer who specialized in the
+physiological effects of high-speed and high-altitude bail out and
+severe G forces. The track was a mile long. The sled was powered by
+a cluster of solid-propellant rockets. When touched off, the sled
+accelerated with great speed. It roared down the track for a few
+seconds and then splashed into a pool of water. The water stopped
+the sled, subjecting it to tremendous G. On the front of the sled
+we mounted a dummy nose of the X-15, complete with cockpit canopy,
+ejection seat, and a plastic anthropomorphic form in the seat dressed
+in a Clark pressure suit.
+
+We gathered behind a concrete shield listening as the countdown was
+intoned on the loudspeaker: “5 ... 4 ... 3 ... 2 ... 1 ... Zero!”
+
+The powerful rockets on the rear of the sled exploded to life. Within
+a few seconds the big sled was hurtling down the track at 1000 miles
+an hour, almost faster than the eye could follow. Cameras, mounted in
+a half-dozen positions, recorded the motion of the sled and the X-15
+nose. Sensitive instruments on the seat and inside the plastic dummy
+telemetered back a constant stream of data. These data would tell us
+the total effect of wind-blast and heat on the dummy and pressure
+suit. It would settle once and for all the controversy of the X-15
+ejection-seat principle.
+
+At the peak of acceleration of the sled--1000 miles an hour--the
+X-15 seat fired automatically. The V-shaped canopy blew off. The
+seat, with the dummy firmly restrained, rose from the sled and
+zoomed skyward. Over one hundred feet in the air the dummy separated
+from the seat and a parachute automatically deployed, lowering the
+pressure-suit-clad dummy to the desert floor. The parachute was a
+lightweight model with a twenty-four-foot canopy, built and tested
+especially for the X-15.
+
+The test was successful. To make certain we were right, we ran the
+sled several more times. All the data indicated the X-15 pilot,
+protected by a Clark full-pressure suit, could eject under the most
+severe conditions we could anticipate without bodily injury beyond
+the usual bruises associated with an escape from a disabled airplane.
+
+ * * * * *
+
+“Charlie,” I said, pulling a chair alongside Feltz’s desk. “Here is
+the final word on the suit as we see it.” I laid out a series of
+reports and schematic drawings.
+
+“The basic deal is this: the first layer is winter underwear, the
+second a ventilation garment to cool the pilot. The third layer is
+the rubberized airtight pressure garment with the anti-G bladders.
+The fourth layer is this new link-net material for strength. The
+outer layer is this silver lamé material, mainly for photo appeal.
+
+“We have run the suit through heat and cold tests. It will withstand
+anything we can expect to meet. The suit itself, during X-15
+flight, will be cooled by nitrogen gas from the same tank we use to
+pressurize the X-15 cockpit; you’ll hardly be able to measure the
+quantity. Here’s the way we have the oxygen regulators and supply set
+up. During ride to launch point the pilot in the suit breathes oxygen
+from a supply from the mother plane. When he’s ready to launch, he
+can turn a valve and get oxygen from a supply in the X-15. This will
+save us some oxygen weight. The suit itself contains a bottle of
+oxygen, enough to get him down on the ground, which automatically
+pressurizes the suit and helmet in case of ejection. Incidentally,
+we’ve got a rubber seal in the helmet just above the pilot’s mouth
+and nose to prevent fogging the helmet lens. No electrical heating
+required.
+
+“We worked it so that the parachute harness also serves as the
+seat-restraint straps. No need for extra shoulder straps and a lap
+belt. This will save us a few pounds. The sled tests show that the
+manacles will hold the pilot’s feet in place, and that the blast on
+ejection is far from fatal. The seat weather-vanes, as expected. The
+pilot will pull some G’s going out, but not enough to black him out.
+Now, to top it all off, I’m giving you the whole pressure suit for
+thirty-nine pounds. You could walk around in it on the moon.”
+
+“Dad-gummed,” Feltz said. “This sounds too good to be true. Where’s
+the hooker?”
+
+“The only problem is this. We’re still ironing out some improvements.
+We can’t go much faster than we’re going. I’m afraid that’s the way
+it’s going to wind up. We will be flight-testing the new pressure
+suit and the X-15 all at the same time.”
+
+“You won’t be able to flight-test the suit before then?”
+
+“No,” I said. “We’ll have a lot of chamber time, but no realistic
+in-flight operations.”
+
+“Well, that’s the breaks,” Feltz said. “Just make darned sure the
+thing works.”
+
+
+
+
+CHAPTER 29 ►
+
+ _Eyes Toward Space_
+
+
+In mid-1957 two severe hurricanes struck the X-15 project within
+a matter of weeks. As they roared through our working space, we
+launched a series of crisis meetings beneath battened hatches. Again
+Stormy leaped in, bringing his authority to bear. The airplane
+was well along by then. Manufacturing had begun the difficult
+experimental welding of the Inconel X skin metal; other engineers,
+after prolonged agonizing, brain-numbing conferences, had finally
+set the design for the complex fuel tanks for the rocket engine. At
+that stage in X-15 history the slightest change in one part of the
+airplane ricocheted throughout the entire structure.
+
+The first storm was a request from the customer to add additional
+instrumentation devices to record the effects of wind, temperature,
+and G load on the airplane. Charlie Feltz announced this new request
+one morning at a meeting.
+
+“What they want among other things will double the instrumentation
+load, from 800 to more than 1500 pounds,” he said. We sat silently,
+each mentally calculating the loss in X-15 performance. The news fell
+over us like a death sentence. Charlie Feltz later told me he was
+ready to quit.
+
+“What do they want?” someone asked.
+
+“Well,” Feltz said heavily, “they want some more stuff in the
+instrument bay, and they want us to put in hundreds of pressure
+pick-ups, strain gauges, and thermocouples, and six manometers of
+archaic vintage. They want this stuff not only in the wing but also
+in the horizontal and vertical tail.”
+
+“Why didn’t they say so before now?” one of the engineers said.
+
+I closed my eyes and visualized the new request as it would finally
+show on the airplane. The thin wing would be pitted with tiny holes.
+Clusters of steel tubing, pencil size, would run from these holes
+and crowd through the wing root to the data-collecting manometers in
+the instrument and engine bays. As the X-15 whipped through the air,
+each of these tiny holes would have a story to tell, to relay through
+the tubing to the recording manometers. To install these pick-ups,
+and to route the tubing to the proper place through the thin wing
+was a terribly tough and delicate engineering job, comparable to
+engraving the Lord’s Prayer on the head of a pin. In the aft end of
+the ship the pick-up tubes would have to be arranged in some kind of
+infinitely complex universal joint because the horizontal elevator
+rotated.
+
+“Ah, to hell with them,” an engineer said. “Let’s don’t do it.”
+
+Although Feltz was deep in the dumps, this comment, which to him
+bordered on treason, brought him to his feet. As always, he spoke
+slowly and calmly.
+
+“I guess we have to remember this isn’t _our_ airplane. We’re
+building it for the customer. He knows all the facts. He isn’t dumb.
+If he wants these pick-ups, then there must be a good reason. I’ll
+try to talk them out of putting them in the horizontal tail, but
+we’ll probably have to settle for the others. He knows what the extra
+weight will cost him. But let’s remember it is _his_ decision, not
+ours. We have to do what they want.”
+
+Charlie was correct in making that point and his timing was good, as
+well. All of us had become so intensely wrapped up in the project
+that we frequently tended to think of the airplane as our own
+personal property. We resented any new suggestions and intrusions,
+the same way a parent becomes irate when somebody else corrects
+his child. We sometimes lost sight of the fact that the X-15 was a
+nation-wide project, conceived for the good of the entire industry,
+and that the customer had certain prerogatives which were denied us.
+
+“God only knows,” Feltz went on, “where we can cut out some weight,
+but we have to do it. The engine weight is up again, and this hurts
+us even more.”
+
+He began to detail some weight-saving ideas he and the structural
+engineers had recently conceived. One was a new arrangement for the
+fuel tank-plumbing that would save a hundred pounds without seriously
+affecting the overall center of gravity of the airplane. The second
+was a plan to install the nose wheel telescoped on the plane, saving
+considerable space and weight.
+
+The nose-wheel concept--Feltz’s own baby--was new and appealing. It
+greatly reduced the nose-wheel storage space and saved us half a
+hundred pounds or more. Few people realize it but the landing-gear
+apparatus alone on some airplanes can account for as much as eight
+per cent of the total weight. With our lightweight rear skids and new
+nose wheel, the gear on the X-15 made up only about one per cent of
+the entire weight of the airplane, or a total of 300 pounds.
+
+The second storm struck a few days later. It was more severe
+in force, but as I think back on it now it helped the project
+tremendously. But when it first came we thought it might delay us
+fatally. Again the news was passed out at a meeting in Feltz’s office.
+
+“Now, you won’t believe this,” he started out, “but the customer
+wants to change the mother plane.”
+
+A chorus of groans echoed through the office.
+
+“The customer says the B-36 is being phased out of the Air Force
+inventory. Spare parts will be hard to come by, maintenance on the
+B-36 is staggering, and so on. They want us to use a B-52.”
+
+The B-52, a monstrous eight-jet bomber, then being manufactured
+in quantity by Boeing, was designed to replace the B-36. The
+substitution of this new mother plane immediately raised grave new
+problems, which we batted about in the meeting.
+
+“You can’t put the X-15 in the B-52 belly,” an engineer said. “The
+landing gear is in the way.”
+
+“I know,” Feltz said. “We’ll have to hang the X-15 externally, out on
+the wing.”
+
+This concept in itself was extremely controversial. For some
+years the Air Force had been conducting experiments with external
+stores--the Rascal missile, for example--on high-performance
+jet airplanes. The appendage completely modified the overall
+configuration of the aerodynamic shape, and added drastic new
+problems to the already tough job of piloting a jet in the
+trans-sonic zone. The planes vibrated and the stores shook loose, or
+else produced so much drag that the original anticipated performance
+of the airplane was never reached. We were now asked to hang the
+largest external store ever conceived on a B-52--with a man in it.
+
+The wing-mounted X-15 and the use of the B-52 as a mother plane
+presented great new operational troubles. The pilot would have to
+board the X-15 before the mother plane took off, for example. The Lox
+top-off system would have to be not only remote but automatic, as
+well, because no mechanic could crawl out on the B-52 wing to adjust
+it. The B-52 flaps, which provide extra lift, could not be used on
+take-off because the X-15 tail would be in the way. Some means would
+have to be devised for a visual check on the X-15 in flight. There
+were no side windows in the B-52. We would have to put a switch in
+the X-15 so the pilot could launch himself if anything went wrong.
+
+This was not all. As conceived, the X-15 would be suspended from a
+pylon on the right wing, between the B-52 fuselage and the first, or
+inboard, engine pod. The “flutter and noise engineers,” especially
+a lady engineer at North American named Rose Lunn, who had a habit
+of being right, challenged this method, pointing out that the noise
+from the B-52 engine pod might seriously damage the X-15. Feltz
+set in motion detailed studies to determine the full extent of the
+vibration effect. The engineers strapped a dummy model of the X-15 on
+a B-52 wing and ran the B-52 engines for ten hours. Concrete ballast
+representing the weight of the X-15 was hung on the B-52 wing and
+dropped to see what effect it would have on the bomber. There was
+much juggling back and forth. In the end we beefed up the X-15 tail.
+The X-15 nose was mounted ahead of the B-52 wing leading edge, so the
+X-15 pilot could eject if necessary.
+
+It was not easy to locate a couple of spare B-52 bombers for this
+mission. Air Force General Curtis LeMay, then boss of the Strategic
+Air Command, needed every airplane he had either for training or
+for the active deterrent force. But at last the Air Force located a
+couple of ancient B-52s, the third and eighth planes built, which
+were not rigged for combat. North American converted them, installing
+the X-15 mating pylon, automatic Lox top-off system, and remote TV
+sets, mounted to give the launch-panel operators in the B-52 a full
+picture of what was going on out on the wing.
+
+Air Force Captains Gahl and Charles Bock were designated mother-plane
+pilots. They perfected a system of horsing the giant airplane into
+the air carrying the X-15 load without flaps. When Gahl was killed
+in another airplane, Captain Jack Allavie, a test pilot at Edwards,
+moved in to take his place. Both Allavie and Bock were superb
+aviators.
+
+After this work was well along, Charlie Feltz said: “You know,
+Scotty, I think we might come out ahead on this mother-plane switch.
+Luckily we can save a loss in the schedule. With the B-52 we can
+launch a little higher and a little faster, and in the long run, this
+will give back some X-15 performance. I think we will also get back
+some of what we lost on the added instrumentation.”
+
+I had to agree. Although the shift caused great technical pain, it
+paid off.
+
+ * * * * *
+
+The new mother-plane launching scheme came at an interesting and
+provocative time in U. S. aviation history and set us to thinking
+in terms of even more exotic X-15 launching vehicles. Far-seeing
+engineers in the industry were beginning to turn their eyes toward
+space. The power of rocket engines had increased enormously. The
+Atlas missile, plus boosters, had a thrust of 450,000 pounds. The U.
+S. had already announced a plan to put a basketball-size satellite
+into orbit to gather data for the International Geophysical Year.
+Russian scientific publications hinted that the USSR might orbit an
+object even sooner. Engineers were beginning to talk seriously among
+themselves about putting a combat vehicle into orbit. Primarily as
+an aero-medical experiment, Air Force General Don Flickinger asked
+industry to look into an orbiting capsule which could support a
+chimpanzee and, perhaps later, a man. This project was labeled MIS,
+for Man In Space. The North American Advanced Design Section was busy
+drawing up plans.
+
+Good-natured but intense debates on the proper course to follow in
+space exploration broke out among the engineers. Some engineers and
+scientists claimed space travel was nonsense. Others, especially
+the Army’s Redstone group in Huntsville, Alabama, urged that it was
+necessary to retain our freedom. The majority of us knew that man
+would go into space simply because space was there. At that time few
+could anticipate the psychological impact of space triumphs on the
+world.
+
+Charlie Feltz, Stormy, and I spent many hours after work at the
+plant discussing the coming space age. I think we agreed on all
+aspects of space exploration (Stormy eager, Charlie thoughtful, and
+me ready). The first step, we surmised, would be the launching of
+unmanned, highly-instrumented space devices to gather information on
+gravitational forces, radiation patterns, meteorites, communications,
+and unusual environmental conditions expected in space.
+
+Following these probes, man himself would go there, no matter what
+the cost in terms of money and scientific effort.
+
+“If the Russians get to the moon first,” Feltz said, “it will be a
+heck of a note. And who knows what’s up there? The moon might be
+solid gold. Think what that could do to the economy. Think what
+you might find out if you set up an astronomy lab in that clear
+atmosphere. We might change our entire concept of the origin and
+nature of the universe.”
+
+“I think the military phase of it will be important,” Stormy said.
+“You don’t know what you will run into until you go there. We might
+turn up some whole new concept which will make our present defenses
+inadequate.”
+
+Talking in these heady realms naturally led into a discussion of the
+hardware that would take man into space.
+
+“The moon thing is a long way off,” Stormy said. “You’d have to build
+a space station to orbit the earth first, and take off from there.
+Within the state of the art of power-plants, the thrust to offset
+gravity of the earth alone would make a non-stop earth-moon trip
+unfeasible.”
+
+“You’ll need some kind of space ship to commute back and forth
+between the orbiting space station and the earth,” I said. “Something
+you can control in space, shift orbits with, so you can pull
+alongside the space station and all that. And you’ll have to be
+able to re-enter the earth’s atmosphere and land, like an airplane.
+Personally, I can’t see this coming out of orbit with a parachute on
+a capsule. I’d want to fly in and out. Makes a lot more sense to me.”
+
+“I feel pretty certain the first experimental steps will be something
+like Flickinger’s MIS project. A brief orbit flight in a capsule,
+then a slowing down, and re-entry automatic, with a parachute.”
+
+“Yeah,” I said. “But you’re liable to land in the ocean, or any
+place. Pretty undignified way to come down, I’d say.”
+
+“True, Scotty,” Stormy said. “But, as I said, that is the logical
+starting point to see how man reacts to the new environment. Later
+on, we would get into your commuter space ships. Something like an
+X-15, perhaps. As a matter of fact, why not the X-15? We’ve got
+the capability to go into space, the systems, rocket engine, and
+full-pressure suit. What would happen if you put the X-15 on top of a
+big rocket booster like the Atlas? Or, say, the Navaho?”
+
+The Navaho was an intercontinental-range, air-breathing missile,
+which had been conceived by the Missile Division of North American.
+The Navaho was mounted piggy-back on an enormous three-engine
+rocket booster which developed about 415,000 pounds of thrust. The
+building of this booster had pioneered North American’s way into
+the rocket-engine field and ultimately provided the U. S. with
+a reliable rocket engine for Redstone, Jupiter, Thor, and Atlas.
+It had also led to the development of a very reliable automatic
+inertial-guidance system, which was later used by the Nautilus on
+the submarine’s first submerged voyage under the North Pole. But
+the Navaho vehicle itself had been overtaken by technology--by the
+superior ballistic missiles.
+
+“You’d have some terrific aerodynamic heating problems,” Feltz
+replied. “The X-15 as it now stands doesn’t have the capability of
+anything much above Mach 7. You’re talking now about Mach 20 and
+above.”
+
+“But the basic vehicle is there,” Stormy insisted. “The power-plant,
+the shape, the internal systems, the communications, the instruments,
+the landing gear, pressure suit, escape system, and all the rest.
+What you’re talking about is simply a beefing-up of the skin to
+resist heat, aren’t you?”
+
+“Yeah, heck, I guess I am,” Feltz said. But I could tell what he was
+thinking. The skin would add weight, the higher heating loads would
+call for greater air conditioning for the instruments, and back we
+would be again in the maddening battle of weight versus thrust.
+
+“It would take a new airplane,” Feltz said. “The shape would be the
+same, but a new airplane, I think. Of course, we’re organized to
+handle it. We have the only rocket-airplane team in the country in
+being. We know this thing backwards and forwards. And like you say,
+it’s just a question of beefing it up. Yes. We could do it. I don’t
+think it would take long.”
+
+“How long?” Stormy pressed.
+
+“Two years,” Feltz said. “Two years from right now.”
+
+Stormy added figures in his head, then he scribbled on a piece of
+paper. Soon we were all scribbling on pieces of paper--envelopes, I
+think they were.
+
+Stormy said: “With a Navaho booster system and X-15 second stage, we
+could reach Mach 12 two years from now, or 1959, say early 1960 at
+latest, right?”
+
+“Right.” We confirmed his figures. My mind was spinning, trying to
+visualize an X-15 perched atop a Navaho booster on a launching pad,
+then blazing skyward at twelve times the speed of sound. At that
+speed it could zoom deep into space and cover a distance over the
+earth of perhaps nine thousand miles. Such a vehicle would have the
+capability of flying from a U. S. base to Russia and beyond. It could
+be a combat weapon, I thought.
+
+“It’d take a lot more to get into orbit,” Feltz said. “A new
+booster concept and a new X-15 altogether. Same shape but different
+materials. You’ve got a Mach 25 re-entry problem to contend with.”
+
+“We can get to that later,” Stormy said. “But if we’ve got to have a
+commuting space ship, why not get started on the initial step-by-step
+program now? We’ve got the team to do it. We’ve got half a dozen
+Navaho boosters lying around gathering dust in the attic.”
+
+“Stormy, you can’t go proposing that to Washington. Hell, we haven’t
+even flown this airplane yet. Mel Apt flew Mach 3 and died doing it.
+Now you’re talking about leaping to Mach 12. They’d just laugh at us.”
+
+“I won’t make a formal proposal, Charlie,” Stormy said. “I’ll just
+feel them out about it. If we can get the speed, we ought to be after
+it. The concept has military potential, a weapons system, something
+like the German boost-glide bomber idea of World War II. It’s a
+logical course to my mind. I’ll maybe put the thing through as a
+change-order.”
+
+“A change-order?” Feltz laughed. “A $90 million change-order?”
+
+Stormy talked it up in Washington informally, but the customers,
+while intrigued by the idea, were reluctant to move into an advanced
+X-15 project before the ship had proven itself in flight. Stormy
+argued that the flight experience itself was a logical stepping-stone
+toward an advanced X-15. While the X-15 was being debugged in flight
+test, the more advanced model could be coming along. By the time the
+latter was ready to fly, the original X-15 and its machinery would be
+a proven, reliable concept, as safe as an ordinary jet fighter plane.
+But in those days before Sputnik, money was scarce and most space, or
+semi-space, projects, taboo by order of Secretary of Defense Charles
+E. Wilson.
+
+
+
+
+CHAPTER 30 ►
+
+ _Muting the Cassandras_
+
+
+A CENTRIFUGE is a large word to describe what is essentially a simple
+piece of machinery. A centrifuge is a seat, cockpit, capsule, or
+gondola mounted on an arm which whirls around at high speed. I have
+often seen a low-grade centrifuge in an amusement park, mounted in a
+vertical position. The people whip around in circles right-side up
+and upside down, amid screams of delight and fear.
+
+The armed forces have used horizontally mounted centrifuges for many
+years to impose G loads on pilots for experimental purposes. When
+the gondola whirls in its circle like a bucket of water on the end
+of a rope, the pilot in the gondola goes through a series of tests
+under severe G. Lights flick on which he is supposed to turn off,
+and so on. In this way, the theory goes, the aero-medical officers
+can determine man’s reactions and limitations under severe flight
+conditions.
+
+The largest and newest centrifuge in the United States, built by
+the Navy, is located in Johnsville, Pennsylvania. The gondola is
+mounted on a fifty-foot arm. The powerful engine which rotates the
+arm from the centrifuge hub can accelerate from zero speed to 250
+feet a second in a few seconds. The gondola can be tilted to almost
+any angle (for additional tests), and by using cams in the position
+control of the gondola, the gondola can be rocked gently or severely,
+slowly or rapidly, simulating the motions of an aircraft in distress,
+while pulling very high G.
+
+From the beginning, we had been anxious to test the X-15 sidearm
+control system under strong G loads. The sidearm control had much
+merit (there is no real point in locating the airplane control stick
+in the center of the cockpit; it was simply put there in the early
+days of aviation and nobody bothered to change it), but I was eager
+to see what happened, if anything, when it was operated by wrist
+motion under the severe conditions for which it was designed. Thus I
+proposed that we put a wrist control in the Johnsville centrifuge and
+run some tests. It was a decision I lived to regret.
+
+The Navy’s Aero-Medical Acceleration Laboratory at Johnsville, having
+received little attention since inception, was overwhelmed by our
+show of interest in their machine. They seized on the X-15 tests
+like eager young starlets, and the first thing we knew we had a real
+and, at times, disconcerting, show on our hands. After the engineers
+rigged a complete X-15 cockpit in the gondola, I spent many hours
+whirling around in that crazy machine. Later, the Navy engineers
+ingeniously hooked the centrifuge to an electronic computer, which
+fed back instrument readings to the panel in the gondola, somewhat
+like our North American cockpit simulator. It then became possible to
+“fly” the ship on various missions, not only with actual instrument
+presentation, but also with theoretical G loads imposed on the pilot,
+a fantastically sophisticated tool.
+
+Most of these tests centered on that critical phase of the X-15
+flight profile when the ship re-entered the “thick” earth atmosphere
+to which we added several emergencies. This was the point, in theory,
+when the G loads would be most severe and the temperature the highest
+and flying the most difficult. There were many ways to approach
+this atmospheric layer in the X-15. The pilot could enter lightly
+and slowly, decelerating in the process, or he could dive straight
+into it like a swimmer plunging directly into a pool. We favored a
+“shallow” penetration, a gradual straightforward descent, such as
+a commercial airplane might make on approaching an airport for a
+landing.
+
+It was important that the X-15 pilot be “lined up” almost perfectly
+for this approach on the atmosphere. If he came in skidding
+sideways--yawing--or nose-high--pitching--the re-entry could be
+sloppy and subject the X-15 to unnecessary strain and motion; it
+would cause high temperatures on areas of the ship not specifically
+designed to withstand them. The X-15 nose contains a special “ball”
+senser to relay yaw and pitch attitude to the instrument panel. If
+the pilot is not lined up properly, he can re-align the ship with the
+peroxide-rocket-ballistic controls on the wing and nose.
+
+At Johnsville we conducted hundreds of re-entry tests, in most of
+which the X-15 was made to approach the atmosphere under the worst
+possible conditions--an extreme emergency. We brought her in cocked
+sideways, with severe yaw and pitch angles--almost every way except
+upside down and backward, and with failed damping devices. Obviously
+under such circumstances, when the G loads approached the maximum the
+airplane could stand, we had some interesting results in the gondola
+cockpit. Pulling as high as nine or ten G’s, I was squashed into one
+corner of the seat. I blacked out and my head fell to one side. My
+eyes rolled up and the skin on my face was grotesquely distorted,
+but the sidearm control worked beyond our best hopes, even in these
+extreme conditions. All of these test runs were recorded by a remote
+movie camera mounted in the gondola.
+
+In their eagerness to call attention to their role in the development
+of the X-15, the authorities at Johnsville took this movie film,
+selected the worst possible frames, and patched them together as a
+full-length documentary of their operation. They claimed to have
+greatly influenced the X-15; yet we had changed nothing as a result
+of the tests. The next thing we knew, the Johnsville people were
+showing this film at various aero-medical symposiums and conventions.
+Then the word began to spread that the X-15 pilot couldn’t stand the
+re-entry loads. The fact that almost all the movie scenes represented
+the X-15 in emergency, just short of the point of total destruction,
+was not emphasized.
+
+This kind of thing is inevitable, I guess. Specialists in their own
+fields, not looking at the overall picture have cropped up all during
+history. These people claimed that the steamship, the airplane, the
+automobile, the atomic submarine, and who knows what else--perhaps
+even the wheel--would fail. They are proved wrong time after time,
+yet they reappear to frustrate dedicated people who are trying to
+get things done. You may think the engine in your automobile is a
+fine piece of machinery capable of operating for months without
+repair. Yet I’ll bet I can find a specialist who has run extreme
+tests on pistons who can convince you that your engine, under certain
+circumstances, would disintegrate. So what?
+
+Inevitably, as the X-15 neared completion, the effects of this
+movie and other dire predictions, as well, began to take hold. The
+specialists came after us in full fury. To offset this nonsense
+I hit the road with charts, movies, and slides which laid out an
+honest picture of the X-15 and its flight mission. In the months that
+followed I attended no less than a hundred meetings, conventions,
+symposiums, and other gatherings of so-called “experts” in various
+fields. This “public relations” activity, an attempt at muting the
+Cassandras, became a vital factor in the life of the X-15, not to
+mention my own. Without it, it is possible that the ship might have
+been talked out of existence.
+
+ * * * * *
+
+One such problem that developed in the very early days was the
+matter of radiation. It is well known that the layer of atmosphere
+surrounding the earth provides a kind of umbrella for earthbound folk
+against various energy emissions from the sun and space. Long ago a
+group of experts began to predict that when man went higher, beyond
+the protection of this umbrella, and came into direct contact with
+these strong emissions, disastrous things would happen. The tiny,
+invisible particles would bombard his body, causing his hair to fall
+out, and ultimately bringing premature death from radiation disease.
+The predicted altitudes at which these dire consequences would limit
+flying moved higher as we flew airplanes and balloons higher and
+higher. The meteorite scare followed the same pattern. Ultraviolet
+and X rays caused some concern.
+
+ * * * * *
+
+“Scotty,” Charlie Feltz said to me one day, “somebody here wants us
+to tint the windshield of the X-15. You know anything about this?”
+
+“Well, they tinted the X-2 windshield,” I said. “Tinting might keep
+some of the glare out and maybe protect the eyeballs a little against
+sunburn, but I don’t think it will make much difference as far as any
+other radiation is concerned. I’ll look into it.”
+
+We conducted experiments to tint the X-15 windshield. But they were
+complicated by the fact that the X-15 windshield consists of two
+layers of glass with a space between for defogging nitrogen gas. The
+best we could get out of it was a piece of smeared glass full of
+reflection and distortion. To be honest, we really didn’t put much
+effort into the scheme.
+
+By then, considerable high-altitude flight experience had been
+accumulated by various people. Air Force Major David Simons had
+soared to 100,000 feet in a balloon, and several Navy and civilian
+types nearly as high, after first sending aloft a dozen-odd mice.
+Dave didn’t seem to be suffering unduly, and his reports and data
+did much to debunk the radiation myth. By that time, too, the U.
+S. had logged considerable experience with the U-2 “high-altitude
+research airplane,” designed to overfly the Soviet Union on
+photo-reconnaissance intelligence missions. None of the U-2 pilots
+were losing their hair--at least not from radiation. Much later, of
+course, one of our satellites discovered the Van Allen radiation belt
+deep in space. But this layer of cosmic particles is too far out for
+the X-15 or earth-orbiting capsules. Deep-space travelers en route
+to the moon may have to thread through the belt, like a submarine
+through a minefield, but it is a long-range problem, and definitely
+not an insoluble one.
+
+“Charlie,” I reported, “this radiation is a lot of bunk. To hell with
+trying to tint the windshield.”
+
+“If you say so, Scotty,” Feltz replied.
+
+“Just make damned sure those windshields don’t ice up,” I joked.
+“This airplane is not designed to be flown blind.”
+
+ * * * * *
+
+Zero G, or weightlessness, which a pilot will experience in flights
+beyond the appreciable pull of the earth’s gravity, first came up
+with force in early 1950 during a meeting of “space” experts. Some
+serious scientific questions were raised. For example, would the
+fluid in the inner ears “float” and cause critical disorientation?
+How could a man drink water? With no pull of gravity to take it to
+his stomach, might he not drown? And so on.
+
+Weightlessness is the one condition we cannot simulate on a machine,
+such as the centrifuge, located on the face of the earth. The nearest
+we can get at present is to fly an airplane on a parabolic curve,
+during which time the airplane, for a variety of complicated reasons,
+very briefly becomes apparently disengaged from the pull of gravity.
+Chuck Yeager was one of the first pilots in the country to try this
+experiment. As early as 1950 he flew weightless trajectories in a
+jet airplane for periods of about thirty seconds. He reported slight
+disorientation and slight nausea.
+
+I was curious about this because I was then preparing for the
+Skyrocket flights which would take me on a parabolic flight-path
+at, or close to, weightlessness for a brief period. I took an NACA
+F-84 jet and flew about fifty weightless trajectories. I suspended
+a pencil on a string in the cockpit to check that I was really
+weightless. When the pencil floated and the string slackened, I knew
+I had achieved the desired result.
+
+Not once during these fifty flights did I experience any undesirable
+effects or dangerous disorientation. As a matter of fact, I rather
+enjoyed the sensation. It was fun, like riding a roller-coaster.
+Occasionally during the weightless portion of the flight, my
+weightless arm would overreach. But soon I adjusted to this and
+piloted the airplane without mishap or discomfort. Sometimes I flew
+the trajectory upside down. On three occasions during the recovery
+from this maneuver, when the airplane was rotating about three axes,
+and building from zero to a high G level, I felt weird, as though I
+were going into a loop, quite similar to the common experience of an
+accelerating or decelerating centrifuge. But this was due, I knew,
+solely to the recovery maneuver, not the zero G condition. I wrote a
+report down-playing the effect of zero G.
+
+Unfortunately, my notes from these flights actually served for
+years as a rallying point for the zero G doom-criers. Some experts
+seized on the three inverted-recovery disorientations and trumpeted
+them throughout aero-medical circles. I tried my best to curb these
+charges, but the truth never caught up. It still hadn’t caught up
+when I joined the X-15 project. It was well known that the X-15 pilot
+would experience about three to five minutes of weightlessness on the
+altitude trajectories. These experts predicted alarming consequences.
+
+To me this was nonsense, if not downright scientific dishonesty.
+And it really irritated me to realize my own flight notes were
+being used to foster this untruth. I believe people are affected
+by weightlessness somewhat as they are by motion sickness. Some
+people become air-sick and disoriented; others don’t. Any pilot,
+especially a test pilot, will be able to adjust to short durations of
+weightlessness in the X-15 or any other sub-orbital space craft.
+
+A prolonged period of weightless flight may be another story
+altogether. I don’t know what will happen to spacemen orbiting the
+earth for a matter of days. New ways of “forced” eating will have
+to be developed. In fact, the Air Force has already come up with a
+toothpaste-tube method of injecting water into a weightless body, and
+other innovations. Just what effect prolonged weightlessness will
+have on the heart, urinal tract, and other vital organs of the body
+where moving fluids are located, is a mystery. Thus I quite agreed
+with Air Force General Don Flickinger’s MIS aero-medical proposal
+to orbit man for progressively greater durations. But I strenuously
+fought off any suggestion that the X-15 might be compromised because
+of short periods of weightlessness. And I stubbornly resisted the
+flight surgeons who proposed “instrumentating” the X-15 pilot’s body,
+so that they could listen in on his heart, respiratory system, and
+so on. The line must be drawn somewhere.
+
+ * * * * *
+
+“Here we go again,” Charlie Feltz moaned one day.
+
+“What is it now?” I asked.
+
+“The low L over D on landing again,” Feltz said. “They’re worried
+about it.”
+
+The L over D, or sink rate, of the X-15, I have related, was a
+controversial matter from the outset. We all knew the ship would come
+in for its landing hot, and falling like a brick. The landing would
+be tricky, with little margin for error. But we had concluded long
+before that it was well within the capability of a qualified pilot.
+It was astonishing to have this matter come up again so late in the
+game.
+
+The L over D ratio of the X-15 was about two or three to one. In
+other words, for every two or three feet it moved ahead in the glide,
+it would drop one foot. During my days at NACA, Edwards, I had made
+many low L over D landings. For example, we had made tests in the
+X-4 with speed brakes open, calculating the L over D to be less than
+three to one. The L over D of the horrible XF-92-A on a dead-stick
+landing was about three to one. The L over D of the Skyrocket, which
+I flew almost routinely, was about five or six to one.
+
+To lay this matter at rest once and for all, I organized a special
+flight-test program to simulate the X-15 sink rate. I found that if
+I landed an F-100 with engine idling, dive brakes and gear extended,
+and a drogue chute deployed, I could come close to approximating the
+X-15 landing glide-path. At Edwards I made hundreds of such landings.
+Later I came closer to the real thing by shifting to an F-104. With
+the engine idling, the dive brakes extended, and the gear out with
+landing flaps down, the F-104 and an L over D of less than three to
+one. I demonstrated this simulated X-15 landing scores of times at
+Edwards. Even so, some Cassandras remained, bleating in the wings.
+
+These demonstrations to prove that any experienced pilot could land
+the X-15 were important for a number of reasons, the biggest of which
+we were not then free to discuss. The safe landing was a vital
+plank in our case for the _advanced_ X-15. By the fall of 1957 we
+had progressed far with this dream--to the point of making drawings
+and adding up figures. As a matter of fact, our preliminary design
+section had conceived an advanced X-15 which, with powerful boosters,
+such as a cluster of Navahos, could be put into _orbit_. We called
+this dream craft the X-15B, but we were under orders not to discuss
+it beyond the confines of our secret workshop. Stormy was afraid that
+if we did the men in white coats would come after us.
+
+
+
+
+CHAPTER 31 ►
+
+ _Working in a Fish Bowl_
+
+
+We, among others, had anticipated Sputnik but utterly failed to
+predict its profound impact on the minds of all men. When it came,
+on October 4, 1957, we were astonished by the reaction. As the sense
+of public shame spread throughout the country, we--engineers on the
+most advanced “space” project in the United States--were overwhelmed
+by special misgivings. Maybe we should have pushed the X-15B, the
+orbiting vehicle, harder. We debated. Had we been right to lie low,
+virtually keeping it to ourselves? Perhaps a concerted, intelligent
+presentation in Washington would have sold our case, even in those
+days before Sputnik when space was taboo.
+
+This painful speculation did not go on for long. No sooner did we
+feel the impact of Sputnik than a second rocket crashed into our
+camp. This one had North American insignia. It was Stormy, urging us
+to put together a completely detailed proposal for an orbiting X-15B
+_right now_. Fortunately, the preliminary design section had worked
+out most of the details. Ours was mainly a job of assembling various
+loose pieces of paper and bringing the report up to date. Within a
+few days it was ready and Stormy hurried off to Washington.
+
+The X-15B concept was awe-inspiring even to those of us who had
+thought about it for many months. In the plan Stormy took to
+Washington it was a three-stage monster, tall as a seven-story
+building. The basic booster system, or first two stages, developed
+the staggering total of 1.3 million pounds of thrust. The first
+stage consisted of two giant Navahos, bound together and calculated
+to generate about 830,000 total pounds thrust. The second stage was
+a single Navaho, capable of 415,000 pounds thrust. The third and
+final stage, perched atop the cluster of boosters like some massive
+arrowhead, was the X-15B itself, with a slightly more powerful
+engine than the RMI XLR-99. As a matter of fact, the engine we had
+in mind for the X-15B, a proven, reliable chamber, was the North
+American-built Atlas “sustainer” engine, which develops about 75,000
+pounds thrust.
+
+The X-15B was a far more sophisticated ship than the craft we were
+then building. It was larger, capable of carrying not one pilot,
+but two. The skin was tougher, to withstand the higher post-orbit
+re-entry heating. The fuel tanks were rearranged and larger, to
+gain added third-stage thrust. But as for the basic shape and the
+systems--controls, both conventional and ballistic, pressure suit,
+instruments, and so on--the two airplanes were fundamentally the
+same. Years of development on the X-15 would save much time in
+perfecting the X-15B.
+
+According to our proposed flight plan, the X-15B would be fired from
+a launching pad in Cape Canaveral, Florida. The huge double-Navaho
+first stage would lift the massive structure toward the sky. After
+about eighty seconds the first stage would fall away. Then the second
+stage would light off and boost the shrinking structure higher and
+faster. When the second stage burned out, it too would fall away,
+leaving the X-15B alone in the sky. At that point the X-15B pilot
+would light off the rocket engine and the 30,000-pound ship would
+soar into orbit, 75 miles above the earth and at a speed of 18,000
+miles an hour.
+
+After three orbits around the earth, the X-15B pilot would prepare
+to return. First he would fire “retro-rockets” to slow down the
+craft and bring it back out of orbit. When the ship neared the
+thick atmosphere the pilot or pilots would align the ship with the
+ballistic controls and then make a similar approach to that planned
+for the X-15, a shallow, gradual descent into the atmosphere. When
+the ship had fully re-entered and slowed to more or less conventional
+X-15 speed, the pilot would set up for a conventional landing on one
+of the dry lakes near Edwards. This was, in essence, my “commuter”
+space ship.
+
+We were proud of that proposal and damned happy that we were in
+shape, that we had created a team and the think-how to carry it
+through to completion within a matter of four years, the terminal
+date we set in the proposal. But as we were soon to learn, other
+airframe companies had not been idle. When the space taboo was forced
+aside by Sputnik, hundreds of engineers descended on Washington with
+literally hundreds of proposals for every conceivable type of space
+craft. Stormy returned to the plant in a dark mood.
+
+“When I left Washington,” he said, “there were exactly 421 new
+proposals before the Pentagon and NACA. There’s talk of creating
+a new ‘space agency,’ and I’m afraid some time is going to elapse
+before they get organized and sort through all those proposals.
+Furthermore, the President has stated publicly that he is opposed to
+having the Air Force and the Navy engage in big space projects unless
+they have some clear military application. We’ll have to take that
+heavy instrumentation load out of the X-15B proposal and substitute
+a weapons system, a bomb, reconnaissance cameras, or something like
+that.”
+
+“Well, that’s certainly no problem,” Feltz said.
+
+“The other thing is, I encountered a lot of resistance to an advanced
+X-15. They still want to see how a plain X-15 will do on landing and
+so on, before they move to any more advanced projects. Also, they
+don’t like the Navaho booster system and I’ll have to admit they
+have a point. The Navaho is proven, but the staging _is_ complicated
+and big. I have a feeling, as far as orbiting man is concerned, they
+will probably want to start with something smaller and a little less
+complex. My guess is that whoever is given responsibility for putting
+man in space will probably begin with Don Flickinger’s MIS program.”
+
+Stormy, as usual, had shrewdly sized up the Washington scene. A few
+months after his informal report to us, Congress did, in fact, create
+a new space agency--the National Aeronautics and Space Administration
+(NASA). NACA formed the nucleus for the new agency. Dr. T. Keith
+Glennan moved in as NASA Administrator, and NACA’s former boss, Dr.
+Hugh L. Dryden, remained as Glennan’s deputy. The President gave
+NASA responsibility for almost all non-military space projects. And
+as Stormy had predicted, NASA selected Flickinger’s MIS program as a
+start for putting man in space. MIS became Project Mercury. (Late in
+1959 Walt Williams moved from Edwards to NASA’s Langley Laboratory to
+help push the Mercury program.) NASA awarded the contract to build
+the orbiting, manned Mercury capsule to McDonnell Aircraft Company in
+St. Louis, Missouri. Then NASA selected seven members of the armed
+forces, all of them test pilots, to serve as our first spacemen.
+NASA labeled these seven men Mercury Astronauts. Although both the
+X-15 and Project Mercury came under NASA jurisdiction, they were
+separate, distinct programs. The X-15 has frequently been confused
+with Project Mercury, and I have often been mistaken for one of the
+seven Astronauts, but there is no connection between the two projects
+other than a friendly rivalry and a complete exchange of information.
+
+ * * * * *
+
+Sputnik hit us hard in more ways than one. The press, inquisitive by
+nature and eagerly seeking an answer to Soviet space triumphs, turned
+klieg lights on the X-15 project. Reporters, radio and television
+commentators, and a variety of other media descended on us in droves,
+seriously complicating our already difficult task. These endless news
+reports, stories, and feature articles generally exaggerated the
+X-15 mission. The X-15 was confused with the X-15B proposal, which
+had been published in a trade journal, or else it was deliberately
+misrepresented. Quite soon our research airplane had the title of
+“the U. S.’s first space ship.”
+
+We were astonished and baffled by this activity, and especially
+concerned when the government removed the secrecy from all but the
+most obscure technical details of the X-15. For the first time in
+history an aircraft company found itself building a research airplane
+completely in the open. All details, failures as well as successes,
+were available almost day by day to the nation. It was like working
+in a fish bowl. It made us uncomfortable, not to say edgy. It is
+disconcerting to build an airplane as revolutionary as the X-15 with
+a reporter leaning over one’s shoulder.
+
+Believe me, under such circumstances the multifarious demands of the
+modern communications media can be overwhelming. I should know. As
+the X-15’s first test pilot, I was naturally singled out for special
+press treatment. Invitations to interviews, to make speeches, to
+appear on television shows, came by the hundreds. There were so many
+that I could have stopped all work on the X-15 itself then and there
+and devoted full-time to fulfilling these requests. In some special
+cases--those I thought would particularly benefit the project--I
+_did_ make time for them. But although I rejected about ninety per
+cent of these invitations and ducked the press whenever possible, I
+was soon glamorously and erroneously tagged “Our First Man in Outer
+Space.”
+
+It is not easy to deal with the press. It is a time-consuming and
+delicate operation. If you grant one man an interview and refuse
+another, the latter becomes angry. In the press, as in the aircraft
+industry and elsewhere, there are many good men but there are also
+many small-minded and bigoted prima donnas. For months upon months
+I walked this tightrope, desperately hoping that I would not offend
+someone who would take out his anger on the X-15 project itself, or
+on Charlie Feltz or Stormy. I tried, actually, to steer the reporters
+to Charlie and Stormy, the two men who deserve the real credit for
+building the X-15. But the press was not too interested. They kept
+returning to me, the pilot, kept on giving me undue credit. This
+constant publicity, unsought but unavoidable, considerably strained
+my day-to-day working relationship with the fine X-15 project team at
+North American and with our customers, the Air Force, the Navy, and
+NASA.
+
+To all of the press there was one line I refused to cross: the
+threshold of my home. Each newsman, naturally, wanted to interview
+Alice and our tribe of children, five of them by that time. Since
+my Mach 2 flight in the Skyrocket, I had conscientiously shielded
+my family from the press. There were many reasons for this. First
+and foremost, this attention embarrassed Alice and made the children
+uncomfortable. I was willing to give my all for the X-15 and nation,
+but I saw no compelling reason to involve the members of my family
+against their wishes. Another reason was my uncertainty about what
+effect the publicity might have on the children. There was always the
+chance that, seeing their pictures in a newspaper or magazine, their
+young heads might be turned early in life. I wanted to avoid this at
+all costs. My adamant policy in this regard made many of the newsmen,
+especially the photographers, furious. Some of these men suspected
+that I had some mysterious ulterior motive. Perish the thought!
+
+Behind the scenes, ironically, my role in the flight test of the
+X-15 was being cast in almost inverse ratio to my press clippings.
+From the outset NACA or, as we now call it, NASA, had deliberately
+seized a firm technical grip on the X-15 flight-test program. Unlike
+most previous rocket-research airplanes, the X-15 would not go first
+to the Air Force for shake-down flights and then later to NASA.
+After contractor demonstration flights the ship would go direct from
+contractor to NASA. The complete flight-test program would be laid
+out by NASA. The Air Force, Navy, and NASA would contribute one pilot
+plus a “back-up” pilot for the airplane. But these men would fly
+under strict NASA supervision.
+
+As contractor test pilot I would fly the airplane first. We would
+demonstrate many points, such as engine reliability, flight
+stability under negative G and positive G, Lox top-off and launch
+capability, and safe landings. These flights would be short-legged,
+conducted over or near the Edwards base. I had been specifically
+told that I would have speed and altitude restrictions which would
+keep me well within established records. NASA did not want a long
+delay in contractor demonstrations just seeking new records. We
+protested this at first, not because North American was interested
+in establishing records, but because some of the restrictions
+made the demonstration points more difficult and dangerous. For
+example, at high speed and altitude we could demonstrate high-speed
+controllability without fear of disaster, but at lower speed and
+altitude it was far more ticklish and less fruitful. Nevertheless,
+NASA had the final say-so, and very early in the game they set North
+American flight limits on the airplane of Mach 2.0 and 100,000 feet.
+
+Iven Kincheloe, who had earned the name “Mr. Space” in four flights
+of the X-2 before Apt crashed, was selected as the Air Force X-15
+pilot. A handsome, eager young blond, with wavy hair and deep blue
+eyes, he was the press agent’s dream of a test pilot. But Kinch, as
+we called him, was much more than that. He was an engineering test
+pilot, an educated man, dedicated, fearless, and able. During the
+building of the X-15, he was constantly in the plant going over the
+plans and discussing the technical details of the ship. Kinch was
+obviously a winner and we were glad to have him on the X-15 team. His
+back-up on the Air Force team was Major Robert White, a graduate of
+the Edwards test-pilot school and a very able pilot. White had never
+flown a rocket plane--by the time he came along they were all either
+retired or crashed--but he had plenty of experience with all of the
+Air Force’s supersonic fighters and bombers.
+
+NASA selected its most senior pilot, Joe Walker, to fly the X-15. I
+knew Walker well. He had worked with me for years at NACA, Edwards.
+He learned to fly rocket planes and the other weird vehicles in
+NACA’s stable, including the X-4, X-5, and the underpowered X-3. In
+his tour of duty at NACA, Edwards, Walker had accumulated thirty-one
+rocket-powered flights in the X-1-A (in which he narrowly escaped
+death when it exploded in the mother-plane belly), X-1-B, and the
+X-1-E. He was well qualified for the X-15 assignment.
+
+Since the Navy had contributed a small percentage of the X-15
+cost, it, too, was entitled to assign a pilot to the flight-test
+program. Lt. Comdr. Forrest (“Pete”) Petersen, a pilot from the
+Navy’s Patuxent River Test Station, was selected. Petersen had
+helped wring out most of the new Navy carrier-based fighters, such
+as the F11F, F8U, and F4H. A quiet-spoken man who liked to stay out
+of the limelight--and did--Petersen impressed me as a “sleeper,” a
+man of Colonel Marion Carl’s caliber. I was certain that, given the
+opportunity, Petersen would perform very well for the Navy.
+
+ * * * * *
+
+In due time the government considered the X-15B proposal which we
+had submitted in the wake of Sputnik and, as Stormy had predicted,
+rejected it. Convinced that our approach was a sound follow-on, or
+parallel program, with NASA’s Project Mercury, we kept trying to
+sell it as a laboratory or weapons system. We greatly simplified the
+booster system, switching from Navaho to Martin’s newer and more
+powerful Titan ballistic missile. But NASA had its hands full with
+Mercury. The President was not yet convinced that the Air Force could
+mount a weapons system in space. Communications and early-warning
+satellites were obviously valuable, but there was considerable
+controversy about the efficiency and practicability of launching a
+bomb from space. Pending the President’s final decision, the Air
+Force awarded a long-range study contract to Boeing and Martin for an
+orbital, or sub-orbital, vehicle known as DYNA-SOAR.
+
+Meanwhile, our X-15, which was then beginning to take shape in the
+manufacturing division, was regarded with new and increasing respect,
+not only throughout the nation and aircraft industry, but also at
+North American. Our baffling stepchild had suddenly ballooned into
+the nation’s front-running vehicle to put man into space. Our project
+group increased in size from 65 to over 250 people. Every division of
+the plant was eager to help us with our problems. Beaming proudly,
+North American erected with pride a huge neon sign over the main
+production buildings proclaiming:
+
+ HOME OF THE X-15
+
+From the very beginning of the X-15 project we worked with a sense
+of urgency. Our goal was to build a research aircraft to provide
+data for military combat airplanes in time. Now, having seen the
+psychological impact of Sputnik, we realized that a safe flight
+of the X-15 to the fringes of space would not only provide these
+data but also, as a by-product, bring the nation great prestige,
+especially if we got our man there--and back--before the Russians.
+Frankly, considering the size and advanced state of development of
+the Soviet booster rockets, we believed our chances of getting there
+first were slim indeed. Nevertheless, following Sputnik, we of the
+X-15 group felt we were engaged in a kind of private race with the Russian
+scientists, and we ran to win despite the odds.
+
+
+
+
+CHAPTER 32 ►
+
+ _Time for Extraordinary Action_
+
+
+By January of 1958 the X-15 team had moved into high gear. North
+American’s F-100 contract was running out. The production space was
+absorbed by the jigs and dies for our three “space craft.” We had
+subcontracted about two hundred items on the airplane to vendors, but
+most of the ship was manufactured right on the premises.
+
+By then all the engineering drawings--some six thousand altogether,
+and one of them fifty feet long--had been released. The never-ending
+battle to get the most from a part for the least weight was
+reaching a climax. Charlie Feltz had detailed every man on our team
+to keep track of the weight, to make certain the total did not
+climb above our final estimate of 31,000 pounds. Since there were
+more than 10,000 parts on the X-15 weighing a pound or more, our
+weight-watchers were firm and exacting.
+
+Everything about the fabrication of the X-15 was new and challenging
+and therefore, from a technological standpoint, exciting. Every day
+at his command post on the second floor of the engineering building,
+Charlie Feltz faced a hundred new problems, each one of them a minor
+crisis. As I look back on those long days and nights, I wonder how
+he kept his sanity. We hear much about pressure on Madison Avenue
+and in the city rooms of newspapers at press time, but no one can
+persuade me that it is any greater than that we experienced on the
+X-15 project. Night after night I returned to my home late--punchy,
+almost shell-shocked. Month by month I watched Feltz aging, long
+before his time. But no matter how intense the work, or how baffling
+and seemingly insoluble the crisis, he seldom lost his country-boy
+composure. I believe this fact, more than any other, held the team
+together amicably under the great strain and enabled us to achieve
+our goal.
+
+Most of the technical details of the fabrication of the X-15 are,
+sad to say, too involved to relate here. Thus I fear this marvelous
+technological story will never be told in full. But there is one
+understandable detail which I would like to describe. This is our
+pioneering metallurgy with the skin of the X-15, Inconel X. In the
+sense that it was new and untried, it was fairly typical of most of
+the fabulous shopwork on the X-15.
+
+Inconel X, as I have said, is a tough nickel alloy, capable of
+withstanding high temperatures without losing its structural
+integrity. When we launched the X-15 project, Inconel X had been
+proven in a laboratory. But no one had ever built a machine of it.
+There were no handbooks to tell us how to work it. For example, only
+a few people in the nation had ever tried to weld Inconel X. The skin
+of the X-15 had to be welded because traditional rivets were not
+strong and resilient enough to stand the temperature beating without
+leaking. Besides, we figured we could save a thousand pounds of
+weight by eliminating rivets.
+
+Consider half of the X-15 wing as typical of the metallurgy problem
+we licked. From fuselage to wingtip, the wing is only six feet long.
+At its peak cross-section the wing is only eight inches thick. There
+are seventeen spars in the wing. At the root near the fuselage joint
+the spar caps are 3/16 of an inch thick. At the tip they are a mere
+30/1000 thick.
+
+When the X-15 re-entered the heavy atmosphere of the earth, we had
+calculated, the leading edges would be subjected to 1200 degrees
+Fahrenheit. They would glow red from the heat. A few inches aft
+on the wing, however, the temperature would be much lower. Where
+the temperature is higher, the metal must be thicker and heavier to
+carry the load. But at the same time it is foolish to waste weight by
+overloading at points where the temperature is low. Thus we viewed
+the wing skin in hundreds of sections, each capable of withstanding
+a certain maximum temperature, plus a safety margin, and each of
+different thickness to save weight and still carry its share of load.
+
+Inconel X came to us from the manufacturer, International Nickel,
+in sheets 36 inches wide and 140 inches long, rolled and milled to
+normal aircraft specifications. We figured that if the total skin of
+the X-15 were as much as 1/1000 of an inch too thick, it would cost
+us a critical 100 pounds in weight. Thus when we received the sheets,
+we re-milled them in grinders down to incredibly low tolerances.
+Since each different piece of the wing skin varied in design
+thickness from the others, each had to be ground separately to those
+tolerances. (The same was true of the fuselage and tail-skin.) It was
+like making a Stradivarius, if not even more delicate.
+
+Once these pieces were completed and the spars set in massive jigs,
+the technicians then set about welding the many parts into one solid
+piece. Ordinary welding is difficult enough: extreme care must be
+taken to see that no “bubbles” form to weaken the joints. Welding
+Inconel X almost drove our men to distraction. They worked like
+artists, experimenting with new strokes and mixtures until they were
+able to produce a true masterpiece of craftsmanship. Each of the
+thousands of joints was X-rayed to make certain no bubbles had formed.
+
+The pieces, after welding, were heat-treated like fine steel
+knife-blades. Let me explain that further. When you weld two pieces
+of metal together, each is subject to varying temperatures from the
+welding torch. As the torch moves along, the new area heats up while
+the one just passed cools. Thus there are stresses and strains in
+the molecular structure of the metal undetectable to the naked eye.
+By placing the entire structure in an oven after welding and raising
+the temperature to 1900 degrees we were able to cool it uniformly,
+ironing out the strains. After this stress-relieving process each
+piece remained in the oven for twenty-four hours at high temperature
+to heat-treat or “age” the metal. Then the joint and the parent metal
+were stronger than originally. After a fine polishing, the hundreds
+of welds were impossible to locate with the human eye. The wing
+looked like one solid piece of smooth metal.
+
+Our metallurgists didn’t learn this new craft overnight; it took
+years. They started out experimentally by building three mock
+fuselages of the X-15 to serve as ground-test beds for the rocket
+engines. One of these was installed at Edwards, the other two at
+the RMI engine factory in New Jersey. This experience brought our
+welders to the artist level, but when it came to building the three
+airplanes, Feltz was even more demanding. In fact, as I recall,
+about seven different wing-skins were built for the first airplane
+before he gave his approval. In the end, I think, the experience and
+knowledge we gained on this new frontier alone were worth the entire
+cost of the X-15 program. It was one big reason we believed our case
+for the advanced X-15 was sound. All future space projects will
+benefit directly or indirectly from our work with Inconel X.
+
+ * * * * *
+
+The RMI XLR-99 rocket engine was steadily falling behind schedule.
+This fact was no secret. It was well known in the Air Force, NASA,
+and throughout the entire aircraft industry. There were many
+technical locusts plaguing the RMI engineers. One of the biggest was
+the fact that during tests, while burning the X-15’s exotic fuel
+mixture of Lox and ammonia, the rocket-engine chamber had a habit of
+exploding. By February, 1958, the XLR-99 engine was exactly one year
+behind schedule and considerably heavier than originally planned.
+
+I believe that under ordinary circumstances our customer would simply
+have ordered us to wait for, or “sweat out” the engine. But the X-15
+was not being put together under ordinary circumstances. She loomed
+on the horizon as a national symbol of our ability, or lack of it,
+to make good in space. Because of this and other factors, insofar as
+the engine was concerned, it was time for extraordinary action. But
+complex rocket engines don’t grow on trees. What to do?
+
+Charlie Feltz called for help. Stormy, who was then also busy laying
+out plans for the Air Force F-108 fighter and the B-70 bomber among
+other things, took over the X-15 engine crisis at full throttle,
+bringing his authority to bear. He got on the telephone to North
+American’s Rocketdyne Division. Could they run some Lox-ammonia
+tests on a Redstone chamber and see what happened? Rocketdyne
+converted a Redstone chamber and successfully conducted the tests.
+(Rocketdyne engineers even made the Redstone chamber throttleable.)
+We were impressed, because these tests were run off in a matter of
+weeks without interfering with Rocketdyne’s major ballistic-missile
+projects, and at no cost to the government.
+
+After the tests Stormy again asked the Air Force to allow us to
+equip the X-15 with a working engine. Again the proposal was turned
+down, for most of the aforementioned reasons. But the Rocketdyne
+demonstrations had a dramatic impact at RMI. RMI engineers, beaten
+at their own complex game by the great depth of North American
+engineering talent, turned to the XLR-99 engine with new and vigorous
+enthusiasm. But we knew that no matter how hard they worked they
+couldn’t make up much of the lost time. What was the answer?
+
+We debated that question during countless meetings with Stormy and
+Charlie Feltz in the following weeks. Then one day our “dreamer,” Bob
+Carmen, spoke up.
+
+“I’ve been doing a little figuring here. Suppose that instead of
+waiting for the XLR-99 engine we substitute, pending its arrival, two
+X-1-type engines. They could be built in a few months, at most.”
+
+I flew out of my chair.
+
+“Boy,” I said, “if you really want to kill off a project, this is one
+way to do it. Start yielding. Start making inferior substitutions.
+Make the airplane more complex. Sure. That’s what happened to the
+X-3, the X-1-A series and the X-2. If we allow that to happen to the
+X-15, we’re going to wind up with nothing again.”
+
+“Now, hold on a minute, Scotty,” Feltz said. “We’re really up a tree
+here. We can’t use a Rocketdyne engine. We have to wait for the
+XLR-99. Maybe Carmen has got a point here. Pending the arrival of
+the big engine, we could be checking out the other systems in the
+airplane.”
+
+“Damn it, Charlie,” I snapped. “I think we’d be making a big mistake.”
+
+“Let’s take a look at the performance we might get out of the two X-1
+engines,” Feltz said, obviously warming to the idea.
+
+“Can we use the same fuel-tank system?” an engineer asked.
+
+“Yes,” Carmen said. “Nothing about the fuel tanks would have to be
+changed. You just change the engine, substituting the eight small
+chambers for the one large one. I think we could fix it so that when
+it arrives the big engine could be installed with hardly any delay.”
+
+“What’s the fuel for the X-1 engine?”
+
+“Lox and alcohol. We just put the alcohol in the ammonia tanks. No
+sweat.”
+
+“There’s another advantage, too,” someone else put in. “Those
+engines have a lot of time on them. They ought to be reliable. The
+X-1 engines are not throttleable. But each engine has four barrels.
+That’s a total of eight barrels, all of which can be lighted off
+separately. Thus you can attain just about any speed range you want
+within the limits of the airplane. I mean, it would be almost the
+same as being throttleable.”
+
+“I figure the extreme performance with these two engines at about
+Mach 3.5 and 150,000 feet,” one engineer said. Each X-1 engine would
+have a thrust of about 8,000 pounds or a total in both chambers of
+about 16,000 pounds--compared to 57,000 pounds for the XLR-99. The
+two X-1 engines together weighed more than the single XLR-99 engine.
+
+“Mach 3.5 and 150,000 feet,” Feltz repeated. “That would give
+us enough performance to make a good many demonstrations on the
+airplane. In fact, we could make all the structural demonstrations,
+as well as re-entry, ballistic controls, Lox top-off, and so forth.
+Let’s see what the customer says.”
+
+[Illustration: X-15 profile. NAA photo.]
+
+[Illustration: The X-15 inboard profile. NAA photo.]
+
+[Illustration: Owners, builders, and customers. From left: Harrison
+Storms, Maj. Gen. Haugen, Ray Rice, Brig. Gen. Cooper, Walt Williams.
+NAA photo.]
+
+[Illustration: Blood, sweat, and tears: Feltz, Robinson, and Benner.
+NAA photo.]
+
+[Illustration: The X-15 flight mission. NAA photo.]
+
+[Illustration: The paper weighed more than the airplane. NAA photo.]
+
+[Illustration: Ground-testing the X-15 escape system. NAA photo.]
+
+[Illustration: A rocket test sled of the X-15 escape system begins a
+run at Edwards. The canopy ejects ... NAA photo.]
+
+[Illustration: ... and blows away while the seat with dummy emerges.
+NAA photo.]
+
+[Illustration: Powered ejection ends ... NAA photo.]
+
+[Illustration: ... and the chute begins to deploy automatically. NAA
+photo.]
+
+[Illustration: The dummy separates from the seat ... NAA photo.]
+
+[Illustration: ... for a soft landing on the desert. NAA photo.]
+
+[Illustration: Farmer’s son tries out early-model experimental Clark
+pressure suit. NASA photo.]
+
+[Illustration: Bill Bridgeman wearing an early-model Air Force
+partial-pressure suit. Douglas photo.]
+
+[Illustration: A rubber tire preserved for posterity. David Clark’s
+statue of me. Photo by Marvin Richmond.]
+
+[Illustration: The pressure-suit break-through: link-net material.
+NAA photo.]
+
+[Illustration: Fitting the helmet. NAA photo.]
+
+[Illustration: Posing for publicity. NAA photo.]
+
+[Illustration: The centrifuge gondola at Johnsville. NAA photo.]
+
+[Illustration: Clip from the horror film. NAA photo.]
+
+[Illustration: Clip from the horror film. NAA photo.]
+
+[Illustration: Clip from the horror film. NAA photo.]
+
+[Illustration: Building the mock-up. NAA photo.]
+
+[Illustration: A demonstration in the simulator. Kincheloe presses in
+for a close look; behind him is Joe Walker. NAA photo.]
+
+[Illustration: The Inconel X wing skin was ground to watchmaker’s
+tolerance. NAA photo.]
+
+[Illustration: The hosts and guests for the roll-out party, October
+15, 1958. From left: Mr. and Mrs. Dutch Kindelberger, Mrs. Nixon and
+the Vice President, and Lee Atwood. NAA photo.]
+
+[Illustration: Crossfield to Nixon: “My job is not nearly so risky as
+yours, sir.” NAA photo.]
+
+[Illustration: First trip: heading for Edwards by truck. NAA photo.]
+
+[Illustration: The dawn of a new era: arriving at Edwards. NAA photo.]
+
+[Illustration: Sam Richter briefs the flight-test team. NAA photo.]
+
+[Illustration: Q. C. Harvey and I put in our nickel’s worth. NAA
+photo.]
+
+[Illustration: Rehash late the night before the flight. Clockwise:
+the pilot; the B-52 launch-panel operator, Bill Berkowitz; Sam the
+van man, and test director Q. C. Harvey. Cornell Capa-Magnum photo.]
+
+[Illustration: Later with the crew. Photo by John Bryson.]
+
+[Illustration: Still later: the countdown begins at midnight. Photo
+by John Bryson.]
+
+[Illustration: Later yet: flying tomorrow’s flight. Photo by John
+Bryson.]
+
+[Illustration: A few hours later, the carnival at dawn. Photo by John
+Bryson.]
+
+[Illustration: Moving the black bird into place ... NAA photo.]
+
+[Illustration: ... and finally in place. NAA photo.]
+
+[Illustration: Fueling up ... NAA photo.]
+
+[Illustration: ... and loading peroxide ... NAA photo.]
+
+[Illustration: ... and battening down the frozen hatches. NAA photo.]
+
+[Illustration: Inside the van with Capt. Richardson, squatting. NAA
+photo.]
+
+[Illustration: Twenty minutes later, zipping up the outer layer.
+Photo by John Bryson.]
+
+[Illustration: Occasionally we wait a little. Photo by John Bryson.]
+
+[Illustration: Bon voyage. Photo by John Bryson.]
+
+[Illustration: Getting in the office. Photo by John Bryson.]
+
+[Illustration: Pete Barker (right) with the pilot’s helmet. Photo by
+John Bryson.]
+
+[Illustration: Sometimes we wait again ... Photo by John Bryson.]
+
+[Illustration: ... and recheck ... Photo by John Bryson.]
+
+[Illustration: ... and things begin to work. Photo by John Bryson.]
+
+[Illustration: The carnival moves out. Photo by John Bryson.]
+
+[Illustration: Eyes on the stars. Photo by John Bryson.]
+
+[Illustration: On the way to the stars. Photo by John Bryson.]
+
+[Illustration: Straining for altitude again. NAA photo.]
+
+[Illustration: The final countdown. NAA photo.]
+
+[Illustration: Test directors on the ground look over my shoulder.
+NAA photo.]
+
+[Illustration: Stormy sweats it out in Sam’s van. NAA photo.]
+
+[Illustration: Not far from the stars. Courtesy _National Geographic
+Magazine_.]
+
+[Illustration: Three ... Two ... One. Drop! NAA photo.]
+
+[Illustration: Firing up. NAA photo.]
+
+[Illustration: All eight going. NAA photo.]
+
+[Illustration: “Burn-out ... jettison.” NAA photo.]
+
+[Illustration: Gliding home. NAA photo.]
+
+[Illustration: Picking up the chase. Photo by John Bryson.]
+
+[Illustration: Gear down. NAA photo.]
+
+[Illustration: Feeling for the lake. Photo by John Bryson.]
+
+[Illustration: Touchdown. NAA photo.]
+
+[Illustration: Roll-out. NAA photo.]
+
+[Illustration: Stopping. Photo by John Bryson.]
+
+[Illustration: Shutting down. NAA photo.]
+
+[Illustration: Back to the drawing board. UPI photo.]
+
+[Illustration: The price of progress: X-15 No. 3. NAA photo.]
+
+[Illustration: Inevitably, a public accounting. Photo by John Bryson.]
+
+[Illustration: Always another dawn. Photo by John Bryson.]
+
+The substitution of the two smaller X-1-type engines was the obvious
+solution to our dilemma. Actually, the customers had already
+considered exactly the same idea. They approved it at once, and
+Edwards got busy building up a dozen “proven” X-1 engines from old
+parts. We planned to put two each in the first two X-15s, holding
+the third X-15 in the factory for the first XLR-99 engine and other
+improvements which flight test would generate. The remaining X-1
+engines would be used for ground tests in the X-15 engine test beds
+at Edwards and RMI.
+
+A few nights after this decision was firmed up, Stormy, Feltz, and I
+met after work in Charlie’s office at the North American plant. I was
+still grumbling about “interim measures.” I let off steam.
+
+“As far as I’m concerned, we’ve botched the whole deal,” I growled.
+“You watch. We’re never going to get that big engine. The X-15 is
+going to die on the vine. I’ve seen it happen before.”
+
+“You’re wrong there, Scotty,” Feltz said. “We’ll get the big engine
+sometime. Meanwhile, we’ll get a lot of Mach 3 data which will really
+help the F-108 and the B-70. We’ll prove out the X-15 systems and by
+the time the big engine comes the ship itself will be as reliable as
+an F-100.”
+
+We debated this point for a long while. Stormy was also in favor of
+substituting the smaller engines. “I want to get this thing in the
+air as fast as possible,” he said. “I think that as soon as we start
+flying the X-15 and prove our systems and landing and the rest,
+Washington will be impressed and may look with more favor on an
+advanced X-15 or the X-15B.”
+
+That remark was typical of Stormy. He was always looking far down the
+pike. He had cornered the Air Force combat aircraft market with the
+F-108 and the B-70, but he was stung when we lost out on the X-15B.
+He had not given up--and never would.
+
+“Frankly, Scotty,” Charlie Feltz broke in, “this engine thing may be
+a blessing in disguise. I’ll tell you honestly that all along I’ve
+been a little concerned about busting into space all at once with a
+brand-new airplane and a brand-new, untried engine. They did it with
+the X-1, it’s true, and it was a real good show. But this is a new
+dimension we’re getting into. They were just trying to crack Mach 1.
+We’re trying to crack space, with a new pressure suit, re-entry, new
+metal, landing--everything at once. I’ve got a real good buddy who’s
+going to be flying that airplane for the first time, and I’d just as
+soon have him around for a while.”
+
+Put that way, on a personal basis, there was nothing I could say
+in reply. From that point on, I resigned myself to the engine
+substitution, even though, in a sense, it marred my dream to help
+build and then fly the perfect airplane. In fact, after some weeks,
+I came to believe that even from a pilot’s point of view the engine
+substitution was wise. We could learn to crawl before we entered the
+Olympic hundred-yard dash. I was confident that in time and with
+God’s help we would eventually succeed with the big engine. There was
+too much at stake to allow it to fall by the wayside.
+
+
+
+
+CHAPTER 33 ►
+
+ _Circus Day_
+
+
+By the fall of 1958 Edwards Air Force Base had matured to the world’s
+foremost flight-test laboratory. It was busy and businesslike.
+Skilled, schooled Air Force test pilots, flying under rigid
+regulations, took off or landed every ten or fifteen minutes or
+so, creating the impression of a modern, tightly-run commercial
+airport. Brigadier General Stanley Holtoner had been replaced by
+another spit-and-polish Air Force commander, Brigadier General Marcus
+Cooper, and he, in turn, by Brigadier General John Carpenter. A new
+crop of Air Force planes came along to replace the original Century
+series. Now the Air Force men were in the advance stages of wringing
+out Republic’s F-105, Convair’s F-106, North American’s F-107, and
+Convair’s B-58 bomber. Private industry, operating from modern,
+well-furnished office buildings and hangars, was testing the new
+family of commercial jet airplanes, Boeing’s 707, Douglas’s DC-8, and
+Convair’s 880.
+
+NASA’s big 400-man plant was idling, preparing for the arrival
+of the X-15. Here, more than any place else, one could feel the
+tremendous impact of the X-15. It was no longer just another research
+airplane. It was a revolutionary jump, a craft that would make
+all other airplanes at Edwards, or all that had ever seen Edwards,
+seem insignificant by comparison. Paul Bikle, who would replace
+Walt Williams as NASA’s director at Edwards, regarded the coming
+flights of the X-15 as one might look upon the voyages of Columbus or
+Magellan. Throughout the station there was a feeling that history was
+in the making.
+
+Every micro-second of that coming voyage would be recorded in almost
+incredible detail. From the maximum launch point near Salt Lake to
+Edwards, the Air Force and NASA at a cost of over $3 million laid out
+a series of radar and telemetering stations along the X-15’s proposed
+flight-path. These stations would “track” the X-15 and electronically
+quiz the craft’s instrumentation. The X-15 would respond at the
+rate of several thousand data points every second. A battery of
+electronic machines and magnetic tape recorders was installed in a
+room adjoining the NASA tower at Edwards to absorb and correlate
+these data as they were collected. By these new methods one flight of
+the X-15 would provide more data than thirty flights of the old X-1
+or Skyrocket. If something went wrong and the plane failed to return,
+the recorders would follow the plane to the last second of its life.
+The pilot who followed in the next X-15 would then have a broader
+base of flight knowledge. With the X-15 nothing was being left to
+chance. Seat-of-the-pants flight test was buried deep in Edwards’
+past.
+
+But before these spectacular long-range flights North American would
+first demonstrate the airplane. Until this was accomplished, the
+responsibility for the airplane and the flight-test program lay on
+our shoulders. Our own preparations for these first critical flights
+in the strange bird were not inconsiderable.
+
+Like the other aircraft companies North American manned a large and
+well-organized flight-test establishment at Edwards. Our office and
+hangar space by this time was about twice the size of the original
+NACA High Speed Flight Station which Williams had created on the
+desert. The North American installation at Edwards was bossed by
+Ed Cokely, who had been supervising the initial flights of North
+American airplanes at Edwards since before the days of the jets.
+There were about one hundred flight-test engineers and maintenance
+men working under Cokely. During 1958 they were de-bugging and flying
+North American’s F-107 fighter and North American’s prototype T-39,
+a small two-engine commercial type jet transport-trainer, which
+we hoped to sell to the Air Force or the Navy as a trainer, or to
+private enterprise as an efficient company airplane.
+
+Ed Cokely picked 35-year-old Q. C. Harvey to organize and boss our
+X-15 flight-test group at Edwards. Q.C., a short, energetic man with
+graying crew-cut hair, was an experienced hand. He had come to the
+desert ten years earlier with the McDonnell XF-85. Later he worked in
+flight tests on McDonnell’s F2H Banshee and a more advanced version,
+the F3H. Skip Ziegler had recruited Q.C. for the Bell rocket-test
+flight team in 1951. Q.C. had cut his teeth on the Queenie, which
+blew up and nearly killed Joe Cannon, and the X-1-A, in which Yeager
+and Murray made their speed and altitude records. He joined North
+American in 1953 to work in the flight-test group on the last model
+of the F-86, and later the F-100 and the F-107.
+
+Q.C. was a live-wire type who knew better than most the importance of
+the X-15 to North American and to the nation. Early in the fall of
+1958 he began a series of planning meetings with the Air Force and
+NASA to lay out the North American phase of the X-15 flight program.
+From that point on I divided my time between the North American
+plant in Los Angeles and the North American flight-test facility at
+Edwards. I commuted between two desks in my private red, white, and
+blue single-engine Bonanza which the Air Force very kindly permitted
+me to land on the Edwards base. I did not actually consider the
+Bonanza a luxury. Without it I could never have met my ever-growing
+responsibilities in the X-15 project.
+
+ * * * * *
+
+The table in the conference room at the Edwards North American
+flight-test facility was twelve feet long. At each place there was a
+pad and pencil for jotting down notes. Q.C. sat at the head of the
+table. The rest of us, Air Force and NASA flight-test supervisors,
+the designated X-15 pilots, the B-52 mother-plane pilots, the
+“chase” plane pilots, North American’s Sam Richter, who would man a
+communications van out on the lake bed, and Bill Berkowitz, who would
+operate the X-15 launch panel in the B-52, took places around the
+table. Another dozen-odd men, including the pilot of the emergency
+helicopter, a representative of the security division of Edwards, a
+medical officer, and the leading X-15 mechanics, sat in chairs along
+the wall. There was a blackboard against the far wall behind Q.C.’s
+chair, on which someone had chalked a crude map of the Edwards area.
+
+Each of the men in the room was the leader in his particular
+field. Each represented a separate organization with special
+responsibilities during an X-15 flight. Thus for every man in the
+room there were another fifty or one hundred men behind the scenes,
+not counting the radar and optical trackers, the cameramen, telemeter
+operators, and the Lord knows who else. The Edwards flight-test
+operation had become a vast pyramid of people supporting one man at
+the apex, the pilot. Everything was planned down to a gnat’s eyelash.
+
+The general outline of North American’s initial X-15 flights had long
+been established. Every detail of it was designed to save time, to
+cut our schedule to the bare bone. We would begin with X-15 number
+one. We would mate her to the B-52, take her aloft and check out all
+ship’s machinery under actual “captive” conditions. We would make
+certain the cabin pressurization, pressure suit, instrumentation,
+radios, shackles, communications, oxygen and Lox top-off connections
+with the B-52, and the X-15’s multifarious electrical systems,
+worked. When we were satisfied, then we would take X-15 number one
+aloft, devoid of fuel, and drop it on a powerless glide flight,
+simulating the beginning and conclusion of an actual rocket-test
+flight. Meanwhile, we would keep X-15 number two on the ground to
+check out the fuel tanks and rocket-propulsion system. The theory
+was that any weaknesses which showed up either in the air on these
+captive flights, or on the ground during the engine checks, could be
+quickly remedied simultaneously on both airplanes, and on the third
+X-15 which was still in the factory awaiting the XLR-99 engine.
+
+“All the North American flights will be conducted locally,” Q.C.
+said, addressing the room. We were reviewing the whole plan for the
+benefit of some new people and some others who had no reason to be
+concerned until then. “Following the captive flights and initial
+glide flight, each launch will be made over a predesignated dry lake.
+The object is to land each time on Rogers Dry Lake, alongside the
+base here.” Q.C. used a pointer on the blackboard.
+
+“We will have to have emergency vehicles--an ambulance and fire
+trucks--in readiness at B-52 take-off time. These will line up on the
+Edwards runway during B-52 take-off. Afterwards they will shift and
+take up position on the lake bed along the anticipated glide-path and
+touchdown point of the X-15. Sam--” Q.C. looked at Richter--“your
+van will go to the lake at B-52 take-off time. Now, the helicopter
+will hover at the edge of the lake bed on the X-15 approach end.
+In event of landing emergency, it should be able to reach the X-15
+within sixty seconds or less.” North Americans flight surgeon, Toby
+Freedman, and Air Force flight surgeons would be in the helicopter.
+
+“The personnel in the helicopter should become familiar now with
+emergency procedures for removing the X-15 cockpit canopy in case
+the pilot is unable to open it from the inside. The helicopter pilot
+should, of course, radio immediately a visual report on the landing.
+Sam, you’ll be able to see the landing from the van. You report, too.
+
+“The chase-plane missions will be fairly routine. We’ll use F-104s.
+Two airplanes will be assigned to close chase by the X-15 at drop
+and rocket light-off. The third chase, an F-100F, will serve as
+photographic chase and get what pictures he can without interfering
+with the close chase. The only problem I see here is that the F-104s
+will have some trouble hanging in the air at launch altitude, slowed
+to B-52 speed at launch.”
+
+He went on, describing action to be taken in a score of various
+emergencies, including everything from a B-52 engine failure on
+take-off to an outright mid-air explosion of the X-15 at light-off.
+Then he distributed a mimeographed “check-off” list thirty pages
+long, which all of us would carry during the flight. On each flight
+we would work our way through that long list, moving on to an
+item only after the previous item had been completed. This list
+represented the combined thinking and checking of a hundred people.
+If we followed it, the danger would be reduced to a minimum, or as
+near minimum as it is possible to come with a rocket airplane, and we
+would learn the most for every minute in the air.
+
+“I will take up station in the North American tower,” Q.C. went on.
+“I will have, sitting at a table near my mike, a specialist on each
+system of the X-15. If anything goes wrong on the ship prior to
+launch, I will designate the appropriate engineer to get on the mike
+and talk to Scotty. That way we might be able to fix it and avoid an
+abort. Incidentally, if we do have to abort a flight, we will always
+go right through launch countdown, right down to the point of drop,
+without dropping. This will give us more detailed experience and an
+opportunity to check out systems. We will not follow this procedure
+if the abort is the result of an emergency. In that case, we will
+follow emergency procedures for getting the B-52 and the X-15 back on
+the ground.
+
+“At Scotty’s request we are deliberately restricting the number of
+men authorized to talk on the radio circuit to hold down confusion.
+I will be on the circuit continuously. Sam Richter is authorized to
+come on the air, if necessary. The only others are Scotty in the
+X-15, the B-52 pilot, and of course the chase pilots. As far as the
+ground is concerned, I want everything to be funneled through me. In
+the air Scotty will have the final say-so. Any questions?”
+
+There were many questions and this meeting, and a hundred others like
+it, churned on for long hours. As a result never in the history of
+Edwards was there finer co-operation between government agency and
+contractor.
+
+ * * * * *
+
+October 15, 1958--one year and eleven days after Sputnik--was circus
+day at the Los Angeles Division of North American. X-15 number one
+was officially “rolled out” of the plant ready, or almost ready, to
+fly. All activity in the plant slowed for this festive occasion. The
+chips were swept from the floor. All the grandees of North American
+were on hand. A plane-load of aviation reporters flew in from the
+East to herald the event in headlines the nation over. Senators and
+Congressmen and other VIP’s crowded a special grandstand facing the
+X-15 to hear Vice President Richard Nixon, who came to California
+especially for the event, proclaim that the X-15 “recaptured the U.
+S. lead in space.” There were special exhibits of the pressure suit
+and other parts of the X-15. VIP’s tried their hands in the X-15
+cockpit simulator in the assembly building. Then all attended a gala
+luncheon during which all praised one another and the subcontractors.
+For the X-15 team it was a moving occasion.
+
+During the ceremonies, Vice President Nixon said to me: “You
+certainly have a dangerous job.”
+
+I couldn’t repress the reply that popped to mind: “My job is not
+nearly so risky as yours, sir.”
+
+Six years from inception, four years from final approval by the old
+NACA Aerodynamics Subcommittee, three years almost to the day the
+contract was let, and thus right on schedule, the X-15 was at last
+a reality. What’s more, her airframe, thanks to Charlie Feltz, was
+325 pounds under our design specification. Even with the two heavier
+X-1 rocket chambers and the additional load of instrumentation,
+the airplane was only a hundred pounds overweight, a fantastic,
+unprecedented achievement in the aircraft industry. But the cost was
+great. The X-15 represented over 10,000,000 engineering man-hours.
+In time each of the three airplanes cost the government $40 million.
+In terms of weight, each would be worth three times as much as solid
+gold.
+
+While I was posing for photographers alongside the X-15 that day, a
+reporter asked:
+
+“Mr. Crossfield, why is the ship painted black? Most of the research
+airplanes were painted white like ice-boxes, weren’t they? I thought
+white reflected heat and that was what you were trying to do--get
+away from the heat.”
+
+“Well,” I said, “this is a kind of complicated thing. It’s true that
+white does reflect heat, solar heat, for instance. But up where this
+ship will be, the sun will be only a tiny, intense beam of heat
+in a vast zero-cold universe. Our main problem is not solar heat,
+but frictional heat, the heat we will run into flying through the
+air--from bumping into molecules of air. The way it works out, this
+black paint will throw away that heat faster than white paint. In
+other words, it radiates the heat from friction at a faster rate. Is
+that clear?”
+
+I’m afraid it wasn’t clear. Our beast, from paint job to final
+mission, was simply too complicated to explain in a word. This was
+frustrating, in a way, because we were proud of what she was. But
+in the press she had been labeled a “space ship,” and a space ship
+she would remain in the public eye, although in actuality she was a
+research tool, deliberately designed to search out trouble. In time,
+I was confident, the X-15’s real mission would be grasped.
+
+No matter what she was called, she was a beautiful thing, a
+masterpiece, if you will, and I remained long after the photographers
+departed to drink her in and contemplate the trying days I knew lay
+ahead at Edwards.
+
+Not long after the VIP’s moved on, the circus folded and the men
+towed the X-15 to a flat-bed truck. Then they wrapped her in a
+tarpaulin and drove her to Edwards. Two weeks later X-15 number two
+followed.
+
+ * * * * *
+
+On the eve of our flight-test operations, sad to say, we lost one
+member of the X-15 pilot team. Iven Kincheloe was killed while flying
+an F-104. Just after take-off his engine flamed out. The F-104 has a
+downward ejection seat. Too close to the ground for escape in that
+direction, Kinch rolled the F-104 on its back, so that he could eject
+upwards, away from the ground. He got out and his chute opened, but
+it was too late. His loss was mourned not only throughout the Air
+Force, but also at North American. Although I, as first pilot, had
+received from the press most of the X-15 “spaceman” build-up, we
+believed that Kinch would be the one to make the maximum-performance
+X-15 missions.
+
+When Kinch died, his “back-up,” Air Force Major Bob White, moved up
+to take his place. White is a handsome pilot, swarthy, with deep,
+piercing blue eyes. He has a fine wife and children. If he lacked
+rocket-airplane experience, he soon made it up. He studied the X-15
+intently and checked out in a Clark pressure suit.
+
+Following Kinch’s death many people asked me if I were not
+disappointed that I had not been “selected” to make the maximum
+flights of the X-15. Some reporters indignantly complained to NASA
+that it was completely “unjust” to restrict me, considering my long
+experience in rocket airplanes, as against, say, Bob White, who had
+never flown a rocket plane. I would like to say here once and for
+all, and with a fervent hope that this will end the matter, yes, I
+was disappointed. No man with my background could have felt anything
+but disappointment. For many reasons I believed I was best qualified
+to make these maximum flights. I would have accepted the assignment
+eagerly.
+
+But in fairness to NASA, let me say that I went into the X-15 program
+with my eyes wide open. From the outset I knew the government pilots
+would be top dog. Walt Williams had predicted before I left NACA
+that I might _never_ fly the X-15. When the contract was let, it
+specifically stated that North American demonstrations would be
+limited in speed and altitude. Only a few weeks after I joined the
+program, as I have said, these restrictions were set at Mach 2 and
+100,000 feet. That I would be “the first man in outer space,” that is
+to say, that I would make the maximum demonstration flights of the
+X-15, was an invention of the press. I repeatedly stressed that this
+was not the case, but the press refused, or couldn’t bring itself,
+to believe me. The Air Force and NASA pilots were ticketed for that
+role, and I simply accepted that fact of life.
+
+To repeat: I knew from the beginning that in all probability I would
+never make the maximum flights of the X-15. But I was promised,
+unequivocally, the _first_ flights of the craft. As I suspected, and
+as it turned out, these flights would provide danger and challenge
+enough. When Kinch died, I hoped these restrictions might be lifted.
+When they were not, I didn’t pout like Achilles in his tent, as some
+reporters have implied. A maximum flight, a new speed or altitude was
+not my point. The point which concerned me, and one I have never been
+able to get across, is that I would participate in both the building
+and test-flying of the airplane. That was the goal I sought--the
+closing of the circle of my life.
+
+
+
+
+CHAPTER 34 ►
+
+ _A Carnival at Dawn_
+
+
+My mental alarm clock, a handy, precise instrument which seldom
+failed, woke me at exactly 0500 on the morning of March 10, 1959.
+Charlie Feltz was snoring loudly, deep in sleep on the other twin
+bed in our room at the Edwards Bachelor Officers Quarters. I prodded
+Charlie gently and then went into the bathroom and drank a glass of
+water. I drank sparingly: soon I would be tightly laced in the X-15
+full-pressure suit, which has no provisions for answering the call of
+nature.
+
+At long last the day had come to take the X-15 into the air, snugged
+beneath the right wing of the B-52 mother plane, for her first
+realistic test. The purpose of this preliminary “captive” flight was
+to check out the X-15’s many systems under near-flight conditions
+and to make sure the B-52 could support her external store at launch
+speed of Mach .8 or 530 miles an hour. We would go through all the
+motions of an actual flight--I would operate her control systems and
+flaps, and lower the landing gear--but we would not drop the X-15.
+Our plan was to spend a couple of hours circling the Edwards base at
+40,000 feet and, if all went well, land again with the X-15 still
+hung on the B-52 wing.
+
+“Come on, Charlie,” I said, “let’s go find out if we built an
+airplane.”
+
+We dressed in business suits and ties, like anybody preparing for
+a day’s work at the office, and drove to the flight line in one of
+North American’s green station wagons. Take-off was scheduled for
+0700. Based on my previous experience at Edwards with experimental
+airplanes, I calculated we would be lucky to make it by noon or 1400.
+
+ * * * * *
+
+We could see the tail of the B-52, five stories tall, from half a
+mile away. The sun, just beginning to rise in the east, cast heavy
+shadows into the Edwards basin. The runway lights were still on.
+Two jet fighters, returning from a pre-dawn flight, taxied in the
+distance, their dazzling landing lights ablaze. Maintenance and fuel
+trucks, painted a garish yellow, sped by. It was freezing cold and
+we kept the windows in the station wagon shut, the heater turned up
+full. We drove past row on row of jet airplanes parked and silent.
+
+“You’d think that with all this activity,” I said, “they’d have a
+place open around here for a cup of coffee.”
+
+Feltz didn’t reply. His mind was fixed on the scene which paraded
+across the windshield as I turned into a parking place in the “mating
+area.” There were half a hundred cars parked two-deep in a neat row.
+A team of North American guards directed traffic and checked badges.
+
+Most of us, I suppose, have visited fair grounds at dawn to watch
+the carnival pack up and leave town, to stare in awe as the tents
+are torn down and the stakes pulled up, as the trucks back and churn
+in low gear and the carnival hands scurry here and there, sleepy but
+determined. This is what the scene in the mating area reminded me of
+that morning. It was a kind of organized pandemonium moving with a
+sense of urgency.
+
+The big bomber dominated the concrete mating area. It towered over
+everything like some colossal creation on a Cecil B. De Mille set,
+a monster with drooping wings 185 feet long and a bulky body over
+one-half the length of a football field. Mechanics swarmed over the
+B-52, preparing it for flight. I saw a man on the wing silhouetted
+against the dull early morning sun, a tiny speck on a massive expanse
+of aluminum. Far up in the cockpit the lights shone through the small
+windows and I could see the bobbing heads of the ground crewmen,
+working through the long pre-flight check-list. The story of how a
+B-52 is made ready for flight is a book in itself.
+
+Beneath and around the bomber there were not less than twenty-five
+trucks and carts, and probably a hundred men. A few were working on
+the huge ship. But most were clustered around the strange, shark-like
+store mounted beneath an inverted, streamlined pylon on the right
+wing--the X-15. Just forward of the B-52 wing leading edge, the
+X-15 cockpit canopy was cocked up and open. Had it been closed, the
+X-15 might have been some over-sized missile, to the untrained eye.
+Despite the cold and their heavy clothing, the men worked feverishly,
+like mechanics in the pits a half hour before the Memorial Day race
+in Indianapolis. They had been working at that pace in the North
+American hangar three shifts around the clock for four months. I
+wondered how any mechanical device could generate so much enthusiasm
+and dedication.
+
+One truck stood apart from all the rest. This was Sam Richter’s
+communications van, which resembled a beat-up, miniature school
+bus, though it was painted the company green. The rear of this van
+was fitted with radio transmitters and receivers, a tape recorder,
+and devices to transcribe data from the battery of weird-looking
+weather instruments and antennae which protruded, like a forest of
+prehistoric trees, from the top of the van. During the pre-flight
+operations in the mating area, Sam’s well-heated van served as a kind
+of headquarters for the engineers and crew foremen. Crowded in among
+the radio gear were a swivel chair and seats which had long ago been
+salvaged from some office.
+
+Feltz and I opened the door on the rear of the van and pushed our way
+inside. Mel Beach, overall ground boss of the X-15 crew, was there,
+as well as Q. C. Harvey, flight-test director, and Si Fohl, the chief
+foreman. They were urgently leafing through a clipboard thick with
+forms.
+
+“Will we be ready for an on-time take-off?” I asked.
+
+Si answered by rattling off a list of items yet to be fixed which
+spelled at least an hour’s delay. No modern airplane ever takes
+to the air with all its machinery in perfect working order. On a
+B-52, for example, an average of ten per cent of the equipment
+is usually out of commission. On the X-15, more complex than ten
+B-52s put together, the ground crewmen were doing their best to
+shrink the first-flight “carry-over” list to acceptable limits.
+The out-of-commission, or carry-over, items were compiled on the
+clipboard, on pages of special forms. It would be up to me in the end
+to review the list and either “buy” the carry-over items or cancel
+the flight.
+
+I leafed through the forms, noting the many anticipated, minor
+items not working: a valve, a leak, a piece of complicated NASA
+instrumentation not essential for the X-15 flight performance. I
+signed my name at the bottom of the sheets, indicating a “buy” on
+the part of the pilot. After all, the captain of the S.S. _United
+States_ would not refuse to get his vessel under way on a scheduled
+trans-Atlantic voyage because the coffee pot was out of order or a
+water faucet wasn’t working.
+
+I climbed out of the van, slammed the door, and made my way into the
+confusion of crewmen and supervisors crawling about the X-15. The
+ground service carts, linked to the little craft by a snarl of heavy
+cables and hoses, were pushed up close. The vast array of dials and
+gauges on these carts told a complete story of what was going on
+inside: helium-source pressures okay, both hydraulic systems okay,
+number one electrical system okay, liquid nitrogen tank-pressure okay.
+
+Squeezed up against the cockpit was a steel-tubing work platform. I
+went up the steps to talk to the three men standing there probing
+into a section just behind the cockpit area. Here in this bay lay
+the most sensitive, and up to then the most frustrating, piece of
+the X-15’s machinery, the Auxiliary Power Unit (APU). A series of
+failures of this equipment had kept the X-15 grounded for three
+months in a row. If it was not working properly today, I would have
+to cancel.
+
+“How’s it going?” I said, addressing “Robby” Robinson, a General
+Electric technical representative. Several G.E. engineers had come
+to Edwards over two months ago, when Stormy rang the bell after the
+trouble developed.
+
+“I think we’ve really got it made this time, Scotty,” Robby said. “I
+think we have it licked.” We were a long way from completely licking
+the problem, we knew, but Robby had caught the X-15 team spirit. Like
+the rest of us now, he was a determined, indefatigable optimist.
+
+The two APUs in the X-15 separate turbine engines that run on
+concentrated hydrogen peroxide to drive generators and pumps which
+give electrical and hydraulic power for the instrumentation and
+flight controls. There are two separate systems, in case one fails.
+Jets and prop airplanes get their auxiliary power from their engines,
+but since in the X-15 the rocket engine runs only a short time,
+separate powerful sources of energy are necessary for the unpowered
+glide.
+
+This was not a problem unique to the X-15. All the rocket airplanes
+preceding it had some form of auxiliary ship’s power. The first
+craft, the X-1, was equipped with batteries which supplied enough
+juice to operate the simple instruments and other electrical devices
+for about twenty minutes of flight. The “muscle” for the controls
+came from the pilot. But as rocket planes became more complex, and
+the instrumentation load for obtaining aeronautical data in flight
+became heavier, the batteries, which are basically heavy and bulky,
+could not keep pace. Thus the engineers shifted to small, immensely
+powerful turbines which, independent of the main rocket-propulsion
+system, whirled electrical generators that in turn supplied the
+electrical power. The same turbine also powered hydraulic pumps to
+supply control “muscles.” The turbines burn hydrogen peroxide, a
+chemical that yields a vast amount of energy and doesn’t need air to
+burn, as does gasoline, for instance. Many ballistic missiles have
+APUs.
+
+The demands for the X-15 APU were far and away the most severe
+ever placed on any manufacturer. What we asked was that each unit
+supply 8,000 watts of continuous electrical power--more than enough
+to supply a modern house with many electrical appliances--at all
+times during the flight and more than 30 horsepower each for
+hydraulic controls. To save precious fuel, we asked that the
+hydrogen-peroxide-powered turbine run very efficiently and yet be
+able to assume large changes in load without slowing down as demands
+were put on it. The unit had to operate at any altitude under extreme
+temperature conditions; in effect, it had to be capable of operating
+on the surface of the moon. We imposed a weight limit of less than
+two hundred pounds, including turbine, pumps, generator, and full
+fuel load for thirty minutes of flight.
+
+The subcontract for the APU had been let to General Electric in 1956
+before the first cockpit mock-up. The giant company, with decades of
+experience in building all kinds of engines and odd-ball electrical
+devices, put its top talent on the project. All told, hundreds of
+thousands of engineering man-hours were devoted to this one piece
+of machinery for the X-15. I am certain that before the contract
+was concluded, G.E. must have spent millions to make good its
+promises. The APU design was ingenious and delicate, and it met our
+requirements. This unit, or one like it, will pioneer the way for
+APUs on true space craft. North American and its vendors furnished
+all the maze of plumbing, valves, regulators, and tanks for the
+system. Like the APUs, everything worked well in the laboratory tests
+but, as is ever the case, when in the airplane both G.E.’s system and
+ours gave us untold trouble.
+
+Ground “APU runs” during December, 1958, and January and February,
+1959, followed a grim pattern. After the specialists were certain
+they were ready, I would climb into the X-15 cockpit at the test
+stand and run through an “APU start,” testing number one APU and
+number two APU in turn. The two small units would come to life,
+gulping down the potent peroxide. As the turbine wheel spun at 50,000
+rpm (five feet from my head), the generator and pump would begin to
+pump the vital electricity and hydraulics into the X-15’s system.
+Then something would happen. Bearings would overheat and the turbine
+would seize, or even more, valves and regulators would fail, leak, or
+not regulate. Then the mechanics would remove the offending part and
+rebuild it, preparing for another test. It was absolutely mandatory
+that these units be made reliable. A total APU failure in the air
+would leave the pilot without instruments and hydraulic control
+power. He would have to bail out.
+
+These were sleepless weeks of sheer agony. The APUs and their fuel
+systems were, in effect, pieces of jewelry. Each of their hundreds of
+parts was as carefully and delicately balanced as a watch. A piece of
+lint or some dust would clog microscopic apertures and cause the unit
+to turn sour. Even low-key vibration came into play. We noted after
+much experience that when one APU failed with vibration the other
+unit almost invariably broke down a minute or so later, seemingly
+without cause. Then we learned the reason. Both APUs were mounted on
+the same bulkhead. The slight vibration in a failing or seizing APU
+was enough to send a fatal tremor through the bulkhead to the other
+APU. We fixed this by mounting the units on separate bulkheads.
+
+When we were deep in APU trouble with no solution in sight, Stormy
+moved in and brought his prestige to bear. One conference with
+General Electric’s top engineers followed another. The APU systems
+were analyzed and re-analyzed, down to every single nut and bolt. It
+was then that the special G.E. team joined us in the North American
+hangar at Edwards and worked day and night to bring this pioneering
+device up to snuff. Finally this sensitive, temperamental race horse
+was broken to the bit. Prior to our first scheduled captive flight,
+both APU units had been run without failure almost every day for
+two weeks. But a question remained unanswered: were they ready for
+the sweepstakes? Blake Staub, our systems engineer, had practically
+ruined his health to assure it.
+
+I stared down at the APU in the X-15 bay and listened as Staub and
+Robinson assured me again that the units were ready. Well, I thought,
+who can really tell, but we’re not going to launch, so what the hell?
+I’ll buy it.
+
+I climbed down from the work stand and walked over to one of the
+trucks parked near the B-52. This one was as large as a moving van,
+with colorful Air Force insignia painted on its side and above them
+the words “16th Physiological Training Flight.” This was the “home”
+for the X-15 full-pressure suit. As I opened the rear door, I could
+see that it was crowded inside. There along the wall were oxygen
+manifolds and pegs on which the various layers of my pressure suit
+were hung out, like a diver’s rig. Several X-15 suit-helmets were
+fitted into other racks. Air Force Captain Ralph Richardson was in
+charge of the van. His assistant was Sergeant Crow. The van was a
+restricted area; supposedly, I was the only one allowed in besides
+Richardson and his men and Pete Barker, North American personal
+equipment specialist.
+
+“Hi, Scotty,” Richardson said as I closed and dogged the rear door.
+“Have a cup of coffee?”
+
+Sergeant Crow handed me a steaming cup which, after my tour in the
+frigid mating area, was welcome.
+
+“You boys really know how to live,” I said, sipping the coffee. “This
+van is like a home. You could drive it anywhere, park and live like a
+king. How about a martini?”
+
+“Well, we try to make our customers comfortable,” Richardson said.
+“But you have to fly first.”
+
+“Are you joking?”
+
+“No, we have all the ingredients right here,” Richardson said,
+sweeping his long arm toward the front of the well-lighted van.
+
+“A great idea,” I said. “Like the old days in England after a raid. A
+shot of whiskey for the de-briefing.”
+
+“Exactly.”
+
+“I’ll buy it.”
+
+Time was ticking away rapidly. Charlie Bock and Jack Allavie, the
+B-52 pilots, had arrived on the scene and reported the mother plane
+ready for flight. Bill Berkowitz, the North American launch-panel
+operator in the B-52, had been up the entire night preparing his
+“office”--from the moment the rocket craft was rolled to the mating
+area and lifted on hydraulic jacks into its nest on the B-52 pylon.
+On the Edwards base a hundred other people were moving to stations,
+in accordance with the plans laid during the final flight-briefing
+the day before. At Air Force Fighter Ops the three chase airplanes
+were being groomed for take-off. One precautionary delay or another
+had already pushed our take-off time back an hour and a half.
+
+With Pete Barker’s help I began to put on the full-pressure suit,
+starting with the first layer, the set of long johns. Twenty-five
+minutes later Pete zipped up the silvery, photogenic outside layer.
+We “plugged” the suit into a special manifold and ran several tests
+to make certain the delicate valves were operating properly. The
+suit pressurized as designed, although like the X-15 it was new and
+untried, and months would elapse before it could be considered a
+standard issue item. By the time I left the van, helmet in hand, I
+was uncomfortably hot and remained that way until I got inside the
+X-15 cockpit and plugged in the nitrogen gas source which ventilated
+the suit.
+
+The area around the B-52 was not so cluttered now. The carnival was
+pulling out. The ground service carts were pushed to one side, the
+cables and hoses were pulled from the X-15. All the access panels on
+the side of the rocket ship were back in place and she looked sleek
+and clean. Now finished with their work, the ground crewmen clustered
+in knots here and there beneath the B-52 wing, rubbing their hands
+to keep warm. The X-15 instrument panel was alive and humming with
+electrical power from the B-52. All the gauges were in the green.
+
+Oscar Freeman, North American X-15 Crew Chief, and Pete Barker
+remained on the steel working platform, heads poked inside the X-15
+cockpit, cinching up my restraint harness and offering words of
+advice. It seemed impossible that we were almost ready. But we were.
+The time had come.
+
+Barker picked up my helmet and lowered it gently over my head,
+clamping it in place. On the left side of the X-15 cockpit there was
+a valve marked: OXYGEN. B-52 SUPPLY. X-15 SUPPLY. I turned the valve
+to “B-52 SUPPLY” and breathed in deeply. A special seal prevented the
+nitrogen ventilation gas from the body of the suit from seeping into
+the helmet. I waved my black-gloved hand sharply, and Barker slammed
+the canopy shut. The inside of the canopy roof pressed against the
+top of my helmet. My vision was now restricted by the narrow,
+V-shaped, left-and-right X-15 windshields.
+
+Fully settled in my tiny flight office, I could speak by radio to the
+B-52 pilot, Charlie Bock, who was about thirty feet away in the nose
+of the mother plane, out of sight.
+
+“Okay, Charlie,” I said. “I’m ready when you are.” I had a small
+portable tape recorder rigged in the X-15 cockpit, to take notes in
+flight.
+
+I watched from my perch forward of the wing, as the B-52 ground
+chief, wearing a radio headset, waved his arm in a circle. Bock wound
+up the eight jet engines one by one. When he started numbers five and
+six, the two engines on the pod nearest the X-15, I felt a gentle
+shaking inside the cockpit and was conscious of the muffled noise.
+Then Bock rammed on power, and the massive bomber began the long
+five-mile taxi to the main Edwards runway.
+
+As we rumbled down the taxiway, the B-52 wings flexed up and down.
+The X-15 flexed with the wings but the sensation was not unpleasant.
+In fact, as I noted on the tape, it was much more comfortable than
+being inside the bomber itself. A long line of emergency trucks sped
+to pre-plotted positions along the runway. Sam Richter’s comic van,
+trailed by a snake of North American ground-maintenance vehicles,
+struggled to keep up. From his command post in the North American
+tower, Q. C. Harvey, surrounded by his team of X-15 experts, came
+on the air. Charlie Feltz and Stormy were riding in Sam’s van. The
+Edwards and NASA towers reported in. Then chase planes briefly
+checked radios. The emergency helicopter took to the air. Police on
+the base at Edwards closed off certain roads.
+
+At the end of the main runway Bock turned the ship and lined up
+for take-off. Sitting ten feet from the concrete surface, I noted
+the many black skid-marks left behind by the tires of countless
+experimental planes which had preceded us, blazing the long and
+turbulent history of aviation. Now, God willing, we would begin a new
+and fabulous chapter in that history.
+
+
+
+
+CHAPTER 35 ►
+
+ _Smoke in the Cockpit_
+
+
+Until now, I like to think, the story of the X-15 was in essence
+an array of engineering problems without equal or magnitude in the
+history of aviation. I have deliberately tried to tell the highlights
+of that story in coldly objective terms, the way every engineering
+problem should be approached. I have introduced only those elements
+pertinent to a full understanding of the flight accounts which
+follow, and for the purpose of setting the X-15 in true historical
+perspective. Except where it bore directly on the history of the
+project, and therefore in some manner influenced our technical
+judgment significantly, I have restrained a natural--I should say at
+times nearly overwhelming--tendency to inject personal attitudes and
+opinions. Some have seeped in, I know, but like the visible portion
+of an iceberg, they only hint at what hangs beneath.
+
+Perhaps it would be well if this account of the X-15 could be
+continued in an unimpassioned vein. But this would be dishonest. An
+objective, well-engineered airplane such as the X-15 is one thing.
+But now it is being joined for the ultimate tests with a human being.
+The final outcome, then, is the sum product of both, each in one
+way or in several ways heavily dependent on the other. To be sure,
+mechanical failure could spell spectacular failure; but equally
+important is human failure. And thus, I am sure, all that came before
+in my life, and everything that _was_ a part of my life during those
+months at Edwards--my thoughts, reactions, goals--becomes important
+and, for the first time, a vital part of the X-15 story.
+
+From the human standpoint alone there were many incalculable forces
+at work, and I have had some difficulty sorting them out in my mind
+and attaching the proper weight to each. To begin with, from the
+pilot’s view the first flights of the X-15 turned out to be a fierce
+challenge. The plane is no toy. After it is launched from the B-52,
+every second of flight involves a severe physical and mental exercise
+wherein one is completely oblivious of all earthly influence except
+the job at hand. Added to this flying challenge is another challenge
+accruing through the flow of circumstances. The X-15 has become
+an important symbol of our national scientific ability--or lack
+of it. A simple mistake could severely tarnish the national image
+and grant the Soviets a tangible gain in the cold war. Because the
+X-15 had attained this prominence, North American’s prestige as an
+aircraft company was laid squarely on the block. Having developed
+a deep respect and admiration for the people of that company, I
+assumed a special responsibility. Moreover, the success or failure
+of the X-15 would directly influence the decision for or against our
+much-hoped-for advanced X-15B, the vehicle to which we believed man
+should turn next on his path to the stars. Finally, to a great extent
+the flights of the X-15, we knew, would have a decisive impact on the
+future of all manned combat airplanes, which were then beginning to
+be viewed in high councils as less practical as a deterrent than the
+ballistic missile, much to our disagreement.
+
+From a strictly personal side, there is still another factor
+involved, one which may be more important than all the rest.
+Unfortunately, though we try to make it do so, the human mind does
+not move from point to point on well-traveled, fairly straight tracks
+like a commuter train on schedule. So I cannot, in all honesty, round
+out this story as an orderly progression of personal reaction to our
+many successes and several near-disasters--to form a neat closing of
+the circle. It wasn’t that way at all. As it turned out, a fresh and
+vital personal analysis was born in the cockpit of the X-15. Maybe
+it was the closing circle focused here which brought it to the fore.
+Maybe, as some people are moved to deep thoughts when near the sea,
+so I was moved as I stared into space.
+
+As is often the case in life, where nothing is black and white and
+thus relatively simple like a mechanical problem, I discovered, like
+many before me in dramatic circumstances, that to close one circle is
+only to invite another, even larger and more challenging. Or as Ralph
+Waldo Emerson put it: “Our life is an apprenticeship to the truth,
+that around every circle another can be drawn; that there is no end
+in nature, but every end is a beginning; that there is always another
+dawn risen on mid-noon, and under every deep a lower deep opens.”
+
+Ironically, the demanding flying of the X-15, which I had so
+desperately sought and worked so hard for nine years to achieve, came
+as an anticlimax, in a sense. The curve of a new circle was beginning
+to form. After thirty-eight years, most of them dedicated to a single
+purpose, one I had thought ambitious enough, my thoughts dissolved
+into a tumultuous whirlpool of probings and questions. The X-15 was
+not enough. But what was the new circle? The search for the answer to
+that question paralleled my flights in the X-15 and seemed, at times,
+even more demanding.
+
+My daily life was necessarily crowded to the limit with preparations
+for flight, or post-flight de-briefings, endless conferences at
+North American, or NASA, press interviews, symposiums and technical
+gatherings, urgent telephone calls, and what else I cannot remember
+now. It seems strange, indeed, but the only place I could find time
+for reflection and appraisal--time to probe the meaning of the new
+circle--was the X-15 cockpit, during the long, lonely hours I sat
+there, strapped in that tiny plane slung beneath the wing of the
+B-52. Until then, I had neither time nor inclination to dwell on my
+past life. But now I knew it was important to understand it in order
+that I could intelligently chart my future.
+
+There was not much time for reflection on the first flight.
+Everything was too new and strange. We moved from one semi-crisis to
+the next, it seemed.
+
+As we sat, waiting at the end of the long runway while the chase
+planes took off and circled, the clock on the instrument panel of the
+X-15 showed 0955. I made a note on the tape recorder: the clock’s
+second hand was not working. On signal, B-52 pilot Charlie Bock
+cobbed the eight jet engines, standing hard on the brake pedal. As
+the engines wound up to full military power, the X-15 trembled and
+the noise was tremendous. Through my radio earphones I heard Bock
+call a countdown for the benefit of the official movie cameramen who
+would record every inch of the take-off:
+
+“Five ... four ... three ... two ... one. BRAKE RELEASE.”
+
+One hundred and thirty tons of aluminum, fuel, Inconel X, five men,
+and the hope of a nation began rolling down the long runway. Success
+or failure of this first take-off was now entirely up to Charlie
+Bock. I was simply a first-class passenger, occupying a private
+compartment out on the wing. Without flaps to give added lift to
+the B-52, the take-off roll would be unusually long, the lift-off a
+ticklish maneuver requiring a delicate pivotal movement on the rear
+landing-gear truck of the B-52, a sudden and severe raising of the
+nose.
+
+The greatest point of concern was the predicted, possibly destructive
+vibration the X-15 external store might impose on the B-52. A hundred
+times in the past, Bock and I had reviewed corrective procedures to
+follow if this should happen. We knew it would take 190 knots to
+get the B-52 and its load into the air. We agreed that if severe
+vibration developed during the take-off roll before he reached 170
+knots, he would chop the B-52 throttles and abort the take-off.
+But if no vibration set in up to 170 knots, he would continue
+the take-off, climbing out. If during the climb at 260 knots the
+vibration rose to a degree that seriously endangered the bomber, we
+agreed that the X-15 must be jettisoned without delay. I would have
+a few seconds warning--time enough to start the APUs and shift from
+B-52 electrical power to X-15 power. Then I would attempt to glide
+the X-15 in dead-stick. We plotted the take-off so that I would have
+a fairly good shot at the lake bed in this event, but we both knew
+that our scheme was pretty marginal--impossible, in fact--below
+15,000 feet. In other words, if cut loose below that altitude, it
+was most unlikely that I could reach the lake bed. I would try. If
+I failed, I could always bail out at the last second. The important
+thing was to separate the X-15 from the mother ship. There were four
+men aboard that airplane. There was one in the X-15.
+
+As we rolled, the huge runway distance markers flashed by, clocking
+our path: 14,000 ... 13,000 ... 12,000 ... 8,000. When the X-15
+air-speed indicator reached 170 knots, I noted only a minor
+vibration. We would continue the take-off. 6,000 ... 5,000 ... 4,000,
+and we broke ground. It was smooth and gentle, like the take-off of
+an airliner. The air-speed indicator needle crept up to 260 knots.
+The parched brown desert fell away rapidly. The vibration did not
+increase.
+
+My eyes were fixed now on a small but ominous trickle of water slowly
+filming between the two layers of windshield glass in the X-15. It
+was water which had accumulated in the insulation out in the open
+during the long weeks of ground tests on the APUs. Who could have
+guessed this would happen on the dry desert? The nitrogen defogging
+gas flowing between the layers was designed to keep it clear under
+ordinary flight conditions. But I knew it would not be sufficient to
+check the vapor accumulation of three months of exposure to the rain
+and night dampness. Already a faint haze, the first sign of ice, was
+forming on the right panel.
+
+Charlie Bock spoke on the radio:
+
+“We’re at three thousand feet now. I’m going to throttle back on
+number five and six engines.” Slowing these two engines on the pod
+nearest me would reduce the noise and some of the vibration on the
+X-15. Even with two engines idling, the giant jet bomber gained
+altitude rapidly, circling Rogers Dry Lake.
+
+By the time we reached 15,000 feet both windshields of the X-15 were
+solidly iced over, recalling those early days at Edwards when I
+faced an iced windshield in the X-1 and the Skyrocket. An emergency
+launch was feasible. But an emergency dead-stick landing with iced
+windshields would be tough, to say the least. I might make it, I
+thought, if I blew the canopy. I made a mental note _never_ to go
+aloft again in the X-15 without a plastic windshield scraper. (Later
+this item was installed on the X-15’s instrument panel.)
+
+The three chase planes tucked in close, and our $60 million space
+task force bore skyward. There was not much noise beyond a steady
+hum and some static on the radio circuit. We were all--the men in
+the B-52, I in the X-15, Q. C. Harvey and the others on the ground,
+and the chase pilots nearby--leafing our way simultaneously through
+the thirty-page flight check-list. Occasionally Q.C. spoke: “Going
+to item 39-A.” Or I would say: “Item 43 completed, going to item
+44.” Charlie Bock put the B-52 through several stiff banks and turns
+to check vibration and X-15 mating. I followed these maneuvers on
+my instrument panel. Everything was going better than any of us had
+dared expect.
+
+Then, as on every subsequent flight of the X-15, we prepared for a
+dress rehearsal of an actual air-launch. Since there were no rocket
+propellants aboard on this first trip, we would eliminate an engine
+prime. Except for this one step, it would be a realistic “dry run,”
+which would give us much-needed practice for the real thing and an
+opportunity to test the systems as well. Especially the temperamental
+APUs.
+
+Like the X-15, the Clark full-pressure suit, designed to protect
+the pilot in the event the cockpit pressurization failed, was also
+undergoing its first realistic test. Thus we planned each flight to
+give the suit a chance to show what it could do. The cockpit of the
+X-15 was designed to be pressurized “down” to 35,000 feet. The suit
+was designed to go into operation if it sensed that the pressure
+in the cockpit rose “above” 35,000 feet. Thus if we left open a
+connection between the outside air and the cockpit and flew above
+35,000 feet, the cockpit would fail to pressurize and the suit would
+automatically go into action at slightly above 35,000 feet. This
+connection between the cockpit and the outside air was called the
+“ram-air door.” We simply left it open on the climb to altitude and
+during the full-pressure suit experiment.
+
+When we passed 30,000 feet both windshields were thick with ice.
+However, I could still see the instrument panel: it was brilliantly
+lighted by two strong thunderstorm flood lamps beamed over my
+shoulders. Every five minutes I turned a switch which automatically
+recorded all the gauge readings within the cockpit and at certain
+key positions throughout the airplane, and I reported on the radio
+circuit: “Data burst.” In addition, I kept a running log of gauge
+readings on my portable tape recorder, along with some private,
+personal observations.
+
+At 35,000 feet, with the ram-air door open, I felt the Clark suit
+pressurize. The link-net material seized me on all parts of my
+body. From that point on my movements were slightly constrained
+and slightly awkward, although not nearly so awkward as a deep-sea
+diver’s.
+
+Satisfied with the test, I strained forward at 38,000 feet to grab
+a lever between my legs, the hardest piece of equipment in the
+cockpit to reach. The lever operated the ram-air door. Grunting and
+puffing, trying to get a good grip on the lever with my glove, I
+finally pulled it shut. As soon as the outside air was closed off,
+the nitrogen gas began to build up inside the cockpit, pressurizing
+it back “down” to 35,000 feet. When the cockpit altitude stabilized
+at 35,000 feet, the pressure suit relaxed its grip and once again I
+could move my arms and legs with ease.
+
+Now still at 38,000 feet we began final preparations for the mock
+launch. Assuming everything else is going well, that is to say
+that the fuel-tank gauges (which we were not concerned with on
+that flight) are in the green, the big step is to make the X-15
+independent of the B-52 with its own electrical and control power. It
+was a crucial moment: the first airborne test of the X-15’s heart,
+the electrical and hydraulic power source, the APUs. I flicked a
+switch to start these units, keeping a close eye on various gauges
+that would tell me if all was well in this department.
+
+When the APU turbines turned up, I could hear a faint whirring
+noise inside the X-15 cockpit. So far, so good. The turbine bearing
+temperatures, a critical factor and frequent cause of breakdown, were
+within normal range. Then I turned a switch which should have put
+number one generator on the line. It failed. I tried to bring number
+two generator to life. Again no luck. I recycled both, trying to
+shift from B-52 to X-15 power source. Hopeless. The APU turbines were
+turning up, but the generators for each were out of commission. With
+iced windshields, if Bock had to cut me loose, I would have to bail
+out. The X-15 would have hydraulic control power essential to flight,
+but no electrical power for instruments essential to “blind” flight.
+
+I cursed to myself, and then on the radio called: “Q.C., I can’t get
+the generators on the line.”
+
+“Okay, Scotty. Lets move on to the next item,” Q.C. replied.
+
+This was a visual check of the X-15 controls--rudder, aileron,
+elevators--and flaps. I horsed on the stick and kicked the rudder
+pedals, following detailed instructions on the check-list. The
+chase-plane pilots reported control response. Good.
+
+Just about then I noticed a thin wisp of smoke curling up between my
+legs. Impossible! I thought. We couldn’t have a fire in the cockpit;
+it was completely sealed off, pressurized with inert nitrogen. No
+fire could possibly burn in that space. The only answer was that
+some wire must have overheated, smoldering the insulation. The smoke
+thickened.
+
+“Q.C.,” I reported. “I’ve got a little smoke in the cockpit. Nothing
+serious. Must be a hot wire some place.”
+
+“Okay, Scotty,” Q.C. responded quietly.
+
+These, I learned later, were anxious moments at Edwards. But I was
+not overly concerned. Except for the APU hydrogen peroxide, the X-15
+was empty of its usual load of volatile fuels, and the chances of a
+serious fire or catastrophic explosion were negligible. Besides, what
+could I do about it? If it came, it came. I had no generators, no
+vision. If a bad fire developed, we’d have to cut loose and I’d bail
+out. In any case, the plane would be lost.
+
+When the smoke in the cockpit became so dense that I could no longer
+see the instrument panel nor observe any test intelligently, I spoke
+quietly to Charlie Bock:
+
+“Let’s go home.”
+
+Q.C. broke in:
+
+“On the descent make a test of the X-15 gear.”
+
+“Okay, Q.C.”
+
+At 15,000 feet the chase planes moved in close. I pulled the gear
+handle. The telescoped nose wheel, extended by a ballistic charge,
+snapped into position with a jolt that felt like a swift kick in the
+behind. When the two rear skids popped down satisfactorily, chase
+reported gear okay. Since the gear cannot be retracted again, we left
+it in place as the B-52 lined up on final. Automatic movie cameras
+mounted on the side of the B-52 and hand-held cameras in the chase
+planes recorded all these drills. The smoke in the cockpit was pretty
+thick, and I noticed a new and heavy vibration somewhere in the rear
+of the X-15. What was that? It was too late to find out; we were
+committed.
+
+Landing the B-52 with its external store and no flaps was no cinch.
+But I could see that Bock and Allavie were already practiced artists.
+They brought the giant plane in very nose-high and greased in on the
+rear gear-truck, one hour and ten minutes after take-off. Then the
+nose fell forward heavily and we began the roll-out, long, easy, with
+the X-15 rear skids almost touching the runway. If something happened
+on landing--such as a crash and fire--I was in the safest possible
+place. Sealed inside a cockpit designed to withstand 1200 degrees
+Fahrenheit, I would just wait until the men put out the fire and then
+open my canopy. If the heat became unbearable, I could always eject
+right on the ground.
+
+When the B-52 stopped rolling, I opened the X-15 canopy. Dense smoke
+billowed forth, greatly and unnecessarily exciting the firemen. They
+rushed in with trucks and sprayed the rear of the X-15 with water.
+But there was no fire, as such, to put out. The smoke was caused
+when one of the APU generators seized in flight and burned up. As we
+discovered later, the generator was a mass of ashes. The fact that
+the smoke had seeped into the cockpit turned out to be a blessing
+in disguise. It revealed that under certain circumstances the
+protection of the cockpit was compromised. This was quickly corrected.
+
+Bock taxied the B-52 back to the mating area. The groundmen
+skillfully directed the parking so that the X-15 hung directly over
+her hydraulic lifting jacks used to lower the ship from the pylon.
+They shoved the steel work platform against the nose and Mel Beach
+climbed up and removed my helmet. I wriggled out of the cockpit and
+chatted with Stormy and Charlie Feltz for a few moments, trying to
+puzzle out the smoke in the cockpit, and then I walked somewhat
+wearily over to the 16th Physiological Training Flight van.
+
+Inside, to cool off, I quickly removed the top layer of my pressure
+suit, and then washed the perspiration from my face and hands. When I
+turned for a towel, Captain Richardson was standing there. He handed
+me a martini--a real martini, with an olive. It was the perfect
+touch. I wished that our first flight in the X-15 had been as perfect.
+
+
+
+
+CHAPTER 36 ►
+
+ _The Reluctant Dragon_
+
+
+At 0730 on April 1, I climbed into the X-15 cockpit, ready for a
+second “captive” flight. Although we had learned a great deal on the
+first, none of us felt the ship was quite ready for a free glide
+to earth. First, we would make another dry run, to be sure. In the
+intervening two weeks we had made many improvements on the X-15.
+The temperamental APUs had been pulled out, rebuilt, and tested in
+repeated “runs” on the ground. We had removed the canopy and baked
+it in a hot oven for hours to purge it of the water trapped in the
+insulation, and then waterproofed it. As a further precaution against
+windshield icing, the nitrogen defogging gas was routinely turned on
+three hours prior to take-off. By Stormy’s edict, we had installed
+a radio intercom between the X-15 and B-52, which would, in theory,
+keep a line of communication open to me, if the single X-15 radio
+transmitter conked out at a crucial moment.
+
+As usual, there were some pre-take-off delays. The men swarmed about
+the fuselage of the X-15, pulling wires and making last-minute
+repairs which were checked and rechecked by the ground service cart
+operators. The X-15 panel was alive. I sat staring at the lights and
+gauges looking for signs of trouble. By that time I had spent at
+least three hundred hours in that cockpit and I could sense a fault
+or impending crisis almost subconsciously.
+
+At 0812 Oscar Freeman and Pete Barker slammed the X-15 canopy shut.
+Charlie Bock and Jack Allavie wheeled the giant mother plane to the
+take-off runway and cobbed the engines. At 0844 the wheels left the
+ground and we were airborne for the second time. I tested the new
+intercom (unsatisfactory) and droned off the gauge readings, making
+a “data burst” every five minutes. At 25,000 feet altitude the X-15
+radio transmitter and receiver, perhaps because of the intercom
+modification, faded drastically. But the windshield remained clear.
+The chase moved in close and we droned skyward for a launch rehearsal.
+
+At 25,000 feet altitude, I could faintly hear Q. C. Harvey come on
+the radio circuit: “I guess we’ll have to abort. I can’t hear Scotty.
+His radio is out.”
+
+I already had the transmitter on, but the amplifiers were not putting
+out. Breaking a long-standing personal rule, I shouted as loud as I
+could over the radio mike: “No, Q.C. No. No. Don’t abort. No abort.”
+
+“Okay, Scotty,” Q.C. replied. “I can just barely hear you, very faint
+and intermittent.” Determined that a simple radio malfunction would
+not stop the test, I shouted myself hoarse. Then Q.C. came up with an
+ingenious, spur-of-the-moment solution to our radio difficulty.
+
+“I can hear your mike loud and clear when you key it, Scotty. But I
+can’t hear your voice. We’ll follow a system here. You key your mike
+in response to my questions. One dick means yes. Two clicks mean no.
+Okay?”
+
+I keyed the mike one click.
+
+Following this system, we worked through the thirty-page flight
+check-list with Q.C. in command on the ground. “Okay, Scott,” he
+would say. “We have completed item 10. Are you ready to go to item
+11? Repeat, are you ready to go to item 11?” If I was satisfied, I
+responded with one click of the mike. If I did not think the ship
+was ready for the next item, I transmitted two clicks. Slowly we
+accumulated the necessary data, which included various severe
+maneuvers of the B-52, a carefully monitored speed run to check the
+X-15’s air-speed indicator, and finally the big item, the launch
+rehearsal. The APUs came on the line and held steady, purring like
+kittens.
+
+Taking advantage of our good luck, we circled Edwards for well over
+an hour and a half. When I noted the coolant for the APU bearings was
+getting dangerously low, I waved my hand at the B-52, suggesting we
+return to base and land. Bill Berkowitz, the launch-panel operator,
+watching the X-15 through a closed-circuit television installation,
+caught the signal and relayed my request by radio to the ground. Q.C.
+came on the line:
+
+“You want to land, Scott. Correct?”
+
+I keyed the mike one dick, and Charlie Bock banked toward the Edwards
+runway. We dropped the X-15 gear for a routine test, and shortly
+thereafter Bock greased on, one hour and forty-four minutes after
+take-off.
+
+ * * * * *
+
+Except for the simple radio failure, the X-15 had performed well
+on this flight. But the full-pressure suit had not. The seals were
+leaking, and the valves failing. In fact, in the post-flight report,
+I noted thirteen discrepancies in the suit and asked that the Clark
+company send a team to Edwards without delay to make the necessary
+modifications and adjustments. With all our tests on the ground and
+in the air, we were wearing the suit out. On one of the hundreds of
+ground tests I nearly killed myself.
+
+It happened right in the X-15 cockpit while the canopy was open.
+Decked out in the suit and helmet, I was running a test which
+involved innumerable selections of oxygen supply, on, off, on B-52,
+on X-15, etc. I made an error and got out of sequence. I proceeded
+with the test, breathing not X-15 oxygen as I supposed, but the
+nitrogen gas suit coolant which was leaking into the helmet through
+a crack in a rubber seal. There were several ground crewmen working
+about the X-15, and Pete Barker was bending down in the cockpit
+helping me with the test. Nobody was aware of the developing crisis.
+
+Nitrogen gas is an insidious suffocant. Man cannot long survive
+breathing only nitrogen. Quite soon I began to feel its effect.
+The instrument panel facing me seemed to be floating away. I gazed
+in wonder at this phenomenon for several seconds, too stupefied to
+realize my predicament, then I drifted off into unconsciousness.
+Barker, working with me on the test, still had no inkling of the
+danger.
+
+By the grace of God I suddenly snapped back into momentary
+consciousness. Bewildered, I sought to escape from my slow
+suffocation. Not knowing what caused the blackout and dizziness, and
+unable to think clearly, I was desperate. I clawed helplessly at the
+fittings of my helmet, and then cast up my arms in one final protest
+and, as I recall it dimly, probably yelled.
+
+Luckily for me, Barker saw me raise my hands and sensed trouble. He
+jerked off the helmet in the nick of time. I feel I owe my life to
+his quick response.
+
+ * * * * *
+
+On the evening before an X-15 flight was scheduled, Stormy always
+came up to the desert for a last-minute look-see. He checked in at
+the North American hangar, talked to the X-15 mechanics, and toured
+the mating area, where the men were working to attach the X-15 to the
+mother plane and to check out the systems. When Stormy was satisfied,
+the two of us slipped away and drove far down the desert to a remote
+roadside restaurant, where we could lay plans during dinner without
+interruption. On April 13, the eve of the third flight, Stormy was
+restless and quietly angry. He was involved in a tight poker game
+with high stakes. Like all the rest of us, he wanted to see the
+X-15 fly--and the sooner the better. But we knew that if we pushed
+too hard and fast and something catastrophic happened, the country
+would suffer a black eye and we and the company would be severely
+criticized. At the same time, if we didn’t show more promise, we
+would be chided for dragging our feet. Thus Stormy--all of us in
+fact--was seeking to strike a balance between fast action and sound
+technical advance. Ridiculously petty items were sabotaging us: APU
+regulators, radio intercom wiring, two-dollar valves--horseshoe nails
+that could conceivably lose us a kingdom. Each time we aborted a
+flight we lost two weeks, the time it took to “turn around” the X-15
+or prepare it for a new trip into the air.
+
+Stormy is one of the few men I have met in my life whom I sincerely
+admire. I like his approach to building airplanes. He is not only
+enthusiastic and eloquent in presenting his case for this or that
+airplane, but also he is more technically honest than any engineer
+I have ever known. If something doesn’t work, it doesn’t work,
+and it is discarded. He doesn’t prolong it, building an empire of
+paper-pushers. He knows how to take on a job and do it right. And
+once he begins, he is completely objective and ruthless about it.
+
+“We’ll play it like this,” Stormy said. “Tomorrow we’ll go through
+rehearsal. If the APUs look okay, go through another rehearsal. If
+everything seems to be going well, then we’ll drop. But wait for the
+word from me. The final decision to drop, of course, is yours.”
+
+ * * * * *
+
+Just after dawn the following morning I climbed in the X-15 cockpit
+and droned the gauge readings into my portable tape recorder: “Liquid
+nitrogen source 3700. Number one hydraulic temperature 18 degrees.
+Number two hydraulic temperature 5 degrees. Number one APU source
+pressure 3500. Number two APU source pressure 3500....” As far as the
+X-15 was concerned, everything was near-normal. Except for a radio
+line in the helmet, which was snagging on the neck seal, the Clark
+suit was working well. It had been completely overhauled in the past
+ten days by Clark’s experts.
+
+After reading the gauges I stared at the instrument panel, waiting
+for the ground crews to seal up. Stormy, wearing a gabardine
+topcoat, was huddled with Q. C. Harvey and Sam Richter next to the
+communications van.
+
+At 0823 Charlie Bock released the B-52 brakes and we rolled down the
+runway to begin the third X-15 flight. When the B-52’s wheels lifted
+off, the three circling chase planes squeezed in close and climbed
+out toward what I hoped would be, by Stormy’s decision, our first
+launch. I was anxious and eager. By then we had been grooming the
+airplane for five months. To gain added X-15 performance, the launch
+altitude was raised from 38,000 to 45,000 feet. It took almost an
+hour to reach peak altitude.
+
+After the usual checks of the pressure suit, the X-15 cabin
+pressurization, and some special B-52 speed-tests and maneuvers to
+feel out the “mating” at that extreme height, we proceeded to the
+first launch rehearsal. Everything worked perfectly--almost. Radio
+communications were good, and the APUs came on the line with no
+trouble, although we expected trouble at higher altitude where the
+temperature is colder. I deliberately opened the ram-air door to try
+to fog the windshield. It remained clear. We simulated a drop and
+closed down. Then Bock wheeled the B-52 through a gigantic ten-mile
+turn high in the sky to repeat the rehearsal. The chase planes,
+hanging in the thin air at reduced speed, struggled to keep position.
+Our path through the sky was marked by seven white contrails.
+
+For the second time on that flight we moved in to a launch rehearsal.
+I started the APUs again, anxiously awaiting the key words from
+Stormy on the ground. But Stormy, who was watching and listening at
+Sam Richter’s truck out on the lake bed, didn’t say a word on the
+radio. His intuition told him the time was not ripe. With no positive
+word from him we continued the launch rehearsal and at one minute
+before drop time aborted the flight. I was quite disappointed.
+
+As a matter of routine, after launch rehearsal on the descent to
+Edwards, I kept the APUs on, so that the X-15 would have power in the
+unlikely event that an emergency arose and Charlie Bock had to cut me
+loose in a hurry. The APUs were still running as we descended through
+42,000 feet. At 41,000 feet both APU generators suddenly dropped off
+the line. I recycled number one and got it back on, but number two
+refused to connect. I reported this by radio.
+
+A few seconds later I became aware of an ominous, heavy vibration
+somewhere in the after end of the X-15. Something was quite wrong.
+My eyes automatically swept across the gauges; my ears tuned to the
+growing rumbling. Number two APU had failed. I was not aware of the
+full extent of the malfunction then, but I knew it was serious. Later
+we discovered that the unit had seized and shaken completely off
+the mounts. This severe wrench also disturbed the second APU. I shut
+both units off, thankful then that Stormy’s intuition was working. A
+minute later I noted a wisp of smoke in the cockpit.
+
+This time there was no connection between the APU failure and the
+smoke. A wire in one of the cabin blowers simply overheated and
+caused the insulation to smolder. I was tempted to ignore the smoke
+because nothing strikes fear in the hearts of the ground people quite
+so rapidly and decisively as smoke or fire in a rocket airplane.
+But one of my duties as test pilot was to report _every_ routine
+and non-routine event in the X-15 cockpit. Reluctantly I passed the
+word on the radio circuit and, as expected, there was quite a bit of
+excitement on the ground. But the smoke diminished and by the time we
+reached the ground, an hour and nineteen minutes after take-off, it
+had disappeared altogether.
+
+When we parked in the mating area, the ground mechanics opened the
+doors on the APU access compartment almost immediately. Charlie
+Feltz, Stormy, and I peered in at the shambles of metal that had once
+been two highly refined, critical pieces of X-15 machinery. The APUs
+at that point had been under laboratory and field test for a whole
+year, yet they were still obviously a long way from being reliable.
+Sick with disappointment, Stormy hurried off to Los Angeles to set
+in motion words and action that soon solved the X-15 APU problem. I
+don’t know how much money and time were spent in the extensive APU
+rebuilding and testing that followed in the next few weeks, but I do
+know that with one exception in the year that followed we had no more
+APU trouble.
+
+These APU problems, which I probably have dwelt upon at too great
+length, were not confined exclusively to the X-15 rocket airplane.
+Other companies were having much the same kind of trouble in
+ballistic missiles. At Cape Canaveral scores of multi-million-dollar
+birds blew up on the pads or in flight because of APU failure. This
+is one part of the price of progress, of probing into the unknown.
+The big advantage in the X-15 was that we did not lose our bird.
+With a pilot at the controls we were able to detect and avert fatal
+trouble, and save the ship for another flight. We could bring
+the broken APUs back to earth in one piece--or sometimes in one
+piece--for engineering analysis. The fixes we made, I hope, were
+passed on to the missiles at Cape Canaveral. Thus in one sense the
+X-15 was already beginning to pay its way as a research tool.
+
+After the flight Captain Richardson was waiting in the 16th
+Physiological Training Unit van with the usual martini. It tasted
+weak. I commented on this while squirming out of the pressure suit.
+
+“It’s watered down,” Richardson said.
+
+“What?”
+
+“That’s right. If you can’t pull off a full-blown flight, you don’t
+get a full-blown martini.”
+
+Ribbing of this kind was directed toward us from many official
+sources. Our tiger was gaining a reputation for being a Reluctant
+Dragon. This hurt in more ways than I can remember.
+
+ * * * * *
+
+21 May, 1959. Thirty-one weeks had flown by since we trucked X-15
+number one to the Edwards test base. Seventy-two days since our
+first shaky captive flight in the airplane. Forty-one days since
+captive flight number three. NASA and the Air Force were becoming
+increasingly anxious and no longer hiding it. Our saga of troubles
+had stung the X-15 flight-test team badly. Every man felt a personal
+responsibility. Each worked with an intensity and devotion that no
+amount of money could buy, and at last we were ready to go into the
+air once again. This time there was no talk of a drop. Our sole
+objective was to stage a completely successful captive test, to prove
+that all the machinery of the X-15 would perform as designed under
+flight conditions.
+
+On this climactic day, when they placed their mechanical stethoscopes
+to “listen” for signs of trouble in the X-15, the ground crews
+were more meticulous than ever before. They checked every system
+three times over, and then once again. Although I knew we couldn’t
+possibly take off before 0900, I climbed into the X-15 cockpit,
+fully rigged in the pressure suit, about 0700. I did this mainly for
+morale-building purposes. I wanted the ground crews to know that I
+had confidence in the airplane and that I was ready--eager--to get
+into the air. It was an uncomfortably long wait, yet a necessary one,
+I believed.
+
+It was 0922 by the time Bock and Allavie lifted the B-52 off the
+runway. We were late but the X-15 was tuned to a fine pitch. A few
+minor items cropped up, as usual--a screeching in my radio receiver,
+an insufficient flow of nitrogen coolant in the lower half of the
+pressure suit--but during the familiar launch rehearsal the X-15 ran
+a jeweled watch. We circled Edwards for an hour and fifteen minutes,
+starting and stopping the APUs with no difficulty. The APU bearings,
+cooled by nitrogen gas, held to a normal temperature range: about 115
+degrees Fahrenheit.
+
+It was clear now that we were over the big hurdle. We would have
+stayed aloft longer that day, but the supply of APU nitrogen gas
+coolant, designed to last only for a normal X-15 flight of about
+half an hour, was dwindling rapidly, and as I have said before we
+preferred to land with APUs operating in case Bock had to cut me
+loose in emergency.
+
+During the gradual descent the APU bearing temperatures began to
+climb. Number one reached 245 degrees; number two moved up to
+200 degrees. I was not unduly concerned. The bearings, G.E. had
+calculated, could reach 400 degrees without seizing. Certainly we
+could keep below that figure. To decrease the drain on the single
+nitrogen gas supply, I turned off the windshield defogging and
+pressure-suit ventilation. But the diminishing supply of nitrogen gas
+to the APUs was not sufficient. Number one crept up to 295 degrees. I
+watched the gauge closely. If it got much hotter, I intended to shut
+it down and make the descent on one APU.
+
+At 15,000 feet number one APU had inched ahead to 350 degrees. Since
+it was approaching a danger point, I reported the fact by radio to Q.
+C. Harvey. After consulting his panel of X-15 experts, gathered near
+his mike in the NASA tower, Q.C. responded:
+
+“Scotty. Q.C. We suggest you shut down number one APU if the bearing
+temperature reaches 395 degrees.”
+
+“Okay, Q.C.,” I replied. “That’s what I was going to do. Number one
+bearing temperature is now 376 degrees.”
+
+My eyes were glued on the number one APU bearing gauge. It moved
+steadily ahead: 376 ... 380 ... 390 ... 395. I reached for a switch
+on the instrument panel and turned it, reporting by radio:
+
+“Number one APU 395 degrees. Shut down.”
+
+My eyes remained on the gauge. I expected it to “coast” still higher
+for a moment or so and then drop off rapidly. The gauge swung to
+400 ... 416 ... 430. Number two APU, which was then getting all the
+nitrogen gas coolant, leveled out at about 200 degrees, as expected.
+
+I snapped into my mike:
+
+“Q.C., this damned number one is up to 450.”
+
+“You can expect it to peak a little bit and then fall off, Scotty,”
+Q.C. replied.
+
+“Yeah,” I said. “I know. But it isn’t falling off. It’s now up to 460
+and climbing. Number two is okay, steady at 200 degrees.”
+
+When the temperature of number one APU reached 475 degrees, I heard
+a familiar rumbling in the rear of the X-15. The unit had seized and
+vibrated to a stop. But why? Then in a flash I realized I had made a
+dreadful error. I had not shut down number one APU at all. Instead, I
+had shut down number two.
+
+“Holy smoke,” I muttered on the radio circuit.
+
+My spontaneous comment touched off a tremendous flurry of excitement
+on the ground. Sam Richter came on the radio instantly.
+
+“Scotty. Did you say smoke? Repeat. Do you have smoke in the
+cockpit?” (I later learned that Charlie Feltz, who was in Sam’s van,
+and whose ear was not then attuned to airplane radio circuits, leaped
+from his chair and said: “Wha’d he say? Wha’d he say?” And thereafter
+“Wha’d he say?” became a very big joke on the X-15 team.)
+
+“No. No. Sorry,” I replied. “No smoke in the cockpit. I just goofed.
+I shut down number two APU by mistake. Number one was running all the
+time. It blew.”
+
+It took only the thinnest imagination to conjure up the disbelieving
+expressions which spread over the faces of the people on the ground.
+After six agonizing months of APU difficulties, we had finally
+made a successful airborne demonstration. Then at its climax I had
+stupidly blown an APU because I turned the wrong switch. Short of
+losing the airplane altogether, no mistake I might have made in the
+air that day could have stung our team deeper. They could not have
+been more depressed. I felt like a fool, and of course I assumed full
+responsibility for the blooper.
+
+The APU failure was properly judged pilot error. Since everything,
+including APUs, was considered satisfactory, all hands agreed the
+ship was fit for her next great test, the first glide flight to earth.
+
+
+
+
+CHAPTER 37 ►
+
+ _Engulfed in Disappointment_
+
+
+“Three minutes to drop,” Charlie Bock intoned on the radio circuit.
+
+We were turning over Rosamond Dry Lake at 38,000 feet for a final run
+to the launch point, within sight of the Edwards base and Rogers Dry
+Lake, where if all went well we would launch and I would dead-stick
+the X-15. It was June 8, eighteen days since our last successful
+captive flight. We had been airborne thirty-five minutes.
+
+I reached up and set the sweep second-hand on the X-15 dashboard
+clock. Then I checked all the gauges. With one exception they
+couldn’t have looked better. The APUs, which had been running eight
+minutes, were holding. APU bearing temperatures were a mere 116
+degrees, well within safe limits. The nitrogen gas coolant supply
+was ample for both APUs, defogging, suit ventilation, and cockpit
+pressure. I rechecked the altimeter setting and listened when Edwards
+tower called the winds on the lake bed: 10 to 12 knots from 240
+degrees.
+
+A yellow light near my knee beaconed the single malfunction in
+the X-15’s machinery. It was an indicator on the X-15 Stability
+Augmentation System (SAS), the automatic control damping device,
+which in flight would sense an impending violent maneuver and take
+action to forestall it. Most of the new supersonic fighters we
+had tested at Edwards, such as the F-100, were equipped with SAS
+to minimize the possibility of unwanted yaw, pitch, or coupling
+divergence. The X-15 was the first experimental airplane to have such
+a system, and, like most of the gear, it was more sophisticated than
+ordinary versions.
+
+The “pitch mode” of the SAS, which would sense an abrupt rising or
+falling of the nose and automatically move the controls to correct
+for it, was out of commission. On the climb to launch altitude, I had
+quietly reported this fact to Q. C. Harvey. He in turn had consulted
+with the SAS expert, Blake Staub. We tried a dozen different tricks,
+switching electrical circuits, to correct it. But the yellow
+malfunction light remained on steadily.
+
+The decision to “go” or “no go” was entirely up to me. I had elected
+to “go.” For our first low-speed glide test the pitch damper was not
+vital. I had had much experience in dead-sticking airplanes without
+the help of such a device. We simply could not cancel another flight.
+More than a thousand eyes on the Edwards base were trained skyward
+for this milestone in aviation history. There were one hundred
+reporters, photographers, and TV cameramen camped along the edge of
+the lake bed. If we failed again, the press would not be so patient
+and generous this time. In brief, we were on the spot. But this was
+just another time when the skill and training of a test pilot could
+overcome the deficiency of a piece of machinery.
+
+I was busy turning switches. I shut off the B-52 power source. The
+X-15 was now operating on its own power generated by the APUs. I
+shifted the oxygen supply to my helmet from B-52 to X-15. I armed the
+ballistic charge in the lower ventral fin, which I would jettison
+close to the ground just before touchdown. I started the data
+instrumentation and cameras, which would operate throughout the glide
+to earth. Finally I flashed a green light in Charlie Bock’s cockpit,
+indicating I was ready to launch. I confirmed this fact orally:
+
+“Ready when you are, buddy.”
+
+“One minute to launch,” Bock replied calmly.
+
+My right hand moved to the sidearm control handle, which I had
+elected to use on this flight in place of the center stick, to show
+there was no question in my mind that it was an improvement. I
+cranked in one degree of nose-up-trim to make certain that when Bock
+cut me loose, the X-15 would not dive too steeply. If I launched at
+higher trim, it was possible the X-15 might hang momentarily beneath
+the wing, bumping against the mating pylon or the B-52 engine pods.
+Chase pilot Bob White, flying just off my wingtip, confirmed the trim
+change by radio.
+
+I waited, my eyes alternating between the gauges and the handle of
+the clock. In the last few seconds, I prayed. My extremely sensitive
+tape recorder picked up the movement of my vocal chords, but not the
+words. I said: “God. Please help me make this a good one. Please
+don’t let me let these people down.”
+
+Bock called a brief countdown, unkeying his mike between each number
+in case I wanted to break in and say “no drop.”
+
+“Three” ... “Two” ... “One” ...
+
+“DROP.”
+
+Inside the streamlined pylon, a hydraulic ram disengaged the three
+heavy shackles from the upper fuselage of the X-15. They were so
+arranged that all released simultaneously, and if one failed they all
+failed. The impact of the release was clearly audible in the X-15
+cockpit. I heard a loud “kerchunk.”
+
+The X-15 hung in its familiar place beneath the pylon for a split
+second. Then the nose dipped sharply down and to the right more
+rapidly than I anticipated. The B-52, so long my constant companion,
+was gone. The X-15 and I were alone in the air and flying at 500
+miles an hour. In less than five minutes I would be on the ground.
+
+My flight plan called for me to make a huge “S” turn in the sky,
+spiraling down toward Rogers Dry Lake. It was designed to provide me
+with a wide margin for error. Should the glide calculations be wrong,
+I could vary the S turn to correct the error and land where I wanted
+to on the lake. The glide-path was laid out over an uninhabited area,
+so the airplane was no hazard to the lives of people on the ground.
+
+There was much to do in the first hundred seconds of flight. First
+I had to get the “feel” of the airplane, to make certain it was
+trimmed out for the landing just as any pilot trims an airplane after
+take-off or in flight as passengers move about or when dwindling
+fuel shifts the center of gravity. Then I had to pull the nose up,
+with and without flaps, to feel out the stall characteristics, so
+that I would know how she might behave at touchdown speeds. Her
+characteristics had been calculated on machines, and of course I
+had “flown” the simulator a thousand times or more, both at North
+American and in the Navy’s Johnsville centrifuge. I had also made
+many low L over D landings in the F-100 and F-104, with engine
+idling, wheels down, and dive brakes extended. But these amounted,
+all in all, only to an approximation of the real thing.
+
+The real thing, as it developed immediately, wasn’t such a challenge.
+Our engineering was sound. The X-15 is not the easiest airplane in
+the world to fly, but she responded as we expected. Sensitive in
+roll because of her shape, sensitive in pitch because of the damper
+failure, but even as a heavy glider spirited to the touch of control,
+responsive, and high-strung. Not designed to mush around at low
+speeds, she still handled like a champion.
+
+Falling down and to the right, I moved the sidearm control gently
+to bring the X-15 to level flight. The response was remarkable. The
+plane porpoised through a huge oscillation, hanging on its side. I
+again moved the control arm gently. At 36,000 feet, after a drop of
+1,400 feet, the tiger leveled out and the nose held steady.
+
+I put the plane in a shallow dive. Having lost the momentum of the
+launch, it slowed from 500 to 400 to 300 miles an hour. When I
+pulled the nose up, the speed dropped even lower. I performed these
+maneuvers with extreme care, tentatively, so as not to offend her
+lest she bite back as so many others have and become unmanageable.
+The three chase planes were having no difficulty in keeping up at
+my ever-decreasing speed and altitude, and they hung in close. The
+radio circuit was dead silent. Except for the roar of the ventilation
+blowers, there was a tomb-like silence in the cockpit.
+
+Now at about 30,000 feet and three minutes from touchdown, I
+simulated a landing. I pushed the nose down sharply until my speed
+had picked up to 300 miles an hour. I lowered the flaps. The nose
+rose slightly, but the ship did not buffet as it did when we lowered
+the flaps while mated to the B-52. Satisfied, I raised the flaps and
+put the ship into a steep descending turn, aiming for the broad lake
+bed. My altimeter unwound dizzily: from 24,000 to 13,000 feet in less
+than forty seconds.
+
+I knew that the men on the ground--Stormy, Feltz, Q.C., Sam, and the
+others--were holding their breath, waiting in nearly indescribable
+anguish for some word. My mind was too busy trying to learn about
+this ship, planning for the touchdown, now less than a hundred
+seconds away, to think of some way to put them at ease, tell them we
+had a winner, and still not stick my now proud and cocky neck out.
+What came out was this: “I’d like to try a roll,” the words Yeager
+had uttered on his first X-1 flight.
+
+Passing over the Edwards skeet range at about 6,000 feet, I touched
+off the ballistic charge which blew off the ventral fin. It fell away
+as predicted, and a small parachute deployed, lowering it gently to
+the ground. Chase pilot White reported: “Ventral away.” The desert
+was coming up fast. At 600 feet altitude I flared out.
+
+I lined up for my approach, sighting along the three black strips
+painted on the desert dry lake. Then, for the first time, I noticed
+a peculiar distortion caused by the fact that I was looking through
+three panes of glass: the helmet visor and the double-layer X-15
+windshield. I knew the black lines on the lake bed were parallel.
+From my position in the cockpit they now seemed to spread out in a
+large V. It was not a serious matter, but one I had to adjust to
+quickly. The distortion might affect my depth perception and cause a
+rough touchdown.
+
+In the next second without warning the nose of the X-15 pitched
+up sharply. It was a maneuver that had not been predicted by the
+computers, an uncharted area which the X-15 was designed to explore.
+I was frankly caught off guard. Quickly I applied corrective elevator
+control.
+
+The nose came down sharply. But instead of leveling out, it tucked
+down. I applied reverse control. The nose came up but much too far.
+Now the nose was rising and falling like the bow of a skiff in a
+heavy sea. Although I was putting in maximum control I could not
+subdue the motions. The X-15 was porpoising wildly, sinking toward
+the desert at 200 miles an hour. I would have to land at the bottom
+of an oscillation, timed perfectly; otherwise, I knew, I would break
+the bird. I lowered the flaps and gear.
+
+My mind was almost completely absorbed in the tremendous task of
+saving the X-15, of getting it on the ground in one piece. But I
+could not push back a terrible thought that was forming. _Something
+was dreadfully wrong. We had pulled a tremendous goof. The X-15 in
+spite of all our sweat and study, our attempt at perfection, had
+become completely unstable._ Somewhere along the line we or one of
+our machines had made an unbelievable miscalculation. Four years of
+work, ten million engineering man-hours, 120 million dollars, and our
+machine from a stability standpoint was less satisfactory than the
+man-killing X-2.
+
+My speed dropped below 200 miles an hour. In the middle of a wild
+oscillation I tried to grind the two rear skids into the lake bed.
+But apparently the windshield confused me. I missed the ground by a
+good four feet, pumping in more control as the nose started to rise
+again. For minimum strain on the tail skids and nose wheel we had
+calculated ideal X-15 landing speed to be 210 miles an hour. I was
+already down to 170 miles an hour. The X-15 would soon not fly at all
+and would fall toward the ground like a brick. In my mind’s eye I
+could see the final picture: a big ball of Inconel X.
+
+Now I was half a mile beyond my intended touchdown point and drifting
+off to the right toward a rough spot on the lake. Instinctively I
+pumped in a little left rudder control to get back on the marked
+landing strip. With the next dip I had one last chance and flared
+again to ease the descent. At that moment the rear skids caught on
+the desert floor and the nose slammed over, cushioned by the nose
+wheel. The X-15 skidded 5,000 feet across the lake, throwing up an
+enormous rooster-tail of dust. The emergency helicopter swooshed down
+and landed alongside the ship. A long caravan of emergency trucks
+roared out from the sidelines. I sat in the cockpit, canopy still
+closed, engulfed in disappointment.
+
+ * * * * *
+
+“Stormy,” I said, “something is radically wrong.” Stormy had driven
+out to the airplane and snatched me away before the press arrived. We
+were tearing across the lake at seventy miles an hour in a company
+car headed for Captain Richardson’s van. I had given Stormy a quick
+run-down on the landing.
+
+“That airplane _can’t_ be unstable,” Stormy said.
+
+He was right, of course. I had jumped to the wrong conclusion. Others
+did too, blaming the instability on the sidearm control. But these
+critics were wrong. In the days following we carefully analyzed the
+recorded data and found out what really happened.
+
+The control system in the X-15 is quite similar to the power steering
+in a car. The pilot makes a control motion, but hydraulic pressure
+supplies the “muscle,” does the work, and moves the control surface,
+just as the power boost in the car turns the wheels. This hydraulic
+pressure operates the flight controls and the flaps.
+
+Given limitless space and weight, it is no problem to design a
+hydraulic system which can perform almost any job on the airplane,
+and if necessary, all jobs simultaneously. However, the hydraulic
+pump in the X-15, like all the other equipment, was a carefully
+calculated compromise from the weight standpoint. It was not
+limitless in power. It could not do everything at once; nor did it do
+one assigned task fast enough.
+
+One result was that when the pilot pumped in a motion on the stick,
+the control surfaces were slow in responding. Years earlier I had
+run up a warning flag in this area; in fact, I had _demanded_ a
+faster control response. However, since it is pretty hard before
+flight test for a pilot to support his opinions against simulators
+and calculations, and because my demands meant more weight, we had
+settled on low-control response, thinking we could live with it. This
+had almost done us in.
+
+When the X-15 nose pitched on landing, I had instantly applied
+corrective control. The hydraulic “muscle,” then also working to
+lower the flaps, fell behind and then overshot trying to catch up.
+As a result, the controls were doing one thing and I another. In
+an effort to regain control of the porpoising airplane, I pumped in
+full up-and-down control, in effect chasing back and forth from one
+extreme to the other, and by great luck or possibly intuition, struck
+some kind of crude balance, bringing the ship safely to earth. Had
+our bird been an unmanned missile, I’m certain it would have been
+destroyed. But for future operations we knew the pilot couldn’t live
+with that slow control response: the X-15 landing was difficult
+enough. The pilot _had_ to have absolute and positive control of the
+airplane.
+
+By the simple expedient of adjusting a valve, to borrow power, in
+effect, from other places in the ship, we increased the control rate
+upward to more like my original request. Thereafter, we never again
+experienced the porpoising motion, either in the air or at touchdown,
+with center and sidearm control.
+
+X-15 number one, which had been used on these five pioneering
+flights, was pulled out of action so that the engineers could make
+many minor fixes that were long overdue. We then turned to X-15
+number two, the airplane designated for the first rocket-powered
+flights.
+
+
+
+
+CHAPTER 38 ►
+
+ “_She Blew Sky High_”
+
+
+X-15 number two, identical in appearance with X-15 number one, was
+anchored to the concrete ramp in the engine-test area. Her fuel
+tanks were brimming. In the big forward tank there were four tons of
+liquid oxygen, so cold that a thick coating of ice had formed on the
+outside fuselage and all the machinery in the vicinity of the tank
+had chilled. In the after tank there were five tons of a mixture
+of water and alcohol or, as we called it, “Walc,” a very volatile
+liquid. Altogether, then, nine tons of liquid energy, the fantastic
+stuff that would propel the X-15 through the air faster than man had
+ever flown.
+
+Wearing street clothes, I climbed into the cockpit to begin the
+practice engine test, a simulated launch and engine run just as it
+would take place in the air. The men who had fueled the X-15 moved
+back their big tank trucks. The specialists on the propulsion system
+grouped at a distance and talked to me by radio from Sam’s van. Q. C.
+Harvey manned his post in the North American tower two miles away.
+
+I quickly ran through the familiar pre-launch routine: APU start,
+shift to X-15 power, and so on. Now for the first time I added to
+this routine the involved rocket-engine start procedure.
+
+First I turned a switch which touched off a flow of nitrogen gas
+through all the fuel lines. This was a safety measure to purge fuel
+which might ignite prematurely in the lines and cause an explosion.
+Next I pressurized the big Lox and Walc tanks with helium gas to
+force the fuel through the lines aft to the rocket-engine pumps.
+
+The helium is stored in a cylindrical tank surrounded by the Lox
+tank. We purposely put it there to keep it as cold as possible. By
+cooling the helium we can store almost three times as much in the
+same size cylinder, or cut down on the size of the cylinder and save
+weight. The regulator valve which adjusts the gas flow from helium
+tank to the fuel and Lox tanks is a fantastically sensitive device
+which operates at a temperature of minus 300 degrees Fahrenheit. The
+pressure inside the helium tank is 3,600 pounds per square inch; the
+regulator reduces this to a mere fifty pounds per square inch, which
+is all we need to get the fuel moving aft. The regulator had already
+caused a lot of trouble. It would cause much more in the future.
+
+The X-15 is designed to land empty of fuel. If something goes
+wrong--if the engine should fail to start--it is absolutely necessary
+to get rid of the nine tons of fuel weight. Like other rocket
+airplanes, the X-15 is equipped with a fuel jettison system. This
+is carefully arranged so that both tanks exhaust fuel at about the
+same rate. If one tank emptied too far ahead of the other, it would
+throw the X-15 out of balance and possibly into a flight attitude
+from which the pilot could not recover. There is a control mounted
+in the cockpit to adjust the flow-rate for each tank. Before the
+launch, before lighting off the engine, we always check the jettison
+system to make sure it is not clogged or frozen shut. (Every time
+I jettisoned the Walc, I could not help feeling a twinge. I was
+throwing away 6,000 fifths of pure vodka that some unimaginative
+temperate had contaminated to prevent useful consumption other than
+in rocket engines.)
+
+At launch altitude of 38,000 feet, where the air temperature is
+about minus 60 degrees Fahrenheit, the rocket engine and pumps are
+very cold just prior to launch. If we ignite the engine cold there
+is danger of erratic and rough starts or malfunction. Thus just
+prior to launch, the pilot must turn a switch which allows a trickle
+of hydrogen peroxide to flow through the engine pump gas generator,
+warming it up or, as we say, “pre-heating.” Thirty seconds or so
+before launch the pilot “primes” the engine with a burst of Lox and
+fuel. The prime is dumped overboard so it can be checked visually by
+the chase pilots. The purpose of the prime is to make certain the
+fuel and Lox lines are full--right up to the rocket-engine fuel pump
+which sucks the fuel from the tanks and forces it into the burning
+chamber at a tremendous rate.
+
+Now on the ground as I went through these procedures, the outside
+observers reported: “Prime looks good.”
+
+Simulating a drop from the mother plane, I then ran my hand across
+eight toggle switches on the left side of the X-15 cockpit, igniting
+each of the eight barrels of the rocket engine. They roared to life
+with a noise that could be heard for twenty miles across the desert.
+
+A long blast of rocket exhaust--flame, fire, and smoke--spewed from
+the rear of the X-15. The little ship strained against its ground
+moorings. One barrel of the engine ignited improperly and, as
+designed, automatically shut down. The other seven blazed on, gulping
+the fuel at the rate of two and a half tons a minute. Then after 250
+seconds, fuel exhausted, the seven barrels “blew out” or stopped,
+making a “pop-pop-pop-pop-pop” sound. The ground crew moved in to
+check the results.
+
+ * * * * *
+
+The ground tests on the X-15 rocket engines, supposedly reliable X-1
+types with a great backlog of experience, revealed many surprising
+weaknesses and faults. It might have been a case of familiarity
+breeding contempt. Or perhaps the experts who had originally designed
+and wrung out these engines had moved on to other fields, leaving
+behind personnel lacking their genius. There were many difficulties
+too in the X-15’s infinitely complicated tankage and fuel plumbing
+system.
+
+The regulator valve on the Lox tank is one good example. That
+extremely sensitive piece of equipment was tested in the laboratory
+at least ten thousand times. Yet when we put it in the airplane, it
+failed again and again. Each time it failed, the ground crews had to
+tear into the airplane to get inside and replace it.
+
+The tale of woe with this single valve would make a book in itself.
+Charlie Feltz, Bud Benner, and John Gibb, his assistant, stayed up
+around the clock many nights, almost hand-building and testing new
+regulators. Then, like some priceless set of jewels, these were
+carried to Edwards by hand and installed in the airplane--only to
+fail again at the crucial moment. Before long, Stormy entered the
+picture. He and the engineers redesigned the valve a dozen times. I
+don’t think any valve in the history of the world received so much
+high-level probing, so much laboratory testing, so much money and
+engineering man-hours. This single item had to be perfect. A failure
+could cause a catastrophe in the air and wash out the whole X-15
+program.
+
+Slowly--all too slowly for my money--our complex bird was gaining
+in reliability, inching ahead toward the pay-off point. Her story
+was accumulating in tens of thousands of pieces of paper--reports,
+work change-orders, engineering analyses, written by hundreds of
+people. Our ground crews, feeling their way with this strange tiger
+and her dangerous fluids, grew in maturity and experience. Where
+once they resembled a platoon of raw recruits, they now worked with
+carrier-deck efficiency and enthusiasm.
+
+But men are fallible. They can’t think of everything. Somewhere an
+obscure mistake was made, and the consequences were nearly disastrous.
+
+After a ground engine run one day, I hurried to my Bonanza and flew
+back to the plant in Los Angeles. When I landed, one of the company
+guards came up to me and said:
+
+“Is it a total loss?”
+
+“Is what a total loss?” I asked.
+
+“The X-15. Didn’t you hear? She blew sky high.”
+
+I raced for a telephone and put through a call to Q. C. Harvey, my
+mind spinning with anxiety and apprehension. Q.C. got on the phone
+and rattled off the awful story.
+
+After I had left, the ground crew began grooming the X-15 for
+her next test. Part of this routine called for purging the
+hydrogen-peroxide lines of all residual liquid. This was usually
+accomplished by connecting a nitrogen gas hose to a fitting on the
+outside of the X-15 and blowing gas through the plumbing. Despite
+careful procedures and great caution the hose used for this had
+a residue of oil, doubtless left there a long time back when it
+was tested in some remote factory. When the mechanic applied gas
+pressure to the hose, the film of oil was forced into the X-15
+hydrogen-peroxide lines. When these two hostile chemicals met, a
+violent explosion was set off. Fire raced through the engine bay of
+the airplane.
+
+The firemen at Edwards rushed to the X-15. By then the ship was
+an inferno of flame and white smoke, reminiscent of the Queenie
+explosion. They put out the fire, but not before it inflicted severe
+damage in the engine bay. The fire gutted the rear end of the
+airplane. When the peroxide blew, one of the X-15 crewmen was badly
+burned. If he had been standing two feet closer, he would probably
+have been killed.
+
+It took weeks to repair the airplane.
+
+ * * * * *
+
+24 July, 1959. Forty-six days since my first glide flight in the
+X-15. The fire damage in X-15 number two had been repaired. The
+rocket engine had been tested on the ground several more times. The
+Lox tank helium regulator had been redesigned and replaced almost
+daily. Now we were nearing the second big milestone: a powered flight.
+
+But before this could take place there were many more pieces to fit
+into our technological puzzle. X-15 number two had not yet been
+aloft. No X-15 had yet been aloft with fuel on board.
+
+Uppermost on the list of items to check was the B-52 Lox top-off
+system. As previously related, unstable Lox “boils” away at a fast
+rate at high altitude. As much as 600 pounds an hour of the X-15’s
+four tons of Lox evaporates through the tank vents. This loss could
+throw the ship seriously out of balance at launch time. A Lox loss
+also reduces the rocket-engine running time.
+
+The B-52 Lox top-off system is a highly sophisticated piece of
+machinery, far advanced over anything installed previously in
+mother planes at Edwards. A complicated pressure system moves the
+Lox from two huge storage tanks in the B-52 belly, through pipes in
+the B-52 wing, down into the X-15 mating pylon, and then into the
+X-15 Lox tank itself. A probe in the X-15 Lox tank “senses” when the
+Lox supply drops and automatically relays this “word” to the B-52
+storage tank pumping system. Then the B-52 Lox valves go into action,
+refilling the X-15 Lox tank. In theory, this system is supposed to
+keep the X-15 brimming with Lox all during the climb and the flight
+to launch point. The system had been checked on the ground and in
+flight many times, although never with an X-15 mounted on the B-52
+pylon in flight.
+
+I boarded the X-15 at 0830. The ship with its load of Lox was
+like some massive deep-freeze. I noticed, for example, that the
+temperature of the hydraulic oil in the control system was minus
+80 degrees Fahrenheit. We had anticipated that. We would have to
+watch this carefully. If it completely froze in flight, it would be
+impossible to operate the X-15 control system. I droned off the gauge
+readings into my tape recorder. Then I received news from the ground
+crew that there would be a two-hour “hold” in take-off. Some seal,
+sensitive to the intense cold, had failed at the last minute.
+
+The take-off delay seemed interminable. When at last the ground crews
+finished repairing the faulty piece of X-15 equipment, a baffling
+new problem arose. In the repair process the mechanics had removed
+an access door on the ship, a piece of the fuselage skin. The X-15,
+influenced by its freezing load of Lox, had shrunk considerably in
+size. The access door, lying in the hot desert sun, had expanded to
+its normal size. Now it wouldn’t fit back in its original place. We
+couldn’t go up without it. What to do? Five hundred people wondered.
+
+It was one of the X-15 crewmen, Joe Jingle, who provided an ingenious
+solution. He hurriedly soaked the access door in a bucket of liquid
+nitrogen until it shrank enough to fit back in place. As I watched
+this operation from the cockpit--Joe’s gloves were too thin for
+the intense cold and I knew he was suffering--I was filled with
+admiration. Our team was becoming truly professional.
+
+Charlie Bock poised the B-52 and its precious load at the end of the
+runway. We were now much heavier. The Lox in the B-52 storage tanks
+and the fuel and Lox in the X-15 had upped the B-52 gross take-off
+weight by almost twenty tons, including the extra B-52 jet fuel
+required to operate the heavier airplane. The X-15 alone weighed
+32,215 pounds, or about the same as a heavily loaded DC-3. Bock
+cobbed the engines. It was a long run. We broke ground at 11,500 feet.
+
+The X-15 and its jewel-like machinery underwent an amazing
+kaleidoscope of temperature ranges. On the ground the little ship was
+intensely cold. Now as we flew through the hot desert air, it began
+to warm up. The hydraulic temperature zoomed from minus 80 degrees
+to plus two degrees Fahrenheit. Then as we climbed in the thinner,
+colder air, the temperatures fell again to well below zero. I kept an
+almost continuous log of these temperatures. It was important to know
+just how the X-15 responded. If we overlooked the possibility of a
+frozen valve, it could result in serious trouble and more delay.
+
+Bill Berkowitz in the B-52 reported by radio: “The Lox top-off system
+is erratic.” Bill was watching a panel of gauges and lights in the
+B-52 which continuously kept tab on the stream of Lox flowing from
+the B-52 to the X-15 tank. The lights had signaled a malfunction.
+Bill shifted from one B-52 Lox storage tank to the other. But it was
+no use.
+
+“I have no indications here of a top-off,” I reported.
+
+Something had gone haywire in that sophisticated, vital piece of
+machinery. I would have to stay on guard. The X-15 Lox was boiling
+away rapidly, imbalancing the airplane. If we had an emergency
+launch--always a possibility--I would have my hands full. The system
+was intensely cold, it was mechanical, it was electrical, it was new,
+Murphy’s Law prevailed: “If it can fail, it will.” (Murphy’s Law, the
+enigma of designers, is in engineering lore akin to the natural laws
+referred to by Robert Louis Stevenson when he speaks of a piece of
+dropped toast which always falls buttered side down, and of assuring
+sunshine by wearing a raincoat.) We never really got used to this
+tarnish on our most hopeful engineering.
+
+There followed a half hour of diligent test and search for the
+trouble. The top-off system was clearly on the blink. Berkowitz tried
+to prove top-off by looking through the closed-circuit television set
+beamed on the X-15. But we were not in a TV studio. The expensive set
+was not discriminating enough to tell him what was happening at the
+overboard spill on top of the X-15 fuselage. We later got around the
+inadequacy of the TV circuit by installing a hemispherical window in
+the side of the B-52 so Bill could look with his own eyes.
+
+Following this, we turned to other drills in the sky. As usual,
+we proceeded to a launch rehearsal, this time including the
+rocket-engine pre-start routine. I pressurized the X-15 fuel and Lox
+tanks and for once--or so it seemed--the helium regulator performed
+as designed, or as redesigned. At one minute before “Launch” I shut
+down the propulsion system. Then to see how long it would take to
+get rid of the X-15 propellants at altitude, I jettisoned the six
+hundred pounds of hydrogen peroxide, four tons of Lox, and five tons
+of Walc. The peroxide streamed away in 140 seconds. The Lox and Walc
+tanks, jettisoned simultaneously, ran dry in 110 seconds, leaving a
+long white contrail across the deep blue sky. The jettison times were
+exactly right. If the X-15 pilot encountered trouble after launch he
+would be mighty busy, but we knew he could dispose of nine tons of
+fuel before the ship touched down dead-stick on the lake.
+
+With the exception of the B-52 Lox top-off failure, we considered the
+flight a whopping success. The X-15 had weathered its temperature
+extremes without difficulty. The pressure suit, the APUs, operated
+for the first time in _this_ airplane at altitude, the engine-start
+rehearsal and other checks were entirely satisfactory. The fact that
+the helium tank regulator worked was a reward for Gibb’s sleepless
+nights. In short, once the Lox top-off system had been debugged, the
+bird was ready for powered flight.
+
+In spite of these setbacks, inevitable in a craft so advanced as
+the X-15, we were on schedule. Four years before this--in the early
+fall of 1955--North American promised delivery of a debugged X-15
+airplane to NASA by August of 1959. Even including a thousand or more
+changes from the original concept, including a major shift of mother
+ship, and a switch to the interim engine, we believed then that we
+would meet this schedule. We would get off one powered flight to make
+some of our demonstrations and then turn an X-15 over to NASA. The
+agency was eager, although it seemed to me that the line of volunteer
+X-15 pilots was beginning to thin out considerably. Bob White and
+Joe Walker and their “back-ups” were still in there pitching, flying
+chase on most of our flights. However, we noted there was no great
+rush of new applicants.
+
+ * * * * *
+
+We failed to meet our four-year-old X-15 schedule. August, 1959, came
+and went without a successful powered-flight demonstration and we
+were not able to deliver an airplane to NASA. It took much time to
+repair the balky B-52 Lox top-off system and to install an emergency
+by-pass in case it failed again. The little ship itself suddenly
+developed a hundred minor leaks and pains, each requiring thousands
+of agonizing man-hours to rectify. The weeks ticked by at an alarming
+rate. Finally on September 4 the X-15 was mated, fueled, and ready.
+If all went well on the flight I would drop and fire off the rocket
+engine.
+
+Because our tight schedule had “slipped” by a week, we prepared
+for this climactic flight with a growing sense of urgency. All
+hands worked and talked as though they were Marines on the verge of
+invading a beach-head. On the night before the flight I stayed up
+late in the BOQ memorizing the flight plan. We wanted to collect data
+readings at about forty different combinations of speed, altitude,
+and angle of attack during the flight. After I fell away from the
+B-52, there wouldn’t be time to consult the flight plan.
+
+I arrived at Captain Richardson’s van at 0540, put on the pressure
+suit, and checked its systems. By 0625 I was strapped in the X-15
+cockpit. At 0717 the B-52 took off, climbing slowly to launch
+altitude. I kept a sharp eye on the gauges, although I was blinded
+somewhat by the early morning sun, and droned the numbers into
+my portable tape recorder. The B-52 Lox top-off system performed
+adequately. As we approached this dramatic moment in X-15 history, we
+joshed on the radio.
+
+“Say,” Charlie Bock called out, “looks like they have a heavy
+overcast down in Los Angeles. Scotty, you want to make an instrument
+approach in the bird into Los Angeles International Airport?”
+
+“I don’t have a glide-path indicator in here,” I said.
+
+“You might create something of a new noise problem with that engine.
+Everybody would move away from the airport,” Bock said.
+
+We climbed to launch point.
+
+“Seven minutes to drop,” Charlie Bock said. We had reached 38,000
+feet, heading southwest, to make a final turn over Randsburg. Then
+we would aim for Mojave, swing over Lancaster, and if all went well
+launch over Rosamond Dry Lake. I was busy flicking switches in the
+X-15 cockpit. I made a note on the tape recorder: “The black gloves
+may look fine with the silver suit, but they have to go. They soak up
+the bright high-altitude sunlight and they’re uncomfortably warm.”
+
+Q. C. Harvey wanted to make certain the Lox top-off was complete. He
+broke in from the ground: “Hold at seven minutes.”
+
+We waited, boring holes in the sky, while Bill Berkowitz checked to
+see if the top-off was successful. When he reported it was, Q.C.
+“released” us and we proceeded toward the final countdown.
+
+“Five minutes,” Bock announced.
+
+“I’m going to pressurize the Walc and Lox tanks NOW,” I said. I
+emphasized “now” so that we could get the precise time of the
+operation. When I spoke the word I moved the lever that set in motion
+the worrisome Lox tank regulator. Helium gas rushed into the large
+X-15 tanks. I watched the gauges as they swept from zero to 50 pounds
+per square inch in ten seconds. The Lox tank pressure continued up.
+Then I heard a strange, loud clank in the rear of the X-15.
+
+“Oops,” I said on the radio. “What was that?”
+
+The clank came from a safety relief valve on the Lox tank. Too much
+helium gas had rushed into the tank, the pressure was too high, and
+it tripped. The helium regulator had failed again. I swept my eyes
+back to the gauges. The Lox tank read 65 pounds per square inch.
+
+I double-checked with the chase pilots: “Is the Lox venting
+overboard?” There was clearly no possibility of a powered flight
+that day, but I wanted to make certain the safety vent was operating
+properly. If not, the mounting helium pressure could cause the thin
+X-15 tanks to burst. At 38,000 feet, that could be a real mess.
+
+“Affirmative,” chase reported. “Safety vent operating.”
+
+By then I was sure it was operating properly. The vent, in fact, was
+flapping rhythmically, in time with the gauges, which fluctuated as
+the gas pressure built up in the tanks to limits, tripped the safety
+vent, and then fell off again.
+
+“I’m dead,” I reported on the radio. “Regulator is running away.
+Relief vent cycling. Letting out the over-pressure.”
+
+“Abort,” Q.C. responded. I could imagine his disappointment. I know
+because I felt it too. We would have to try again.
+
+We jettisoned the unused fuel--its cost, about $1,000, was a mere
+drop in the bucket--and returned to base. That night, as I recall it,
+we spent several very uncomfortable hours in Stormy’s office. For the
+next three nights Charlie Feltz, Bud Benner, and John Gibb slept not
+at all. They spread their time between the Manufacturing Division and
+the Testing Laboratory, hand-carrying the handbuilt helium regulators.
+
+ * * * * *
+
+There was a new and urgent reason for reaching X-15 flight perfection
+at the earliest possible date. Almost casually the U. S. had drifted
+to a major turning point in its history of aviation and national
+defense. Guided missiles were pushing the manned combat aircraft to
+the side. The missile zealots in their eagerness to obtain funds had
+convinced the powers that be in Washington that the manned aircraft
+was an obsolete concept. Anti-aircraft missiles, such as the Nike
+and Bomarc, could do the job of the manned fighter in defending the
+nation against air attack, they claimed. Surface-to-surface ballistic
+missiles, such as Atlas, Titan, and Polaris, could replace the manned
+combat aircraft for the retaliatory mission.
+
+All of us, of course, believed in missiles. Few could deny that they
+would ultimately become a dominant weapon in the deterrent force.
+But we believed this day was still a long way off and, moreover,
+that there would always be a place for the manned combat aircraft.
+Manned airplanes are flexible. They can be moved about or dispersed
+quite simply, or shifted in flight from one target to the next,
+or assigned to several targets. If there is an alert, they can be
+launched and, more important, recalled, if it should all turn out
+to be a mistake. Airplanes can approach the enemy’s borders from a
+wide range of points on the compass at a variety of altitudes, vastly
+confusing the enemy radar warning and interception system. The simple
+fact of having manned combat airplanes in our inventory forces the
+enemy to take tremendously expensive countermeasures to prepare a
+defense against them. Manned aircraft are fundamentally more reliable
+mechanically than missiles, and they can be repaired without total
+loss if something goes wrong. (This we had demonstrated again and
+again in the X-15.) By building military airplanes we keep the art
+of aviation alive in this country and enable the nation to compete
+and prepare for the fantastic future already being revealed on the
+technical horizon.
+
+In the industry we had noticed the drift a long time ago. I first
+picked it up in 1954 during the meeting of the old NACA Aerodynamics
+Subcommittee when the X-15 was under discussion. Since then, the
+number of Air Force planes on order and types under development
+shrank rapidly. As I have related, by the time we began the X-15
+flight-test program there were only _two_ advanced combat Air Force
+airplanes on the drawing boards: the F-108 fighter and the B-70
+bomber, both North American designs. In the summer of 1959 as we
+approached the climax of the X-15 flight program, we received the
+stunning news that one of these planes, the F-108, had been canceled
+outright. In the field of Air Force manned combat airplanes for the
+future this left only the B-70, and from what we could ascertain it
+too was in jeopardy.
+
+These fateful decisions were made--over the protests of the Air
+Force and NASA--by men temporarily on loan to the government from
+fields other than aviation. The decisions were made in comfortable
+Washington offices far removed from the reality of Cape Canaveral and
+Edwards and failing helium-regulator valves. That fall we hoped that
+a successful flight of the X-15 might dramatize the validity of the
+manned-aircraft concept and bring about a reconsideration of these
+decisions. All my life I had staked my all to foster and further the
+concept of manned airplanes. Now, with the X-15, we had our last
+chance to make intelligence prevail and I intended to help, even if
+it killed me.
+
+
+
+
+CHAPTER 39 ►
+
+ _The Old Pro_
+
+
+On the morning of September 17 the weather at Edwards was as blustery
+as it usually is in the rainy season in December. There was a heavy
+cloud layer hovering near the edge of the base. The winds on the lake
+bed were gusting to twenty and twenty-five miles an hour. But as I
+have said, landings are my strong point. Crosswinds have never kept
+me on the ground. On that day I don’t think anything could have kept
+me on the ground. “Let’s go,” I said to Stormy and Charlie Feltz.
+
+And we did.
+
+Bock lifted the B-52 off the runway at precisely 0730. Major Bob
+White, Joe Walker, and Al White, the North American X-15 back-up
+pilot, flew chase. Of the forty critical gauges on the X-15 panel,
+only one was out of line. The nitrogen gas supply for the equipment
+that cooled the electronics gear was sagging. When I called the gauge
+readings to Q.C., I deliberately skipped this one. After four years I
+knew intimately the requirements of each system. I had three limiting
+figures in mind: the specification figure, which was conservative;
+our agreed-upon “no go” realistic figure, less conservative, and one
+which Harvey must cancel on; and then I had my own absolute minimum
+that I knew would not endanger the X-15 (after all, the final
+decision is the pilot’s). Today we were going to _fly_.
+
+At 0756 Bill Berkowitz switched on the Lox top-off. This time it did
+not fail. We moved into a launch rehearsal.
+
+Q. C. Harvey spoke from the ground: “Okay--let’s go ahead.”
+
+“We’re in good shape,” I said. We were--all but the coolant nitrogen.
+Charlie Bock called the ten-minute warning. Q.C. reported the cloud
+front holding stationary. The lake bed was clear.
+
+ * * * * *
+
+Watching the creeping rate on the nitrogen pressure, I made up
+my mind we could be committed without hazard. I made last-minute
+preparations to fly, zipping through the lengthy check-list fixed to
+my knee-pad. At six minutes to launch I started the APUs. At five
+minutes to launch I released the pressure to the main tanks. The
+helium regulator worked beautifully. At four minutes to launch I
+checked the jettison system. I started the fuel-line purge and opened
+the main fuel shut-off valves. The pre-heat lights came on green.
+
+Suddenly I heard a familiar--and ominous--clanking. The Lox tank
+safety vent had popped. I thought, here we go again. I sang out
+on the radio: “Hold the phone.” Too much pressure had built up
+in the Lox tank. I held my breath momentarily, watching the Lox
+tank-pressure gauge. It dropped off slowly and the vent reset
+properly. The Lox tank regulator had a slow leak. I timed the
+pressure cycles and decided it was acceptable.
+
+“Okay,” I said. Bock resumed the countdown.
+
+At the one-minute warning we shut off power and oxygen from the
+B-52 and the X-15 was in effect “on its own.” I turned on the
+rocket-engine master switch and started the prime of fuel and Lox
+through the engines. Then I rolled the automatic photorecorders,
+which would keep a concise record of all events in the X-15. Finally
+I flashed the green launch-light for the second time on Bock’s panel.
+
+“Ready to go,” I said.
+
+Bock called the brief countdown: “Three ... Two ... One ... DROP!”
+
+For the second time in eight flights I fell away from the B-52 pylon
+into open sky. My left hand felt the toggle switches which would
+light two barrels of the lower motor. I flicked them as soon as I
+heard the “kerchunk” of the shackles releasing the X-15. In less than
+five seconds my hand moved to the other six toggles, and before I had
+dropped 2,000 feet I was able to report: “Got eight of ’em going.”
+
+On the earlier rocket planes we felt a push, like a gentle kick in
+the rump when we lit the rockets. We would feel a much greater push
+when the 57,000-pound thrust XLR-99 engine was installed. With the
+smaller X-1-type engines, the heavy X-15 responded rather slowly. The
+effect is somewhat like opening the throttle on a jet airplane.
+
+I fell to about 33,000 feet before the rocket took hold and began
+pushing the X-15. I reported: “Going uphill at 33,000.” I added:
+“Looks good across the board.” It _was_ good--even the helium
+pressure, which was still within my absolute limit.
+
+Since the X-15 has no compass and I cannot see the horizon during the
+steep climb, I had to rely on Bock during the first few seconds for
+a steer. He reported I was to his right. The F-104 chase planes were
+now flying wide open. I soon left them in a cloud of vaporish white
+rocket exhaust.
+
+Pushed by the eight flaming barrels the X-15 suddenly became a
+tiny thing of immense power and speed darting across the deep blue
+desert sky. Had it not been for my exhaust trail the observers on
+the ground could not have followed my course except by radar. More
+at ease now after a successful light-off, I directed my attention to
+these questions: Did we have a stable airplane? Was it dangerous or
+difficult to fly? Were the controls now adequate?
+
+It was apparent almost instantly that we had built a beautiful
+airplane. Her nose held straight and firm without the yaw and pitch
+common to most high-performance planes. As I blasted toward the
+heavens I alternated between sidearm control and the center stick,
+pumping in tentative control motions to feel her out. She remained
+sound and stable. Because she is long and slim and has stubby
+wings, she was extremely sensitive when I rolled her. But this we
+had anticipated and it was no surprise. The plane eased through
+the speed of sound imperceptibly with little or none of the usual
+buffet-and-control disturbance.
+
+As I was nearing 50,000 feet I was startled to hear a loud buzzing.
+What could it be? My first thought was that an APU unit was
+vibrating. But a glance at the gauges indicated they were running
+perfectly. It was not until later that I discovered the source of the
+noise. The cockpit of the X-15 is so small that when I lean forward
+to reach some of the controls my helmet wedges in the V-shaped canopy
+glass. The noise I heard was caused by the normal, healthy vibration
+of the X-15 machinery. My helmet, which is a kind of sound chamber,
+magnified this vibration manifold. I called this noise on the radio
+to my subsequent regret. All the vibration experts in the country
+have had a field day trying to solve this one. It would never have
+been noticed had not my helmet touched.
+
+Two minutes after launch I reached 50,000 feet and pushed over in
+level flight. Then I dropped the nose slightly for a speed run,
+meanwhile maneuvering the ship through a series of turns and rolls,
+conscious of the deep rumbling noise of the rocket and a great rush
+of wind on the fuselage. It was obvious the black bird was in her
+element at supersonic speeds. She responded beautifully. I stared in
+fascination at the Mach meter which climbed quickly from 1.5 Mach
+to 1.8 Mach and then effortlessly to my top speed for this flight
+of 2.3 Mach or about 1,500 miles an hour. Then, because I was under
+orders not to take the X-15 wide open, I shut off three of the rocket
+barrels. As I slowed down, I recalled the agony at Edwards many years
+before when we had worked for months pushing, calculating, polishing,
+and who knows what else to achieve Mach 2 in the Skyrocket. Now with
+the X-15 we had reached that speed in three minutes on our first
+powered flight and I had to throttle back.
+
+About four minutes (230 seconds, to be precise) after launch, the
+fuel tanks ran dry and the engines shut down. I got set for the
+fast dead-stick landing. As I swung into a turn to line up with the
+lake, the X-15’s wedge-shaped tail bit the air and the nose turned
+sharply, causing me to comment on the radio: “Very powerful rudders
+on this little baby.”
+
+My altitude was dropping off rapidly. But now, with a total of nine
+or ten minutes flight time in the ship, including the first glide
+flight, I had complete confidence in her. I had probed her weaknesses
+and strengths and knew what would please her or make her angry.
+Routinely I called for a re-check of the winds on the lake bed. A
+comical exchange, no doubt arising from the tension on the ground,
+followed.
+
+Sam Richter, parked on the lake in his van, consulted the readings
+from his anemometer and reported the winds as “four knots.”
+
+At the same moment Edwards tower reported the winds as “eighteen
+knots.”
+
+“Repeat, please,” I said. The lake was growing larger by the second.
+I could see Sam’s van, parked in the row of emergency vehicles. A
+crosswind of four knots was no problem. But a crosswind of eighteen
+knots required sharp attention at touchdown.
+
+Sam came back: “Four, repeat four, knots.”
+
+Edwards tower broke in: “Eighteen, repeat eighteen, knots.”
+
+Then on the radio circuit Sam and the Edwards tower lapsed into a
+debate about the winds. To relieve the mounting tension, I broke in:
+“Sambo, why don’t you stick your head out of the van and see how bad
+the winds are?”
+
+Sam stuck by his four-knot figure. Since he was stationed nearest
+the landing strip, though still several miles away, I accepted
+his estimate and lined up on the north-south runway, disregarding
+crosswinds. By now my chase pilots, Bob White and Joe Walker, had
+found me and were glued to my wingtips.
+
+The winds at Edwards are often very variable and Edwards tower, it
+turned out, had correctly estimated them for my landing area. They
+were very strong from the west. When this fact was established, I
+was advised to shift to the east-west runway. But it was too late.
+The X-15, “gliding like a brick,” was already too close to the
+ground. The men, concerned mainly for my personal safety, were still
+cluttering up the air with their debate. I cut them off sharply:
+
+“I’m committed. Let the chase have the radio.”
+
+During the turn on base leg I droned the readings on the panel
+gauges. I read off the APU bearing temperature as a disastrous 1700
+degrees instead of 170, which is normal. Hearing this on the ground,
+Charlie Feltz nearly fell dead. He shouted at Sam: “Wha’d he say?
+Wha’d he say?” I quickly reassured him.
+
+My speed fell off to 250 miles an hour when I crossed the edge of
+the lake bed and I blew off the ventral fin. Just at that moment I
+thought I heard chase Bob White report his plane had run into the
+fin. This would have been catastrophic.
+
+I was concerned. With only a few seconds remaining before the X-15
+would touch down on the lake, I spoke into the radio: “You fouled the
+tail?”
+
+“No,” White replied. “The chute fouled. It failed to open.” It was a
+minor matter. Anyway, the chute did open a split second later. White
+dutifully reported this fact with the additional comment, “Isn’t that
+nice?”
+
+I was now beginning to feel the strong crosswind. To compensate, I
+aimed the X-15 cross the marked lake-bed runway. My hope was that I
+would drift over between the black lines by touchdown. I commented on
+the radio: “That’s a pretty good crosswind.”
+
+Chase White, who was “talking” me down, said: “Very nice.” As a
+matter of fact, the ship was flying smoothly. There was no sign of
+the violent porpoising I had experienced on the first glide flight.
+I held the nose high and seconds before touchdown, at 200 miles an
+hour, dropped the rear steel skids and nose wheel and flipped the
+flap switch.
+
+Exactly ten minutes from launch by the X-15 clock the skids dug into
+the hard-packed surface and almost instantly the nose fell heavily,
+cushioned by the nose wheel. White repeated: “Very nice.” As we
+skidded along throwing up dust, I joked: “What do you expect from the
+old pro, Daddy-O?”
+
+This comment was typical of the radio repartee of fighter pilots, who
+by nature will admit to no limitations whatever. With God’s help I
+had accomplished my mission as I was sure I would; the X-15 and I had
+not failed our friends, associates or, if you will, the nation. It
+was a great pleasure to confirm this triumph to myself. Involuntarily
+I voiced my feelings on the radio.
+
+At that moment I became aware of a new danger looming in my path.
+The crosswind was stronger than I thought and the ship did not drift
+over onto the marked runway as I expected. I touched down outside
+the right boundary line and skidded at 150 miles an hour directly
+toward a deep drainage ditch about a mile ahead. If I coasted into
+that ditch, I knew that I could very well wipe out the X-15’s landing
+gear or possibly damage the plane more seriously. The old pro, now
+feeling sheepish, pushed hard on the rudder pedal, hit the speed
+brakes, and dropped the elevators full down, desperately trying to
+steer the plane to the left and stop it all at once, to avoid another
+F-100 through the hangar wall. I snapped into the radio: “Hollered
+too soon, didn’t I? I’m going to coast into that ditch.” I thought:
+that’s the way it will always be at Edwards--hero one minute, bum the
+next.
+
+As it turned out, I was only fifty feet off the marks and fortunately
+stopped a hundred yards short of the ditch.
+
+After reporting with relief to Q. C. Harvey, who could no longer
+see the X-15, that everything was okay, I tried to open the canopy,
+but the release was stuck fast. While waiting for the ground crews
+to arrive and let me out, I proceeded with the post-flight chores,
+shutting down various systems and taking final readings. The decision
+on the coolant gas had been right and all systems looked good.
+
+Unknown to me, a new and far more serious crisis was developing
+in the X-15. A pump casing had ruptured. Alcohol was flowing into
+the after engine bay and a furious though not yet visible fire had
+broken out. We later calculated that it started just after I blew the
+ventral, when I was still fifty feet in the air.
+
+Sam Richter and Charlie Feltz arrived with the fire trucks, official
+observers, and ground-support equipment. The crewmen opened the
+canopy from the outside and removed my helmet. I climbed out into the
+stiff desert breeze to meet half a dozen outstretched hands.
+
+Our mutual admiration society was in full flower when Sam spotted
+the fire. Dismayed, we all ran to look. Sam waved the fire trucks
+toward the tail section. The firemen unreeled the hoses and showered
+the tail section with fog. There was still a considerable quantity
+of alcohol on board. The X-15 at that moment was like a bomb with
+a lighted fuse. We chased the official observers back while the
+firemen, with no display of concern for their personal safety, put
+out the fire.
+
+When I got a close look at the rear of the plane I realized again for
+the millionth time over the past twenty years that airplanes are not
+for the impatient. We would have to retrench and try again and again.
+The fire had burned through a large area, melting aluminum tubing,
+fuel lines, valves, and other machinery. Before the X-15 could fly
+again I knew we would have to rebuild the damaged section completely,
+and it would take time.
+
+The fire was one more delay. The plane was built for the specific
+purpose of ferreting out such weaknesses. Our job was to correct
+these weaknesses one by one until an irreducible minimum remained, so
+that we could then move ahead. The X-15 was earning her way showing
+us how to advance. There was a little matter, however, for which we
+could all be thankful; if the alcohol fire had broken out one minute
+earlier, it is quite likely that the X-15 and the pro at the controls
+would have been blown to oblivion.
+
+
+
+
+CHAPTER 40 ►
+
+ _Bad News with the Good_
+
+
+“Coming up on 40,000 feet.”
+
+Jack Allavie in the B-52 called our altitude. It was about fifteen
+minutes before launch, October 10, twenty-three days after the first
+powered flight and the fire, my ninth trip up in the X-15. The rear
+of the ship had been rebuilt in record time; some additional fixes
+had been made on the airplane while it was torn down. A new hydrogen
+peroxide tank had been installed.
+
+There were two new faces in the B-52 crew. Charlie Bock was off to
+Fort Worth, Texas, to help conduct experimental flight tests on
+Convair’s B-58 Hustler bomber, then undergoing its final shake-down.
+The B-52 co-pilot, Jack Allavie, moved over to the left-hand seat.
+Fitz Fulton, a long-time Edwards mother-plane and chase pilot, got
+the right-hand seat. This was Fulton’s third tour at Edwards. He had
+launched Yeager, Everest, Murray, Crossfield, Kincheloe, and Mel Apt,
+among others.
+
+The North American launch-panel operator in the B-52, Bill Berkowitz,
+bowed out of the flight-test program. One reason was that he was not
+able to get adequate life insurance to protect his wife and growing
+family. My old friend and cohort from NACA Skyrocket days, Jack
+Moise, the lad who was sprayed by hydrogen peroxide on the day of my
+record Mach 2 flight in 1953, took Bill’s place.
+
+I admired Moise. He was a go-getter, a short man with a swarthy
+complexion and a cool, even disposition in the air. As an NACA hand,
+Moise pulled Joe Walker out of the burning X-1-A at 30,000 feet just
+before they threw it away. For this he was given a citation praising
+his courage, and a near-absolute guarantee that he would never be
+fired from the government, no matter what turn his life might take.
+But he decided to forego this big chunk of security to join the X-15
+team. We were glad to have him. With Moise and Fulton in the B-52 it
+was like Old Home Week.
+
+Moise was then struggling with the B-52 Lox top-off panel. “I can’t
+pressurize the B-52 Lox tank,” he reported. “Something is wrong.”
+
+Murphy’s Law? Not again, I thought, not on Moise’s and Fulton’s first
+flight.
+
+“I’ve tried the emergency by-pass,” Moise reported. “Tank pressure
+will not rise.” The critical Lox had stopped flowing to the X-15
+tank, unbalancing the airplane. There was nothing Moise could do. We
+were finished.
+
+“Abort,” Q.C. announced with stark finality.
+
+ * * * * *
+
+It was October 14, my tenth flight in the X-15, my fifteenth hour
+airborne in my nest beneath the B-52 wing. After the Lox top-off
+failure the ground crews had prepared the ship for flight in the
+amazingly brief time of four days. We were ready.
+
+When we passed 35,000 feet, the X-15 ram-air door open, the
+full-pressure suit came into play, holding the flesh of my body in
+a glove-like grip. At 41,000 feet I strained forward to close the
+ram-air door so that the cabin pressure would build to its normal
+level of 35,000 feet and relieve the pressure in the suit.
+
+When I closed the ram-air door the nitrogen gas, as designed, built
+up in the cockpit at a rapid rate. The cockpit “altitude” dropped to
+35,000 feet and the pressure suit relaxed. Allavie and Fulton steered
+the mother plane toward launch point. My eyes swept back and forth
+across the instrument panel, routinely checking gauges. I noted then
+that the cockpit altitude was falling rapidly. It was down to 30,000
+feet. Something was wrong. There was a regulator in the cockpit which
+was supposed to allow the flowing nitrogen gas to escape, maintaining
+a constant 35,000-foot altitude in the cockpit.
+
+I kept my eye fixed on the cockpit pressure gauge. As the nitrogen
+built up inside the cockpit, the altitude dropped to 29,000, then to
+25,000 and below. We were courting possible disaster. As the cabin
+altitude dropped toward an earth-like level, it became far more dense
+than the thin air outside the plane at 41,000 feet. If the difference
+became too great, I knew that the dense gas inside, seeking to
+equalize the pressure to the thin air outside, would cause the
+cockpit to explode for the same reason that an over-inflated rubber
+balloon pops. I opened the ram-air door to relieve the pressure.
+
+“Delay the countdown,” I radioed, asking Jack Allavie to circle the
+B-52. Then I added: “Hey, Q.C., I’ve got something bothering me.
+The cabin goes from 41,000 down through 20,000 and I don’t dare let
+it go any further because it’ll bust it. There’s too big a pressure
+difference here.”
+
+Q.C. consulted his team of experts and relayed some technical
+suggestions. I recycled the pressurization and asked Allavie to make
+another turn.
+
+“Oh, boy!” I radioed. “That thing pressurizes like mad. I don’t
+dare let it go below 20,000 feet, do I? Let’s think about this a
+minute.” I was very much concerned. A cockpit explosion of the X-15
+could inflict irreparable damage on the X-15 and her pilot and very
+probably drastically damage the mother plane. I recycled the system,
+again to no avail. I knew then, once again, we were finished. I had
+planned to fly the ship to 60,000 or 70,000 feet. With the cabin
+pressure on the blink this was out of the question.
+
+“Abort,” I radioed.
+
+Later on the ground we discovered that somehow moisture had
+accumulated in the cabin regulator and frozen it shut. One more
+pre-flight item to check was added to the growing list.
+
+ * * * * *
+
+“One minute to drop,” Jack Allavie intoned.
+
+“X-15 oxygen ON,” I said. Then: “Data burst.”
+
+It was October 17. The X-15 ground crew had shattered its own
+record: it had made the ship ready for flight in three days. It was
+a beautiful fall day in the desert. The sky was deep blue and clear.
+Far to the north of us a few feathers of wispy cirrus reached toward
+the heavens. In the X-15 cockpit all gauges were in the green.
+
+“40 seconds.”
+
+“Engine master switch ON.”
+
+“Both primes coming on NOW.”
+
+“Five. Four. Three. Two. One.”
+
+“DROP.”
+
+“Kerchunk.” And for the third time the X-15 fell away from the B-52.
+My left hand was resting on two of the rocket-barrel switches. As
+soon as I heard the shackles rattle, I flicked the switches. Then my
+hand moved rapidly to the other six. Within five seconds all eight
+barrels were running wide open.
+
+An amber light flashed on near my knee. It was the roll damper, the
+automatic device which would help stabilize in roll, help to prevent
+severe, unexpected, or violent roll. It was out. No matter. I would
+simply be careful in roll control.
+
+“Roll damper out,” I said.
+
+The ship felt a little sluggish. I missed the powerful punch of the
+Skyrocket.
+
+“Going uphill.”
+
+I moved the sidearm control ever so slightly with my right hand. The
+nose came up gently. The altimeter and Mach meter climbed. Following
+an item on the flight plan, I then pulled the nose up steeply until
+the plane shuddered in protest. It was a check of the “buffet” point.
+I repeated this maneuver twice.
+
+“Buffet at Mach .8,” I said.
+
+“Going uphill. Supersonic.”
+
+The X-15 Mach meter approached Mach 1.6 and locked there. One minute
+had gone by.
+
+The recovery maneuver caused my check-list, mounted in spiral rings
+on a pad on my knee, to flip ahead several pages. I knew the list by
+heart. But I always tried to follow each page, just to be doubly sure.
+
+“I’ve lost my place,” I said. I flipped back through the pages.
+“Never mind. Found it again.”
+
+“Going through 40,000 feet.”
+
+The roll damper was still out. Now I would see how much I needed that
+roll damper. I moved the sidearm control. The right wing flipped up
+sharply. I reversed the control. The right wing dropped and the left
+came up swiftly. With a little more control I could whip the ship
+horizontally through the air like a spinning bullet. In level flight
+I balanced on a knife-edge.
+
+“It’s very sensitive to roll,” I radioed.
+
+“Pulling to a 1.8 G turn. Yaw.” I kicked the nose to one side in an
+attempt to define the ship’s sideslip characteristics.
+
+“Pushing over at 55,000.” I leveled the nose. The pages of my spiral
+notebook flipped again.
+
+“Lost my place again.”
+
+“What’s that?” It was Q.C. I could almost hear Charlie Feltz
+muttering: “Wha’d he say? Wha’d he say?”
+
+“Never mind,” I said.
+
+I banked and dived. The G meter registered two. Then I deliberately
+sideslipped. I leveled out. The Mach meter climbed steadily: 1.6,
+2.0, 2.4, or about 1,600 miles an hour. I had edged over my 2.0
+restriction for a few seconds.
+
+Only three other men had flown that fast. Yeager had, and he almost
+died in the try. Pete Everest had. Mel Apt had gone to Mach 3. But
+he died in the X-2. The temptation to forge ahead and smash Apt’s
+record, which I could easily do in the X-15, was very great. The
+plane was running like a dream. All I had to do was let the rocket
+engines burn a little longer, build up a little more speed and
+then.... Crossfield, the first man to fly at twice the speed of sound
+and the first man to fly at three times the speed of sound ... and
+live. But no, that was reserved for someone else, for Joe Walker and
+Bob White or, if they died, their back-ups. I was an engineering
+test pilot. It was necessary that I adhere to plan in the air. If I
+deviated from plan, violated the discipline, then my value as an
+engineering test pilot was zero. Dependability, perfection, these are
+the prerequisites of the test pilot. Too many airplanes and pilots
+have paid for violating the intelligence of planning. The X-15 would
+not.
+
+I shut down several of the rocket barrels. I pulled the nose up and
+climbed quickly to 67,000 feet, my maximum planned altitude for the
+flight. Then as the remaining rocket barrels burned out, I nosed
+the X-15 into a steep, supersonic dive to check her stability going
+downhill at Mach 1.5 without rocket power.
+
+“Burnout,” I said.
+
+At 50,000 feet I leveled out and my speed abruptly fell off to
+subsonic. It was time to begin thinking about the landing. At that
+moment my eye caught a blur flashing across my nose, dead ahead.
+It was NASA chase pilot Joe Walker in an F-104, joining up fast to
+escort me back to the lake bed. He was close.
+
+“There goes my chase--right across my bow!” I called on the radio.
+
+“About eight per cent fuel remaining. Going to jettison.” I pushed
+the lever and a long trail of white vapor flowed into the sky in my
+wake.
+
+“260 knots. 30,000.”
+
+“I’m going to land a little long this time,” I said.
+
+I laid out my approach for the dry-lake landing strip, reporting my
+choice of direction by radio to the chase. At 8,000 feet, I turned on
+my final leg and for the third time got set to put the X-15 on the
+ground.
+
+Just then I thought I saw an airplane on the lake near the spot I had
+picked to land. I snapped in the radio: “There’s an airplane down on
+the lake.” I was committed. There could be no further maneuvers. At
+the X-15’s glide speed on final, 280 miles an hour, I would touch
+down in twenty seconds.
+
+The “airplane” turned out to be the emergency helicopter which hovers
+near the landing area. It was almost directly below me when I dropped
+the ventral fin. I radioed: “Hope that helicopter doesn’t get hit.”
+
+Luckily it didn’t. As I pulled the X-15 nose high, feeling for the
+ground, chase White reported: “You’re looking good, buddy.”
+
+The flaps were slow in extending. I landed with 28 degrees of flaps
+instead of 40, which made the touchdown a little faster than usual.
+Even so, I judged it the best X-15 landing I had made. As was his
+custom, Q.C. radioed:
+
+“Everything all right?”
+
+For once everything _was_ all right. No fire, no porpoising near the
+ground, no other major malfunctions. It was judged a near-perfect
+flight from a mechanical standpoint.
+
+“No sweat,” I replied.
+
+I called the gauges and opened the ram-air door to relieve the
+cockpit of nitrogen gas pressure so that I could open the canopy
+without undue strain. The ground crews arrived. The men lifted
+the X-15 onto its special trailer and towed it back to the North
+American hangar. Captain Richardson met me in his support van with a
+full-blown martini.
+
+ * * * * *
+
+Not many days after that flight I received a startling piece of
+news. I had been promoted, or more precisely I had been granted a
+clearly defined slot in North American. No longer just a consultant
+for the X-15 and its demonstration pilot out on a limb, I was made
+Chief Engineering Test Pilot of the division, working directly for
+George Mellinger, long-time manager of North America’s Engineering
+Flight Test. Here was one more handhold to insure the building of
+airplanes so that a pilot can fly them. Slowly but surely the trend
+that started in 1942 with the deaths of Eddie Allen and Jimmy Taylor,
+of airplane design growing foreign to pilots’ needs, was reversing.
+It now takes legions of engineers to build an airplane, and then in
+hindsight there is a pitifully slow and expensive stewing by the test
+pilot to make the fruit of this endeavor palatable.
+
+In my life, it seems, bad news usually comes with the good. Shortly
+after my promotion, or assignment, we received the stunning word that
+the B-70, the last of the Air Force future combat airplanes, had been
+severely cut back. According to the Air Force, North American would
+build only one prototype, a gutless shell with no armament or weapons
+system. All the major subcontracts were canceled. North American
+would make the complete airplane on much the same pattern by which
+we had built the experimental X-15. In the aircraft trade this
+“cutback” was interpreted as stage-setting for complete cancellation
+of the project in the following Air Force budget. The cut left North
+American without any airplanes in production except a few twin-jet
+executive-type T-39s. The last of the advanced manned airplanes was
+all but gone.
+
+The news left me bewildered. Now at last I was on the point of
+achieving my dream of being an engineering test pilot in a position
+to do some substantial good. But there would be no airplanes to fly.
+We were all dismayed at this incredible break in history. We were
+almost finished de-bugging the X-15. But there would be no airplanes
+to benefit from the data we collected in the flights. The dire
+prediction of one of my fellow pilots at NACA years before--that the
+X-15 would be the last of the manned aircraft--seemed to be coming
+true. We were not opening a new era in aviation at all. We were
+closing one. Unless....
+
+ * * * * *
+
+The briefing room was crowded with Air Force and NASA brass. Stormy
+was holding forth with his limitless energy, in his persuasive,
+articulate, prophetic way. On the blackboard behind him was a drawing
+of Saturn, the giant booster rocket under development by Wernher
+von Braun and his team of ex-German rocket experts at the Army’s
+Ballistic Missile Agency in Huntsville, Alabama. Perched atop Saturn,
+a cluster of eight Jupiter rocket engines generating a staggering 1.5
+million pounds of thrust, was an ICBM-type second stage, and on top
+of that a familiar shape, the X-15.
+
+“We figure the X-15, carrying two pilots on a maximum shot, could
+be put into orbit hundreds of miles above the earth. Or with a
+scientific or military payload of thousands of pounds, not including
+the weight of two X-15 pilots, the ship could be put into a lower
+orbit. The target date is, say, three or four years. By then our
+current X-15 will have accumulated more than one hundred powered
+flights. The ICBMs should be fully operational. Saturn itself
+will have been fired many times. We believe this is the logical,
+thoughtful, and economic approach to manned space travel. Many
+improvements to the X-15 will be required, of course, but we will
+begin from a firm foundation of experience. Many of the present X-15
+systems are adaptable for true space flight. We will have amassed
+considerable flight-test experience, which is not acquired overnight,
+as you know quite well. We have an active flight-test team in being
+today.”
+
+Much later I asked Stormy: “What do you think?”
+
+“I don’t know, Scotty. NASA is pretty much absorbed with the Project
+Mercury capsule approach. The Air Force is reluctant to move because
+of the ill-defined lines of authority and maybe because the X-15
+is NASA-inspired and NASA-controlled, and you know the President’s
+directives in this area. The Air Force, I think, will probably
+award study contracts for specific kinds of orbiting vehicles yet
+to be invented. We’ll keep trying. But I think politically our idea
+is neither fish nor fowl and because of that--certainly not for
+technical reasons--we may be left out in the cold.”
+
+“We can’t let this thing just wither and die right on the verge of
+success,” I said. “Too much has gone into it, too much can come out
+of it.”
+
+“But it’s hard to get a point like that across, Scotty. People
+are too busy. Too many committees. Too many phone calls. Too many
+investigations. Too many specialists in details are growing up,
+building empires around special theories, turning their backs on the
+hard facts of operations.”
+
+“Well, maybe I’ll write a book and try to get all this across,” I
+said.
+
+“Go ahead,” Stormy said. “But I’ll tell you _that’s_ a big job in
+itself.”
+
+And, as usual, Stormy was right.
+
+
+
+
+CHAPTER 41 ►
+
+ “_You Have a Fire!_”
+
+
+Five days after the second successful powered flight we were airborne
+again. On this flight we deliberately loitered at altitude over
+Edwards to simulate the long trip to the X-15’s ultimate launch point
+over Utah. We spent the time on several launch rehearsals. Then we
+moved into the real thing, ticking off the items on the check-list
+with the precision of long practice.
+
+“One minute to launch,” Jack Allavie called.
+
+The X-15 was humming to perfection. The APUs were churning out
+electricity and hydraulic power. My left hand reached for the valve
+to shift my oxygen supply from B-52 to X-15. I flicked my wrist, but
+nothing happened. The valve was jammed.
+
+Involuntarily I made some unintelligible comment on the radio.
+
+Q. C. Harvey came back instantly: “What’s the matter, Scott?”
+
+“I can’t switch over the oxygen. I’ve got to hold. Hold the
+countdown.”
+
+Seldom in my flying career had I been so thoroughly disgusted. That
+an elaborate, expensive flight might be canceled by the seizing of a
+fifty-cent valve seemed just too much. I worked it back and forth to
+try to loosen it.
+
+“This one’s got me stumped, Q.C.,” I said, trying to think of some
+way to free it. With both hands I tried to turn it by main strength
+and ripped a seam in my left glove from the pressure. Using my
+knee-pad as a lever, I tried to crack it free by hitting the pad with
+the heel of my hand. My tape recorder picked up the thud of this
+futile pounding. The gloves I was wearing on that flight were made
+of an experimental material, since discarded. When I tore them, I
+had to give up. We could not fly the X-15 without full-pressure suit
+protection.
+
+“Q.C.,” I grumbled, “I’m afraid we’re dead.”
+
+A few minutes later the windshield frosted over, a trouble we had
+not experienced since the first captive flight. It was solid ice. No
+amount of scrubbing with my ripped gloves, no amount of defogging
+heat would remove it. If the oxygen valve had worked and we had
+launched, I would have found myself in serious trouble indeed,
+strapped in the X-15 flying blind. I wondered: Is Someone looking
+after us?
+
+ * * * * *
+
+In late October the capricious desert weather led us a merry chase.
+The rainy season, unpredictable but usually falling in December,
+came early. Black clouds towered out of the Edwards basin. Scattered
+showers pelted the parched dry lakes, dampening and slicking the
+surface. We waited, hoping until the last moment, before canceling
+each flight. Much of the time the X-15 was kept mated to the B-52.
+With December’s heavy showers, which could close the lake for several
+months, drawing ever closer, many of us were anxious, on the eve of
+continued success, to keep the team in training.
+
+While chasing the weather during the last week in October, a
+situation arose that was obviously ridiculous, yet one that could not
+be completely ignored. Security informed us they had received a tip
+that Wernher von Braun and I would be assassinated on October 29.
+Some people wanted to cancel the flight scheduled for the next day. I
+objected. To protect our bird, however, we doubled the guard on the
+B-52 and the X-15. The North American Security Force offered me a
+bodyguard which I declined. I was worried only that some maniac might
+harm Alice and the children. On the afternoon of October 28 I flew
+down to Los Angeles and spent that evening and the next at my home in
+the community of Westchester, bordering the Los Angeles International
+Airport.
+
+October 29 passed with no assassination attempt and we heard nothing
+more about the “plot.” Weather again forced a cancellation of the
+flight that day and on October 30.
+
+On Saturday, October 31--Hallowe’en--the weather was marginal but
+we scheduled a flight. The meteorologists doubted that it would
+clear for at least twenty-four hours. But we have all long since
+learned that meteorology, like psychology, in aviation is a loosely
+organized superstition and that it is foolhardy to schedule flights
+according to weather predictions, especially in the desert. Stormy
+and I flew from Los Angeles to Edwards in my Bonanza and toured the
+area, intently observing the cloud formations. A warm-weather front
+was moving in from the east, a rare occurrence on the desert. It
+was indeed a marginal situation. I felt it was worth a gamble and
+after our survey Stormy agreed. If nothing else, even a captive
+flight would be useful and would not waste the efforts and spirits of
+our ground crew; they had worked almost continuously for two weeks
+keeping the X-15 primed.
+
+We took off late--0940--and by the time we reached launch altitude
+the freak easterly front had closed Cuddeback Lake emergency landing
+strip. This was our intended launch point. We pressed on. Nearby
+Rosamond Lake was still clear. I radioed Q. C. Harvey.
+
+“I recommend we go as quickly as possible into a launch and that I
+make a subsonic local flight.” My thought was that as long as we had
+come this far, a slow flight of the X-15 was better than no flight at
+all and we needed the data.
+
+There were murmurs of protest on the radio. But I voted to continue.
+I was not being foolhardy. It’s just that I have an inherent fear
+of “cancelitis,” an insidious disease which, as we have seen, has
+afflicted many experimental airplane programs. When it sets in, the
+program loses its sense of urgency, and apathy seeps clear through
+the ranks from pilot to mechanic. We could not afford to let this
+happen.
+
+When the ground command post agreed to my idea for a slow-speed
+flight, I radioed Q.C. again: “Now I want you to do something for me.
+Keep an eye on that front. If it gets one bit farther west, I’ve got
+to cancel this flight.”
+
+We began the launch procedure with all hands keeping a sharp eye on
+the front. A few moments before launch the ground station detected a
+rapid cloud advance. I radioed chase Al White:
+
+“Al, do you think you could see the west edge of the lake from about
+15,000 feet downwind?” In other words, I was asking if it would be
+possible for me to see to land the X-15.
+
+“Scotty, I can just barely see the lake through the edge of the
+clouds.” When I heard Al’s reply I knew we were finished. The front
+had moved in.
+
+Sam Richter came on the radio: “We strongly recommend we cancel this
+flight.” Sam knew I would read “we” as “Stormy,” who never used the
+radio. It was clear that he was anxious. A strong recommendation
+from Stormy was, of course, an order. “Okay,” I replied glumly, even
+though I certainly agreed.
+
+We shifted to a launch-rehearsal procedure. Just before the simulated
+drop I radioed for the wind speed and direction on the lake, an
+ironic gesture. Some people on the ground thought I might still be
+seriously considering an actual drop. Q.C. quickly came on and said:
+
+“No launch, of course, Scotty.”
+
+After the rehearsal I radioed again in a voice heavy with irony:
+“Beautiful launch.”
+
+We jettisoned fuel and Lox and landed. Three hours later, as if
+nature were deliberately mocking us, defying us to penetrate the
+secrets of space, the lake bed was unpredictably clear. By then it
+was too late for a second try.
+
+ * * * * *
+
+So far we had conducted most of the X-15 flights--circular
+patterns--within about twenty miles of the Edwards base. Now as we
+advanced in our flight-test program, we planned to drop the ship
+farther out, to enable me to fly in a straight line and subject
+the X-15 to high-speed and high-altitude maneuvers to define her
+safe-flying limits. We selected the new, more distant launch points
+so that a flight would always begin over one of the dry lakes. If the
+engine failed or some other malfunction occurred, I could land. If it
+performed as expected, I could fly back to Edwards on my own steam
+and land on Rogers.
+
+Two launching points that appealed to us were Cuddeback and Three
+Sisters Dry Lakes, about seventy miles from Edwards as the crow,
+or rather the X-15, flies. But our plan to launch over these lakes
+was complicated by the rapidly changing and generally deteriorating
+desert weather. Rain dampened Cuddeback and Three Sisters. Some
+“experts” said that an emergency landing on these lakes would be like
+landing in a marsh.
+
+Everyone who has ever flown at Edwards has his own unscientific and
+usually inaccurate method for testing the “dampness” and strength of
+the dry-lake beds. One system is to poke a rod in the sand. I flew up
+to Cuddeback in a light plane to make my own test. It was damp but
+adequate, and since I would land there only in an emergency and I
+really did not anticipate an emergency, I proposed the longer-range
+launch at Cuddeback, rather than continue to idle around Edwards and
+delay the program.
+
+Roy Ferren, North American’s Chief Flight Test Engineer, was against
+launching over Cuddeback. He argued for more experience with launches
+closer in, over Bouquet Canyon Reservoir, say, which was within glide
+distance of Lake Rosamond, then in better shape than Cuddeback.
+Ferren made a good case and I conceded he had a point. In light of
+the near-disaster that followed, it was probably fortunate for both
+me and the X-15 program that he prevailed.
+
+There was nothing in the take-off and pre-launch routine that
+day, November 5, to indicate a new and formidable crisis was in
+the making. The X-15 and B-52 were tight as ticks: no valves or
+regulators were leaking, the nitrogen pressure, APUs, Lox top-off
+system, pressure suit--everything--all perfectly tuned, so much so
+that I reported by radio:
+
+“Take out the X-15 handbook, Q.C. See what the instrument-panel
+gauges should read. That’s what I’ve got.”
+
+We bore down on the Bouquet Canyon Reservoir launch point at Mach
+0.82 and 45,000 feet. After thirteen flights in the X-15, including
+the launches, I worked almost routinely in the cockpit. I turned on
+the rocket-engine master switch, shifted to X-15 oxygen, and finally
+flashed the green launch-light in Jack Allavie’s cockpit in the B-52.
+I was hoping that day, if all went well, to inch the X-15’s speed to
+Mach 2.6 or about 1700 miles an hour, and to fly to 80,000 feet. At
+higher speed it was easier and safer to make our demonstration points
+and because of this neither NASA nor the Air Force seemed intent on
+enforcing the Mach 2.0 speed restriction on North American.
+
+“DROP.”
+
+For the fourth time I heard the familiar “kerchunk.” The X-15 fell
+away in free flight. Striving for a fast light-off I leveled the ship
+with my right hand and flicked the rocket switches with my left. I
+lighted number two and number four barrels on the lower motor first.
+Then I flicked number two and number four barrels on the upper
+motor. Then number three and number one on the upper. When I threw
+the toggle on number three and number one of the lower motor, the
+last two barrels, I felt a tremendous jar. The whole airplane shook
+violently, an explosion that seemed to be right behind me. My first
+thought was that the APU had blown again.
+
+The ship was picking up speed. My eye swept to the APU gauges. They
+were in the green. The APU had not failed. I was puzzled. Then I
+noticed that the pump for the lower rocket motor was overspeeding
+and shutting down, indicating a malfunction. An amber warning light
+flashed on in the cockpit. The flight was done before it began. I
+shut off the four switches for the lower motor.
+
+About five seconds had ticked by. At that instant chase pilot Bob
+White, who was flying his F-104 close by the tail of the X-15,
+snapped on the radio: “Looks like you had an explosion in the rocket
+motor.” Almost simultaneously a fire-warning light flashed on my
+instrument panel.
+
+For a rocket-plane pilot this is a pure and simple moment of truth.
+In the past, four rocket planes had exploded and caught fire: the
+X-1-A, X-1-D, X-2, and “Queenie.” Each was demolished. Two choices
+lay open: to pull the ejection-seat handle and bail out, or to ride
+the ship out and try to save her. The thought of a bail out never
+occurred to me. I’m paid to bring airplanes back, not throw them
+away. My course was set when I first stepped in the airplane.
+
+Working swiftly to minimize the chance that the fire might spread,
+and to prevent the ship from flying beyond reach of Rosamond Dry
+Lake, I shut down the rocket engines and closed the fuel lines. All
+the while I held the ship in level flight.
+
+Chase White, his voice rising with concern, said: “You have a
+_fire_!” From his position in the F-104 he could see the flames
+streaming from the rear of the X-15.
+
+I had completed the shut-down and was thinking ahead to the emergency
+jettison when Bob White, now very worried for me, radioed:
+
+“You have a fire! _Please_ shut down.”
+
+With no thrust to maintain her air speed, the X-15 was sinking
+rapidly. I glanced at the altimeter: 32,000 feet. In two minutes I
+would be on the ground. I spoke on the radio:
+
+“Going to jettison NOW.”
+
+The heavy stream of Lox and Walc and hydrogen peroxide trailed
+through the sky behind me. The fire-warning light flickered out. I
+radioed White:
+
+“Bob, I’m going to put down on Rosamond. Please let me know when we
+have reached the center of the lake.” I was thankful then that Roy
+Ferren had vetoed the Cuddeback launch. It might have been a mess.
+
+“Jettison looks good,” White reported. “I don’t see any sign of the
+fire now.”
+
+“Where’d it come from? Could you see?” I asked.
+
+“I think it was the lower engine.”
+
+“Thank you,” I said. That fact tied in with the overspeed and
+shutting down of the lower pump. In my mind I envisioned the complex
+plumbing system, trying to guess what might have happened. How long
+would it take to fix it? How much more delay would these supposedly
+reliable engines, with so much time on them, cause us?
+
+The jettison was completed in 114 seconds. There was still a little
+fuel left in the tanks. The powerful suction of the rocket engine
+usually burns them bone dry. In the less efficient jettison it is not
+possible to get all the fuel out. The X-15, I knew, would come in
+more than a thousand pounds heavier than the previous three landings.
+My thoughts turned to the landing gear. We had been planning to beef
+it up following this flight, to give us an added margin of safety.
+However, I was confident that the gear would hold.
+
+Chase White radioed: “We’re almost to the east edge of the lake now.”
+
+I was surprised. We should have been approaching the lake from the
+south. In another fifty seconds I would be touching down.
+
+“Almost _where_?”
+
+“Pardon me. Almost to the _edge_ of the lake.”
+
+“Thank you.” I could tell from White’s radio transmissions and from
+others, that the entire X-15 flight-test group was frozen in tension.
+Every man was aware of the potential danger of fire in a rocket
+plane. Many of them no doubt expected to see an explosion smear
+across the sky at any second. To put them at ease, as I turned on
+downwind I cracked on the radio:
+
+“Sorry. I’m going to miss getting the data coming in here.”
+
+Chase White chanted my decreasing altitude on the radio: “8,000 ...
+7,000 ... 6,000 ... 5,000....” I blew the ventral fin and got set
+for the approach, holding the X-15 nose high. I keyed my radio mike
+so that I could no longer receive radio transmissions which might
+be distracting. I lowered the tail skids and nose wheel, pulled the
+flaps, and felt for the lake bed.
+
+The skids dug in gently. The nose slammed down hard and the ship
+plowed across the desert floor, slowing down much faster than usual.
+Then she came to a complete stop within 1500 feet instead of the
+usual 5000 feet. Something was wrong; the skids failed, I was sure.
+Not knowing the cause of the trouble and with the fire still very
+much in my thoughts, I remained buttoned up in the fireproof cockpit.
+My radio was dead. I sat alone, waiting in silence.
+
+The emergency helicopter reached the X-15 first. I saw North
+American’s flight surgeon, Toby Freedman, and Brian Lauffer jump out
+of the chopper and run toward the ship. A good sign, I thought. She
+wasn’t on fire. I opened the canopy and removed my helmet.
+
+Toby was the first to speak. “The plane’s busted in two,” he said.
+
+“What?” I asked. I couldn’t believe it. Quickly I scrambled out of
+the cockpit. What I saw almost broke my heart. The fuselage had
+buckled immediately aft of the cockpit, two hundred and thirty inches
+back from the nose. Her belly had dragged in the sand, causing the
+abrupt deceleration on the lake. The rocket chambers which had
+exploded at launch were a shambles.
+
+When Stormy and Sam Richter first heard the report of fire on the
+radio, they jumped into a light plane at Edwards and flew immediately
+to Rosamond Lake, landing alongside the broken bird. They ran up,
+staring in disbelief. A minute later the fire trucks arrived. One of
+the firemen, an old friend who had probably met me on the lake in
+his truck a hundred and fifty times, cried quietly as he sprayed the
+broken plane with water. I felt like crying myself. At first look it
+seemed to all of us that that obstinate filly would never break to
+bit and was mocking our efforts in the grand plan for space flight.
+
+I flew back to Edwards in the light plane. There was not much talk. I
+changed out of the pressure suit into street clothes. Toby Freedman
+examined me briefly for the record. Then we all flew back to the
+airplane again. By then the wreckers were there and, sad to say,
+some newspaper photographers. It was silly, but when they took their
+pictures I smiled. It was a vain attempt to laugh away our anguish,
+to tell anybody who might care that we were not defeated--not by a
+long shot. And the truth of the matter was, we weren’t. Our course
+was set on the stars.
+
+ * * * * *
+
+In the investigation immediately following the accident, the
+explosion was laid to an engine-ignition failure. This was a relief.
+At least it was no fundamental weakness in our pioneering airplane,
+no design fault. It was simply a piece of bad luck that could have
+happened at any time to any rocket airplane, regardless of meticulous
+grooming. In retrospect, there was nothing we could have done about
+it. But now we would plug this weakness and hope there were no more
+like it hidden away.
+
+That flight proved one thing: the X-15 is a tough bird. When we
+trucked X-15 number two to the plant in Los Angeles for a close
+factory look at her, she was not so badly damaged. The rocket engine
+had to be completely replaced and the shattered engine bay rebuilt.
+We put a patch--called a doubler plate--inside the fuselage where
+she had cracked, and in thirty days, after a lot of additional work,
+she was better than ever. This was an airplane repair record, in any
+man’s league. Meanwhile, we rolled out X-15 number one, which I had
+not flown since the first glide test. Since then we had been making
+her ready for a powered trip into the sky before the rains closed
+the lakes. We were ready for flight with X-15 number one in the week
+following the near-disaster with ship number two.
+
+But there was an unanswered question gnawing at us. Why did the
+fuselage buckle? My touchdown had not been hard. The plane, with
+off-breed engines, NASA instrumentation, and excess fuel, weighed
+an additional several thousand pounds. But none of these factors
+added up to a broken fuselage, unless we had goofed terribly in the
+structure of the ship, something no one could believe. We postponed
+flight operations to conduct an agonizing reappraisal, checking and
+rechecking the data, probing, thinking, talking.
+
+It was Charlie Feltz, with his wonderfully intuitive engineering
+sense, who came up with an answer that turned out to be correct.
+He believed there was something happening in the nose-wheel shock
+absorber which denied the airplane the “cushion” it required. Thus,
+he said, the strut was unduly rigid at touchdown and that was why it
+broke. The laboratory engineers confirmed his theory in a hundred
+tests of the nose wheel in the factory. The defect was caused by the
+rapid extension of the telescoped nose gear. The gear came down so
+fast that the oil in the shock absorber foamed or turned to vapor
+which has no shock-absorbing value. Unknowingly, up to then we had
+in effect been landing the ship with little or no nose-wheel shock
+absorber at all. It was just pure luck that the ship hadn’t broken
+before.
+
+We corrected the defect. To be doubly sure, Charlie asked me to lower
+the gear a little bit sooner to give the oil time to “settle down.”
+But really, I think, his request was to save wear and tear on his own
+frazzled nerves while watching the landings.
+
+ * * * * *
+
+X-15 number one had been ready for days. But now the rainy season
+had set in at Edwards, delaying all flights indefinitely. The first
+week of December passed and then the second. The rain thinned out;
+the lake beds dried. On December 16, forty-one days after the fire
+and explosion, we scheduled our fifteenth flight. My intent was to
+make a simple, brief powered flight--the first in that airplane. Then
+we would turn the craft over to NASA, approximately three and a half
+months behind schedule.
+
+It was cold in the desert. The ground crews were bundled in heavy
+jackets. Stormy, Sam Richter, and I huddled in Sam’s van, while I
+read through the carry-over list. One piece of navigating equipment,
+installed for the deep-space probes, was out. But this would in no
+way affect our demonstration flight.
+
+After I put on my pressure suit I sprinted from the van to the X-15
+boarding ladder, a vain attempt to instill some life and enthusiasm
+in our operation. The morale of the X-15 ground crew was sagging. A
+rumor had gotten around that our participation in the flight program
+was short-lived. A lot of Monday-morning experts could do it better.
+Our highly professional team, they thought, would soon be disbanded.
+Many of the men would be looking for other jobs.
+
+We were airborne by 0830, climbing for altitude, intending to launch
+over Rosamond. On take-off my radio went out. The others could hear
+me key the mike, but not my voice. Routinely Q. C. Harvey shifted
+to the mike-clicking system to run through the countdown. One click
+from me meant yes; two clicks meant no. While we had this tenuous but
+effective communications link, there was no need to cancel. It was a
+beautifully clear day. We pulled thick white contrails at altitude.
+At 0931 we reached 40,000 feet.
+
+Q.C. said: “If all okay, Scott, give me one click.”
+
+I keyed the mike one click.
+
+Double-checking, Q.C. radioed: “Scott, if you wish to go ahead and
+launch without communications, please give me one click.”
+
+I keyed the mike one click.
+
+Again rechecking, Q.C. said: “Do you desire to cancel the launch?”
+
+I keyed the mike two clicks. It’s not possible, of course, but I
+tried to transmit a feeling of urgency with those electronic clicks.
+They were hard, firm clicks, at least. Why did I need a transmitter?
+Its main purpose was to keep people on the ground from getting
+lonesome.
+
+Approaching the launch point I prepared the rocket engine for its
+first flight. Four minutes from launch time I turned the valve to
+pressurize the main fuel tanks, eyes glued to the gauge. The gauge
+indicated a rapid rise and then a sudden fall of pressure in the
+tanks. The helium regulator was erratic again. I pressed hard for a
+launch: we had a job to do and would get it done, if permitted.
+
+Two minutes before launch the fuel-tank pressure began to climb
+slowly. Hope!
+
+Q.C. said: “Scott, we understand you still want to launch. If this is
+correct, give me one click.”
+
+I keyed the mike once, firmly.
+
+“One minute to launch.”
+
+I tested the flaps and controls. Chase reported they were operating
+satisfactorily. I was ready to go. The tank pressure was hanging
+within limits, though barely--it would need watching. But at the last
+second the tank pressure again began to sag. If I launched, I would
+endanger the ship.
+
+Q.C. came on the radio for a final check: “Scott. Reaffirm that it is
+okay to launch. If so, give me one click.”
+
+With the greatest reluctance I keyed the mike twice.
+
+“You do _not_ want to launch, is that correct?”
+
+I keyed the mike once. Then I saw a face in the new hemispherical
+window of the B-52. I drew my index finger under my throat indicating
+we were finished. We jettisoned and returned to base. The Monday
+morning quarterbacks sharply criticized us for attempting to launch
+without a transmitter. The same quarterbacks had declared a year
+earlier that only one transmitter was necessary, and even this one
+was not essential to the X-15 pilot’s mission.
+
+
+
+
+CHAPTER 42 ►
+
+ _Minor Miracles_
+
+
+The year 1959 was a shake-down ride for the X-15. In her first
+year at Edwards the ship was carried aloft fifteen times. Two of
+these trips were planned captive flights with no intent to launch.
+The other thirteen were serious attempts to fly. On nine of these
+thirteen trips some part of the X-15 failed and the attempt was
+called off. Of the remaining four trips one was the first glide
+test. The other three were rocket-powered flights. Of the three
+rocket-powered flights only one was completely successful. The other
+two began or ended in serious emergencies, traceable to the “proven”
+X-1-type rocket engine. Moreover, a fire on the ground during a
+routine grooming gutted the engine of one airplane. One X-15 cracked
+and split open on landing.
+
+These failures, heartbreaking as they are, are common to all new
+high-performance airplanes. In the case of the X-15 we, as old hands,
+had long since learned to live with them. They laid the foundation
+for a razzle-dazzle success story which immediately followed in 1960.
+The X-15 suddenly came out of the mire, flexed her wings, and took
+off with a speed and reliability that startled even us. We more than
+doubled her flight-test rate and at the same time almost eliminated
+all aborts. From January to late May--less than six months--the X-15
+was carried aloft sixteen times. Of these sixteen tries only three
+were canceled. The remaining thirteen flights were rocket-powered
+runs, with only minor technical difficulties or none at all. On one
+of these flights our bird flew faster than any other plane in history.
+
+For a little while, though, in early 1960 it looked as if we would
+never get off the ground. Both number one and number two X-15s had
+been repaired. New and stronger landing gear was installed. The birds
+were tuned to perfection, as were the two B-52 mother planes. But
+heavy rains flooded the Edwards dry lakes. For a time we believed
+the lakes might be closed for several months. Impatient to roll, we
+investigated the possibility of launching at a distant lake near
+Tonopah, Nevada. For some reason this lake seemed immune to the
+capricious desert weather. It was dry as a bone. We moved some of the
+X-15 ground crew and communications team to Tonopah. When the rain at
+Edwards fell off and the lakes began to dry, we canceled the Tonopah
+emergency plan.
+
+On our first flight in 1960--January 23--we took off very late in the
+afternoon, having been delayed several hours by an airplane which
+crashed and tied up the main runway. I was riding X-15 number one,
+which I had yet to fly under power. The launch--at 45,000 feet--was
+rough. I rolled hard right and then left and was slow lighting the
+engine. But once I got it going, the ship took off like a jack
+rabbit, pushed along by a hundred-mile-an-hour tailwind. The airplane
+felt cranky and ill at ease. I kept a tight grip on both control
+sticks to hold her steady. Even so, she flew like the wind. Tracing
+a huge circle of rocket exhaust over the Edwards base, I performed
+some special maneuvers laid out in the flight plan. She pushed up
+to Mach 2.6--1700 miles an hour--and the chase lost me completely.
+Only Everest and Apt had flown faster and we were reigning even with
+low-powered engines.
+
+I was exhilarated. Seventy-nine days had passed since my last
+previous X-15 powered flight. The ground crews felt happy, too, I
+knew, because the strict radio-circuit discipline was observed by
+no one. I keyed my mike in flight and _sang_: “Back in the saddle
+again!” Letting down on final, I radioed Q. C. Harvey and asked
+him if he’d like me to drive the X-15 up on the NASA ramp. When he
+replied, “Sure,” someone else cut in on the circuit and said: “You’d
+better get someone to open the hangar door!” A friendly needler,
+recalling my near-disaster with the F-100, cracked: “Yes, at both
+ends.” The landing was the best I’d ever made. I came in at 220 miles
+an hour with a 7½ degree nose-up angle. Because of the delays, I had
+spent eight hours in the pressure suit. In more ways than one, it was
+a relief to shuck it.
+
+Only the unusual, uneasy feel of the airplane marred the flight, and
+not even this dampened our customer’s eagerness to take possession of
+the airplane. On investigation we found that the problem was caused
+by a minor maladjustment of the SAS system. This was quickly fixed,
+and at NASA’s request after this single powered flight we formally
+turned X-15 number one over to the customer--lagging five months on
+a five-year-old schedule. Captain Richardson forgot my martini that
+day, but NASA director Paul Bikle made up for it. At the post-flight
+briefing he presented me with a fifth of Old Taylor. Everybody was
+quite happy. The time had come to put the black bird to work.
+
+The North American flight-test team then turned its complete
+attention to X-15 number two, the plane I had cracked on the November
+5 landing. Under our contract terms we had to perform a series of
+required demonstration points with the airplane. We would show that
+the ship was capable of withstanding heavy G forces in a turn,
+pull-up or roll. I would dive the ship from extreme altitude to prove
+that it would recover satisfactorily. We would test the ballistic
+control system, the jet nozzles on the nose and wing which would be
+used later to steer the ship in airless space.
+
+Our first attempt with X-15 number two on February 4 was a dismal
+failure, perhaps attributable to “hangar fever.” The plane had not
+been in the air for ninety-one days. Everything seemed to go wrong.
+The cabin would not pressurize. My radio went out. An APU failed for
+the first time in almost a year. The Walc tank-pressure sagged. Even
+the jettison was feeble. We landed--the X-15 in its nest under the
+B-52 wing--with a great deal of the Lox, Walc, and hydrogen peroxide
+still on board.
+
+After one week of intense fixing we got back into the air again on
+February 11. We loitered at altitude, simulating the long ride to the
+ultimate Utah launch point. The countdown revealed no malfunctions
+and, as still another test, I launched myself from the B-52. The
+eight barrels of the engine blazed and I zoomed easily to 90,000
+feet, almost eighteen miles into the sky. I leveled out, rockets
+still blazing, to about 2.5 Mach. At burnout I pushed the ship into a
+very steep powerless dive, simulating a re-entry from space to earth.
+On Murray’s 1954 altitude flight, the X-1-A had tumbled wildly at
+this crucial point, but the X-15 held stable. In the dive my speed
+held at Mach 2.0, or 1320 miles an hour. At that speed the desert
+floor comes up mighty fast. It took me only twenty seconds to dive
+from 90,000 to 55,000 feet--almost seven miles. The ship was a little
+slow in the dive recovery. Although I pumped in full “up” stabilizer,
+she did not pull out until I reached about 50,000 feet.
+
+Following the dive recovery I made several highly technical
+demonstration points. Then because I was curious I popped the dive
+brakes at Mach .9. The effect was startling, like hitting a brick
+wall. Inadvertently I said “Wow!” over the radio. This set off
+Charlie Feltz: “Wha’d he say? Wha’d he say?” On the landing not many
+seconds later I caused a little more excitement. I had forgotten to
+arm the ballistic charge in the ventral fin. When I pushed the switch
+to blow the ventral at 6,000 feet on final, nothing happened. We all
+had visions of “the world’s fastest plow” digging a furrow in the
+lake bed. I quickly noted my oversight, armed the charge, and blew
+the fin before touchdown. On downwind leg before landing, the oxygen
+regulator failed and it became extremely difficult to breathe. By the
+time the ship stopped I was not able to suck any oxygen at all. But
+this was no great emergency. I simply opened the ram-air door and the
+visor on my helmet. This flight was considered a whopping success.
+
+We were rolling hard now, and it is difficult to recall the high
+points of the individual flights. On February 17 the upper rocket
+engine unaccountably shut down halfway through the run and I finished
+the demonstration on one engine. We lost a little ground. But on
+the March 17 flight I doubled the number of in-flight data points
+and regained what we had lost. The ship flew beautifully, so well
+that I exclaimed on the radio: “The _best_ airplane I ever flew.” On
+the landing I felt so happy that I did a side-slip to lose a little
+excess altitude. This well-known maneuver is not recommended in
+modern high-performance airplanes, especially in one like the X-15,
+but it indicated our complete confidence in the black bird.
+
+Our ground turn-around time was now amazingly brief. In fact on
+the very next day, March 18, the crew had the airplane ready again
+for flight. About ten seconds before I was to cut myself loose (by
+then self-launching was adopted as standard procedure in the North
+American operation), my chase pilot, Al White--bless him--noticed a
+faint trickle of alcohol pouring out of a drain from the engine bay.
+He called out, and I instantly canceled the drop. Alcohol spilling in
+the engine bay spelled real potential trouble. If I had dropped and
+lighted off the engine, it would probably have exploded. The alcohol
+leak was traced to a cracked fitting in the maze of engine plumbing.
+
+On March 25, sixty-two days after we turned X-15 number one over to
+NASA, test pilot Joe Walker made his first flight. This time the old
+pro, feeling oddly misplaced, flew in a chase plane. Joe took his
+time for his first launch. The B-52 made several circles while Joe
+held the countdown. But then he cut away cleanly for a brief run.
+During the long delay my chase plane ran low on fuel and I had to
+return to base. So I missed seeing another man land the X-15 for the
+first time. Walker danced a jig on the lake bed to show his elation.
+
+In the next fifty-five days Walker and Air Force pilot Bob White
+made five additional powered flights in X-15 number one. This was an
+average of about one flight every ten days, a sustained turn-around
+time that beat most previous NASA records, except those we had
+established with the Skyrocket in the old days. Bob White experienced
+little difficulty in his first rocket-powered flight. He did a
+beautiful job, in my opinion. On his third flight, May 19, he zoomed
+to an altitude of 107,000 feet. Later, on August 12, he reached
+136,500 feet.
+
+Walker made additional flights. On his third, May 12, he left all
+the rocket barrels on for the entire flight and added half a Mach
+number to the highest speed I had achieved in the plane. He reached
+almost the limit with the small engines, Mach 3.2, or about 2,110
+miles an hour, a world’s speed record. Later, on August 4, he flew
+the ship Mach 3.3, 2,196 miles an hour, breaking his own record.
+
+X-15 number one was performing like the champion she was bred to be.
+Walker’s speed run was made on X-15 number one’s seventh consecutive
+powered flight with no intervening aborts. No experimental airplane
+in history--for that matter, very few conventional airplanes--have
+operated so well so soon after delivery from the manufacturer. This
+pleased us greatly and almost compensated for the year of frustration
+we had been through.
+
+On March 29, four days after Joe Walker’s first flight, I took X-15
+number two into the air again for additional demonstrations. Most
+of these are too complicated to describe in detail. In essence I
+subjected the ship to severe strain in a variety of positions and
+angles of attack to prove that she would hold together in flight even
+under extraordinary circumstances. One of these maneuvers was an
+abrupt pull-up which put about six G’s on the ship. The newspapers
+made a lot of this flight--the fact that by pulling six G’s I weighed
+six times my normal weight, or almost half a ton--but a six-G
+maneuver is routine for a fighter pilot. Two days later, on March 31,
+I repeated these maneuvers and performed others.
+
+During April we delayed our flight program temporarily to install and
+ground-test the ballistic control system. In principle, the little
+hydrogen-peroxide jets are quite simple. However, the installation
+is complicated. Both the jets and the APUs use the same source of
+hydrogen peroxide. Thus it was necessary to establish a careful
+balance between the two--meaning more regulator valves and other
+devices which leak. Ultimately this installation and test spun into
+another around-the-clock routine, with Stormy prodding us to the
+limit. By May 5 we were ready.
+
+All the difficulties we feared, plus a few more, took place--just
+like the early days. At fifteen minutes to drop I operated the
+ballistic-control-system lever with my left hand. When I pushed
+the lever to the “up” and “down” positions, the hydrogen peroxide
+squirted through the jets in the nose. The system was not designed
+for operation at low altitude while the X-15 is cold. Thus when the
+undecomposed peroxide from the nose jets sprayed back and struck
+the windshield, a thick coating of ice was formed. I was sealed in
+blind. No amount of defogging gas helped. During the launch rehearsal
+an APU turned erratic and shut itself off. We had not yet achieved
+the necessary delicate balance in combining all the systems. This
+abortive flight touched off another night-and-day work regime that
+went on for about three weeks. We were ready again on May 26.
+
+We took off on schedule. Jack Allavie was flying in the left seat
+of the B-52. Fitz Fulton, who had made most of the drops in 1960
+as co-pilot, was replaced by Charlie Bock, back for his first
+mother-plane flight in seven months. I was in a flippant, cocky mood.
+It was my twenty-fifth flight in the X-15. I had never added the
+figures but I suppose by then I had spent some forty hours in the air
+under the B-52 wing.
+
+I had some additional equipment in the X-15 cockpit that day, a
+so-called “physiological package,” the type that will be sent aloft
+with the Project Mercury Astronauts when and if they orbit the earth.
+I was wired like a chimpanzee, with devices to measure my skin
+temperature, rate of breathing, heartbeat, blood pressure--everything
+but a “rectal probe,” for reference temperature, and _that_ I
+refused to buy. All these devices telemetered a constant flow of
+physiological data to a group of aero-medical officers on the
+ground. I consider this information rather personal, and it seemed
+an indignity to have it broadcast so freely. Besides, I question
+its usefulness. The roots of capability are in a man’s spirit--a
+difficult measurement to get.
+
+So while we loitered at altitude waiting to launch, I cooked up a
+plot to tease the aero-medical officers. For a period of about thirty
+seconds I breathed at a heavy rate and wriggled violently in the
+cockpit, driving their gauges almost to the limit, I’m sure. Then I
+sat rigid--almost yogi-like--and held my breath for a full minute,
+during which time the gauges should have sagged to zero. In theory,
+I was dead. The aero-medical officers flashed no warning, a subtle
+proof that their faith lies in the man, not the equipment. A fine
+point can be made here.
+
+A second trick occurred to me. I knew from long experience in
+altitude chambers with aero-medical devices that if I flexed my
+muscles violently for a few moments it would drive my EKG (heartwave
+trace) right through the ceiling. I planned to do this and then
+to pull the plug on the “physiological package” telemetering. The
+reading on their gauges would be a rapid heart acceleration and then
+a total, mysterious blank. I changed my mind about this at the last
+minute because I was afraid I might give Charlie Feltz real heart
+failure.
+
+The launch--my eleventh in the X-15--was beautiful. For the tenth
+time my left hand flicked across the rocket-barrel toggles. My right
+hand gripped the sidearm control, which I intended to use throughout
+the flight and on the landing. I had not used this control on landing
+since the first glide flight. During the early stages I was concerned
+that if anything dire happened on landing, it would probably be
+blamed on that very fine, but new and controversial, piece of
+equipment.
+
+The X-15 zoomed toward the heavens, all eight barrels going wide
+open. At 42,000 feet I kicked the rudder and the ship yawed
+severely--another demonstration maneuver. I recovered easily and
+roared about the sky, turning, twisting, rolling, and spinning like
+a bullet, subjecting the plane to unusually heavy strains. My speed
+climbed up to Mach 2.7, considerably beyond my Mach 2.0 restriction.
+I had let the rocket engines burn a little longer because I needed
+the extra power to reach the lake bed. Also the demonstration points
+were safer to make at higher speed.
+
+After engine burnout I coasted silently toward the desert lake,
+testing the ballistic control system. I squirted the hydrogen
+peroxide through the nose jets, calling “nose up” and “nose down”
+on the radio. This was simply a test to see whether the system
+functioned properly. In the thick atmosphere at 50,000 feet, where
+I began the test, the weak nozzles have no effect whatsoever on the
+X-15 flight attitude. The North American altitude restriction was
+still in force. Thus I could not make the test above 100,000 feet
+where a gentle squirt from the jets would considerably change the
+airplane attitude. We had corrected the cause of the liquid bath, and
+the windshield did not ice over.
+
+I chose a runway and for the eleventh time brought the ship in for
+a landing. I used the sidearm control all the way. It is a little
+more sensitive than the center-control stick, but with practice I
+believe pilots will find it superior to the old-fashioned “ax-handle”
+control. The X-15 touched down smoothly, concluding the last flight
+with the two smaller engines. It was time to take her to the “barn”
+for the big-engine conversion.
+
+With the conclusion of that flight, the box score on both
+airplanes was a total of thirty-one flights. A little over half of
+these--sixteen, to be precise--were made under rocket power, and one
+was the first glide test. These were completed five years almost
+to the day from the time Hugh Elkin and his Advanced Design group
+at North American first submitted the X-15 conception. This time
+was about one year less than it took to design, build, and fly the
+Skyrocket, the most successful, after the X-1, of the early era
+of rocket airplanes. It was about two years less than the time it
+usually takes to design and build a modern jet fighter such as the
+F-100. It was about three or four years less than the time it took
+to build the hangar-loving X-3. It was five years less time than it
+took to build and fly the jinxed X-2 in which Everest, Kincheloe,
+and Apt set their world speed and altitude records. Considering that
+the X-15 is not only the most advanced aircraft ever conceived by
+man, but also a ship designed to fly into the fringes of space, I do
+not believe it is immodest to claim that we had pulled off a minor
+miracle. We did this in spite of the false starts, frustrations, and
+malfunctions, those events that naturally cling to the memory and
+upon which I have probably dwelt too long in this account.
+
+ * * * * *
+
+About this time a second minor miracle took place in Washington, D.
+C. The Congress and the new Secretary of Defense, Thomas S. Gates,
+took another look at the gutted B-70 bomber program. Gates announced
+publicly that he was ready to “reconsider” the craft as a weapons
+system. Then the Congress voted $285 million to restore about half
+the original program. There was, of course, no _direct_ connection
+between this turnabout and the success of the X-15 flight-test
+program. But perhaps in some indirect way the fact that the X-15
+had flown like a champion at Mach 3--the B-70 cruising speed--and
+routinely to the B-70 cruising altitude of 70,000 feet, influenced
+some people to think twice. The restoration of the B-70 now made each
+flight of the X-15 more meaningful. The data we collected from the
+X-15 would be used to advantage on the B-70.
+
+Actually, I believe, the decision to restore the B-70 was inevitable.
+The United States simply could not abandon the manned aircraft
+altogether and survive as the pillar of freedom in the West. Now
+that wisdom prevailed, we hoped that the powers that be would take a
+careful look at the total manned-aircraft spectrum. Our current fleet
+of Air Force planes is approaching obsolescence. As yet there is
+still no advanced fighter aircraft in the works. In fact, as we look
+into the future, the B-70, which may be ready to fly a few years from
+now, stands very much alone, a single piece of hardware. Between the
+current, aging Air Force fleet and the B-70, amazingly enough, there
+is only one craft in existence, the X-15, and only one Air Force
+pilot, Bob White, who has ever flown it. Our United States Air Force
+should have a thousand rocket pilots. By contrast, the Soviet Union
+has never stopped building airplanes. Each year they turn up with
+ever-faster fighters and bombers, as well as a force of missiles.
+By default, the United States arrived at a point of imbalance that
+would be ludicrous if it were not so potentially dangerous. The U. S.
+_must_ produce manned aircraft to match the Soviet Union. Missiles
+alone are not enough.
+
+As I have said before, bad news usually comes with the good. The B-70
+was restored but our efforts to persuade high circles in Washington
+that we should capitalize on the X-15 concept and the vast experience
+of our construction and flight-test teams for the exploration of
+space fell on deaf ears. Within NASA the Project Mercury capsule
+dominated. Within the Air Force there was still justifiably much
+uncertainty about the use of a space craft for a military mission,
+and the effort in that service was restricted largely to paper
+studies. Firmly believing that in the conquest of space the nation
+would ultimately swing to an X-15 concept--a craft that could go
+into space and then return to earth to land with dignity--we pressed
+on, proposing a two-seater version of the X-15, a trainer to check
+out large numbers of Air Force pilots. We urged manned concepts in
+the belief that to rely solely on automatic concepts presupposes a
+mathematical certitude not found in war, peace, or the quests of men.
+We made few converts.
+
+
+
+
+CHAPTER 43 ►
+
+ “_The Real Significance_”
+
+
+The big single-barrel XLR-99 rocket engine designed to blast the X-15
+on its ultimate mission to the fringes of space arrived in California
+in April, 1960, about a year and a half behind schedule. It was
+shipped to Edwards and bolted to the ground-test stand. During May
+the North American and Reaction Motors engineers ran the engine in a
+series of exhaustive tests. It was a sight to see: that small barrel
+spewing smoke and flame, thrust almost four times as great as the
+combined thrusts of the two smaller X-1-type engines then powering
+the X-15. The rocket-engine noise boomed across the desert for thirty
+miles.
+
+In late May the first big engine was installed in X-15 number three,
+the ship we had specifically reserved for this first engine. And in
+early June X-15 number two, after my ninth and final powered flight
+in that craft, was torn down and the two smaller engines removed in
+preparation for the arrival of the second big engine. Meanwhile, we
+got set to ground-test the big engine which was installed in number
+three.
+
+The ground tests of this engine, which has as much power as an
+Army Redstone missile and almost three times the power of the
+Navy’s Vanguard missile, were elaborate for Edwards (though stark
+compared to the blank-check missile operations). We had made some
+improvements on the ground-test stand. The engineers had built
+special steel clamps to hold the X-15 to the concrete apron. They
+had installed underground concrete observation bunkers, which looked
+like Maginot-Line pillboxes. The telemetry engineers rigged elaborate
+equipment to transmit a record of everything happening in the X-15
+during the engine run to a master console in the NASA administration
+building. For this big moment in the history of our craft, nothing
+would be left to chance.
+
+Late in the afternoon of June 8 I arrived at the ground-test area
+wearing street clothes. X-15 number three, with her powerful new
+engine, was clamped in place on the stand. She was brimming with Lox
+and new fuel for the big engine--ammonia, more powerful or “exotic”
+than the Walc used in the two smaller engines. A thick coating of
+ice had formed on the fuselage around the Lox tank. Wispy Lox vapor
+trailed off into the afternoon sky. A snarl of electrical power
+connections--the umbilical cords--ran from a hole in the concrete to
+the ship’s side tunnels.
+
+Harry Gallanes, North American’s power-plant test boss, greeted
+me: “Looks like we’re all set, Scotty.” He and his crews had been
+working without let-up since dawn. They had pretty much kept to this
+dawn-to-dusk (sometimes later) schedule since the day the big engine
+arrived, another manifestation of that curious enthusiasm for things
+mechanical which seemed to infect all members of the flight-test team.
+
+I climbed into the cockpit and donned a Scott Airpack breathing
+device similar to the unit skin divers wear underwater. It would
+supply my oxygen, pumped into the airplane from an external
+connection. The simple airpack was more comfortable and far less
+bother than the X-15 full-pressure suit, which I did not need on the
+ground. I closed the canopy and turned on the nitrogen gas flow,
+to cool the electronic equipment in the cockpit and to build up
+a pressure which would block out possible ammonia fumes or other
+toxicants, should something go wrong during the engine run.
+
+On this ground test--my second in this airplane--we intended to
+simulate all the events of a real drop from the mother plane with
+rocket-engine light-off. If all went well, we hoped to make an actual
+flight a month later, perhaps sooner. Harry Gallanes and his men
+retired to the bunkers. Gallanes manned the radio circuit as test
+director. Q. C. Harvey took up his post in the forward bunker. Soon
+we were well through the countdown. At six minutes to “drop” I turned
+on the APUs. X-15 number three was completely on her own. It was time
+for the big test.
+
+A siren whined a warning. The mechanics, protectively dressed in
+hooded clothing, evacuated to the bunkers. They had been hanging
+around checking for leaks or other possible malfunctions until the
+last moment. A group of fire trucks, parked about two hundred yards
+away, were ready to rush to the rescue, if needed. Otherwise there
+was no sign of life. Alone in the cockpit I checked the gauges. As
+we approached the time for engine light-off, three movie cameras,
+mounted outside and aimed at the rear of the X-15, began to roll.
+Inside the cockpit I turned on the data recorders.
+
+I called each step of the engine-start procedure on the radio,
+pausing briefly after each item on the check-list.
+
+“Master switch coming on NOW.”
+
+“Prime.”
+
+“Pre-cool.”
+
+“Pump idle.”
+
+“Igniter idle.”
+
+I then moved the main engine throttle from its stowed position to
+the engine-start position. The engine is designed to light-off at
+half-thrust. When I moved the throttle, in effect opening the main
+fuel and Lox lines, the engine cracked to life with a tremendous
+roar. The ship vibrated powerfully in her steel mounts. The engine
+ran smoothly as designed. Slowly I opened the throttle to full power.
+The noise was terrific.
+
+The North American X-15 Mach 2.0 speed and 100,000-foot altitude
+restrictions are still technically in force. If I allowed the big
+barrel to run full-bore in flight, I would quickly exceed those
+limits by a great margin and perhaps go hurtling off to the fringes
+of space. Thus for my big-engine “demonstration” flights we had
+worked out a system whereby in the air I would shut down the engine
+periodically and restart it after the speed and altitude fell off.
+Now simulating my actual flight plan, I pulled the throttle back and
+shut down the engine. As prescribed, I waited fifteen seconds and
+then restarted the engine at fifty per cent thrust.
+
+Rocket engines are equipped with special engine safety devices.
+If these devices “sense” anything abnormal in burning or engine
+operation, they automatically shut the engine off and “safety” all
+the electrical circuits. Evidently after my restart one such device
+“sensed” a vibration. Almost immediately after I moved the throttle
+to half-thrust, the engine shut down automatically. There was no sign
+of trouble in the cockpit, so I prepared to restart the engine once
+again.
+
+To restart the engine after an automatic shut-down, the pilot must
+push a special switch which “unsafeties” the engine, or in effect
+resets all the circuits the automatic device has closed down. If
+these can be reset, the engine is again ready for start. Beginning
+the restart procedure, I put the throttle in the stowed position and
+pressed the reset switch.
+
+It was like pushing the plunger on a dynamite detonator. X-15
+number three blew up with incredible force. The rear section of the
+airplane, from the trailing edge of the wing aft, was instantaneously
+demolished. The front section of the airplane, including the
+cockpit and the pilot, hurtled twenty feet across the concrete ramp
+at indescribable speed, the shortest and fastest rocket ride in
+history, subjecting me to an acceleration force of maybe fifty G’s.
+Fortunately, my head was reclining in the headrest on the seat;
+otherwise my neck might have been broken.
+
+Nine hundred gallons of ammonia and sixty gallons of hydrogen
+peroxide, a total of 16,000 pounds of powerful liquid, had ignited
+simultaneously. I knew, of course, that there had been a tremendous
+explosion, but I had no way of knowing precisely what happened. All I
+could think of was the possibility of a second explosion that might
+hurl my part of the airplane halfway across Edwards and through the
+main hangar and workshop. In the cockpit I moved swiftly to do what
+I could to prevent this. I turned off the APUs and all external power
+supply and shifted from external oxygen to X-15 oxygen supply. Then
+I braced my feet on the instrument panel and put my arms across my
+face, waiting. There was no panic, no fear. I was concerned primarily
+for the safety of the other people--those outside--and I thanked
+God that He had given us the time to install the concrete pillbox
+bunkers, which were being used tonight for only the second time.
+
+Half a minute later I watched a mass of red approaching the X-15. It
+was the fire truck. Its hoses pumped a great spray of water over the
+ship, smothering the fire still raging in the shattered rear section.
+A few seconds later I saw Art Semone and another mechanic hunched
+outside the cockpit. They were trying to pull the canopy handle to
+let me out. At that point I would have preferred to remain inside
+the cockpit, one of the safest places in the world in the event of
+fire. But I could see that no amount of hand-signaling would dissuade
+Semone, and rather than expose him to possible danger I helped open
+the canopy and leaped out.
+
+Semone must have thought I was injured. When I jumped from the
+cockpit, he caught me in mid-air and tried to carry me out of the
+smoke and flames. I whopped him on the shoulder to let him know I was
+all right and then we all ran quickly to a spot about a hundred feet
+distant and I checked the bunkers. Everyone, it seemed, had survived,
+and for this I was very grateful. As it turned out, no one, including
+me, was even slightly injured. I had someone relay that fact to Alice
+as soon as possible, knowing the news would be on the radio before
+the fire was out.
+
+ * * * * *
+
+The documentation of that explosion, like everything else about
+the X-15, was first-rate. In fact it was probably one of the best
+documented airplane accidents in history. Immediately afterwards,
+Q.C. gathered all of us in a room, and there we recalled in detail
+all that we could remember while it was still fresh in our minds.
+These eye-witness accounts, added to the miles of telemetry data and
+the film strips from the three movie cameras, would enable us to
+establish the cause of the explosion very quickly. It was not the
+fault of the engine. A sequence of coincidences, again hidden in
+the mysteries of Murphy’s Law, had trapped us. We moved rapidly to
+avert any possibility of a recurrence in X-15 number two, meanwhile
+accelerating our efforts to install the big engine in that ship.
+NASA prudently grounded X-15 number one until we could do everything
+possible to make sure a similar disaster could not happen.
+
+The fate of number three was quickly decided. She would be rebuilt.
+Some parts--nose, cockpit, wings--might be salvaged. This was
+obviously a major task requiring more time and money. The destruction
+of this airplane is simply part of the price man must pay for
+progress. Measured against the loss of fifty or so Atlas, Titan, and
+Polaris missiles at Cape Canaveral, each costing more than a single
+X-15, it was a drop in the bucket, although a painful one because
+it temporarily reduced our complete air fleet by thirty-three and
+one-third per cent.
+
+Inevitably the newsmen got on my trail. When they called, I was ready
+with the wisecrack I knew they wanted. “The only casualty,” I said,
+“was the crease in my trousers. The firemen got them wet when they
+sprayed the airplane with water.” Too late I realized how this might
+be interpreted.
+
+“Are you sure it was the firemen?” the reporter asked.
+
+“Yeah, I’m sure,” I said. I pictured the headline:
+
+ SPACE SHIP EXPLODES; PILOT WETS PANTS
+
+“Mr. Crossfield,” the reporter went on. “What is the real
+significance of all this?”
+
+“The _real_ significance?” I asked. “Have you got about ten or
+fifteen hours, maybe?”
+
+“No,” he said. “I’ve got about two minutes to meet a deadline.
+Just tell me what’s going to happen now? Where does this leave the
+program?”
+
+“We’re not sure yet. There will naturally be some investigations.
+In all probability we’ll accelerate putting the big engine in X-15
+number two. A little later we’ll put the big engine in NASA’s X-15
+number one.”
+
+“Does this affect your role in the program? Will you still go ahead
+and make a demonstration flight with the big engine?”
+
+“I don’t know,” I said. “I was only supposed to make one or two
+low-speed demonstration flights with the big engine and then that was
+the end of my participation in the project. Bob White and Joe Walker
+would take it from there. They might change that now. I have no
+reason to believe there will be any change. There could be. I might
+not make the big-engine demonstration flights. I honestly don’t know.
+It’s all very indefinite.”
+
+“Well, thanks. Some day I’d like to talk to you about the real
+significance. But not now.”
+
+It was always the same: hurry, impatience, no time for thoughtful
+reflection. Move on quickly to the next story, the next pilot, or
+missile, or space vehicle, for a bigger and better headline.
+
+“Okay,” I said. “I’ll be seeing you.”
+
+ * * * * *
+
+The real significance of the X-15, I hope, has come through in the
+foregoing pages. It is not just another airplane, another headline.
+It is another of man’s restless attempts at perfection, and in the
+aviation world the greatest ever mounted. The X-15 sprang from a
+deep pool of aeronautical knowledge, the end product of fifty years,
+and more, of probing this frontier. It was created and built at
+tremendous cost in terms of money and sweat by some of the most
+skilled engineers in the free world. As always, we did not achieve
+our dream of perfection. Only God, I believe, can create the perfect.
+But in reaching out, we provided some water for man’s never-ending
+thirst. We learned a great deal. We had set man on his path toward
+the stars.
+
+Some day, I believe, he will get there. Not so quickly as one
+might think from reading the newspapers. The speed of this massive
+scientific effort is like that of the convoy, geared to the pace
+of the slowest vessel. Thus this daring adventure is regulated not
+so much by grandiose plans emanating from the increasing layers of
+scientific administrators in Washington as by the simple function of
+a valve, an APU unit, or a radio plug. Our tale of adversity with
+the X-15 is not unique; rather, it is typical of our age. Similar
+stories, many with fewer points of success, were taking place at
+the same time in our nation with Atlas, Polaris, Titan, Mercury,
+Minuteman, a dozen others I cannot recall. Some day, too, perhaps
+these stories will be written.
+
+In time, our splendid engineers will de-bug the big X-15 engine. I
+may or may not be allowed to make one or two low-speed flights. Then
+in the months ahead, depending on the speed of the scientific convoy,
+Bob White or Joe Walker or perhaps someone else will begin the first,
+tentative “space” flights in the X-15. They will launch over the
+designated point in Utah, light off the powerful rocket barrel, and
+roar heavenward. With God’s help they may reach a speed of 4,000
+miles an hour and an altitude of perhaps 100 miles. I hope that
+many, many pilots will have the opportunity to make these pioneering
+voyages into space.
+
+Ultimately our work, and the work of the tens of thousands of
+other engineers in this nation, will be merged to form a more
+advanced space machine. The bottom of this machine might not look
+like an Atlas or Saturn. The top might not look like an X-15.
+But the complete vehicle will be the sum product of all the work
+of all the engineers in this country. This machine will not rise
+effortlessly and gracefully from the earth on the first day.
+Dedicated people such as Charlie Feltz and Harrison Storms must
+first expend limitless sweat and tears. The machine may crash and
+explode. So might the second and third, perhaps the fourth and
+fifth. Congressional committees will investigate, and new layers of
+scientific administrators will grow atop the old in Washington. But
+the engineers will prevail in spite of them.
+
+Some day this machine will rise from the face of the earth. It
+will take man into an orbital path about the earth. It will enable
+him to build a space station. From there he will shove off to the
+moon. Then he will go to the nearest planets in our solar system. A
+hundred years from now, if we have not destroyed our own planet in an
+ideological war, man may enter the solar system of the nearby stars.
+He will go there because he must. He is curious and intelligent. He
+is seeking answers--about himself, his universe, and his God. Because
+man is a creature of God and the instrument of God, he will not be
+denied. There will always be another dawn.
+
+
+
+
+CHAPTER 44 ►
+
+ “_Prophecies of the Next Age_”
+
+
+The explosion of X-15 number three had a curious impact on
+me personally. For the first time in my flying career I was
+foggy-minded. I could not recall immediately exactly what happened,
+although in aerial emergencies in the past my mind always ticked on,
+recording even the most obscure gauge readings. Locked in the room
+with Q.C. and the others during the post-accident investigation, it
+took me fully ten minutes of thoughtful reconstruction to lay out the
+exact sequence of events that took place in the X-15 cockpit.
+
+Flying home from Edwards late that night, I found my thoughts taking
+another unusual turn. Although I seldom think about death, my mind
+recreated in vivid detail the one death that stands out in my mind
+more than all others, that of my father.
+
+He died on October 21, 1954, during the time I was flying for NACA at
+Edwards, six weeks or so after I drove the F-100 through the hangar
+wall. He had sold the farm at last, for a handsome profit, and moved
+to the California desert to be near his children and grandchildren.
+He dreamed of touring the United States in a trailer in the evening
+of his life. But it was too late. The more than nineteen years of
+hard physical labor on the farm drained his body of strength. After
+examining my father, one doctor told me: “He is the most worn-out man
+of sixty-three that I have ever seen.”
+
+Soon he fell quite ill. My mother was just recovering from a stroke,
+and we brought in a nurse to help out. Toward the end, I spent almost
+every night in his house, sleeping on a cot next to his bed. I was
+there primarily out of love, to do what I could for him. But there
+was another reason. I was curious to see whether in his final hours
+this unwavering, iron-willed man would reveal any weakness. If I saw
+the slightest hint, I would find a way to head it off, or at least
+obscure it from him. For sixteen years or more I had been searching
+for a break in his strength. I never found it. I didn’t really expect
+him to ask for quarter now.
+
+When I saw him on the morning of the 21st, I felt that he would not
+last the day. I was scheduled for a Skyrocket flight that morning and
+was on the verge of putting through a call to Walt Williams to cancel
+it when my father called for me.
+
+“What were you supposed to be doing today?” he asked. “Why haven’t
+you gone to work?”
+
+“Oh, nothing,” I said. “Just a routine flight. I can cancel it with
+no problem.”
+
+“I want you to go ahead and do your job.” His voice was low but firm.
+His request was a command. There was no hint of quarter.
+
+“Okay. But will you wait for me?” We both knew what I meant.
+
+“Yes.”
+
+I drove to the field and made the flight. My father waited, as he
+promised. As I soon learned from a telephone call, he died at the
+exact moment the Skyrocket’s wheels touched down on the lake at the
+conclusion of my flight. He died quietly and bravely, without a
+single compromise on his conscience. That he found what he sought
+in the next life I have no doubt, for he was an honorable man and a
+Christian.
+
+Returning home that night after the X-15 explosion, the real
+significance of my own life, which I had pondered for so many months
+at Edwards, came to me as though crystallized by the accident. My
+own life, in a different setting in time and circumstance, was an
+imitation of my father’s, a striving toward unattainable perfection.
+As nature had sealed Bill Young’s eyes and then mysteriously opened
+his ears to sounds beyond the experience of other men, so nature
+wounded me in childhood and then mysteriously endowed me with a
+special spirit that put fear beyond my experience and spurred me to
+improve everything that crossed my path. Who can presume to know
+why? Nature and God are one. If there is an imperfection, it is not
+there by accident. Perhaps He intended that by my example the wounds
+of others lacking in this special spirit might be healed. I honestly
+cannot believe that my being present at the birth and growth of the
+X-15 was an accident. This blending of man and machine in a common
+cause must be a part of _His_ grand design.
+
+My father may have fallen short of his goal. I have fallen short
+of my goal, probably I always shall. It may be that only ignorant
+men reach goals. The important thing, I think, as with the X-15, is
+the striving itself. Each of us who strives toward the unattainable
+contributes to man’s ever-growing reservoir of knowledge and fact.
+Each drop, however small, is vital for those who follow behind us.
+Without it man must inevitably atrophy. Thus, as Emerson says, “Men
+walk as prophecies of the next age.”
+
+I realized that night that my new circle, the meaning of which I
+had so intensively probed during the long months at Edwards, was
+boundless. It was, in a few words, more of the same on a grander
+scale. The details were not important. The ultimate end was not a
+fixed slot, which I imagined in my youth to be the satisfying end,
+a life devoted not to the specific but to the infinite, to the
+collection of a few drops for that vast and wonderful pool. A small
+contribution which would ease my children’s way, or perhaps in time
+open men’s eyes to a part of the grand mystery.
+
+ * * * * *
+
+It was quite late when I pulled into our driveway in Westchester. I
+strode briskly to the front door and entered quietly. The children
+were asleep. I mixed a drink and Alice and I relaxed in the living
+room.
+
+“Well, you look all right to me,” she said.
+
+“There’s nothing wrong with me.”
+
+“So what’s next?” It was many years since she had put that question
+to me.
+
+“I don’t know.” A thousand thoughts flashed through my mind. A
+thousand imperfections, a thousand horizons, a thousand Mount
+Everests, the story of man since time began. I was in a strange mood.
+
+“Well,” Alice said, “they say life begins at forty. You’ve got a full
+year and a half to make up your mind.”
+
+“You know what I’ve been thinking,” I said absently. “This house is
+getting pretty crowded with five lads. Maybe we ought to add a new
+wing. Then there’s another thing I’d like to do. Maybe we could build
+a little summerhouse out in the back yard--you know, one of those
+lattice-work things--with a tower, or cupola, on top. If we built one
+tall enough, we could see over the shrubbery and the fence. We could
+sit up there and watch the airplanes taking off and landing at the
+airport. We could see the sky and the horizon unobscured.”
+
+The tower is not yet begun. But that is a new story, another dawn.
+
+
+
+
+_Chronology_
+
+
+ DATE PLANE PILOT COMMENT
+
+ _1946_
+ Sept. NACA contingent arrives
+ at Edwards
+ Oct. X-1 Goodlin First powered flight
+
+ _1947_
+ Mar. D-558-I May First flight
+ Aug. D-558-I Caldwell 640.7 mph
+ Aug. D-558-I Carl 651 mph
+ Oct. X-1 Yeager Mach 1.0
+
+ _1948_
+ Feb. D-558-II Martin First flight; Ground take-off
+ Mar. X-1 Hoover First civilian; Mach 1.0
+ Sept. XF-92A Yeager First flight
+ Dec. X-4 Tucker First flight
+
+ _1949_
+ Aug. X-1 Everest 73,000 ft.
+
+ _1950_
+ June D-558-II Bridgeman First air-launch
+
+ _1951_
+ June X-5 Ziegler First flight
+ Aug. D-558-II Bridgeman 79,000 ft.; Mach 1.89
+ Nov. X-1 (#3) Cannon Blew up--destroyed
+ Fall X-1-D Everest Blew up--mother plane
+
+ _1952_
+ June X-2 (#1) Ziegler Ballast--at Edwards;
+ Glide
+ Oct. X-3 Bridgeman First flight
+
+ _1953_
+ Feb. X-1-A Ziegler First powered flight
+ May X-2 (#2) Ziegler Captive--Buffalo; Blew
+ up--Ziegler killed
+ Aug. D-558-II Carl 83,235 ft.
+ Oct. XF-92A Crossfield Wheel collapsed; Plane
+ retired
+ Nov. D-558-II Crossfield Mach 2.0
+ Dec. X-1-A Yeager Mach 2.5; Tumble
+
+ _1954_
+ Apr. (X-15) NACA Summary Report;
+ Plane born
+ June X-1-A Murray 90,000 ft.; Tumble
+ Aug. X-2 (#1) Everest First glide flight; Ballast;
+ Damaged
+ Oct. (X-15) Recommended by NACA
+ Oct. X-1-B Murray First flight
+ Dec. (X-15) Competition announced
+
+ _1955_
+ Aug. X-1-A Walker Fire--jettison plane
+ Nov. X-2 Everest First powered flight
+ Dec. X-1-E Walker First powered flight
+ Dec. (X-15) Contract awarded to
+ North American
+
+ _1956_
+ May X-2 (#2) Kincheloe First flight
+ July X-2 Everest Mach 2.93
+ Sept. X-2 Kincheloe 126,200 ft.
+ Sept. X-2 Apt First flight 2,094 mph;
+ Crashed--killed
+ Dec. (X-15) Mock-up complete
+
+ _1958_
+ July F-104 Kincheloe Killed
+ Oct. (X-15 #1) Completed, shipped to
+ Edwards
+
+ _1959_
+ Mar. X-15 #1 Crossfield First captive flight
+ June X-15 #1 Crossfield First glide flight
+ Sept. X-15 #2 Crossfield First powered flight
+
+ _1960_
+ Feb. (X-15 #1) Delivered to Air Force
+ and NASA
+ June X-15 #3 Crossfield Explosion during XLR-99
+ engine ground test
+ Aug. X-15 #1 Walker 2,196 mph
+ Aug. X-15 #1 White 136,500 ft.
+
+
+
+
+ _Index_
+
+
+ Aase, Carl, 72, 79
+
+ aero-space medicine, 187
+
+ aircraft:
+ B-17, 107
+ B-25, 206
+ B-29, 48-50, 125, 127, 147, 171, 176, 201, 203
+ B-36, 222, 264
+ B-45, 30
+ B-47, 20, 25, 216
+ B-50, 146, 147, 151, 152
+ B-52, 264-265, 299, 301, 310, 316, 322, 331, 335, 352, 358, 377,
+ 392
+ B-58, 215, 367
+ B-70, 293, 295, 357, 373, 397
+ “Banshee” (McDonnell’s F2H), 25, 299
+ Boeing’s Clipper, 76
+ Boeing’s 707, 20
+ British Comet Jet airliner, 235
+ C-3 Cub, 66
+ Convair’s 880, 297
+ Curtiss Robin, 74
+ DC-6, 139
+ DC-8, 297
+ DeHavilland Swallows, 33
+ Douglas D-558-II “Skyrocket,” 34, 46, 135, 139, 145, 149, 157,
+ 158, 171, 177, 198, 212, 216, 223, 231, 241, 285
+ Douglas D-558, “Skystreak,” 47
+ Douglas D-558-I “Skystreak,” 33, 39, 47, 135, 159, 216
+ Eagle Rock, 64, 66
+ F4H, 287
+ F4U, 109, 110, 111
+ F6F, 104, 109
+ F8U, 287
+ F9F, 216
+ F11F, 287
+ F-80, 25
+ F-84, 25, 39
+ F-84-F, 193, 195, 216
+ F-86, 25, 193-194, 206, 216, 220, 233, 299
+ F-100, 45, 186, 194-198, 206, 221, 231, 289, 299, 341
+ F-101, 45, 186
+ F-102, 45, 167, 193, 216
+ F-104, 45, 185, 278, 300, 304, 341, 372, 381
+ F-105, 186, 215, 297
+ F-106, 167, 297
+ F-107, 215, 297, 299
+ F-108, 206, 293, 295, 357
+ “Glamorous Glennis,” 31, 127, 145
+ Hiller Helicopter, 216
+ Howard “Ike,” “Mike,” and “Pete,” 65
+ Howard “Mr. Mulligan,” 65, 75
+ Lancaster (British), 70
+ N3N (“Yellow Peril”), 90
+ P-51, 206, 241
+ R-4-D, 107
+ T-39, 299, 374
+ Travelair “Mystery Ship,” 65, 66
+ U-2, 275
+ Weddell-Williams “Special,” 65
+ X-1, 21-23, 26, 28, 31, 33, 47-58, 119, 125, 126, 128, 135, 137,
+ 139, 158, 198, 223, 228, 237, 293, 311
+ X-1-A, 137, 138, 145, 159, 162, 180, 184, 200-205, 238, 286, 293,
+ 299, 368, 381, 391
+ X-1-B, 137, 145, 148, 185, 201, 204, 212, 224, 286
+ X-1-C, 137, 145
+ X-1-D, 137, 145, 146, 159, 201, 381
+ X-1-E, 185, 204, 208, 211, 286
+ X-1-3 (“Queenie”), 145, 147, 148, 201, 350, 381
+ X-2, 34-35, 135, 137, 139, 149, 150-153, 157, 165, 185, 201-207,
+ 228, 231, 238, 247, 275, 286, 293, 343, 371, 381, 396
+ X-3, 34, 141, 148-149, 152, 165, 198, 286, 293, 396
+ X-4, 32-33, 38-44, 47, 135, 158, 198, 278, 286
+ X-5, 34, 154-155, 158, 198, 216, 286
+ X-15, 35, 49, 158, 165, 186, 187-189, 204, 207-208, 212, 216,
+ 220, 222, 227, 231, 245, 249, 251, 264, 268, 272, 277, 282,
+ 286, 290, 295, 299, 300, 304, 310, 322, 325, 338, 343, 358,
+ 377, 389, 392, 401, 405, 409
+ X-15 Number 2, 346, 350
+ X-15 Number 3, 407
+ X-15B, 279, 280-283, 287, 295, 318
+ XF-85, 299
+ XF-92A, 148, 165, 167, 193, 216, 278
+ YF-84, 216, 276
+
+ Allavie, Capt John E. (“Jack”), 266, 314, 325, 328, 335, 367 ff.,
+ 371, 376, 394
+
+ Allen, Edward (“Eddie”), 23, 27, 76, 373
+
+ Ames, NACA laboratory, 26, 29, 35, 156
+
+ Ankenbruk, Herman O., 174, 175, 177
+
+ Apt, Capt. Milburn (“Mel”), 213-214, 215-216, 247, 270, 367, 389,
+ 396
+
+ Army’s Ballistic Missile Agency, Huntsville, Ala., 374
+
+ Atwood, J. Lee, 209-212
+
+ auxiliary power unit (APU), 310-312
+
+
+ Babb, Harold, 60
+
+ Baker, Joel R. (“Bob”), Jr., 210
+
+ ballistic-missile nose, 224
+
+ Barker, Peter R. (“Pete”), 314, 315, 328 ff.
+
+ Barnes, Francis Lowe (“Pancho”), 29, 40, 65, 215
+
+ Beach, Melvin L. (“Mel”), 309, 326
+
+ Beal, Arthur, 78, 81, 84
+
+ Bell (aircraft company), 21-23, 31, 34, 127, 137, 146, 149, 153,
+ 201, 204
+
+ Benner, Roland R. (“Bud”), 226, 349, 356
+
+ Berkowitz, Harry W. (“Bill”), 300, 314, 352, 359, 360, 367
+
+ Bikle, Paul, 298, 390
+
+ Blossom, Mrs. (author’s sixth grade teacher), 72
+
+ Bock, Capt. Charles, 266, 314, 315, 316, 320 ff., 328, 329, 331
+ ff., 338, 339, 340, 352, 355, 360, 361, 367, 394
+
+ Boeing (aircraft company), 20-21, 82, 85, 88, 287
+
+ Bonney, Walter, 169, 170, 178
+
+ Boyd, Col. Albert, 31, 40, 41, 146, 165, 190
+
+ Braun, Wernher von, 374, 377
+
+ Bridgeman, William B. (“Bill”), 34, 46, 48-49, 52, 139, 148, 159,
+ 210, 216, 238
+
+ Brown, Claude (brother-in-law), 36
+
+ Brown, Clinton, 163
+
+ Brown, Elena Ruth (“Babe”)--sister, 36, 62, 78, 102
+
+ Brown, Louise, 56
+
+ Bryan, John C. (“Jack”), 210
+
+ Buchanan, G. A., 84, 85
+
+ Butchart, Stanley P. (“Stan”), 175, 176, 193, 200 ff.
+
+ Butler, Capt. Francis M., 190
+
+
+ Caldwell, Comdr. Turner F., Jr., 47
+
+ Canary, John O. (“Jack”), 221
+
+ Cannon, Joseph A. (“Joe”), 147, 148, 299
+
+ “captive” fuel tests, 152
+
+ Carl, Maj. Marion, 47, 159, 216, 241, 287
+
+ Carmen, L. Robert, 35, 142, 157, 226, 293-294
+
+ Carpenter, Brig. Gen. John W., 297
+
+ Century Series supersonic fighters, 45, 136, 185
+
+ Champine, Robert S. (“Bob”), 30, 128
+
+ Civilian Pilot Training (CPT), 84
+
+ Clark, Dr. David M., 239-240, 242, 243, 253 ff.
+
+ Clark, Mrs. (author’s first grade teacher), 72
+
+ Clousing, Laurence, 27
+
+ Cokely, E. R. (“Ed”), 298-299
+
+ Colvin, Lou, 111, 112
+
+ commercial jet airliner (U. S.), _see_ Boeing 707
+
+ Cooper, Brig. Gen. Marcus, 297
+
+ cosmic radiation, 164, 187
+
+ Crossfield’s family:
+ Albert Scott (father), 56, 407;
+ Alice (wife), 22, 28-29, 37, 96, 102, 120, 285;
+ Amasa Scott (grandfather), 56;
+ Becky (daughter), 37, 121;
+ Lucia (mother), 55;
+ Mary Ann (sister), 62, 80;
+ Tommy (son), 37
+ _See also_ Elena Ruth Brown
+
+ Crow, Sgt. Herbert G., 314
+
+
+ Doolittle, James H. (“Jimmy”), 23, 76, 152, 186
+
+ Douglas (aircraft company), 34, 186, 204
+
+ Drake, Hubert M., 35, 142, 157, 226
+
+ Drakeford, Sir Arthur, 57
+
+ Drakeford, Peter A., 57
+
+ Drakeford, Ruth, 57
+
+ “Dry lakes,” 42, 44, 282;
+ Cuddeback Dry Lake, 42, 380;
+ Harper Dry Lake, 43;
+ Rogers Dry Lake, 42, 52, 129, 151, 223, 301, 321, 340;
+ Rosamond Dry Lake, 43, 338, 355, 380;
+ Three Sisters Dry Lakes, 43, 380
+
+ Dryden, Dr. Hugh, 152, 153, 159, 161, 168, 179, 188, 206, 283
+
+ Durrup, Lt. Paul, 237, 238
+
+ Dwyer, Bessie, 57
+
+ Dwyer, Thomas Aloysius, 54
+
+ Dwyer, Thomas Aloysius, Jr., 55
+
+
+ Earhart, Amelia, 65
+
+ Edwards (desert test center), Calif., 28
+
+ ejection seat, 230, 233, 259, 260
+
+ Elkin, Hugh, 222, 396
+
+ Emerson, Ralph Waldo, 319, 409
+
+ “escape capsule,” 230-232
+
+ Everest, Maj. Frank K. (“Pete”), 31, 32, 40, 42-43, 127, 146,
+ 147, 165, 180, 184, 190, 201, 204, 207, 210, 213, 214, 216,
+ 237-238, 367, 371, 389, 396
+
+ Everest, Frank K., _The Fastest Man Alive_, 146
+
+ “extra-atmospheric” flight, 164
+
+
+ Feltz, Charles, 220-222, 225, 226 ff., 244, 251, 260, 261, 262 ff.,
+ 267-270, 275 ff., 284, 289, 290, 292 ff., 303, 307 ff., 316,
+ 326, 333, 336, 342, 349, 356, 359, 364, 365, 371, 385, 391,
+ 395, 406
+
+ Ferren, Roy, 380, 382
+
+ Finch, Thomas, 154
+
+ Flagg, John, 255, 256, 257
+
+ Flateboe, Comdr. William, 111, 112
+
+ Flickinger, Brig. Gen. Don, 258, 267, 268, 277, 282, 283
+
+ Fohl, Simon S. (“Si”), 309-310
+
+ “forced eating” methods, 277
+
+ Freedman, Toby, 301, 383-384
+
+ Freeman, Oscar, 315, 328
+
+ Fulton, Fitzhugh, 49, 51-52, 367, 368, 394
+
+
+ Gahl, Capt. Edward C., 266
+
+ Gallanes, Harry, 400-401
+
+ Gates, Thomas S., Secretary of Defense, 396
+
+ Gibb, John, 349, 353, 356
+
+ Givens, Capt. Vergil C., 176
+
+ Glennan, Dr. T. Keith, 283
+
+ Goodlin, Chalmers (“Slick”), 21, 23, 30
+
+ Goodrich Tire and Rubber Company, 237
+
+ Gravity, positive (positive G), 129
+
+ Gregorious, Capt. John, 190
+
+ Griffith, John, 28, 29, 31, 39, 126
+
+ Grumman (aircraft company), 76
+
+
+ Harper, John, 30
+
+ Harvey, Quinton C. (“Q.C.”), 147, 299 ff., 308, 316, 322, 324,
+ 328-329, 335-336, 339, 342, 346, 349, 355, 356, 359, 360,
+ 365, 368, 371, 373, 376 ff., 386, 389, 401, 403, 407
+
+ Helsell, William A. (“Bill”), 111, 112, 113, 115, 116, 117
+
+ Henry, Dr. James P., 237
+
+ High Speed Flight Station, NACA, Edwards, 30, 191, 298
+
+ Hoffmann, “Bogie,” 94
+
+ Holguin, Paula, 55
+
+ Holtoner, Gen. Stanley, 190, 297
+
+ Hoover, Herbert R., 30, 31
+
+ Hoover, Robert A. (“Bob”), 196
+
+ Howard, Ben O. (“Benny”), 65, 75
+
+ Humphries, Mrs. (author’s fourth grade teacher), 72
+
+
+ Inconel X, 224, 229, 262, 290, 320, 343
+
+ International Harvester Company, 245
+
+ International Geophysical Year, 267
+
+ International Livestock Show, Chicago, 78
+
+
+ Jansen, George, 48, 50, 140
+
+ JATO, 47-48, 139
+
+ Jingle, Joe, 351
+
+ Johnson, Louis, Secretary of Defense, 45
+
+ Johnson, Col. Richard, 40
+
+ Johnston, E. W. (“Bill”), 248
+
+ Johnsville Centrifuge, 271-272
+
+ Jones, Harold, 81
+
+ Jones, Walter P., 126
+
+
+ Kincheloe, Iven, 213-214, 216, 286, 304-305, 367, 396
+
+ Kindelberger, J. H. (“Dutch”), 210
+
+ Kingsville Naval Air Station, 93
+
+ Kirsten, Professor Frank K., 19
+
+ Kotcher, Ezra, 26, 158
+
+ Konrad, John, 49, 52
+
+ Korean War, 25, 45
+
+
+ Laird, Norman, 66
+
+ Lamb, Comdr. William, 104, 105
+
+ Langley, NACA laboratory, 26, 30, 32, 157, 283
+
+ Lathrop, Neil T., 190
+
+ Lauffer, Brian, 383
+
+ Lawrence Sperry Award, 210
+
+ Layne, Eddie, 46
+
+ LeBlonde (French mfg. company), 79
+
+ Le May, Gen. Curtis, 266
+
+ Le Vier, Anthony W. (“Tony”), 186
+
+ Lewshon, William T., 152
+
+ Lienesch, Charles (“Carl”), 64, 66, 76, 80
+
+ Lilly, Howard C., 30, 33, 47
+
+ Lindbergh, Charles A., 21, 24, 75
+
+ Lox (liquid oxygen), 160, 172, 201
+
+ Lunn, Rose E., 265
+
+
+ Mach number, 16, 33-34, 39, 48, 129, 137, 143, 158, 171-172,
+ 177-178, 183, 186, 247, 269, 362, 371, 391, 395
+
+ Marshall, Gen. George C., 45
+
+ Martin, Ernest (“Ernie”), 242
+
+ Martin, John, 48
+
+ May, Gene, 33, 34, 48
+
+ McDonnell (aircraft company), 20, 283
+
+ McKay, John B. (“Jack”), 193, 201-202, 224
+
+ McNulty, Vaughn, 66
+
+ Meade, Mrs. (author’s second grade teacher), 72
+
+ Mellinger, George, 373
+
+ Mercury Astronauts, 243, 283
+
+ MIS (Man in Space) program, 267, 268, 277, 282
+
+ missiles:
+ Bomarc, 356;
+ medium- and long-range (Thor, Jupiter, Atlas, Titan), 27, 156,
+ 187, 206, 228, 269;
+ Nike, 356;
+ Navaho, 268-269, 279, 281;
+ Redstone, 157, 399;
+ Regulus, 215;
+ surface-to-surface (Atlas, Titan, Polaris), 357, 404;
+ Vanguard, 399;
+ V-2, 156
+
+ Moise, John W. (“Jack”), 173, 368
+
+ Murphy’s Law, 352, 368, 404
+
+ Murray, Maj. Arthur (“Kit”), 181, 182, 184, 201, 202-203, 207, 216,
+ 241, 299, 367, 391
+
+
+ NACA High Speed Flight Station, 30, 191, 298
+
+ NACA testing laboratories:
+ Ames, Calif. (Moffett Field, near San Francisco), 26;
+ Lewis, Cleveland, Ohio, 26;
+ Langley, Hampton, Va., 26, 30, 32, 157, 283
+
+ National Advisory Committee for Aeronautics (NACA), 26-28, 30-33,
+ 38, 40, 45, 65, 136, 141, 152
+
+ National Aeronautics and Space Administration (NASA), 283, 287
+
+ Nautilus submarine, 269
+
+ Naval Air Test Center, Patuxent River, Maryland, 105, 159
+
+ Naval Air Training Center, Corpus Christi, Texas, 91
+
+ Naval Air Training Center, Jacksonville, Florida, 99
+
+ Navy Aero-medical Acceleration Laboratory, Johnsville, Pa., 272
+
+ Newman, James (“Jim”), 172, 176
+
+ Nixon, Richard M., 303
+
+ North American Aviation, Inc., 204, 209, 247, 268, 312, 318, 334
+
+ Northrop, John K. (“Jack”), 40
+
+ “Nose Wheel Club,” 132
+
+
+ O’Sullivan, William J., 163
+
+ Owl, George A., Jr., 221, 229
+
+
+ Paymiller, Mrs. (author’s fifth-grade teacher), 63, 72
+
+ Payne, Richard E. (“Dick”), 128
+
+ Pearl Harbor, 86, 93, 247
+
+ Perkins, Oliver R. (“Perk”), 167, 168
+
+ Petersen, Lt. Comdr. Forrest S., (“Pete”), 287
+
+ “Phase Two” airplanes, 47
+
+ Popson, Maj. Raymond A., 155, 190
+
+ Post, Wiley, 237
+
+ _Press-Telegram_, newspaper of Long Beach, Calif., 66
+
+ pressure suit and equipment, 236-239, 240-242, 253, 258
+
+ “pressurized” cabin, 235
+
+ Project Mercury, 158, 283, 287
+
+ Puckett, Elvin V., 84
+
+
+ radiation disease, 274
+
+ Reaction Motors, Inc., 223
+
+ Reed, Elden, 78, 81, 84
+
+ Republic (aircraft corporation), 204, 205
+
+ reserve squadron VF-74, 109, 113-114, 118
+
+ Rice, Ray, 212, 246
+
+ Richardson, Capt. Ralph N., 314, 326, 334, 344, 373, 390
+
+ Richter, Donald M. (“Sam”), 300, 301, 309, 316, 331, 342, 363, 364,
+ 365, 366, 379, 384, 386-387
+
+ Ridley, Capt. Jackie L. (“Jack”), 31, 127, 130, 146, 181, 190
+
+ Robinson, Raun, 226
+
+ Robinson, Russell E. (“Robby”), 310-311, 313
+
+ rocket engines, 46
+
+ rocket engine XLR-99, 223, 227, 233, 251, 281, 292-294, 301, 361,
+ 399
+
+ Roosevelt, Theodore, 259
+
+ Rowan, Dr. E. J., 63
+
+ Russell, Jack, 160
+
+
+ Sand Point Naval Air Station, Seattle, Wash., 88
+
+ Satellites:
+ Dyna-Soar, 287;
+ Sputnik, 270, 280-283, 288, 302
+
+ Scott, Gen. Winfield, 56
+
+ Seeger, Oscar, 119, 123
+
+ Sellers, Capt. Wilbur (“Pete”), 125, 127, 190
+
+ “Semi-empirical Method of Obtaining Static and Dynamic Aerodynamic
+ Parameters of Swept-back Wings Analyzed on a Basis of Plan
+ Form,”--Crossfield’s master’s thesis, 122
+
+ Semone, Arthur (“Art”), 403
+
+ Sigma Xi, 121
+
+ Simons, Maj. David, 275
+
+ Smith, boot ensign, 104
+
+ Smith, George, 230-231
+
+ Smithsonian Institution, 31
+
+ sonic barrier, 23, 28, 30, 31, 47
+
+ Soucek, Rear Adm. Apollo, 168
+
+ Soule, Hartley, 26
+
+ “space suit,” 242
+
+ Sparks, Ralph (“Sparky”), 38, 40
+
+ speed of sound, 16, 21, 26
+
+ stability augmentation system (SAS), 193, 339
+
+ Stack, John, 26, 157
+
+ Stanley, Robert, 127, 137, 152
+
+ Stapp, Col. John Paul, 259
+
+ Staub, Blake, 313, 339
+
+ Storms, Harrison (“Stormy”), 205, 246-250, 252, 262, 267-270, 280
+ ff., 293, 311, 316, 326, 327, 330 ff., 342, 344, 349, 356,
+ 359, 374, 375, 378, 384, 386, 393, 406
+
+ Strategic Air Command, 20, 21
+
+ “supersonic yaw,” 142, 160
+
+
+ Taft, William Howard, 57
+
+ “tail chase,” 95
+
+ Tau Beta Pi, 121
+
+ Taylor, James, 76, 373
+
+ Thach, Capt. John (“Jimmy”), 94
+
+ Thomas, Mrs. (author’s third grade teacher), 72
+
+ Thompson, Capt. Allen W., 190
+
+ Tucker, Charles E., 40
+
+ Turner, Roscoe, 65
+
+ twenty-mule teams, 29
+
+ Tymczyszyn, Joseph J., 20, 21, 121
+
+
+ Union Oil Refinery, Wilmington, Calif., 58, 76
+
+ University of Nebraska, 81
+
+ University of Washington, 19, 20, 80-81, 111, 119
+
+
+ Van Allen radiation belt, 275
+
+ Vensel, Joseph R. (“Joe”), 30, 31, 39, 44, 126, 153, 193, 198, 202,
+ 203
+
+
+ Walker, Joseph A. (“Joe”), 126, 149, 154, 193, 200, 202, 286, 354,
+ 359, 363, 368, 371, 372, 392-393, 405, 406
+
+ Walko, Frank, 152
+
+ Wallin, Mrs. (author’s kindergarten teacher), 72
+
+ Wedell, James (“Jimmy”), 65
+
+ weightlessness (zero G), 129, 164, 187, 276
+
+ Welch, George, 194
+
+ Weldon, Lt. Comdr. Harry, 238, 239, 241
+
+ White, Maj. Robert, 286, 305, 340, 354, 359, 364, 371, 381-383,
+ 392, 397, 405, 406
+
+ Williams, Esther, 179
+
+ Williams, Walter C. (“Walt”), 28, 30-31, 38-39, 44, 52, 126, 138,
+ 149, 153, 162, 169, 178, 199, 206-208, 213, 250, 251, 298,
+ 305, 408
+
+ Wilrich, Louise, 78, 81, 84
+
+ Wilson, Charles E., Secretary of Defense, 270
+
+ Wilson, Woodrow, 26
+
+ wind-tunnel tests and data, 20, 33, 120, 163, 186, 211, 231, 248
+
+ wings:
+ cantilever, 19, 20;
+ delta, 32;
+ straight, 32;
+ swept, 32
+
+ Wolfe, Maj. Joseph E., 190
+
+ Woods, Robert, 26, 156, 157, 158
+
+
+ Yeager, Capt. Charles (“Chuck”), 23, 28, 32, 40-41, 47, 104, 125,
+ 138, 149, 159, 162, 165, 180, 181, 198, 201, 207, 210, 215,
+ 216, 221, 276, 299, 342, 367, 371
+
+ York, Sergeant, 104
+
+ Young, William (“Bill”), 78, 81, 84, 409
+
+
+ Ziegler, Jean L. (“Skip”), 146, 149, 151-152, 204, 299
+
+ Zimmerman, Charles H., 163
+
+
+[Illustration: (Colophon)]
+
+ _This book was set in
+ Futura and Caledonia types by
+ Harry Sweetman Typesetting Corp.
+ It was printed and bound at
+ the press of The World Publishing Company.
+ Typography and design are by Larry Kamp._
+
+
+
+
+ Transcriber’s Notes
+
+
+Obvious typographical errors and punctuation errors have been
+silently corrected after careful comparison with other occurrences
+within the text and consultation of external sources. Some hyphens
+in words have been silently removed and some silently added when
+a predominant preference was found in the original book. Except
+for those changes noted below, original spellings in the text and
+inconsistent usage have been retained.
+
+ Page 173: “high-pressure propellents” replaced by “high-pressure
+ propellants”.
+
+ Page 229: “add considerable” replaced by “add considerably”.
+
+ Page 258: “look of horrow” replaced by “look of horror”.
+
+ Page 293: “turned to on the” replaced by “turned to the”.
+
+ Page 397: “Project Mecury capsule” replaced by “Project Mercury
+ capsule”.
+
+ Page 418: “Holtner, Gen. Stanley” replaced by “Holtoner, Gen.
+ Stanley”.
+
+ Page 419: “Mach number, 15” replaced by “Mach number, 16”.
+
+ Page 419: “near San” replaced by “near San Francisco), 26”.
+
+ Page 420: “speed of sound, 15” replaced by “speed of sound, 16”.
+
+Three consecutive pictures in the second photo insert shared the
+same caption (“Clips from the horror film. NAA photos.”) in the
+original text. The caption “Clip from the horror film. NAA photo.”
+has been added to all three pictures for clarity. Italicized text is
+surrounded by underscores: _italics_.
+
+New original cover art included with this eBook is granted to the
+public domain.
+
+*** END OF THE PROJECT GUTENBERG EBOOK 78431 ***
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+<div style='text-align:center'>*** START OF THE PROJECT GUTENBERG EBOOK 78431 ***</div>
+
+
+<p class="p4t p4b fs110 center letter-sp1 word-sp">
+ALWAYS ANOTHER DAWN ►
+</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<h1 class="center noindent fs350 fsans fnormal letter-sphalf">
+Always Another Dawn</h1>
+<p class="center noindent fs150a fsans p2b letter-sp1 flightbold">
+THE STORY OF A ROCKET TEST PILOT</p>
+<p class="right p10r fs150a">
+<i>by A. Scott Crossfield</i></p>
+<p class="right p10r fs150a p4b">
+<i>with Clay Blair, Jr.</i></p>
+
+
+
+<p class="center fs125a p1t letter-sp1">
+<span class="p1r">CLEVELAND AND NEW YORK</span> <img alt="colophon" src="images/colophon.jpg"></p>
+
+
+<p class="center fs150a p1t letter-sp1">
+THE WORLD PUBLISHING COMPANY
+</p>
+</div>
+
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p class="right fs85 p1b p10r">
+ <i>Published by</i> The World Publishing Company<br>
+ 2231 West 110th Street, Cleveland 2, Ohio</p>
+<p class="right fs85 p2b p10r">
+ <i>Published simultaneously in Canada by</i><br>
+ Nelson, Foster &amp; Scott Ltd.</p>
+
+<p class="right fs85 p1b p10r">
+ Library of Congress Catalog Card Number: 60-14641</p>
+<p class="right fs85 p4b p10r">
+ FIRST EDITION</p>
+<p class="right fs85 p10r">WP1060
+</p>
+</div>
+
+<p class="fs85 bigindent p10r p2b">Copyright ©1960 by A. Scott Crossfield and Clay Blair, Jr.
+All rights reserved. No part of this book may be reproduced
+in any form without written permission from the publisher,
+except for brief passages included in a review appearing in a
+newspaper or magazine. Printed in the United States of America.</p>
+
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p class="center p2b p2t">
+To Joseph, who knows why
+</p>
+</div>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+ <p class="noindent fsans fs150 p1b fsans phalfl" id="Contents">
+ <i>Contents</i>
+ </p>
+
+<p class="p2b p1l">
+ (<i>Illustrations will be found following pages <a href="#i_134fp_01a">134</a> and <a href="#i_294fp_01a">294</a>.</i>)
+ </p>
+</div>
+
+
+<table class="autotable wd100">
+
+<tr>
+<td class="tdr" style="width:2em"></td>
+<td class="tdl fs90"><span class="p1l"><a href="#Foreword">FOREWORD</a></span></td>
+<td class="tdr">15</td>
+</tr>
+
+<tr>
+<td class="tdr"></td>
+<td class="tdl">&nbsp;</td>
+<td class="tdr"></td>
+</tr>
+
+<tr>
+<td class="tdr"></td>
+<td class="tdl fs90"><span class="p1l"><a href="#A_Note_on_Speed">A NOTE ON SPEED</a></span></td>
+<td class="tdr">16</td>
+</tr>
+
+<tr>
+<td class="tdr"></td>
+<td class="tdl">&nbsp;</td>
+<td class="tdr"></td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_1">1</a>.</span></td>
+<td class="tdl"> “A Modern-Day Lindbergh”</td>
+<td class="tdr">19</td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_2">2</a>.</span></td>
+<td class="tdl"> The Gypsy Caravan</td>
+<td class="tdr">25</td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_3">3</a>.</span></td>
+<td class="tdl"> A Sense of Urgency</td>
+<td class="tdr">38</td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_4">4</a>.</span></td>
+<td class="tdl"> Excitement and Frustration</td>
+<td class="tdr">45</td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_5">5</a>.</span></td>
+<td class="tdl"> An Unusual Heritage</td>
+<td class="tdr">53</td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_6">6</a>.</span></td>
+<td class="tdl"> An Isolated Environment</td>
+<td class="tdr">62</td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_7">7</a>.</span></td>
+<td class="tdl"> “Take Her Up and Try a Spin”</td>
+<td class="tdr">72</td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_8">8</a>.</span></td>
+<td class="tdl"> Change and Challenge</td>
+<td class="tdr">82</td>
+</tr>
+
+<tr>
+<td class="tdr"><span class="phalfl"><a href="#CHAPTER_9">9</a>.</span></td>
+<td class="tdl"> Manhood and Maturity</td>
+<td class="tdr">89</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_10">10</a>.</td>
+<td class="tdl"> No Penalty for Being Late</td>
+<td class="tdr">99</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_11">11</a>.</td>
+<td class="tdl"> How Dark the Clouds</td>
+<td class="tdr">109</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_12">12</a>.</td>
+<td class="tdl"> A Short Man with Santa Claus Eyebrows</td>
+<td class="tdr">119</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_13">13</a>.</td>
+<td class="tdl">“Barefoot Boy with Cheek”</td>
+<td class="tdr">125</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_14">14</a>.</td>
+<td class="tdl"> The Need for Speed</td>
+<td class="tdr">135</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_15">15</a>.</td>
+<td class="tdl"> Disaster on the Race Track</td>
+<td class="tdr">145</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_16">16</a>.</td>
+<td class="tdl"> Bright Light Under a Bush</td>
+<td class="tdr">154</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_17">17</a>.</td>
+<td class="tdl"> Light in the Open</td>
+<td class="tdr">162</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_18">18</a>.</td>
+<td class="tdl"> “Fastest Man on Earth”</td>
+<td class="tdr">171</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_19">19</a>.</td>
+<td class="tdl"> “Leaf in a Tempest”</td>
+<td class="tdr">180</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_20">20</a>.</td>
+<td class="tdl">“Please Come to a Complete Stop”</td>
+<td class="tdr">190</td>
+</tr>
+
+<tr>
+
+<td class="tdr"><a href="#CHAPTER_21">21</a>.</td>
+<td class="tdl">End of the Line</td>
+<td class="tdr">200</td>
+</tr>
+
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_22">22</a>.</td>
+<td class="tdl">End of an Era</td>
+<td class="tdr">209</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_23">23</a>.</td>
+<td class="tdl">Secrets in the Cafeteria</td>
+<td class="tdr">217</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_24">24</a>.</td>
+<td class="tdl">Ullage and Capsules</td>
+<td class="tdr">226</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_25">25</a>.</td>
+<td class="tdl">Girdles, Brassieres, and Shattered Sinuses</td>
+<td class="tdr">234</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_26">26</a>.</td>
+<td class="tdl">The Agricultural Approach</td>
+<td class="tdr">244</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_27">27</a>.</td>
+<td class="tdl">A Tornado Named Stormy</td>
+<td class="tdr">246</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_28">28</a>.</td>
+<td class="tdl">Wilting Straws in Plaster of Paris</td>
+<td class="tdr">253</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_29">29</a>.</td>
+<td class="tdl">Eyes Toward Space</td>
+<td class="tdr">262</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_30">30</a>.</td>
+<td class="tdl">Muting the Cassandras</td>
+<td class="tdr">271</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_31">31</a>.</td>
+<td class="tdl">Working in a Fish Bowl</td>
+<td class="tdr">280</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_32">32</a>.</td>
+<td class="tdl">Time for Extraordinary Action</td>
+<td class="tdr">289</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_33">33</a>.</td>
+<td class="tdl">Circus Day</td>
+<td class="tdr">297</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_34">34</a>.</td>
+<td class="tdl">A Carnival at Dawn</td>
+<td class="tdr">307</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_35">35</a>.</td>
+<td class="tdl">Smoke in the Cockpit</td>
+<td class="tdr">317</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_36">36</a>.</td>
+<td class="tdl">The Reluctant Dragon</td>
+<td class="tdr">327</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_37">37</a>.</td>
+<td class="tdl">Engulfed in Disappointment</td>
+<td class="tdr">338</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_38">38</a>.</td>
+<td class="tdl">“She Blew Sky High”</td>
+<td class="tdr">346</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_39">39</a>.</td>
+<td class="tdl">The Old Pro</td>
+<td class="tdr">359</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_40">40</a>.</td>
+<td class="tdl">Bad News with the Good</td>
+<td class="tdr">367</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_41">41</a>.</td>
+<td class="tdl">“You Have a Fire!”</td>
+<td class="tdr">376</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_42">42</a>.</td>
+<td class="tdl">Minor Miracles</td>
+<td class="tdr">388</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_43">43</a>.</td>
+<td class="tdl">“The Real Significance”</td>
+<td class="tdr">399</td>
+</tr>
+
+<tr>
+<td class="tdr"><a href="#CHAPTER_44">44</a>.</td>
+<td class="tdl">“Prophecies of the Next Age”</td>
+<td class="tdr">407</td>
+</tr>
+<tr>
+<td class="tdr"></td>
+<td class="tdl">&nbsp;</td>
+<td class="tdr"></td>
+</tr>
+<tr>
+<td class="tdr"></td>
+<td class="tdl fs90"><a href="#Chronology">CHRONOLOGY</a></td>
+<td class="tdr">411</td>
+</tr>
+<tr>
+<td class="tdr"></td>
+<td class="tdl">&nbsp;</td>
+<td class="tdr"></td>
+</tr>
+<tr>
+<td class="tdr"></td>
+<td class="tdl fs90"><a href="#Index">INDEX</a></td>
+<td class="tdr">415</td>
+</tr>
+</table>
+
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_15">[Pg 15]</span></p>
+
+
+ <h2 class="nobreak left fsans p2b" id="Foreword">
+ <i>Foreword</i>
+ </h2>
+</div>
+
+
+<p class="noindent">Long ago at Edwards, I heard a story that stuck in my mind.
+Two small boys, the sons of pilots, were discussing their fathers.
+One said to the other: “Aw, your father <i>can’t</i> be a test pilot. He
+hasn’t written a book.”</p>
+
+<p>Now I have joined the clan, but, I hope, with a difference.
+Inevitably I have reminisced, as, it seems, all pilots must. But
+the intent of this book is broader than mere memoirs. Put simply,
+the objective is to restate an old principle: that not talk but
+action is the key to man’s progress, and in this age, freedom from
+enslavement.</p>
+
+<p class="right">
+ <span class="smcap">A. Scott Crossfield</span>
+</p>
+
+<p class="noindent"><i>Los Angeles, Calif.<br>
+August 1960</i></p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_16">[Pg 16]</span></p>
+
+
+ <h2 class="nobreak left fsans p2b" id="A_Note_on_Speed">
+ <i>A Note on Speed</i>
+ </h2>
+</div>
+
+
+<p class="noindent">We have used the modern method of expressing aviation speed—the
+Mach number. Mach 1.0 is the speed at which sound travels
+through the air. On an average day at sea level, the speed of
+sound, or Mach 1.0, is about 760 miles an hour. At higher, colder
+altitudes on the same day, it is less. For example, at 35,000 feet
+it might be only 660 miles an hour. Since most of the flying described
+in this account is at high altitude, Mach 1.0 is, on an
+average day, about 660 miles an hour. The speed is also expressed
+in terms of fractions of a Mach number. Thus Mach .5 is half
+of Mach 1 or half of 660 miles an hour—about 330 miles an hour.
+Speeds above Mach 1.0 are also expressed in whole Mach
+numbers and fractions of Mach numbers. For example, Mach 1.5
+is the equivalent of one and a half times the speed of sound, or
+about 1,000 miles an hour. Mach 2.0—or twice the speed of sound—is
+twice 660 miles an hour, or about 1,320 miles an hour. Mach
+2.5 is about 1,650 miles an hour. Mach 3 is about 2,000 miles an
+hour.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_17">[Pg 17]</span></p>
+
+ <p class="center p2t p2b letter-sp1 word-sp">
+ ALWAYS ANOTHER DAWN ►
+</p>
+</div>
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter"></div>
+<p><span class="pagenum" id="Page_18">[Pg 18]</span></p>
+
+
+
+<p class="right p2t">
+ “There is no liberty except the liberty of someone<br>
+making his way towards something.”</p>
+<p class="right p2b p1t allsmcap">
+—ANTOINE DE SAINT EXUPÉRY
+</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_19">[Pg 19]</span></p>
+
+
+
+<p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_1">CHAPTER 1 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 1</span> “<i>A Modern-Day Lindbergh</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">A misty rain, typical of Seattle in the spring, fell across the
+lush green campus of the University of Washington that afternoon.
+It was 1947. I don’t recall the exact date because that
+whole period of my life remains fixed in my mind as a steady,
+uninterrupted blur of work and study. I do remember that as
+I drove through the narrow streets setting apart the ivy-smothered
+Tudor-Gothic buildings, I proceeded with caution.
+My car was a veteran of many campaigns in Seattle weather
+and traffic. It was barely hanging together.</p>
+
+<p>When I pulled into my special parking place behind the University’s
+wind tunnel, I was quietly angry. I had just come from
+an advanced class in aeronautical engineering under Professor
+Frank K. Kirsten, a brilliant but crotchety old martinet. He had
+devoted the lecture to a discourse on the jet engine, which, he
+held, had no future because its fuel consumption was too great.
+I had challenged his assertions and argued forcibly, concluding,
+with some heat, that other experts in aviation had made such
+dogmatic statements, only to have them later completely disproved.
+“Take Monteith,” I had said (actually quoting Kirsten).
+“He predicted the cantilever wing would not be practicable.
+<span class="pagenum" id="Page_20">[Pg 20]</span>Yet almost every airplane flying today has a cantilever wing.”
+In the aviation world, as anywhere, I concluded, everything is
+subject to change. We must believe this.</p>
+
+<p>I walked through the power room to a door marked: “Chief
+Wind Tunnel Operator,” stashed my textbook and notes in a
+desk drawer, and then scanned the bulletin board. Posted over
+the tunnel’s Schedule-of-Operations sheet was a photograph of
+a smashed-up automobile, with “Guess Who?” scrawled underneath.
+It was an earlier car I owned, a veteran of several brief
+but devastating engagements. It occurred to me then, for the
+first time, that both my problem cars had been painted green.
+I recalled an old race-track superstition against green cars. That
+was the trouble, I was sure. Overdriving my car and its brakes
+in Seattle streets couldn’t be the reason, of course.</p>
+
+<p>The wind tunnel of the University of Washington was one
+of the first—and finest—modern wind tunnels built in the United
+States. Many major aircraft companies, such as Boeing and
+McDonnell, contracted work to the tunnel. The tunnel tests and
+analyses were carried out by students under faculty supervision.
+I had worked in the tunnel part-time since returning to the
+University in the spring of 1946. We were then engaged in
+tests on the Boeing B&#x2060;-47 bomber. Many years later the plane,
+bought in vast quantity, would become the backbone of the
+Strategic Air Command, and a direct descendant, the Boeing
+707, would become the first U.&nbsp;S. commercial jet airliner. In
+1947 the plane’s concept—sharply swept cantilever wings, six
+jet engines slung on pods beneath the wing—was controversial
+and exciting.</p>
+
+<p>I joined a fellow student, Joe Tymczyszyn, near the tunnel
+control panel and greeted him above the noise, the great rushing
+of wind, and the steady humming of electric generators.
+Through a glass port mounted on the bottom of the big wind
+tube, I could see a silvery model of the B&#x2060;-47 rigidly fixed on a
+pylon. Sensitive force-measuring devices supporting the pylon
+below the chamber showed the effects of the blast on a row of
+meters on the control panel. Tym photographed the meter readings
+every few moments on a special recorder. The panel was
+<span class="pagenum" id="Page_21">[Pg 21]</span>marked “Secret” since Boeing and the Air Force considered the
+data classified.</p>
+
+<p>I plopped into a chair and lighted a cigarette. Then Tym and
+I fell into avid conversation on the topic that bound us as
+friends and co-workers: aviation. Tym had a wide acquaintance
+in aviation. He always had some bit of gossip or vital news to
+impart.</p>
+
+<p>“Did you hear about Slick Goodlin?” he began. “They say he’s
+reluctant to fly the X&#x2060;-1.” Slick was a Bell Aircraft test pilot.
+The X&#x2060;-1 was then the sensation of the aviation world—a tiny,
+bullet-shaped craft fitted with a rocket engine. It was built for
+research purposes, to provide high-speed flight data so that we,
+and others in aviation, could get information we then could
+not get from wind tunnels. In those days, when we pumped
+air through a tunnel close to the speed of sound, strange things
+happened. The air “choked” and the flow was distorted. As a
+result, most wind-tunnel data near the speed of sound were
+suspect at a time when they were vitally needed. The X&#x2060;-1 had
+sufficient power to fly faster than the speed of sound.</p>
+
+<p>“He’s reluctant to fly it?” I asked.</p>
+
+<p>“Yeah,” Tym said. “They say he wants a lot more money.”</p>
+
+<p>Few could blame him. The rocket engine of the X&#x2060;-1, a complex
+device which burned a fuel combination almost as explosive
+as dynamite, had never been flown wide open. Engineers
+were split about fifty-fifty over what would happen structurally
+when the X&#x2060;-1 reached the speed of sound. Some said the plane
+would disintegrate; others, especially engineers at Bell, said it
+would not. In any case, it might be a risky flight. But the rewards,
+other than money, would be great.</p>
+
+<p>“Hell,” I said. “The man who flies that plane through the
+sonic barrier will be a modern-day Lindbergh.” Tym nodded
+agreement and returned to his log.</p>
+
+<p>For the rest of the afternoon I was busy putting together the
+data from the wind-tunnel meters. But my mind was fixed on
+the X&#x2060;-1 and I let my imagination soar. For a test pilot, the X&#x2060;-1
+was the absolute ultimate. There was nothing like it in the past;
+it would be years before anything else surpassed it. I was still
+<span class="pagenum" id="Page_22">[Pg 22]</span>thinking about the plane when I got home that evening. Before
+dinner, when my wife, Alice, and I sat down for our usual martini,
+I was lost in thought.</p>
+
+<p>“What’s eating you?” she asked. Alice is a native of Seattle.
+Like many people from that part of the country, typical of
+Norwegian descent, she is usually quiet and straight to the
+point. After four years of marriage she had come to terms with
+my obsession for aviation and rarely questioned either my
+progress or my mood. I didn’t encourage it.</p>
+
+<p>“Oh, nothing,” I said.</p>
+
+<p>I was mentally composing a letter I intended to write to
+Bell Aircraft proposing that I be named the new test pilot of
+the X&#x2060;-1. After dinner, while Alice was washing the dishes, I
+sat down to my battered portable typewriter and carefully
+pecked out the letter, stressing my qualifications:</p>
+
+<p>Age: 26. Flying time: 2500 hours, single-engine, World War
+II Navy instructor and fighter pilot. Special flying: lead pilot,
+Seattle Naval Reserve stunt team (which could be matched
+against any stunt team in the country, I added). Education—prewar:
+three quarters, University of Washington, basic freshman
+engineering. Postwar: five semesters, aeronautical engineering
+(aimed at a Master’s degree). Practical experience:
+prewar, production expediter, Boeing plant, Seattle; postwar,
+partner in aircraft accessories firm (ash trays; serving tables);
+University of Washington wind tunnel. Temperament: reliable,
+family-man type; even disposition, cool in emergencies. Salary?
+I would fly the X&#x2060;-1 for nothing, if necessary.</p>
+
+<p>It occurred to me, as I reflected over this letter, that anyone
+outside the aviation world would have viewed this brief summary
+of my life as the work of a single-minded zealot. This was
+not precisely so. My interests ranged wide enough—from philosophy
+to farming. Yet it was a fact that, since boyhood, almost
+every waking moment had been devoted, directly or indirectly,
+to the single purpose of scoring a mark in the aviation world.
+It was not a spectacular record I sought—a round-the-world
+flight, a speed dash, or a new altitude. Mine was a more serious
+bent. I wanted to follow in the footsteps of the aviation giants:
+<span class="pagenum" id="Page_23">[Pg 23]</span>Boeing’s Edward (“Eddie”) Allen and the Air Force’s James H.
+(“Jimmy”) Doolittle, and the like. They were both serious scientists
+and superb pilots, a rare combination and, in these days
+of specialization, a rapidly disappearing breed. More specifically,
+my goal was to participate in the design and construction of the
+most advanced craft man could conceive and then take it into the
+air and fly it.</p>
+
+<p>This may strike many as a heady ambition for so young a
+man. It never seemed that way to me. On this earth, at least,
+I believe man is master of his own fate. Within his God-given
+physical and mental limitations, he can do what he wants to do.
+I believe the secret is to work intelligently, economically, and
+steadily toward a set goal. I must have been about six years
+old when I made up my mind what I wanted. Shortly after that,
+I was struck by a disease that kept me bed-ridden, off and on,
+for almost five years. As a result, I was told I would never fly.
+My mind shut out these predictions and stubbornly plotted
+the future. There are many hurdles along the way. I am scaling
+them, one way or another. Anyone with determination can do
+the same, I think.</p>
+
+<p>That night when I drafted the letter to Bell I was still far
+from completing what I believed to be an adequate foundation.
+For one thing, my education, interrupted by the war, was considerably
+short of my design. Yet I must admit that at heart I am
+also a gambler. If I were lucky enough, I knew, the X&#x2060;-1 could
+catapult me directly toward the very position I sought. The
+advanced education could come later, with experience. Besides,
+who could resist the temptation to fly the X&#x2060;-1, if there was a
+chance?</p>
+
+<p>Bell must have received many such letters from adventurous
+pilots. I imagine they were all passed on to the public relations
+department and from there to a handy waste-paper basket. I
+never received a reply. Unknown to me, and to others who may
+have written, the Air Force had already picked Goodlin’s replacement.
+Shortly after I mailed my application, I read in the
+papers that Air Force Captain Charles Yeager was assigned the
+job. In October, 1947, he flew the X&#x2060;-1 through the sonic barrier
+<span class="pagenum" id="Page_24">[Pg 24]</span>with ease—and overnight became the new Lindbergh of the
+aviation world.</p>
+
+<p>I felt not the slightest tinge of envy over Yeager’s feat. On
+reflection I considered it just as well that my letter had not
+been answered. My time had obviously not come. Not for one
+minute, however, did I doubt that it would. I buckled down at
+the University, working doggedly toward my Master’s degree. I
+supplemented my meager G.I. stipend with the small returns from
+the aircraft accessories business and my work in the wind tunnel,
+where, in time, I was named student boss of operations. I kept
+my flying sharply honed in exercises with my Naval Reserve
+unit. So as not to tempt fate further on the streets, I painted my
+battered car bright blue with gratifying results.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_25">[Pg 25]</span></p>
+
+
+<p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_2">
+ CHAPTER 2 ►
+ </p>
+<h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 2</span> <i>The Gypsy Caravan</i>
+ </h2>
+</div>
+
+
+<p class="noindent">In the spring of 1950, a few months before Commencement,
+I began to lay final plans for my move into the aviation world.
+The way the deck was stacked, it did not appear a ripe time
+for aspiring aeronautical engineers. The Pentagon’s post-World
+War II economy drive had severely deflated the giant aviation
+industry. There were a few jets in production—Boeing’s B&#x2060;-47,
+North American’s F&#x2060;-86, Lockheed’s F&#x2060;-80, Republic’s F&#x2060;-84,
+McDonnell’s “Banshee”—and many others in the experimental
+test stage. Crack aeronautical engineers were, as usual, rare;
+but new graduates were a dime a dozen, breaking into the
+industry at less than $300 a month. Many able experimental
+test pilots were killing time in routine jobs. But as the cards
+were played out, my timing couldn’t have been better. No one
+could then foresee the outbreak of the Korean War. In a few
+months this war changed the atmosphere in the aviation industry
+one hundred and eighty degrees. This change provided me
+with my great opportunity.</p>
+
+<p>That spring, as I reviewed the chances open to me, I concluded
+the best stepping stone was a Civil Service job with the
+government as an “aeronautical research pilot” for the National
+<span class="pagenum" id="Page_26">[Pg 26]</span>Advisory Committee for Aeronautics (NACA). Unknown to the
+general public, NACA had for years been the vital cauldron in
+which new ideas in aeronautical engineering were brewed and
+sampled. The agency was founded in 1915 by President Wilson,
+after the U.&nbsp;S. had lagged considerably behind Europe in the
+exploitation of the airplane for civilian and military purposes.
+The members of the committee, then the grandees of the U.&nbsp;S.
+aviation world, were charged with keeping close tabs on all
+domestic and foreign aviation developments, and to serve as
+a kind of clearing house for U.&nbsp;S. engineers. The committee was
+supposed to encourage officially any U.&nbsp;S. aviation development
+which held promise.</p>
+
+<p>As the airplane grew in importance and complexity, NACA
+grew in size. Langley Laboratory was founded at Hampton, Virginia,
+to test seaplane hulls, new propeller designs, and important
+air foils. It was soon equipped with wind tunnels and other tools
+of the aeronautical engineers. Much later, in 1940, NACA founded
+a second aeronautical research laboratory—Ames—at Moffett
+Field, near San Francisco. Shortly before World War II, a third
+laboratory, Lewis, was built in Cleveland, Ohio, to work on
+problems of propulsion. While some NACA engineers dealt with
+hardware, much new basic theory—some of it sound, some of it
+impractical—emanated from the ivy-covered, college-like atmosphere
+of its laboratories. This theory, combined with that from
+universities such as Washington, and considerably more theory
+generated by the highly competitive aviation industry, served to
+keep the U.&nbsp;S. abreast.</p>
+
+<p>The X&#x2060;-1 rocket plane was, in a way, a product of NACA.
+During World War II, NACA was frantically busy “fixing” design
+shortcomings on production military airplanes. In 1944, when
+the country stood on the threshold of the jet age, NACA engineers
+came face-to-face with the problem of the suspect data
+provided by wind tunnels near the speed of sound. Seeking a
+substitute solution, the Air Force’s Ezra Kotcher and a few NACA
+engineers, including Hartley Soule and John Stack, together with
+Bell engineer Robert Woods, conceived the idea of building a full-scale
+rocket-powered research plane that could actually be <i>flown</i>
+<span class="pagenum" id="Page_27">[Pg 27]</span>through the speed of sound to get the necessary data. It was a
+bold—indeed, daring—move for the conservative agency, and it
+paid handsome dividends in the long run.</p>
+
+<p>During the course of modern aviation history, NACA has
+been alternately praised and damned. In 1935 the British <i>Journal
+of the Royal Aeronautical Society</i> huffed: “It is notorious that
+many of our most capable design staffs prefer to base their
+technical work on the results of the NACA.” After World War II,
+when the complete picture of the astounding Nazi achievements
+in the field of aeronautics came to light, NACA was
+severely criticized for the U.&nbsp;S. lag. Much later it was blamed
+for permitting the U.&nbsp;S. to fall behind in the field of ballistic
+missiles. These shortcomings, I believe, were more the result of
+a national attitude than a specific research or policy failure on
+NACA’s part. By and large, considering its shoestring budget,
+NACA had performed ably. With only occasional exceptions,
+the U.&nbsp;S. aviation industry has held NACA in high regard. One
+reason is that the agency served as a training ground for many
+U.&nbsp;S. aeronautical engineers. For example, my childhood hero,
+Eddie Allen, was one of NACA’s first and best test pilots.</p>
+
+<p>From my point of view in 1950, NACA seemed a likely starting
+point. I knew that NACA kept a small stable of test pilots
+at each of its three major laboratories. Most of them were engineers,
+too—able to translate a deficiency encountered in the air
+into precise engineering terminology. A close association with
+these men for a period would be valuable experience. Thus, without
+knowledge of a specific vacancy, I mailed off a general
+application form to the government.</p>
+
+<p>There were no openings, the government replied. I wrote
+again and again without results. When graduation exercises were
+only a few weeks away, I felt I had to take some land of direct action.
+I decided to pay an unannounced visit to Laurence Clousing,
+NACA’s chief test pilot at Ames. Clousing, I knew, was one of
+the best in the business. If he did not know of a job, his advice
+alone would make my trip worth while.</p>
+
+<p>I remember everything about that day. It was remarkable
+not only because it was a turning point in my life, but also
+<span class="pagenum" id="Page_28">[Pg 28]</span>because it was filled with coincidences, minor but eerie. The
+first of the latter happened the moment I walked into Clousing’s
+office—unexpectedly, so I thought.</p>
+
+<p>“Hello, Crossfield,” Clousing said. He was a tall man with a
+deceptively shy manner. He seemed to me more like a college
+professor than a test pilot. He thrust a friendly hand toward me.
+“We’ve been waiting for you. Your wife called a few minutes
+ago.”</p>
+
+<p>I was very surprised by his greeting. I had told Alice only
+that I was going to see a “guy named Clousing down near San
+Francisco.” That she had been able to track me down to his
+office at the big NACA facility amazed me. This feeling soon
+gave way to concern. I was sure Alice would not call unless
+there was urgent news.</p>
+
+<p>“Is somebody ill?” I asked Clousing.</p>
+
+<p>“No,” he said. “She wanted to pass along the word that you
+received a reply this morning to your civil service application.
+You’re invited to Edwards for an interview. We have no openings
+here at all.” The most surprising fact of all in this news
+was that Alice had opened the letter. Not in seven years of
+marriage had she so much as touched a letter addressed to me.
+Well, I thought, it’s lucky she did. I turned to Clousing.</p>
+
+<p>“Edwards?” I asked. “Isn’t that Air Force?” At that time I
+knew only that Edwards was a desert test center for experimental
+airplanes in Southern California. It was at Edwards that
+Chuck Yeager had flown the X&#x2060;-1 through the sonic barrier.
+Industry test pilots from the Los Angeles area used the base
+for first flights of new planes.</p>
+
+<p>“NACA has a small experimental test group at Edwards,”
+Clousing said. “Two or three pilots and a few engineers and
+mechanics. They came out with the X&#x2060;-1 back in ’46. They’re
+doing some work there with other planes. It was supposed to
+be a temporary group but they’ve made it a permanent station
+now. Walt Williams runs the unit. The chief test pilot is John
+Griffith. Do you want to go down and see them?”</p>
+
+<p>I wasn’t too keen on Edwards. Clousing’s brief comments
+brought to mind a picture of a gypsy caravan from NACA camping
+<span class="pagenum" id="Page_29">[Pg 29]</span>in tents on the edge of the Air Force base. What a contrast
+to the scholarly atmosphere of the massive Ames installation!
+To me Ames was a known quantity but Edwards a big question.
+But Clousing had made it clear he was not hiring. Edwards,
+at least, was a foot in the door. I thought it might be worth a
+gamble.</p>
+
+<p>When I said yes, Clousing put through a call to Walt Williams
+to arrange a rendezvous. Soon I was on a train, chuffing slowly
+over the coastal mountains toward the great, desolate Mojave
+Desert.</p>
+
+<p>Today Edwards, like the rest of Southern California, has
+grown to spectacular proportions. It is a well-organized military
+base, manned by some 10,000 men, with a neat base-housing
+area, cross-hatched by streets named for pilots who have died
+in the course of duty at Edwards. It has a Base Exchange, an
+Officers’ Club, gigantic hangars, and all the rest. But on that
+day when I saw it for the first time, it was little more than a
+runway scratched out of the desert. The handful of pilots lived
+in “tarpaper” shacks and drank whiskey in a roadhouse run by
+an aging but colorful aviatrix named Pancho Barnes.</p>
+
+<p>John Griffith met my train in Mojave, a frontier town not far
+from Death Valley, once a stopping-off place for the famous
+twenty-mule teams which labored across the desert hauling
+borax. The brown wastes of the desert were harsh to my eyes,
+which had looked for so long on the green of the Northwest.
+I was not sure Alice would like it. Even in May the heat was
+stifling.</p>
+
+<p>Griffith, a stocky, powerfully built man about thirty-one years
+old, was appropriately dressed for the climate—slacks, sport
+shirt, dark glasses. I felt out of place in my blue serge suit,
+but John quickly put me at ease with his friendly smile and
+easy manner. We climbed into his car and drove along an
+arrow-straight, black-top road toward the base. It was hard to
+believe that this primeval environment was the center of aviation’s
+most advanced flying.</p>
+
+<p>On the way to the field I learned a little of the history of the
+NACA pilots at Edwards. The original group had consisted of
+<span class="pagenum" id="Page_30">[Pg 30]</span>Herbert Hoover, and Howard Lilly, both fine pilots. Lilly was
+killed when an experimental plane blew up on take-off. Hoover
+was killed later, when a B&#x2060;-45 jet exploded in the air; his co-pilot,
+John Harper, escaped. He subsequently went to work for Lear,
+Inc. To replace them, Griffith came from Lewis Lab and Bob
+Champine from the Langley Lab to be number two man. An
+able, sharp-eyed pilot, but not a very experienced one, Champine
+soon developed a distaste for experimental flight tests. He transferred
+back to Langley, leaving the opening for which I was to
+be interviewed. Griffith was the sole pilot, a World War II
+veteran. He flew for the Air Force in the Solomons and later
+joined NACA. Superior to him was Joe Vensel, chief of Flight
+Operations, then came Walt Williams, chief of the station.</p>
+
+<p>The NACA High Speed Flight Test Station occupied one of
+two small hangars in the sand bordering the runway. As we
+drew close, I saw there was just one building, a combination
+hangar and office. I was soon to learn that the NACA operation
+was, as I had envisioned it, completely parasitic. It leaned on
+the Air Force for water, communications, fuel, fire protection—everything
+but salaries, pilots, and engineers. But the primitive
+façade was deceptive. Inside there was a highly contagious,
+pioneering spirit. The NACA group at Edwards was ready to
+perform big deeds; even more spectacular plans were in the
+works.</p>
+
+<p>The principal reason for this spirit, I soon found, was the
+boss, Walt Williams, a thirty-one-year-old engineer from New
+Orleans. A cocky, hard-working operator, Williams had cut his
+teeth in NACA’s Langley Laboratory during the war. In 1946
+he had come to Edwards with twelve men under his command,
+to supervise the research phase of the X&#x2060;-1 program. The plan
+then was that when Bell had finished the initial flight tests of
+the plane, Williams and his group would move in. They would
+fit the ship with instruments and begin recording scientific data
+on each flight. This scheme had been unavoidably delayed when
+Goodlin bowed out.</p>
+
+<p>After Chuck Yeager flew the plane through the sound barrier,
+other Air Force pilots moved in to take the controls and set
+<span class="pagenum" id="Page_31">[Pg 31]</span>new records. One of these was Major Frank K. (“Pete”) Everest,
+who zoomed to an altitude of 73,000 feet. Others followed: Captain
+Jack Ridley and Colonel Albert Boyd, who was then commander
+of the Edwards outpost, and the epitome of a service test
+pilot. Herbert Hoover of NACA flew the X&#x2060;-1 and became the
+first civilian to penetrate the sound barrier.</p>
+
+<p>There were actually <i>three</i> X&#x2060;-1s, I discovered. The first,
+Yeager’s plane, which he nicknamed <i>Glamorous Glennis</i> after
+his beautiful wife, had been shipped off to the Smithsonian
+Institution. The second X&#x2060;-1 had been turned over to NACA.
+The third X&#x2060;-1 was still at the Bell plant in Buffalo, New York,
+being fitted with a new low-pressure fuel system which would
+enable it to go higher and faster. But many, many months
+would pass before X&#x2060;-1 number three was ready for flight. It
+held a grim surprise.</p>
+
+<p>I talked first with Joe Vensel, chief of Flight Operations. He
+was a man cautious in decision but quick in physical movement.
+He bore the scars of a rough life of flying: shattered sinuses. At
+40, he wore a hearing aid. Vensel had little to say or to ask.</p>
+
+<p>Griffith then took me directly to Williams’ office, a make-shift
+area in one end of the hangar. Williams met me with a firm and
+enthusiastic handshake. He bounced around the room impatiently,
+pausing frequently to run his hand through his crew-cut brown
+hair, or to doodle violently on a scratch pad. It was immediately
+clear that Williams was a man of action. I liked him on first sight.
+He and Griffith probed my background.</p>
+
+<p>“How is it you have so much single-engine time?” Griffith
+asked.</p>
+
+<p>“I like to fly,” I said. “I got my private license before the war.
+During the war I was an instructor at Corpus Christi, Texas.
+We were very busy. Lot of students. Lot of hours. I took extra
+students when I could. After the war I was active in the Naval
+Reserve.”</p>
+
+<p>“What about this stunt team?” Williams asked.</p>
+
+<p>And so it went. As the interview progressed, I learned there
+were two other pilots being considered for the opening, each
+with about half my flying experience. This competition, unsuspected
+<span class="pagenum" id="Page_32">[Pg 32]</span>until then, sharpened my senses. I talked earnestly about
+my desire to make a serious contribution to aeronautical science.
+Before the session drew to a close, Williams made it clear that
+the job was mine—if I wanted it. I didn’t want to appear overly
+eager. I parried for a while, seeking answers to a few questions
+of my own.</p>
+
+<p>“What kind of flying would I be doing here?” I asked. “It
+looks to me as though Chuck Yeager and Pete Everest and the
+other Air Force pilots have a corner on the market.” It was a
+deliberate needle and it obviously touched Williams on a sore
+spot. He responded with a spiel which sounded as though it
+had been drafted for a Congressional committee.</p>
+
+<p>“The research airplane was conceived at NACA’s Langley
+Laboratory. The funds are provided principally by the Air Force
+and the Navy. NACA has technical jurisdiction over the flight
+programs, which are designed to provide maximum data within
+a given time. Under the new concept, civilian test pilots of the
+companies concerned in the design and construction of the
+research airplanes make initial test flights, verifying established
+design and structural points, engine reliability, and so on. The
+Air Force pilots then take over and fly them with an eye to
+military application, under NACA cognizance. After that, so
+the plan goes, the ships are turned over to us here at NACA
+for detailed flight research. The ... ah ... the Air Force has
+been somewhat slow in turning over the planes, that’s true, but
+we have encountered one unpredicted technical problem after
+the other ...”</p>
+
+<p>“I suppose—” I broke in. But Williams had not finished. He
+lunged out of his chair and paced back and forth, warming to
+his subject.</p>
+
+<p>“We are blazing new trails in aeronautical science out here.
+The data we are producing are fed directly into the aviation
+industry through NACA reports available to all. Industry engineers
+are applying the data to concepts for the next generation
+of jet fighters—a family of supersonic fighters. We’re testing
+everything here: straight wing, swept wing, tailless jobs. We’re
+<span class="pagenum" id="Page_33">[Pg 33]</span>running into all kinds of phenomena. Some of them have been
+predicted in theory and tunnel test; some are brand-new.”</p>
+
+<p>“What planes are you working with now?” I asked.</p>
+
+<p>“We’ve got an X&#x2060;-1 out there in the hangar now, and the X&#x2060;-4.
+Hell, come on out and I’ll show you.”</p>
+
+<p>Williams boomed out of the office into the hangar space. I
+followed, looking in detail for the first time at the collection
+of weird and fascinating planes. The hangar was busy. Mechanics
+swarmed over the little hot-rods, removing plates, pulling long
+snarls of wire from their insides, shoving calibration carts here
+and there. The whine of a pneumatic drill, accompanied by the
+staccato of a rivet gun, echoed through the high-beamed, arched
+ceiling. The scene reminded me of the feverishly busy pits at
+the Indianapolis race track a few hours before the 500-mile
+Speedway race on Memorial Day. The analogy is not far-fetched.
+These planes were nearly comparable to temperamental,
+overpowered, dangerous, finely-tuned racing cars. Edwards, in
+reality, was an Indianapolis of the air.</p>
+
+<p>A few of the planes, such as the X&#x2060;-1, were familiar to me;
+others were new. We stopped alongside the X&#x2060;-4, a tailless plane
+powered by two jet engines. It had just been turned over to
+NACA by the Air Force, Williams said, patting the side of the
+ship. It was a metallic white, like an icebox.</p>
+
+<p>“She was supposed to go Mach 1,” he said. “But she can’t
+make it. It’s a little tricky to fly. The engines flame out at
+altitude. She pitches a bit at Mach .9. British lost a couple of
+DeHavilland Swallows of similar design. Mystery why they
+crashed. Maybe we can find out with this baby.” Williams rattled
+on in this fashion as we moved about the hangar. We
+came to another beautiful ship which looked somewhat like
+the X&#x2060;-1.</p>
+
+<p>“This is the Douglas Skystreak, the D&#x2060;-558&#x2060;-I,” Williams said.
+“It’s a Navy project.”</p>
+
+<p>“Oh, yes,” I said. This was the model that killed Lilly. I recalled
+a few of the details of the program. “Gene May also flew
+that one, didn’t he?” May was a Douglas test pilot.</p>
+
+<p>“That’s right,” Williams said. “We have two of these left.
+<span class="pagenum" id="Page_34">[Pg 34]</span>This one is just like the X&#x2060;-1 only it has a jet instead of a rocket
+engine. We had another D-558 version here, swept wing with a
+jet using JATO for take-off, called the Skyrocket. Then there
+also is another swept-wing version with a jet engine and a rocket
+engine. It’s back at the Douglas plant now being modified to an
+all-rocket version. We’ll air-launch it from a mother plane like
+we do the X&#x2060;-1.”</p>
+
+<p><i>All-rocket, air-launch, swept-wing.</i> I turned these phrases over
+briefly in my mind, little realizing then the impact this airplane
+would have on my future.</p>
+
+<p>“What do you expect from that?” I asked.</p>
+
+<p>“Well, the figures are classified, frankly. But in round numbers
+and stretching, we think she might reach Mach 2, and
+maybe 90,000 or 100,000 feet,” Williams said. He spoke in a
+low, confidential tone.</p>
+
+<p>“Who is the pilot going to be?” I asked. “Gene May?”</p>
+
+<p>“No.” Williams said. “Douglas has a new pilot, an ex-Navy
+type named Bill Bridgeman.”</p>
+
+<p>“The Air Force doesn’t get this one?”</p>
+
+<p>“No. This is a Navy project. They do it differently. They’d
+just as soon have the manufacturer establish the limits of the
+airplane. Good, sharp outfit to do business with. They don’t
+mind racking up a few records, but it is not their first order of
+business.”</p>
+
+<p>The way Williams spoke of “records,” he conveyed clearly
+the impression that at NACA records per se were unimportant,
+if not frowned upon. We wandered back to his office and sat
+down.</p>
+
+<p>“Now,” he said, “there are about four other types in the
+works. Bell’s got a souped-up version of the X&#x2060;-1 coming out
+which will easily exceed Mach 2, or better. They also have a
+swept-wing rocket plane, the X&#x2060;-2, which is designed for nearly
+Mach 3 and about 150,000 feet. Then there’s the X&#x2060;-3, a straight-wing
+job by Douglas. It is way behind schedule and very complicated.
+It might turn out to be a dud. Then we’ll have the
+Bell X&#x2060;-5, a jet-powered ship with an inflight variable-sweep
+capability.”</p>
+
+<p><span class="pagenum" id="Page_35">[Pg 35]</span></p>
+
+<p>My head was swimming with figures and visions of these
+fantastic airplanes. My top speed in an airplane then was maybe
+five hundred miles an hour, clocked in a dive in a Corsair.
+Williams talked of 1500 and 2000 miles an hour as if those
+speeds were routine. I was sold.</p>
+
+<p>“I would have a shot at those airplanes?” I asked.</p>
+
+<p>“If everything works out,” Williams said.</p>
+
+<p>“The X&#x2060;-2 as well?”</p>
+
+<p>“If everything works out,” Williams repeated.</p>
+
+<p>“When do I start?”</p>
+
+<p>“We’ll let you know,” Williams said. He glanced at his watch.
+“You going back into Mojave to catch a train? Why don’t you
+hitch a ride with Drake and Carmen?”</p>
+
+<p>Hubert M. Drake and L. Robert Carmen together made up
+the “advance design” group at NACA’s Edwards installation.
+They were the “dreamers,” paid to look far into the future
+and scheme new ways to fly higher and faster. I didn’t know it
+then—and they didn’t discuss it—but Drake and Carmen were
+doing work at night in their homes on an airplane to put the
+best of dreamers to shame. It was a rocket-powered craft that
+would fly four thousand miles an hour and to an altitude of
+500,000 feet. Five years later, after a tortuous journey through
+a jungle of bureaucracy, and endless modification, this craft became
+the X&#x2060;-15. Looking back now, I regard the fact that these
+two men were picked to give me a lift to Mojave as something
+of a coincidence.</p>
+
+<p>Of pressing concern to me at that moment was the fact that
+I was almost flat broke. I had hitch-hiked down to the Ames
+Laboratory on a Navy airplane and had intended to return to
+Seattle that same day by the same means. The plane had long
+since returned; I was stranded in the desert without nearly
+enough cash for a train ticket to Seattle. There was no money in
+my checking account. However, by the time I climbed out of
+Drake’s car at the bleak, dusty Mojave railroad station and bid
+my hosts farewell, I had a plan.</p>
+
+<p>I checked with the station master. There was a north-bound
+train scheduled to pass through Mojave at midnight. The daycoach
+<span class="pagenum" id="Page_36">[Pg 36]</span>fare to Seattle, via San Francisco, was about $20, and
+this was about $10 more than I had.</p>
+
+<p>“What’s the next stop beyond Mojave?” I asked.</p>
+
+<p>“Martinez,” the station master said. He eyed me curiously.</p>
+
+<p>“Okay,” I said, “give me a ticket to Martinez.” It was about
+$7.00.</p>
+
+<p>I then placed a telephone call, collect, to my sister, Elena
+Ruth (“Babe”) Brown, who lived in Sierra Madre, just outside Los
+Angeles. When she answered, considerably surprised to hear
+from me, I told her I was taking the midnight train to Martinez
+and asked her to wire me $25 in care of the station master there.
+I had not often borrowed money in my life, but I didn’t mind
+asking her. Many years before, when she was a student at
+Berkeley, I had hocked my camera in order to lend her $40
+for flying lessons, for which my father refused to pay.</p>
+
+<p>After Babe assured me the money would be sent immediately,
+I hung up and retired to a corner to count my remaining
+fortune. I spent another dollar at the Silver Dollar Cafe for
+dinner, then blew the rest on a ticket to the local movie. By
+still another coincidence, the picture was about a test pilot and
+Humphrey Bogart was the star. I plumped into a seat and
+watched while he wrestled with a rattling control stick, braving
+the frontiers of flight.</p>
+
+<p>Hours later I was still deeply absorbed, not in that turkey of
+a movie but in what I had seen and heard that day, when I
+felt a hand on my shoulder. A voice spoke:</p>
+
+<p>“Are you Mr. Crossfield?”</p>
+
+<p>Startled, I broke out of my supersonic reverie and spun around.
+It was the theater usher.</p>
+
+<p>“Yeah. I’m Crossfield.”</p>
+
+<p>“There’s a gentleman out front to see you.”</p>
+
+<p>I followed the usher up the aisle wondering who it could be.
+No one on earth knows where I am, I thought.</p>
+
+<p>To my astonishment, I found Babe’s husband, Claude, and
+behind him, my mother, Lucia, waiting in the lobby. My mother
+had been visiting my sister when I called. After I hung up she
+<span class="pagenum" id="Page_37">[Pg 37]</span>talked my brother-in-law into making the three-hour drive to
+Mojave to surprise me.</p>
+
+<p>“But how did you know I was in there?” I asked.</p>
+
+<p>“Well, I cased every bar in town first, while your mother
+waited in the car. I didn’t see you in any of them so I figured
+in a town of this size the only place left was the movie.”</p>
+
+<p>We laughed and made our way to a nearby restaurant. At midnight,
+$25 richer, I boarded a daycoach on the train.</p>
+
+<p>Back in Seattle, I collected my Master’s degree in aeronautical
+engineering, resigned from my Naval Reserve unit, packed up
+the family—Alice, Becky, age two, and our new addition, Tommy—traded
+my 1941 Ford for a ’49 Ford, and drove to the desert to
+begin a new life.</p>
+
+<p>Three weeks later many of my Naval Reserve comrades were
+mobilized and shipped off to Korea.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_38">[Pg 38]</span></p>
+
+
+<p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_3">
+ CHAPTER 3 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 3</span> <i>A Sense of Urgency</i>
+ </h2>
+</div>
+
+
+<p class="noindent">A harsh, bitterly cold December wind, gathering momentum
+over miles of flat desert, lashed the ramp behind the NACA
+hangar. I buttoned my jacket close and bowed my head as I
+pushed against it toward the airplane. Here and there I saw
+that the small puddles were frozen to solid ice. The desert
+warms up during the day, but on a winter night it is like the
+North Pole. Sometimes it snows at Edwards.</p>
+
+<p>I climbed into the cockpit and pulled on my crash helmet,
+grateful to be shielded at last from the frigid blast. Ralph
+Sparks, who, on that blue-cold morning, looked as though he
+was born before the Wright brothers, closed the canopy and
+removed the aluminum boarding ladder. I smiled and waved
+my hand sharply. Sparks claimed personal authorship of most
+of aviation’s achievements, but there were few mechanics at
+NACA, or anywhere for that matter, more able than he. He
+stood by while I wound up the engines. They caught, and I
+taxied out for my first X&#x2060;-4 flight, the first of a series of hurried
+checkouts in NACA’s stable of thoroughbreds.</p>
+
+<p>My first six months at Edwards had been a tumultuous time
+of hurry and change. Walt Williams, as a matter of routine,
+<span class="pagenum" id="Page_39">[Pg 39]</span>kept a fast pace. When the Korean War broke out, our outfit,
+like all of the aviation world, worked with a new sense of
+urgency. At the climax of the dramatic shift, NACA’s top pilot,
+John Griffith, resigned to take a job at Chance-Vought. In the
+new climate of the industry, journeyman test pilots were desperately
+needed. I checked out in a couple of jets, the F&#x2060;-84
+and the Douglas Skystreak. Then, in the final days before
+Griffith’s departure, I gathered what information I could about
+the foibles of our temperamental champions. Suddenly, then,
+I was completely on my own. The entire NACA Edwards test
+program was dumped in my lap.</p>
+
+<p>Actually, I couldn’t have been more pleased. Looking back,
+I believe now that the months that followed were, professionally
+speaking, the happiest days of my life. I was then too new
+and too young to concern my mind seriously with government
+and industry politics. My approach to the job was completely
+starry-eyed. I could move at my own pace, always fast. I flew
+morning, noon, and afternoon in the strangest and most unpredictable
+airplanes man had ever devised. These flights were
+never long. Experimental airplanes are like powerful rockets.
+They blaze furiously for a few moments, during which the
+pilots strive to probe an unknown area, and then they sputter
+and die. The one big difference between the manned plane and
+the missile is that the pilot brings the multi-million-dollar plane
+back to earth for another flight. Usually.</p>
+
+<p>Before my flight in the X&#x2060;-4 that morning, Walt Williams and
+Joe Vensel clucked around the hangar like two old maids grooming
+their niece for a grand debut. I had read all the flight reports
+on the X&#x2060;-4 and had picked Griffith’s brain thoroughly. I
+knew the weak points of the airplane: its two engines were
+erratic above 30,000 feet; at Mach .88 the plane became unstable;
+it broke into a steady porpoising motion, like an automobile
+cushioning over a washboard road. Beyond that, nearer
+the speed of sound, no one knew what would happen. The X&#x2060;-4
+had never been flown there. Williams and Vensel added a fact
+I knew quite well: the plane was equipped with barn-door-sized
+speed brakes. If popped in flight they would slow the X&#x2060;-4
+<span class="pagenum" id="Page_40">[Pg 40]</span>abruptly and allow her to withdraw from any zone of trouble.</p>
+
+<p>The X&#x2060;-4, by then, was a veteran of Edwards. The plane was
+conceived in the postwar years by Jack Northrop, an imaginative
+inventor and an unyielding advocate of the “tailless” concept.
+The X&#x2060;-4 was first flown by Northrop’s renowned test pilot,
+Charlie Tucker, in 1949. After considerable modification, it had
+been turned over to the Air Force. Chuck Yeager, Pete Everest,
+Colonel Richard Johnson, and Al Boyd flew it. Thirty flights
+later, NACA inherited the plane and its mechanic, Ralph Sparks,
+who had been with the project from the outset.</p>
+
+<p>I pushed the twin throttles forward and as the fuel surged
+into the burning chambers, the X&#x2060;-4 leaped toward the runway.
+In the distance I could see a plane leaving Air Force
+Fighter Ops, headquarters for the military test-pilot group. Pete
+Everest was the pilot of the Air Force craft, an early-model
+F&#x2060;-86. He would join me to fly “chase,” observing the performance
+of the X&#x2060;-4 and watching for danger signals from close
+quarters.</p>
+
+<p>Officially, no rivalry existed between the pilots of the Air
+Force and the NACA group. As Williams had said, the two jobs
+were poles apart. Once contractor pilots, such as Tucker, had
+demonstrated that the plane could fly, the Air Force flew it to
+evaluate military applications. Then NACA pilots put the plane
+through an exhaustive aerodynamic dissection, learning every
+new fact possible.</p>
+
+<p>In fact, there was a natural rivalry between the test pilots.
+Each day at Edwards, the pilots played out a kind of small-scale
+Olympic Games of the air. Occasionally these were major
+battles to break records, staged by rival Navy and Air Force.
+More often, they were small but significant demonstrations of
+a new flying technique or a daring maneuver into the unknown,
+a step beyond the previous pilot of the airplane. For
+example, some of the planes had vicious weaknesses. If, on a
+given flight, the pilot was able to skirt these, he had achieved a
+minor triumph, worth a toast at Pancho’s. Edwards was not the
+place to attract non-competitive pilots.</p>
+
+<p>Some of the reason for the keen rivalry lay in the Air Force’s
+<span class="pagenum" id="Page_41">[Pg 41]</span>approach to flight test. Along with its triumphs in the X&#x2060;-1, the
+Air Force, first at Wright Field, later at Edwards, had set out
+to create a cadre of schooled engineering test pilots on a par
+with the best in NACA and industry. For example, Yeager was
+not an educated engineer. He was an intuitive engineer, one
+of the best. He could feel in an instant a deficiency in an
+airplane and come close to pin-pointing its fault technically.
+A rare pilot, born to fly, like a figure-skater born to skate, Yeager
+set standards of conduct in the air that were emulated for years
+afterward at Edwards. The pilots adopted even his understated
+West Virginia drawl, and ever afterward the radio talk at Edwards
+reflected this. The pilots at Edwards—to judge by the
+radio talk—were raised on hominy grits and corn fritters.</p>
+
+<p>But Yeagers are rare. Later the Air Force sent vast numbers
+of its pilots back to college to study aeronautical engineering
+and, still later, founded a full-blown test-pilot school at Edwards,
+which in recent years has graduated a fine group of young, educated
+test pilots. But before this ambitious, challenging program,
+many Air Force pilots, resisting the engineering approach, died
+needlessly. We gave them little reverence: “Hell, he was dead
+before he took off.”</p>
+
+<p>I was not a member of the “inner circle” that morning in early
+December. I had met Yeager, Everest, Jack Ridley, Boyd, and
+the rest, but I had yet to prove my ability in the air. I knew
+that the moment Everest locked wingtips, he would be watching
+every move. He had flown the X&#x2060;-4. He would know when
+I goofed, and the word would soon get back to the others. Conceivably,
+some leeway might be allowed for the first flight, but it
+was not likely. Yeager gave little quarter in the air. On his first
+flight in the X&#x2060;-1, he says, he had been tempted to roll the ship
+in front of the Edwards tower, scant feet above the ground.</p>
+
+<p>When I received radio permission to take off, I firewalled the
+throttles. As the X&#x2060;-4 wobbled down the long, bumpy runway, I
+gingerly felt out the controls. Then the churning jets took hold,
+and the small X&#x2060;-4 abruptly lunged into the air. Backing off the
+stall point, I nosed her over gently and leveled out. Then I eased
+back on the stick and the tiny, tailless craft zoomed skyward
+<span class="pagenum" id="Page_42">[Pg 42]</span>like a winged rocket. Behind me, Everest had opened his F&#x2060;-86
+wide, trailing a long, black snake of soot, but he could not keep
+up. I waited for him at altitude, rolling and stalling the plane,
+getting to know its special strengths and weaknesses. When
+Everest locked wingtips, I opened the throttle wide, once again
+leaving him far behind. As predicted, at Mach .88 the X&#x2060;-4 broke
+into its gentle but potentially dangerous porpoising motion. I
+opened the air brakes, and the X&#x2060;-4 slowed instantly, throwing
+me forward against my shoulder restraint straps. Everest hurtled
+by, chortling on the radio.</p>
+
+<p>The Edwards base now lay far below us, nearly obscured in
+the vast wilderness of the Mojave wastes. Here and there on
+the desert floor I could make out the mottled outlines of the
+curiously shaped “dry lakes.” These “lakes” are stretches of fine,
+closely packed silt, left behind eons ago by the retreating seas
+and bleached almost white by the hot desert sun. The soil of the
+lakes is quite unusual. When mixed with water, it becomes slimy
+like oil. Industrialists mined the soil as a lubricant for well drills.
+When the lakes are completely dry, the surface is hard and
+flat, like concrete, and thus ideal natural landing areas for airplanes.</p>
+
+<p>When it rains in the desert, the lake beds are temporarily put
+out of commission. The water, unable to penetrate the fine, self-sealing
+surface soil, collects on top in small pools, or sometimes,
+after a hard rain, in vast, shallow, real-life lakes. This water is
+swept back and forth by the brisk desert winds until it evaporates.
+The gentle movement of the water smooths the surface
+of the lake beds, eliminating bumps and ruts. During this “re-paving”
+process, the surface becomes mushy and slick, dangerous
+for a heavy airplane. There is sometimes a little rain in July
+which temporarily closes the lakes. But the hard rainy season
+usually begins in mid-December. Frequently, but not always, the
+intermittent rains keep the lake beds either flooded or soft until
+March or April. No one can predict the capricious desert weather.</p>
+
+<p>The Edwards base was set directly alongside one of these
+lakes—Rogers Dry Lake—which in earlier times, appropriately
+enough, had, like the great salt flats of Utah, been an automobile
+<span class="pagenum" id="Page_43">[Pg 43]</span>race track. During the rainy season, at times, I have
+seen the water on the lake so deep that it was lapping at the
+edge of the parking ramps, and so penetrating that shrimp eggs
+of some prehistoric age worked loose from the soil and came to
+life, mysteriously attracting sea gulls from the distant California
+coast. To maintain year-round operations, the Air Force had built
+a normal concrete runway at the base, butting against the dry
+lake. In the dry season, if required, the lake bed, marked by
+parallel black lines, could be used as an extension of the concrete
+runway. For the rocket planes, which required long take-off and
+landing areas, another runway, lying in the opposite direction
+and seven miles long, had been painted on the lake bed. Still
+other nearby lakes—Rosamond, Harper, Three Sisters, Cuddeback—were
+designated emergency landing areas. When flying
+experimental planes at Edwards, the pilots always kept within
+easy reach of one of the dry lakes.</p>
+
+<p>After about fifteen minutes in the air, I felt at home in the
+X&#x2060;-4. The plane responded so well, in fact, that it was hard for
+me to keep in mind that I was piloting a marginally stable, experimental
+race horse. Had all that talk of danger been the
+product of some public relations mill? I was beginning to feel
+my oats now, and a determination that hardly struck me as
+daring at the time seized me. I would loop the X&#x2060;-4.</p>
+
+<p>Heading back toward Edwards, the check-out virtually complete,
+flying wing to wing with Everest, without warning I
+pulled back hard on the stick. The X&#x2060;-4 climbed rapidly, leaving
+Everest far below. The desert disappeared from my windshield,
+replaced by the deep blue of the clear sky. In a few seconds the
+X&#x2060;-4 was flat on its back at 27,000 feet. Suddenly all hell broke
+loose. A noise like the sound of a fifty-caliber machine-gun exploded
+through the cockpit.</p>
+
+<p>My maneuver had disrupted the smooth flow of air into the
+two engine intakes. Starved for air, and sensitive anyway at my
+altitude, the engines had rebelled, and after a flash of uneven
+running they gave up completely. I righted the plane and sheepishly
+called Pete Everest on the radio.</p>
+
+<p>“Lost both engines.”</p>
+
+<p><span class="pagenum" id="Page_44">[Pg 44]</span></p>
+
+<p>“Rog,” he said. Then I heard him calling Edwards Tower to
+report an emergency. I could visualize the reaction there: sirens
+screeching, fire trucks racing out to the runway, NACA’s Walt
+Williams and Joe Vensel perched on the edge of their chairs.
+Now working desperately to restart the engines in the air, and
+mentally locating the position of the emergency dry lakes, I
+silently cursed my boldness. I could imagine the talk that night:
+“That new fellow, Crossfield, down at NACA. Pretty green....”</p>
+
+<p>I managed at last to win half the battle. One engine coughed
+to life. If it kept running (a big if, indeed, at that point), I
+would have sufficient power, at least, to reach the Edwards base
+runway. Without the engines the X&#x2060;-4 would come in with a low
+lift over drag (L over D)—in other words, it would glide like a
+brick, but I would be spared the ignominy of landing on a lake
+remote from the base. Vensel was taking no chances. By radio
+he ordered me to land on the lake.</p>
+
+<p>As we lined up for the approach, I could see the emergency
+trucks parked along the edge of the lake; quite embarrassing.
+The X&#x2060;-4, already sluggish, began to settle toward earth. As we
+descended, I was further chagrined when Everest began to call
+altitude readings, interspersed with occasional helpful hints on
+how to fly a plane. He was ribbing and I had it coming, so when,
+finally, the X&#x2060;-4’s tires screeched on the lake, I switched off the
+radio receiver.</p>
+
+<p>Joe Vensel was waiting anxiously on the NACA ramp when
+I rolled to a stop in front of the hangar. I climbed down the
+ladder.</p>
+
+<p>“Well,” Vensel said, “what happened?”</p>
+
+<p>“I looped it and lost both engines,” I said. “Got an air start on
+one and stop-cocked the other.”</p>
+
+<p>“Damn,” Vensel muttered. He stalked back to his office.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_45">[Pg 45]</span></p>
+
+
+
+<p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_4">CHAPTER 4 ►</p>
+
+<h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 4</span> <i>Excitement and Frustration</i>
+ </h2>
+</div>
+
+
+<p class="noindent">“You might as well try a rocket flight,” Joe Vensel said.</p>
+
+<p>We were sitting in his office, which faced the NACA hangar
+workshop. His tone lacked enthusiasm. His whole attention
+seemed focused on the pencil he was twirling between his
+fingers.</p>
+
+<p>It was the day after Christmas, twenty days since my first X&#x2060;-4
+flight. The Chinese Communists had entered the Korean War,
+splitting and decimating our armies on the peninsula. The President
+had declared a state of national emergency. In the Pentagon
+the economizing Secretary of Defense, Louis Johnson, had been
+replaced by General George Marshall. The aviation industry,
+now overwhelmed with money, was gearing for a future
+freighted with uncertainty, perhaps a global war with the Soviet
+Union. Its engineers desperately needed data. Wind-tunnel results
+from scale models of the newly designed, supersonic, Century
+Series jet fighters—the F&#x2060;-100, the F&#x2060;-101, F&#x2060;-102, and F&#x2060;-104—had
+foreshadowed critical instability at high speed. Every man
+at NACA was anxious to press ahead.</p>
+
+<p>“Okay,” I said. “I’ll tell them to get 945 ready.”</p>
+
+<p>The number 945 was our mundane designation for the Douglas
+<span class="pagenum" id="Page_46">[Pg 46]</span>D&#x2060;-558&#x2060;-II Skyrocket, a research airplane with an impressive
+background and a sensational future.</p>
+
+<p>It requires much time and planning to prepare a rocket plane
+for a test flight. This was especially true in those pioneering
+days. Rocket engines are complicated and temperamental, something
+like the engines of expensive high-speed racing cars. They
+burn a powerful, dangerous fuel combination of liquid oxygen
+(Lox) and water-alcohol, and sometimes even more exotic fuels,
+which eat into the pipes and fittings, corroding or unsealing
+joints. The fuel is pumped into the engine through a complex
+maze of plumbing, which forever leaks and loses pressure.
+The liquid oxygen is very cold, approaching minus 300 degrees
+Fahrenheit. This intense cold forms a coating of ice on the outside
+of the tanks and the plane, and permeates everything,
+sometimes freezing systems not designed for extreme temperatures.
+The preparation of a rocket engine for flight was always
+an adventure for our mechanics.</p>
+
+<p>I made my way into the hangar to pass on the word to Eddy
+Layne, our crew chief on 945.</p>
+
+<p>“How about it, Eddy?” I said. “Can we fly tomorrow?” The
+skin of 945 lay about the hangar floor. The bare skeleton was
+under siege by half a dozen mechanics, who appeared to be
+devouring the plane like so many piranha fishes. It hardly
+seemed possible that it could all be reassembled in one day.</p>
+
+<p>“Sure thing, Scotty,” Eddy said. “Got a leaky regulator in
+the fuel tank, but we’ll get it squared away in a while. Go
+ahead and plan on it. Is this a speed run?”</p>
+
+<p>“No, just a check-flight,” I said.</p>
+
+<p>“I think Bridgeman and the Douglas people will be flying 943
+in the morning. You might want to touch base with them.”</p>
+
+<p>“Right,” I said. It was obvious that I had not yet scored among
+the mechanics. What Eddy meant was that I had better check
+with Bridgeman and find out how to fly the 945. I had already
+done that.</p>
+
+<p>I remained in the hangar for some time, looking over the ship
+and recalling the plane’s history.</p>
+
+<p>In late 1944, when the Air Force and NACA launched the X&#x2060;-1,
+<span class="pagenum" id="Page_47">[Pg 47]</span>the Navy, as part of the overall research airplane program, began
+a separate project of its own, referred to as the D-558. (In the
+Navy’s hopelessly confusing aircraft terminology, the “D” stands
+for Douglas, the manufacturer.) The D-558 “Skystreak” was
+similar to the X&#x2060;-1 in shape; the main difference was that the
+plane was powered by a jet instead of a rocket engine. The X&#x2060;-1,
+which was intended to be launched in the air from a mother
+plane, would fly fast in brief bursts. The D-558, which was designed
+to take off conventionally from a runway, was slower, but
+it could stay aloft longer. Between the two designs, it was
+thought, the aerodynamics in the trouble area at, or just below,
+the speed of sound could be thoroughly blanketed.</p>
+
+<p>Three of the original jet-powered D-558 Skystreaks were built.
+In August, 1947, a couple of months before Yeager flew the X&#x2060;-1
+through the sound barrier, Navy Commander Turner Caldwell,
+flying the first D-558, set a speed record of 640.7 miles an hour.
+Five days later Marine Major Marion Carl pushed the same plane
+to 650.6 miles an hour, a speed considered sensational at that
+time. In May, 1948, the “time bomb” engine in one D-558 blew up
+on take-off, killing NACA test pilot Howard Lilly. The second
+airplane became a Hangar Queen and was cannibalized for parts.
+The third Skystreak was still at NACA gathering data. I had
+flown it before my first hop in the X&#x2060;-4.</p>
+
+<p>From the outset the D-558 program grew into a second generation
+of airplanes. To distinguish these from the earlier models,
+we called the later ones “Phase Two” airplanes, which was short
+for D&#x2060;-558&#x2060;-II. The plane was popularly called the “Skyrocket.”
+Three Phase Two airplanes were built, all with the new swept
+wing. In 1946 there was then much controversy, but little swept-wing
+flight data except those which we had obtained from the
+Nazis. In each of the Phase Two airplanes, the power-plant or
+launch scheme was deliberately varied to cover a wide range of
+research possibilities. The first Phase Two model was, like the
+558&#x2060;-I, powered by a single jet engine. Designed to take off conventionally,
+it was fitted with two small jettisonable rocket bottles
+(JATO) to help boost it into the sky. The second model, also
+intended for conventional ground take-off, was powered by a
+<span class="pagenum" id="Page_48">[Pg 48]</span>jet engine <i>and</i> a rocket engine, similar to the rocket engine in
+the X&#x2060;-1. The third model (945), built to be dropped from a
+mother plane like the X&#x2060;-1, was also equipped with a jet and
+rocket-engine combination. Its maximum speed was about Mach
+1.2, somewhat slower than the X&#x2060;-1’s top of Mach 1.4.</p>
+
+<p>Douglas test pilots John Martin and Gene May first flew
+these tricky Phase Two’s, taking off from the ground, burning
+the rocket barrel, the jet engine, or both at once. The adventures
+they logged would make a book in themselves. Ex-Navy pilot
+Bill Bridgeman of Douglas was later recruited to make the Phase
+Two air-launched demonstrations. By the time I arrived at
+NACA, the Phase Two Skyrocket was a familiar sight on the
+Edwards runway, and Bill Bridgeman was on his way to the
+Hall of Fame.</p>
+
+<p>Bridgeman flew the jet-rocket ground take-off version of the
+plane fairly regularly at Edwards. The jet-only JATO-boosted
+version never really panned out. The Navy ordered it shipped
+back to the factory for changeover to an all-rocket version, designed
+for an air-launch (causing even more model confusion).
+It was this plane that Walt Williams, in our first interview, hinted
+might reach Mach 2 and 100,000 feet. NACA—I, to be specific—would
+get a crack at it after Bridgeman had worked out the
+bugs. The third Phase Two airplane, the air-launched jet-rocket
+combination, had been delivered to NACA in the fall of 1950,
+after Bridgeman had made three test air-launches. No NACA
+pilot had yet flown this model. This was ship number 945, my
+next challenge. In the long run it turned out to be a very useful
+and worthy research airplane in the trans-sonic zone, a work
+horse as well as a race horse.</p>
+
+<p>On the following day, when I reported to the flight line, lugging
+my parachute and crash helmet, the ground crews were
+ready. The Skyrocket had already been “mated”—snugged up like
+a bomb in its special nesting place in the belly of the B&#x2060;-29 mother
+plane. The Skyrocket’s fuel tanks, for both the jet and the rocket
+engine, were brimming. The B&#x2060;-29 mother-plane pilot was George
+Jansen, a top man for Douglas, and experienced in air-launch.
+<span class="pagenum" id="Page_49">[Pg 49]</span>Douglas intended to keep the mother plane until Bridgeman
+had checked out the all-rocket version of the Skyrocket.</p>
+
+<p>I spotted the tanned bald dome of Bill Bridgeman towering
+above the knot of men clustered near the boarding ladder of the
+B&#x2060;-29. He was dressed in a flying suit. A crash helmet dangled
+loosely from his right hand. I walked over.</p>
+
+<p>“You going along, Bill?”</p>
+
+<p>“Yeah. Might be able to help out a little,” he said with that
+wonderful friendliness that was his hallmark.</p>
+
+<p>“Fine. Fine.”</p>
+
+<p>We climbed aboard and made our way back to the bomb-bay
+compartment, into which the top of the Skyrocket fuselage protruded.
+The Skyrocket cockpit canopy was erect. A maze of
+wires and tubes—the umbilical cords—was plugged into the back
+of the Skyrocket, supplying power from the B&#x2060;-29 en route to the
+launch point. At the proper time I had only to climb into the
+cockpit, close the hatch, and fall away.</p>
+
+<p>Jansen lost no time. Through my earphones in the bomb-bay
+compartment, I heard him contact Edwards tower, and the
+two chase pilots, Fitzhugh Fulton and John Konrad, both Air
+Force types. In the following years, Fulton became something
+of a legend at Edwards. I think he must have spent three or
+four tours at the base, specializing in mother-plane operations. He
+launched most of the rocket pilots and was back again in 1959
+to launch me in the X&#x2060;-15.</p>
+
+<p>Soon we were airborne, straining for altitude. I sat beside
+Bridgeman on a bench, going through the long pre-flight check-list.
+At 10,000 feet the crew went on oxygen and I started to board
+the Skyrocket.</p>
+
+<p>I climbed down into the tiny cockpit, connecting my oxygen
+hose to the supply inside the Skyrocket. As Bridgeman towered
+over me, helping to cinch up my shoulder harness straps, I
+wondered how that long drink of water had ever managed to
+squeeze into the Skyrocket cockpit. Bridgeman and the launch
+operator slammed the canopy shut. The floodlights inside the
+bomb-bay compartment spilled through my windshields, affording
+enough light for me to see the instrument panel. At twenty
+<span class="pagenum" id="Page_50">[Pg 50]</span>minutes prior to launch, Jansen called the time. Following an
+item on the check-list, I lit off the jet engine. This added thrust
+would help the B&#x2060;-29 through the thin air and provide the Skyrocket
+with flying speed when I dropped.</p>
+
+<p>Now all hands in the air kept a sharp watch for signs of
+danger. They could come from a hundred points. At that time
+we had not yet lost a rocket-powered airplane, either in the air
+or on the ground. But it could happen at any moment—and did,
+in later months. The B&#x2060;-29s were something of a problem, too.
+They were fire-prone.</p>
+
+<p>A few minutes before drop I primed the rocket engines. Chase
+pilots Fulton and Konrad, who were flying alongside the B&#x2060;-29
+beyond my view, reported routinely:</p>
+
+<p>“Prime looks good.”</p>
+
+<p>As we bore down over the dry lake at 35,000 feet, seconds
+before launch, I glanced one last time at the instrument panels
+and made ready. Launching a rocket plane and lighting off the
+engine properly is an exacting task. Improper observation of the
+numerous gauges and their reactions, or a small mistake in their
+analysis, can bring failure, possibly fatal. To gain maximum performance
+from the engines—the basic purpose of any research
+airplane flight—they should be touched off before the plane has
+dropped too far into the thick atmosphere. The plane must also
+be maintained at a precise angle of attack. If it noses down too
+steeply, precious rocket fuel is expended regaining lost altitude.
+If the plane is overly nose-high, the increased drag consumes
+fuel needlessly.</p>
+
+<p>In theory, the jet-rocket Skyrocket gave the pilot a nice edge.
+He could launch with the jet engine going full blast. This would
+help him maintain the plane’s equilibrium during the rocket-engine
+light-off.</p>
+
+<p>The next sixty seconds were crowded with excitement and
+frustration. Jansen, keying his radio mike, droned a brief countdown:
+“Five ... four ... three ... two ... one ... DROP.”</p>
+
+<p>I heard a rattle as the two bomb shackles holding the Skyrocket
+in its metallic perch were disengaged. Suddenly, then,
+<span class="pagenum" id="Page_51">[Pg 51]</span>brilliant sunlight poured into the Skyrocket cockpit, blinding me.
+I was falling like an elevator and flying!</p>
+
+<p>I pulled the nose up and climbed; there was not much time.
+The jet engine, fed by scoops that were far too small and inefficient,
+would soon starve for want of air. My fingers had flicked
+across the separate switches for the four rocket barrels. I felt a
+gentle forward surge, indicating a successful light-off. Chase
+pilot Fulton drawled on the radio:</p>
+
+<p>“All four going.”</p>
+
+<p>I glanced momentarily at the rocket pressure-gauges. They
+were in the green—I think. My eyes were still adjusting to the
+glare of the sunlight.</p>
+
+<p>Five ... ten ... fifteen seconds. My Mach meter and altimeter
+seemed to be running a clock-like race. Speed: Mach .9 and increasing.
+Altitude: 40,000 feet and increasing. My chase planes
+were far behind, left in a cloud of rocket dust. Altitude: 43,000
+feet.</p>
+
+<p>In the next second, fifteen events—all of them bad—took place
+simultaneously. In the first brief instant, I was suddenly thrown
+forward against my shoulder straps, almost to the face of the
+instrument panel. I heard the jet engines popping crazily, then
+the rockets burned out, followed by eerie silence. I knew what
+had happened: the balky jet had flamed out; the sudden loss of
+thrust had sloshed the rocket fuel forward in the tanks, shutting
+down all four barrels. Suddenly my chest felt as though it were
+supporting the weight of a platoon of soldiers. The engines were
+out; cabin pressure was seeping off. The battery, which should
+have supplied ship’s power in the event of engine failure, responded
+slowly. Everything was out: radios and electrical instruments.</p>
+
+<p>In that particular airplane, the windshield defogging system
+was hooked directly into the electrical system. With no power
+to supply defogging air to the windshield, a coat of ice quickly
+formed, shutting off my vision. Now the emergency was complete;
+no power, no instruments, no cabin pressure, iced-over
+windshields. Breathing heavily under the strain of the decompression,
+I leveled the plane and then banked until the sun
+<span class="pagenum" id="Page_52">[Pg 52]</span>beamed directly on the windshield. I knew, at least, that I was
+pointed in the general direction of the lake, which lay to the
+west of my position.</p>
+
+<p>By strange coincidence, it happened that the same critical
+sequence of events had taken place on Bridgeman’s Skyrocket
+flight that morning. When I suddenly left the radio circuit, he
+guessed immediately what must be taking place in the Skyrocket
+cockpit. He yelled on the radio for chase pilots Fulton and
+Konrad to pull up and lock wingtips with my plane—to guide
+me, if possible, back to the landing area.</p>
+
+<p>My battery came on the line at last and began to pump power.
+To conserve it, I switched off all but the most important instruments.
+As I descended, the ice began to thaw and the breathing
+became easier. I reached up and scratched a small hole on both
+sides of the windshield. Now I could see Fulton and Konrad
+sitting on my wingtips. They flew formation on me until 10,000
+feet, where the ice became so slushy that I could brush it off
+with my hand. I never wore gloves. Flying a sensitive airplane
+with gloves is like playing a piano with gloves.</p>
+
+<p>I brought the Skyrocket in dead-stick and made a normal landing
+on Rogers Dry Lake. The mechanics towed the powerless
+craft to the NACA hangar with a tractor.</p>
+
+<p>“Scotty,” Walt Williams said later, “if we can just get you
+through these first check-out flights, I think we’ve got it made.”</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_53">[Pg 53]</span></p>
+
+
+
+<p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_5">CHAPTER 5 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 5</span> <i>An Unusual Heritage</i>
+ </h2>
+</div>
+
+
+<p class="noindent">“Getting it made” was very important to me, and always will
+be. The quest for perfection is a compulsion with me, and has
+been since boyhood. One reason may be my unusual heritage.
+Another, without doubt, was my father. Then, as always, it would
+seem, there were those twinges of adversity, and stern compressions
+of circumstance, in early life, which Winston Churchill
+writes “are needed to evoke that ruthless fixity of purpose and
+tenacious mother-wit” which drive men to unusual endeavor.
+There was, too, an element of denial, an important factor in a
+man’s motivation, I believe.</p>
+
+<p>My family tree has always intrigued me. One reason may be
+that while I was growing up I was very conscious of it. There
+was a strong sense of “family” in our house, no matter how the
+luck ran. There was a Crossfield mold which we children—my
+two sisters and I—were expected to fit. We were constantly reminded
+that we were entrusted with a tradition that spanned
+almost the entire history of the New World. And because of the
+unusual mixture of our blood we were acutely aware of matters
+of race and prejudice. I know it is popular today to scoff, as
+decadent, at Southern traditions, and mock the proper Bostonians
+<span class="pagenum" id="Page_54">[Pg 54]</span>who cling to family ties, and to trumpet the dope-crazed sputterings
+of beatnik derelicts who, given complete head, would
+destroy all concept of God and family. Perhaps here, in this
+increasingly mobile society, this is one place we have failed. I
+cannot be held responsible for my family, but I am proud of it.</p>
+
+<p>My mother, for example, fiercely proud and uncompromising,
+was half Mexican. The other half was pure Irish, and a more fearsome
+combination one is not often likely to encounter. She was a
+direct descendant of a Spaniard named Holguin, a Conquistadore
+who served under Cortés during the Conquest of Mexico. Every
+inch a lady in the most severe Spanish tradition, my mother demanded
+extreme standards of conduct and discipline in our home.
+These were seldom relaxed, no matter how low our material circumstances,
+which at their nadir were very low indeed. I inherited
+a great deal from my mother: jet-black hair, dark eyes, a swarthy
+complexion, an insatiable curiosity, a touch of the romantic, an
+appreciation of music, and a flair for drawing and working with
+my hands. I profited even more by her example.</p>
+
+<p>My mother’s side of the family is a little complicated. What I
+know of it comes not from books and historical documents, but by
+word of mouth from my relatives. For this reason it is not precise
+but may be close. To describe it best I should begin with my
+maternal great-grandfather, Thomas Aloysius Dwyer, who from
+all accounts was an amazing character. Born in Ireland, he was
+one of the youthful cadets who figured in the great Irish insurrection
+of 1848. He married a Lady Crocker who was, so the family
+story goes, a lady-in-waiting to Queen Victoria. Just how this
+politically incongruous match came about is lost in the mists of
+love and history, but no doubt it accounts, at least in part, for the
+somewhat adventurous, peripatetic aftermath. Thomas and Anne
+Dwyer immigrated to Boston. Soon thereafter they moved on to
+Corpus Christi and San Antonio, Texas, where Thomas Aloysius
+Dwyer, an educated man, became a judge and sired six children,
+including Thomas Aloysius, Junior.</p>
+
+<p>Judge Dwyer, remembered as a distinguished-looking man with
+a carefully manicured beard and pince-nez, was evidently not
+totally dedicated to the law. He developed a good many side business
+<span class="pagenum" id="Page_55">[Pg 55]</span>interests, including the shipment of various goods and supplies
+by railroad from El Paso to small towns in Mexico. He sent
+his son, Thomas Junior, my maternal grandfather, then sixteen
+years old, to Mexico to oversee these shipments. Tom Junior was
+a curious blend of hard-headed businessman and romantic. He reported
+to his father in beautifully scripted letters (some of which
+I have seen), and sometimes enclosed drawings and sketches
+stroked with skill and talent. In Jimenez, Mexico, the youthful,
+talented Tom Junior branched out. He became, successively, a
+Wells Fargo agent, the proprietor of a general store, a streetcar
+magnate (the cars were pulled by mules), a lumberman, and
+a distributor for the ubiquitous Singer sewing machines.</p>
+
+<p>In Mexico Tom Junior met, admired, and married a seventeen-year-old
+senorita named Paula Holguin, my maternal grandmother.
+Paula, both an artist and a musician, was truly gifted,
+stubborn, and proud. I enjoyed her piano-playing in later years,
+but communications between us were difficult: as a matter of
+personal pride she refused to speak any language except Spanish.
+In her ladylike way she was also quite fearless.</p>
+
+<p>The marriage between Tom Dwyer and Paula Holguin produced
+fifteen offspring, ten of whom survived childhood. One of
+these was my mother, Lucia. For a while the large family lived in
+happiness on a great, prosperous ranch. My grandfather’s businesses
+expanded. As new mines were developed in Parrall and
+Terron, Mexico, he sent men to open general stores and to establish
+wagon-train routes.</p>
+
+<p>Then in about 1910, the Mexican bandit Madero, who preceded
+Pancho Villa, rose up to strike down the prosperous. Americans
+especially suffered in this period of anarchy, and for a long while
+it was touch-and-go for my grandparents. As a child I listened in
+awe to the tales of how my mother stood off groups of marauding
+Mexican <i>banditos</i> with a bull-whip. When the United States
+President declared he could no longer guarantee the safety of
+Americans in Mexico, Tom and Paula Dwyer sent the ten children
+by train to El Paso. My mother, Lucia, then 19, was one of the
+first to go. She was followed in time by the others, now virtually
+destitute, having lost everything in the retreat. Lucia, who
+<span class="pagenum" id="Page_56">[Pg 56]</span>was educated by nuns in a convent in Mexico, inherited much
+of her mother’s talent for music and art. She dabbled briefly
+at writing and then took a job teaching elementary Spanish in
+an American school in El Paso. A year or so later, in 1914, she
+went to the University of California at Berkeley to study for the
+summer. There she met my father.</p>
+
+<hr class="tb">
+
+<p>The Crossfields came from England; I have never been able
+to determine just when, but it was probably seven or eight generations
+ago. They settled in New England. There is a court record
+noting the marriage of a Crossfield before the Revolution. One
+branch of the family moved to Kentucky. The Scott in the name
+comes from the same family as does General Winfield Scott, who
+was, I’m told, a distant relative. Scott has been a middle name
+on the Crossfield side of the family for generations.</p>
+
+<p>My paternal grandfather, Amasa Scott Crossfield, was a lawyer
+from New England who married Louise Brown, a direct descendant
+of Governor William Bradford. I am certain of the latter point,
+because some of the Governor’s furniture was passed along in
+the family. It was traced to us and later asked for by a museum.
+We still have a highboy which I believe is authentic Governor
+Bradford.</p>
+
+<p>About 1885 someone conceived a plan to build a canal in
+Minnesota connecting Big Stone and Traverse Lakes to provide
+a direct water route between the Hudson Bay and the headwaters
+of the Mississippi. Somehow my grandfather Crossfield became
+interested in that project and moved from Boston to Browns
+Valley, Minnesota. (The Brown was no kin to my grandmother.)
+When the canal project fell through, my grandfather entered local
+politics. He was an Indian Reservation Agent and later he ran for
+and won a seat in the state legislature. I’m told that he won his
+first election when he bested his political opponent at knuckle-bending
+before a large crowd of voters. My father, Albert Scott
+Crossfield, one of three children, was born in Browns Valley.</p>
+
+<p>From all the family stories I’ve heard, I surmise that my grandfather
+Crossfield was a rugged, pioneering type, a two-fisted
+drinker with a restless soul, seeking new frontiers to conquer. In
+<span class="pagenum" id="Page_57">[Pg 57]</span>any case, he didn’t stay in Browns Valley long. Soon he turned up
+in the Philippine Islands as Chief of the Customs Department
+under the colonial administration of Governor William Howard
+Taft. My father, his brother, who later died, and a sister were
+raised in the Philippines. My father’s sister, Ruth, married Peter
+A. Drakeford, a brother of Sir Arthur Drakeford, Australia’s Air
+Minister in World War II.</p>
+
+<p>The move to the Philippines brought prosperity and success
+to my grandfather. He built up a coconut and hemp plantation,
+the Kumassie Plantation Company, on the Bay of Davao on
+Mindanao, which still exists, I believe. In time he became a
+pillar of the Philippines. He was appointed a judge of the Supreme
+Court in the Philippines. Contemporary with him was a
+woman journalist, Bessie Dwyer, an editor of the Manila newspaper,
+a daughter of Judge Dwyer of San Antonio, Texas, and
+my great-aunt on my mother’s side. Judge Crossfield and Bessie
+Dwyer were close friends in the Philippines.</p>
+
+<p>My father was a conscientious young man who took his schooling
+seriously. He was a scientist by nature, especially interested in
+chemistry. He took most of his secondary education in the Philippines,
+then graduated from high school in Berkeley, California,
+where he lived with his mother, who had temporarily returned
+to the States to give the children a U.&nbsp;S. education. Later he studied
+chemistry at the University of California and was a graduate
+Fellow at the Mellon Institute in Pittsburgh.</p>
+
+<p>Bessie Dwyer wrote to her niece, Lucia, then studying at the
+University of California, suggesting that she get in touch with
+the family of her good friend Judge Crossfield, then residing in
+Berkeley. By then my father was a graduate student taking advanced
+work in chemistry. When the two met, love bloomed and
+they were married in 1916. One chemical result of this union was
+me, Albert Scott Crossfield, Junior, one-quarter Mexican, with a
+sprinkling of pure English, Irish, Boston Brown, and the good
+Lord only knows what else.</p>
+
+<p>My father was slow and deliberate, a man who patiently
+looked at all sides of an issue and was forgiving, yet in his quiet,
+detached way quite demanding. As I think about it, he was a
+<span class="pagenum" id="Page_58">[Pg 58]</span>very unusual person. I have a lasting and profound respect for
+him.</p>
+
+<p>He was basically a chemist, a scientist, if you please, one
+whose natural bent leaned to theory but whose life led him
+into the practical application of science, or as we call it today, development,
+as opposed to pure research. When World War I broke
+out, he took a commission in the army and worked for the Chemical
+Warfare Department trying to perfect bizarre new weapons.
+After the war he turned to the petroleum industry. He was a pioneer
+in the then new field of extracting oil deposits from shale.
+This work ultimately led to an executive position with the Union
+Oil Refinery in Wilmington, at that time a small waterfront and
+refinery town in Southern California.</p>
+
+<p>Outwardly my father was the coolest man I have ever known.
+He used to tell me: “A gentleman never laughs, but he may
+chuckle. Nor does he cry.” When he punished me, he never displayed
+anger or emotion. He was completely detached about it, as
+though analyzing some chemical compound. I don’t think I ever
+heard him raise his voice. He was not altogether without personal
+fear, but I never saw any signs of it and, believe me, I searched
+diligently.</p>
+
+<p>He took great pains to disguise his courage. During the first
+World War, he was a leader of a small group of chemists who
+developed a new and effective gas mask, an urgently needed
+item in those days. My father was one of those who entered gas
+chambers to test the mask. The tests apparently were not always
+successful; the repeated exposures to gas in the chamber robbed
+him of much of his hair—my earliest recollection is that he was
+bald—and left a grim reminder on his body—white splotches
+where the gas had discolored his skin. I was quite old before I
+was able to worm out of him the fact that he had taken part in
+this hazardous experimental work.</p>
+
+<p>My father routinely worked seven days a week and eventually
+he rose to be superintendent of the Union Oil Company in
+Wilmington. On Sundays, when there was no school, he sometimes
+took me to the plant with him. In those days, as in these, the men
+kept a careful watch for fires; a refinery fire is a vicious and terrible
+<span class="pagenum" id="Page_59">[Pg 59]</span>catastrophe. One Sunday while we were walking through the
+“cracking plant” a fire broke out. My father ordered everyone to
+keep back. As I looked on, he draped a blanket over his head and
+asked the firemen who had answered the alarm to douse him thoroughly
+with water. Then, quietly and calmly he walked into that
+roaring inferno and closed off some valves in order to keep the fire
+from spreading. His burns were severe and he was confined to a
+hospital for days. Not a word about the fire ever was mentioned in
+our house.</p>
+
+<p>Dad was infinitely polite and proper. He was neither aloof
+nor snobbish, yet I think it is a fact that he was little understood
+by his friends and co-workers, perhaps because of his studied emotional
+detachment. Perhaps it was because of his granite-like
+principles about right and wrong. He was unyielding in this
+respect. On one occasion he clung to his principles so tenaciously
+that it cost him his position at the refinery and changed the whole
+course of his life and ours as well.</p>
+
+<p>The oil refinery in those days, around 1930, imported many
+Mexican laborers for the dirty work. They were paid, I believe,
+fifty cents a day, and they lived in shacks around Wilmington;
+the area soon became pretty much of a Mexican community. My
+parents had a natural sympathy and pity for these people and
+my father was outspoken at the refinery about this “exploitation”
+of alien labor. With time these feelings grew deeper and more
+pointed.</p>
+
+<p>When the depression struck Southern California, these imported
+workers were the first to lose their jobs at the plant. It was my
+father’s duty to fire them. A number were shipped back to Mexico,
+but a good many remained, out of work and penniless and, because
+they were aliens, not entitled to the usual governmental or
+community relief. Feeling responsible to some degree for the distress
+of these people, my father set aside a good deal of his own
+money for their support. My mother spent the money for food,
+scouring the markets for day-old bread and rejected vegetables
+which she cooked and passed out to the Mexicans. She was running
+a soup kitchen, really, and at times it seemed as though we
+fed half the population of Wilmington.</p>
+
+<p><span class="pagenum" id="Page_60">[Pg 60]</span></p>
+
+<p>As the depression worsened, the firing went on at a more rapid
+and ruthless pace. One day one of my father’s bosses pointed out
+to him that there were still people on the roster with Spanish and
+Italian names. That was true, my father replied, but those people
+were not aliens: they were Americans, born on the soil of the
+United States, and many of them excellent workers. Never mind
+that, they must be fired before the ones with Anglo-Saxon names,
+was the order from the boss. This my father refused to do, and he
+was thus forced to resign. He left the oil industry entirely. I do
+not believe there are very many men who would have given up
+a top position at the height of the depression for the sake of a
+principle.</p>
+
+<p>Our family was not destitute—far from it. Dad was not frugal,
+but he was not a spendthrift either, and during his years at
+the refinery he had managed to lay aside a healthy nest egg.
+He used most of this money to buy a small creamery. Like many
+chemists he was fascinated by the challenge of producing some
+unusual substance—a plastic, for example—from the waste-products
+of milk. I think his plan was to operate the milk company
+as a livelihood and spend his evening hours experimenting with
+the casein waste-products in a laboratory.</p>
+
+<p>He never realized this goal. Not long after he bought the
+creamery, a vicious price war erupted in Southern California, and
+in time it wiped us out completely. The trucks were overturned
+and the men were beaten up. When Dad began in the business,
+he bought the raw milk for six cents a quart and after it was
+processed sold it for about eleven cents a quart delivered to the
+home. At the peak of the milk war the raw-milk cost remained
+fixed by the NRA but the price on delivery fell as low as one and
+a half cents a quart. Caught in the squeeze, Dad trimmed the business
+to the bare bones, but his capital dwindled rapidly.</p>
+
+<p>The final days were grim. The whole family rushed to the
+rescue. My mother collected money on the milk routes, then
+being served by several trucks which were driven by my father
+and a man named Harold Babb. I often rode the trucks and ran
+up to the houses with the milk bottles. Later in the day I ran the
+bottle-washing machine, which cleaned about 7,500 bottles a day,
+<span class="pagenum" id="Page_61">[Pg 61]</span>all of which had then to be put into crates and stacked. I was not
+in the best of health. Often, in the midst of the grueling work, I
+was so tired that I hid behind the crates—where my father, who
+never seemed to tire, couldn’t see me—and bawled. Typically,
+my father refused to give up on that milk business until he ran
+through his last dime. When the business finally collapsed, he
+must have been hurt deeply, but he showed no outward signs of
+his feelings.</p>
+
+<p>There was one noteworthy facet of Dad’s character, which in
+retrospect seems important, and perhaps contradictory. Although
+he certainly held a tight rein on us children, at the same time he
+allowed us great individual responsibility. We were given complete
+freedom, for example, in our choice of courses in school.
+“What you make of your schooling is your own business,” he
+said. On the question of learning, he was not didactic, but had
+what was probably a shrewdly calculated way of spurring us on.
+At the dinner table, where we had the closest contact with him,
+he would never say, “Well, why don’t you know that?” about
+some subject. Instead he would say, “That’s strange. I thought
+you <i>knew</i> that.” This, of course, made us feel like idiots and
+soon after dinner we were all flying to the encyclopedia.</p>
+
+<p>My father’s unusually severe and unyielding spirit dominated
+our home, where I can remember no emotional scenes. Every
+family problem was discussed with judicial calm, and the solution
+arrived at was not an expeditious one, but a just one as my father
+saw it. Mother was a full and enthusiastic partner in these discussions.
+She was treated by my father, and by us children as well,
+with regal respect. This atmosphere might have seemed to some
+outsiders as oppressively dull. I am certain it had a profound impact
+on me, a pint-sized kid who might otherwise have grown up
+to fear his own shadow.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_62">[Pg 62]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_6">CHAPTER 6 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 6</span> <i>An Isolated Environment</i>
+ </h2>
+</div>
+
+
+<p class="noindent">I believe the fact that I was told I would never be physically
+able to fly was the single greatest spur in my life. I was a healthy
+baby, but all this changed rather abruptly one day.</p>
+
+<p>In Wilmington we lived in a big pink stucco house on the corner
+of Lakme and L streets. There was a huge eucalyptus tree in the
+parkway, so large that its roots had tunneled beneath our house
+and disturbed the foundations. We were fond of that tree, but my
+father decided after painful consideration that it would have to
+go. Its removal was an enormous task, requiring many men, bulldozers,
+and other pieces of earth-moving machinery. The job took
+a whole day. I was five years old. There were no boys my age
+living on the block, so I usually played alone, or with my older
+sister, Elena Ruth, then eight. My younger sister, Mary Ann, was
+a toddler, going on three. The day the men removed the tree was
+a big one for all three of us. The weather was cold and damp, but
+we stayed outside from dawn to dusk watching as the bulldozer
+gouged the earth from the yard.</p>
+
+<p>This prolonged exposure left Elena and me with bad cases of
+pneumonia. She recovered quickly, but I was seriously ill. My
+lungs were severely damaged and my heart was affected. For a
+<span class="pagenum" id="Page_63">[Pg 63]</span>while my parents thought I was going to die. They sent for our
+priest, Father Skiperelli. I can still remember the moment he entered
+my room. The walls were covered with pictures of airplanes.
+Father “Skip” joshed: “But what about the Lord?” My mother led
+him to a picture of the Sacred Heart, almost obscured by the
+montage of airplanes. He administered the last rites.</p>
+
+<p>It was touch-and-go for days on end. My mother smothered me
+in mustard plasters. I was in a coma for some time. Our family
+physician, Dr. E.&nbsp;J. Rowan, knew a man at the University of California
+who was trying to develop a new serum for pneumonia. He
+injected some of this serum into my blood. Finally I began to recover,
+but the illness had left its mark. For years I was sickly and
+small—and would always be the smallest boy in my class.</p>
+
+<p>A year or so later, perhaps as an aftermath of the pneumonia,
+I came down with rheumatic fever. I was not strong and the fever
+struck me harder than it does most people. I was in bed, flat on
+my back, for at least four months, possibly longer. Then for the
+four years following—until I was about ten years old—every so
+often for weeks at a time I was made to lie down and rest until
+dinnertime. My mother and father thought I might be crippled
+for life. They didn’t tell me this. My father’s strategy was to feign
+complete indifference lest I feel sorry for myself. Not once did
+anyone ever say to me that I might be a cripple. On the contrary,
+my parents used to joke about my having developed “rheumatism”
+at so young an age. But I sensed that from a physical standpoint
+I was lacking.</p>
+
+<p>I grew to adolescence in an unusual, isolated environment, finding
+things to pass the long hours at rest that few other boys do.
+Although it now pains me to recall it, my mother taught me how
+to sew and knit, and I became quite adept at embroidering. I also
+became skilled at drawing. I had once withdrawn from school for
+a while, but my fifth-grade teacher, Mrs. Paymiller, came to
+my house to award me the class prize for art. My main interest,
+however, was aviation, and most of these long, lonely hours were
+devoted to it.</p>
+
+<p>This interest was stimulated originally, I am certain, by a close
+friend and neighbor of my father’s named Charles (“Carl”)
+<span class="pagenum" id="Page_64">[Pg 64]</span>Lienesch, a pilot for the Union Oil Company. The company maintained
+one airplane, a wire and fabric Eagle Rock (or “Eagle
+Brick,” as Lienesch used to call it). This was probably one of the
+very first “executive” airplanes. Lienesch, who was also a chemist,
+visited at our home frequently. He was a colorful character,
+quite a story-teller. I believe his rambling air stories bored my
+father and mother. But in me he had an eager one-boy audience.
+Lienesch brought fascinating word pictures into my restricted
+life, and I always looked forward to his visits.</p>
+
+<p>He gave me my first airplane ride. It took place in 1927, when
+I was about six years old. Oddly, I can remember but a few details
+of the flight, although it was undoubtedly the high point of my
+childhood. Lienesch remembers that after flying 45 minutes or so
+in the front cockpit of the biplane, I fell sound asleep. This, too,
+strikes me as odd—if not inconceivable, though my own youngsters
+today do this. It may be the lulling effect of the engine.</p>
+
+<p>In those times, everyone involved in aviation was a walking
+public relations man for the trade. I don’t know why Lienesch
+singled me out for a special pitch. It couldn’t have been simply
+the fact that I was an eager listener. In any case, my earliest recollection
+is that this generous friend was determined that some day
+I should be an aviator. Although he knew I was not too strong
+physically, he urged me on and continued to do so for many years.
+I really didn’t need much urging. Lienesch had captured me from
+the outset. When I was old enough to realize that my health was
+shaky, and told by some doctor that I could probably never pass
+a flight physical, I was more determined than ever to be a pilot.</p>
+
+<p>I leaned heavily on my imagination in those days. When I was
+about nine, during the time I had to rest each day after school,
+my mother set aside a special wicker chair for me in our small
+lattice-work “summer house” in the back yard. The chair had
+deep, downy pillows and broad arm-rests to hold my books and
+drawing board. To this chair I rigged some special devices of my
+own: an airplane control stick and rudder pedals. With the books
+lying open on the arm of the chair, I “flew” hour after hour, carefully
+following the instructions. In that chair I learned the correct
+stick and rudder motions for every conceivable airplane maneuver.
+<span class="pagenum" id="Page_65">[Pg 65]</span>My imagination took me across oceans, into deep valleys, and
+above the mountains. I dreamed of flying from California to New
+York non-stop and setting a new record!</p>
+
+<p>Meanwhile, I had become a model airplane addict. I built
+models of many airplanes then in the air. The models were not
+hastily or sloppily made. They were near-professional, I hoped.
+As I grew older, I sought absolute perfection. This work led, in
+turn, to considerable research into the theory of flight and aircraft
+construction. I read everything available on the subject and wrote
+away, for example, to NACA, for reports on various wing airfoils
+and aircraft structures. I kept meticulous files. Soon I was designing
+my own model airplanes. Later I helped some boys build
+Southern California’s first model airplane powered by a (handbuilt)
+gasoline engine.</p>
+
+<p>Flying was then a sports rage in Southern California. I think
+there were at least a hundred small airports in and around Los
+Angeles. When I could manage it, I used to hang around these
+places. I was impressed by any pilot. But I was especially fascinated
+when I heard about pilots who flew air races, which in
+those days were frequent and dangerous events. A boyhood hero
+of mine—heroine, rather—was Pancho Barnes, the aviatrix who
+later built the ranch near Edwards. In those days she was idolized
+locally, something like the way Amelia Earhart was nationally.
+Pancho had a new airplane known as the Travelair <i>Mystery Ship</i>.
+She swaggered around in boots and flying jacket and won nearly
+every race she entered.</p>
+
+<p>For several years Los Angeles, or more specifically Burbank
+Airport, was the starting point for the 1500-mile Transcontinental
+Bendix race to Cleveland. Carl Lienesch took me out to Burbank
+to watch the start. I can still remember the frenzied last-minute
+preparations by the ground crews, and the high-pitched whine as
+the ridiculously tiny, stubby-winged, man-killing planes took off
+into the darkness with no radio and no instruments. I saw and
+worshiped all the great pilots: Roscoe Turner in his Weddell-Williams
+Special, Jimmy Weddell in another Weddell-Williams,
+and Benny Howard in <i>Ike</i>, <i>Mike</i>, and <i>Pete</i>, and <i>Mr. Mulligan</i>, the
+plane that nearly killed him. I built models of all these planes, and
+<span class="pagenum" id="Page_66">[Pg 66]</span>followed air racing around the country, from long distances, as
+some people follow baseball games and players. I was aware of
+the most obscure racing pilots, and every new racing design that
+emerged from their garages and workshops.</p>
+
+<p>From one side of the family or the other, I must have inherited
+a broad stubborn streak. I did no special exercises or took no special
+medicines; but somehow, by sheer will power and the help of
+God, I began to regain my strength. I firmly believe that if the
+spirit is willing, the flesh will keep pace. I think my father’s
+example—his refusal to display physical or emotional weakness—influenced
+me tremendously in this regard. You can’t be around
+a man like that very long and feel sorry for yourself. I think,
+too, the fact that Carl Lienesch treated me like a normal, healthy
+boy who would obviously some day be a pilot, had a strong
+psychological impact on me. By the time I was twelve years old
+I was well on the road to recovery, and as a result of my long
+years of confinement a dedicated airplane fanatic.</p>
+
+<p>About that time I took over a newspaper route for the Long
+Beach <i>Press-Telegram</i> from a boy named Norman Laird. By
+coincidence, or maybe it wasn’t coincidence, one delivery point
+on the route was the Wilmington Airport, a small grass field
+in a slough, operated by a great colorful aviator named Vaughn
+McNulty. McNulty had an Inland Sportster, a high-wing monoplane,
+which he used to teach people to fly and to take up passengers.
+There were a few other planes on the field—an old C&#x2060;-3 Cub,
+an Eagle Rock, and a Travelair.</p>
+
+<p>Those were tough days for small airport operators. The depression
+had hit Southern California and few people had dollars to
+shell out for airplane rides; fewer still had money for flight instruction.
+McNulty was ripe for the deal I proposed to him.</p>
+
+<p>The newspaper delivered at the airport cost him sixty-five cents
+a month. I offered to supply the paper free (I always had a couple
+of extras) in return for one half hour of flight instruction a month.
+McNulty agreed, I think, not because it was an equitable business,
+but because he was moved to help a starry-eyed kid get a start
+in aviation. I was tremendously grateful and performed odd
+<span class="pagenum" id="Page_67">[Pg 67]</span>jobs around the airport for McNulty: sweeping out the hangars,
+cleaning mud from the airplanes, and so on. My association with
+McNulty and the Wilmington airport was a very personal secret.
+My parents did not know I was taking flying lessons.</p>
+
+<p>By my thirteenth birthday I had logged several hours in
+McNulty’s Inland Sportster. I wasn’t yet ready to solo, but McNulty
+had taught me some of the basic rudiments of flying, how
+to handle an airplane in flight. For me each practice minute in the
+air was a fantastic, wonderful experience, and a tonic as well.
+Each minute removed me that much further from the possibility
+of backsliding into illness, and took me closer to my dream. I continued
+these flights, off and on, until my father became involved
+in the milk-price war and I was recruited to help wash those 7,500
+bottles every day.</p>
+
+<p>In sum, the seed of my life’s ambition had sprung from a twinge
+of adversity and it grew boldly and intensely in the face of denial.
+By the time I was thirteen it was clear to me that nothing could
+stand in the way. Moreover, what had begun as ambition had,
+perhaps because of the stern compression of circumstances, subtly
+been transformed into an urgent drive toward perfection. I would
+be not only a pilot but the best damned pilot in the world.</p>
+
+<p>My father’s ill-timed move into the milk-processing business
+had certainly proved to be one of the “stern compressions of
+circumstances.” He was left at the depth of the depression jobless,
+virtually penniless and wounded in spirit, I think, although typically
+he showed no outward flicker of unhappiness or distress. I
+know the experience moved him profoundly. He broke all ties
+with the past. He gave up his chosen field of chemistry, at which
+he had excelled for eighteen years or more, and moved all of us
+to a new and totally different environment. It is idle, perhaps,
+to probe too deeply for motivation in matters of this kind for, as
+we know, nothing is so clear-cut as it may appear. My own
+belief is that in starting life anew he responded to what I believe
+is a basic and fundamental urge in all of us to return to the
+soil whence we come and where we shall return in death. He
+sold our house in Wilmington and bought a heavily-mortgaged,
+run-down 120-acre farm in the rich but remote Boistfort Valley
+<span class="pagenum" id="Page_68">[Pg 68]</span>near Chehalis, Washington, about midway between Seattle and
+Portland, Oregon. He got it for $50 an acre.</p>
+
+<p>I was both pleased and stunned when I first saw the farm. The
+setting was beautiful. Boistfort Valley was lush green and stayed
+that way the year round. It was a land of rich, virgin timber—towering
+Douglas fir trees—lovely grape arbors, and rushing,
+salmon-filled streams. A river ran right next to our property.
+About sixty acres of our farm lay along this river. There were
+twenty more acres under cultivation and these lay higher, on a hill
+overlooking the river. It was a clean, silent country, full of wild
+fruits and berries.</p>
+
+<p>Apart from the setting there was not much about the farm I
+could admire. The main house was a rambling, drafty, thirteen-room
+monster, with detached toilet facilities: a two-seater privy,
+which in the deep of winter was less than comfortable. Out back
+there was also a tottering barn, built in 1884, and a wobbly
+chicken shack, the whole enclosed by a broken-down, zig-zag
+wooden fence. Then in the winter there was mud, more mud than
+I ever dreamed existed on the face of the earth. The barnyard, the
+grounds, the paths, the driveway—all were a bottomless sea of
+mud.</p>
+
+<p>My father’s approach to this new challenge was somewhat
+startling. From the outset he was determined to transform that
+bruised and battered piece of ground into a show place. He was
+an intelligent man and his method was intelligent. He studied
+farming. He sought advice from other farmers. He consulted
+often with the county government farm agent. He stretched every
+dime to the breaking point. Typical, I think, was his scientific
+handling of the chickens. He despised chickens. Yet he became
+the champion chicken farmer in the valley. He did it by keeping
+greatly detailed, endless records. He logged every egg that was
+laid. He carefully analyzed the results of different feed combinations
+on the chickens, noting if a new type increased or retarded
+the laying rate, how frequently the chicken house had to
+be cleaned, and so on. Everyone laughed, until in due time his
+painstaking research began to pay off handsomely.</p>
+
+<p>He followed the same system with the cattle. His objective
+<span class="pagenum" id="Page_69">[Pg 69]</span>was to build up a dairy herd, the best in the valley. He couldn’t
+afford to buy good cattle: pure-breds cost four or five hundred
+dollars. Instead he bought grade cattle for $50 apiece or less.
+Then when he found a good cow, he bred her. Again he kept
+unending records. By trial and error, and trading cows left and
+right, he built up a herd of twenty-five, which produced a much
+greater return than the pure-bred herds.</p>
+
+<p>As I think back on it, my father had soon organized everything
+on that farm to perfection.</p>
+
+<p>The work was limitless. Every morning and night for seven
+days a week we milked those twenty-five cows. In the spring we
+did the plowing, a brutal, grueling, seemingly hopeless task. We
+couldn’t afford tractors or even good draught horses. We used
+cayuses, worn out from years of labor in the nearby logging
+camps. It was usually my fate to draw the walking plow. Near
+the river on the bottom land, the soil was a thick, black loam.
+We plowed two acres a day, moving at a fast clip, and worked
+several cayuses to death. In the fall we harvested the hay, wheat,
+and oats—a hundred tons, cured to a “T”—and stored them in the
+barn, after the appropriate and detailed data on the crop had
+been drawn up and filed away for study.</p>
+
+<p>After a year or so the farm was still a long way from a show
+place. But I do remember one evening when my father closed
+his account books with a smile. He said: “We’re now one dollar
+in the black, the net result of twenty years of work.”</p>
+
+<p>In the curious way that life unfolds, as the farm grew so grew
+Scott Crossfield. This parallel has never occurred to me until now.
+I arrived there weak and puny and not fully recovered from my
+childhood illness. But as the months passed—months of hard labor
+and good healthy food—I no longer pooped out easily or noticed
+any shortness of breath. I gradually became as strong as an ox.
+Consciously or unconsciously my father was transforming his own
+son, as well as a patch of earth. Perhaps somewhere in the unfathomable
+depths of his mind, my father knew what he was
+about. I will never know. I never came near reaching perfection,
+but from the moment I landed on that farm, with one exception,
+I never again became ill.</p>
+
+<p><span class="pagenum" id="Page_70">[Pg 70]</span></p>
+
+<p>As my own strength grew, so did my determination to achieve
+my life’s ambition. In one sense, the farm was also a denial, a
+greater one than my illness in Wilmington. I had been transplanted
+from the center of aviation to a remote outpost. Here in
+this isolation I developed a great thirst and craving for any news
+of my interest. This craving, I think, inspired resourcefulness and
+a sense of independence, which in turn fostered a boldness that
+might not otherwise have sprouted. I was not trapped in the
+routine of my interest, nor influenced by mediocrity, nor bound
+by the usual conventions. My mind was free to try anything that
+occurred to it.</p>
+
+<p>My room was on the second floor of our big house. After the
+day’s work, the last chores, I retired there not to dream but to
+work on model airplanes, or to read magazines and books on
+aviation, or to go through my files, which, after seven years, had
+grown to great proportions. I hung a blanket over the window
+so that my parents could not see the light reflecting on the ground
+below. There, alone with my thoughts, I worked until two or
+three in the morning.</p>
+
+<p>Out of this room emerged what I thought was a new and
+brilliant idea for making a radio-controlled model airplane. Such
+models are common now, but in those days the concept was fairly
+<i>avant garde</i>. Proudly I revealed my new idea to the son of a
+friend on the adjacent farm, a young man who was a Doctor of
+Physics at the University of Washington. He said it would never
+work. He followed this comment with a general lecture on sizing
+up and working within one’s capabilities. This lecture served only
+to convince me that nothing would stand in the way of building
+that model.</p>
+
+<p>Everything about the model was new and different. My greatest
+problem was to devise a lightweight structure to carry the
+enormous radio “payload.” For the fuselage I selected a new and
+radical method of construction known as “geodetic,” which had
+been devised and published by a British aeronautical engineer.
+(Later I learned that the British used this construction to build
+the World War II Lancaster bomber.) The finished fuselage
+weighed about half as much as with the usual methods.</p>
+
+<p><span class="pagenum" id="Page_71">[Pg 71]</span></p>
+
+<p>The development of the special radio gear, and the devices
+which would translate a radio signal into a movement of the
+model’s control surfaces, took months. Knowing little of radio
+circuits or the theory of radio, I had to start from scratch and
+teach myself everything—with the help of some ham operator
+friends. The result, if I may brag, was ingenious. It was as good
+as, or better than, the units I have recently seen in current radio-controlled
+models, with transistors and “printed circuits.”</p>
+
+<p>The final product of my labors, a graceful, gullwinged model,
+weighed a total of seven pounds and was capable of lifting a
+seven-pound payload of radio gear. In any man’s league this is
+very efficient aerodynamics. The model flew like a dream and
+the radio worked perfectly. Then one day during a flight the
+plane dipped behind a tree which interfered with the radio signal.
+The ship crashed and was destroyed.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_72">[Pg 72]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_7">CHAPTER 7 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 7</span> “<i>Take Her Up and Try a Spin</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">I went to Boistfort High School, a consolidated country school
+about nine miles from our farm. There were fifty-six pupils in
+the whole school, quite a contrast to the big 3000-student schools
+in Southern California. The superintendent of Boistfort School,
+Carl Aase, was a most unusual man and to me, at least, a very
+generous one. For some strange reason my teachers have always
+made a lasting impression on me. I can recall everything about
+them, including their names: in kindergarten, Mrs. Wallin; first
+grade, Mrs. Clark; second grade, Mrs. Meade; third grade, Mrs.
+Thomas; fourth grade, Mrs. Humphries; fifth grade, Mrs. Paymiller;
+sixth grade, Mrs. Blossom. And so on.</p>
+
+<p>Carl Aase, an intelligent and resourceful man, became a good
+friend of my father’s. He visited our farm frequently, but he
+didn’t let this friendship stand in the way of doing his job, or
+of administering discipline to incorrigible boys. In this respect,
+he was quite like my father. Mr. Aase never displayed anger
+or emotion. Like the other farm boys, when I reached the age
+of fifteen I was a tough, scrappy youngster. We boys used to
+fight often, and occasionally Carl Aase would suspend me from
+school. He was very calm and matter-of-fact about it. “Scott,”
+<span class="pagenum" id="Page_73">[Pg 73]</span>he would say, “don’t wait for the school bus today. Just walk
+on home right now.”</p>
+
+<p>At first I was not an exceptional student. My grades averaged
+about “B.” They improved later when I was seriously preparing
+for college. But at sixteen my interests were many and my time
+too limited for concentrated study on anything but aviation,
+for which I was not given credit in school. I joined in 4&#x2060;-H Club
+work and raised several prize dairy animals. I was also intrigued
+by photography. I converted one of the unused rooms on the
+second floor of our home to a dark room. I took all the photographs
+and made the woodcuts for the school yearbook. I had
+no time for sports such as football, tennis, or swimming, and I
+haven’t found time for them yet.</p>
+
+<p>The farm and the school absorbed most of my hours. I got
+up early to do my chores, spent most of my day at Boistfort,
+in the evening returned to my chores, and then to my private
+room on the second floor. But there was one other spot to which
+I was drawn like a metal filing to a magnet: the Chehalis
+municipal airport. I didn’t get there as frequently as I wanted
+to. When I went, it was in secret. I didn’t want to trouble my
+parents with my ambitions to be a pilot. Although he never
+mentioned it directly, I believe my father hoped I would study
+law or medicine. A professional education, he thought, was a
+necessary part of a gentleman’s preparation for life.</p>
+
+<p>The Chehalis municipal airport was a cow pasture adorned
+with two skeletal airplane hangars, a tiny CAA weather shack,
+and a tattered wind-sock. It was home for about a dozen old
+wire-and-fabric airplanes, several of them derelicts and veterans
+of the first World War, which had then been over for eighteen
+years. The field was operated by a man named Donahoe, who
+somehow managed to stay one step ahead of the sheriff. The
+people who hung about that airport were, I think, typical of the
+depression era, young and old who almost on faith alone stuck
+with aviation, consciously and unconsciously knowing its
+future. Some, like me, were called “airport bums.” Chehalis
+Airport was a Garden of Eden to me. The pilots to a man were
+my special heroes.</p>
+
+<p><span class="pagenum" id="Page_74">[Pg 74]</span></p>
+
+<p>Whenever I had the money, which was seldom, although
+the amount required was ridiculously small, I took flight instruction
+from anybody and everybody. I was lucky to squeeze
+in one hour a month; many months went by during which I
+received no instruction at all. It was slow going and I’m not
+certain that the instruction was top quality. But I was learning,
+inching toward my first solo flight. It finally came quite unexpectedly,
+and it turned out to be rather exciting.</p>
+
+<p>“Why don’t you try it by yourself?” one of the pilots said
+to me one day at the airport. At this time I probably had accumulated
+about seven or eight hours of flight instruction. A
+solo flight was technically illegal: I had no student permit. But at
+Chehalis there was a sort of devil-may-care attitude about rules
+and regulations. A small knot of airport hangers-on gathered
+around us. “Yeah, Scotty, take her up and try a spin.” The
+crowd broke up with laughter.</p>
+
+<p>I crawled into the cockpit of the Curtiss Robin. It was a high-wing
+monoplane powered by a cranky OX&#x2060;-5, the engine that
+was used in World War I. Someone spun the prop and soon I
+was bumping over the cow pasture toward the end of the strip.
+Without fear or hesitation—indeed, very happily—I gunned the
+engine and horsed the Robin gracefully into the air. The deep
+green Chehalis Valley spread out below me. The engine, laboring
+heavily, took me to 4,000 feet, which was about the ceiling
+of that airplane.</p>
+
+<p>I flew about over the valley for ten or fifteen minutes, turning,
+twisting, and tracing lazy eights in the sky. This, I thought,
+was it, the absolute ultimate! Here man had a new view of
+his life and the world. He was detached, removed from the detail
+of it—the mud, the privy, the school fights, the chicken house,
+the slights and denials. Here, high in the sky, man’s vision was
+unobscured. He could see far and wide, the whole picture of
+God’s world, a model of grace and perfection. At the same
+time there was challenge: a man, a brain, some muscle, and a
+machine pitted against the air, a basic and important element
+of that earthly perfection.</p>
+
+<p>I was an ace now, zipping low over the battlefield returning
+<span class="pagenum" id="Page_75">[Pg 75]</span>to my aerodrome in France. Then I was Lindbergh, passing
+over wild Nova Scotia, eight hours out of New York, ready to
+bank over the cold gray Atlantic. Then I was Benny Howard,
+poised on the end of the runway at Burbank Airport in tiny
+<i>Mr. Mulligan</i>, ready for an incredible 1500-mile non-stop flight
+to Cleveland. Then I was Scott Crossfield, setting off in a new
+plane of his own design to break the Los Angeles-to-New York
+record.</p>
+
+<p>The long years of denial made these moments far more endearing
+and meaningful than I can possibly describe. I wondered:
+did more denial lie ahead? Maybe I had better squeeze
+every drop out of this flight. Maybe I had better see how far
+I could go: find out where nerve left off and fear began. Find
+out, in one fell swoop, if I had it.</p>
+
+<p>“Try a spin,” the crowd had said. Well, while I’m about it,
+why not? The crazy thought absorbed my attention. I climbed
+higher. I deliberately pulled the nose up steep and stalled out.
+The Robin’s right wing dipped. Earth and sky alternated in
+the windshield. I was spinning.</p>
+
+<p>Suddenly I was aware of a strange and startling noise, a
+kind of banging, foreign to the ordinary noise of the plane.
+What was it? Quickly I pushed the stick forward and the
+rudder pedal hard left and brought the Robin to normal, level
+flight. The noise disappeared. Was I imagining something? What
+happened?</p>
+
+<p>I climbed back to altitude and dropped the Robin into a
+second spin. Once again the fearful racket began. Again I
+brought the Robin to normal flight. No, I definitely was not
+imagining the noise. It was not my nerves. It happened when I
+put the ship into a spin. Curiosity overwhelmed me. What was
+it?</p>
+
+<p>For the third time I climbed and spun the Robin. This time
+when the clattering began, I strained and looked behind me,
+searching for the answer. Then I found it: the rear door of the
+plane was loose. In ordinary flight the slipstream kept it firmly
+in place. But in the spin gyrations it was banging open and shut.
+I laughed aloud at my concern.</p>
+
+<p><span class="pagenum" id="Page_76">[Pg 76]</span></p>
+
+<p>Time was running out. I had to land. I banked in a large
+circle and lined up on the cow pasture. The Robin ghosted
+down. Her wheels struck the soft grass and she clung. I taxied
+toward the knot of people near one of the hangars, shut off the
+engine and climbed out, showing not a trace of excitement or
+elation. I was as dead-pan as an undertaker.</p>
+
+<p>“How’d it go?” someone asked.</p>
+
+<p>“Good,” I said. I knew they had watched the three spins.
+There was no need to brag about it.</p>
+
+<p>“No trouble?” Then with a start I realized I was the subject
+of a practical joke. The crowd <i>knew</i> what happened to the
+Robin’s door in a spin. I was being hazed, like a college freshman.
+But I was determined to give them no satisfaction.</p>
+
+<p>“None at all,” I replied. I read disappointment on all their
+faces.</p>
+
+<p>I returned to the farm and my chores. At the dinner table
+that night I felt very proud. But I dared not say why.</p>
+
+<hr class="tb">
+
+<p>Carl Lienesch visited us from time to time on the farm. He
+no longer worked for the Union Oil Company. He had moved
+to Seattle, where he took a job as a Civil Aeronautics Board inspector.
+One day he proposed that I go up to Seattle with him
+to watch the first flight tests of Boeing’s new Clipper.</p>
+
+<p>Compared to anything I had seen, the flying boat looked
+huge, squatting on Lake Washington, on the eastern edge of
+Seattle. It had four powerful engines mounted high on the metal
+wing, and a towering single tail. The test pilot was Eddie Allen.</p>
+
+<p>Eddie Allen would have been quite surprised, I’m certain,
+to know how much the young man standing on the Lake Washington
+dock knew about him. By then my files on test pilots
+matched or surpassed my files on racing pilots and other famous
+characters in aviation. Jimmy Doolittle was far and away the
+most famous U.&nbsp;S. test pilot. On the East coast the top dog
+was James Taylor, who flew mostly for Grumman. On the West
+coast the top dog was Eddie Allen, who was also Boeing’s Chief
+Engineer. As I have said, he began his career with the old
+<span class="pagenum" id="Page_77">[Pg 77]</span>NACA shortly after World War I. At Boeing his word was
+considered law. He participated in the design of the airplane
+he would fly. If he didn’t think a piece of equipment ought to
+be on an airplane, it wasn’t put on the airplane. There was no
+great gap between Allen and the airplane designers. He <i>was</i> an
+airplane designer.</p>
+
+<p>I watched as Allen taxied the mammoth plane through the
+water. The engines roared to life and the plane plowed through
+the water gaining speed. Allen lifted it a few feet into the air
+and splashed it back down again. A short while later he returned
+to the dock. The Clipper lacked fin area. Allen directed
+that two additional fins be added to the airplane.</p>
+
+<p>As we were driving back to Chehalis, Lienesch, visibly impressed
+by the flight, was garrulous. His expensive Auburn was
+making nearly a hundred miles an hour.</p>
+
+<p>“Now, Scotty,” he said, “if you’re going to get into the
+aviation business, Allen’s job is the one you want to shoot for.
+That’s the top of the ladder. You don’t want to be a barnstormer,
+or a racing pilot, or a military pilot. Get a degree. Be
+an engineer. Help build the airplanes. Then fly them and find
+out what you did wrong. Then fix it. That’s a real profession.
+It has dignity as well as excitement and challenge. You can
+combine all your energies and focus them toward one single
+objective: to improve the airplane. Who knows, maybe you
+might contribute something in this never-ending, restless urge
+of man to do better.”</p>
+
+<p>I was profoundly impressed.</p>
+
+<hr class="tb">
+
+<p>My father’s limitless energy and meticulous research—his
+drive for perfection—had a telling effect on the farm as the
+months rolled by. It was still far from a show place, but it was
+no longer bruised and battered. The herds were growing and
+producing. The chickens were profitable and were pointed to
+as examples by the County Agents. The barn had a new addition.
+We had stemmed the sea of mud somewhat with gravel
+walkways. The main house was equipped with an indoor toilet.
+The farm produced enough money to support us and to send
+<span class="pagenum" id="Page_78">[Pg 78]</span>my older sister, Elena Ruth, to the University of California in
+Berkeley.</p>
+
+<p>Although it appealed to me not at all, I was caught up in the
+rural way of life and naturally influenced by the people. As
+the son of an increasingly successful farmer, and naturally competitive,
+I took some pride in contending with the sons of other
+farmers. I became a leader in our 4&#x2060;-H Club. My pure-bred
+Guernsey bull, which I had nursed to a beautiful showpiece,
+won many prizes at county livestock fairs and brought me an
+invitation (which I accepted) to represent the State of Washington
+in the International Livestock Show in Chicago. I was
+also assured of a scholarship to Washington State College provided
+I majored in agriculture.</p>
+
+<p>None of this gave me any real satisfaction. My basic interest
+lay elsewhere and was deeply rooted. I liked to pal around with
+the farmers’ sons, but they were not my closest friends. Indeed,
+my really close friends seem a strange lot to me now. I probably
+fitted in perfectly.</p>
+
+<p>One of my friends was a ham radio operator, Art Beal, who
+was about forty years old. I first met him when he came to the
+farm to investigate my weird radio-transmitter signals which
+were disturbing the airways. He taught me a great deal about
+radio and helped me build the radio-control model. Through
+him I met Elden Reed, about twenty-five years old, and Bill
+Young, about twenty-eight, and blind from birth. All three were
+avid hams; they never seemed to sleep. All of us, together with
+a tomboy about four years older than I, Louise Wilrich, became
+fast friends. Art, Elden, and Louise all learned to fly at
+Chehalis.</p>
+
+<p>Bill Young was an extraordinary person. He lived on a small
+pension, alone except for his seeing-eye dog, and picked up
+extra money tuning pianos. In Nature’s strange way, having
+denied Bill sight, she developed his ears to perfection. Bill was
+often the only operator who could pick up signals from North
+Africa. During the war the Air Force used his cheap home-made
+gear and sensitive ears to communicate with North Africa when
+military radio could not get through. I remember the time when
+<span class="pagenum" id="Page_79">[Pg 79]</span>a thief broke into Bill’s house, robbed him, and killed his seeing-eye
+dog. I think that if the rest of us had caught the thief we
+would have killed <i>him</i>.</p>
+
+<p>When we went to the Chehalis airport to fly, or just to shoot
+the breeze with Donahoe and the other pilots, Bill always came
+along. However, the airplane was something of a mystery to him.
+He walked about, feeling the wings, the fuselage, and the propellers.
+But it was too big and complex and he couldn’t “see,” as he
+said, the whole concept of the plane. I think this distressed him
+considerably because in that crowd we talked of little else besides
+radio and airplanes. Bill’s inability in this regard touched
+me, because to me Bill was a kindred spirit, a piece of nature’s
+bruised fruit. I helped him to understand the airplane by bringing
+along my models. With these miniature versions he could
+“see” the airplane as a whole.</p>
+
+<p>It was about this time that I began building my own life-size
+airplane. The idea came to me one day when I read in one of
+the many aviation publications I subscribed to that a French
+company, LeBlonde, had produced a very lightweight, efficient
+gasoline engine of 15 horsepower. One of these engines successfully
+powered a small plane. There on the farm, over six
+thousand miles from France and the nearest LeBlonde engine,
+the seed took root and sprouted. An engine that small ought to
+be pretty inexpensive, I thought. If I built the airplane, I would
+find a way to buy the engine.</p>
+
+<p>As my father lacked enthusiasm for my flying, so he viewed
+with less enthusiasm my plan to build an airplane. I suppose
+any rational father would try to talk his son out of a scheme
+like that. But in spite of my father’s advice to the contrary, I was
+determined to carry the idea through. I worked late at night,
+drawing up the plans and designing my vehicle, the sum product
+of a 17½-year-old’s aeronautical know-how and skill with a
+pencil.</p>
+
+<p>I had long talks with my school principal, Carl Aase, about
+the material for the airplane. One problem was that the spruce
+I intended to use in the wing, tail, and fuselage was very expensive.
+Aase suggested that I substitute Port Orford cedar,
+<span class="pagenum" id="Page_80">[Pg 80]</span>which in the old days the Indians used to build canoes. It was
+strong and flexible, a good inexpensive local substitute. I saved
+my money and sent away for the cedar. Since I had little money,
+I spaced the orders far apart.</p>
+
+<p>I enjoyed building anything. This full-scale airplane that
+could take me into the boundless sky turned into an intense
+work of love. I doubt that ever in history an airplane was built
+with such painstaking care for detail. Each piece of cedar—one-inch
+square strips—was handled like a piece of gold. After
+steaming it into shape, I sanded it carefully and then laid it in
+place. Then I tacked it down with glue-coated nails (which I
+ordered as required, with no allowance for surplus) and mortised
+each individual joint. As with my models, I strove for perfection.
+It was slow going. It took months and months to complete
+the fuselage. Then I saved for more cedar, built some jigs and
+laid out the wing spars.</p>
+
+<p>Though I worked on the airplane only after my chores were
+finished, I always felt guilty about the time it took. In a way it
+was like waving a red flag in my fathers face. He was becoming
+very attached to his piece of the earth and its mounting
+production. I believe he hoped I would share his enthusiasm
+and in time take over. Perhaps because it was a symbol of my
+conflicting ambition, annoying to my father, I never finished the
+airplane. It became a kind of unfinished Hangar Queen—in this
+case Barn Queen. I would meet other Hangar Queens later.</p>
+
+<p>Carl Lienesch convinced me that my approach to my chosen
+profession should begin with a solid college foundation in engineering.
+Upon graduation from high school in June, 1939, my
+plan was to go straight to basic freshman engineering at the
+University of Washington. But this well-laid plan went astray.
+I was delayed a whole year by a variety of factors.</p>
+
+<p>In January of 1939, several months before I was to graduate,
+my younger sister Mary Anne, fourteen years old, was stricken
+by polio, and after a brief but severe illness she died in an iron
+lung. She was a pretty girl, already determinedly planning a
+career on the stage. Her sudden death was a stunning blow to
+my parents and me. It brought us closer together than ever
+<span class="pagenum" id="Page_81">[Pg 81]</span>before. To leave for college then, to leave my mother and father
+alone on the farm, seemed to me like deserting them. (My older
+sister was still enrolled at the University of California.)</p>
+
+<p>The farm was simply too big for my father to operate alone.
+For several years he employed a boy named Harold Jones, who
+lived nearby, to help with the heavy work. Over the years Harold
+became another son in the Crossfield home. But in 1939 Harold
+went away to college to study agriculture, and my father could
+not afford to hire a full-time employee to replace him. A year
+later it would be a different story. But now my father obviously
+needed my help.</p>
+
+<p>After turning these facts over in my mind, I decided to stay
+home on the farm for one year. At the time it seemed a dreadful
+decision, an agonizing delay, a frustrating denial. Yet I probably
+gained by it. In 1940, through the combined efforts of my
+father and myself, the farm was a going concern. We were able
+to afford automatic milking equipment and—believe it or not—a
+tractor. I traded my old Oakland jalopy (bought in high
+school for $26) for a 1935 Chevrolet and tuned the engine to
+near-perfection. I filled in some lacking school credits by taking
+correspondence courses in math, physics, and chemistry from the
+University of Nebraska. I logged an increasing number of flying
+hours at Chehalis airport with my constant companions, Art
+Beal, Elden Reed, Louise Wilrich, and Bill Young.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_82">[Pg 82]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_8">CHAPTER 8 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 8</span> <i>Change and Challenge</i>
+ </h2>
+</div>
+
+
+<p class="noindent">In retrospect, the brief twenty months of my life from September,
+1940, when I left the farm, to May, 1942, seem a disjointed
+period, a tumultuous time of change and challenge.
+Perhaps because of this it was in some ways the most fruitful.
+I was about eighteen when it began; by the time I was twenty
+I had entered the University, graduated from a civilian aviation
+school, officially soloed, and obtained my private pilot’s license,
+withdrawn from the University, worked for Boeing Aircraft Company,
+quit to join the Air Force briefly, worked for Boeing
+again, quit again to join the Navy. My course was solidly set
+straight toward the aviation world. During that important transition
+in my life, however, new and sharp influences disturbed
+my compass, causing it to “hunt.” One towering influence was
+the outbreak of World War II, which in one way or another
+disturbed the lives of all my contemporaries as well as my elders.</p>
+
+<p>When I left the farm in September of 1940, I marched upon
+the University of Washington with determined strides, as though
+I had only a few weeks in which to absorb all it could provide.
+Thumbing through the catalogue, I signed up for twenty hours
+of college courses per quarter; this was about twenty-five per
+<span class="pagenum" id="Page_83">[Pg 83]</span>cent above the average load. When my counselor discovered
+that I had to work to pay my way, he advised me to cut my
+schedule. He might just as well have been talking to a sphinx.
+I explained that I was accustomed to working long hours and
+sleeping only a little. He protested again and again, but eventually
+I won the argument. He gave up to let me find out the
+hard way.</p>
+
+<p>I was not used to many luxuries, but I must say I had a tough
+time of it during the first year in Seattle. I lived in depressing
+boarding houses which served up a monotonous diet at mealtimes,
+and I worked at odd jobs that I found through the University
+employment bureau. The first of these was an agonizing
+experience for a lad fresh from the farm. I was a glorified butler
+in a snooty sorority house. I tended the furnace, put on a white
+jacket to serve tables at dinnertime, and washed the dishes—all
+for twenty-five cents an hour. Later I found a job mowing lawns;
+then I worked in a gas station; then I became a chauffeur.
+Finally I turned my skill with a pencil to profit as a part-time
+draftsman, tracing radio circuits.</p>
+
+<p>The University was a fantastic well of knowledge and intelligent
+people, and my appetite to devour this knowledge was
+insatiable. I had neither time nor inclination to make many new
+friends or to join in the heavy college social life. (For a short
+time I shared an apartment with two Dekes, one a member of
+the University crew, but this didn’t work out at all.) I was a
+lone wolf on a special mission, moving steadily from class to
+class and part-time job to part-time job. It took hard study to
+overcome some of the gaps from Boistfort Consolidated School,
+which was seldom called on to provide college preparatory
+courses. At the end of three quarters my grades were averaging
+B. But in one year I advanced one and a quarter years in college.</p>
+
+<p>I went back to the farm for the summer of 1941. It was reaching
+perfection and the yield was enough so that my father could
+afford full-time workers. I helped harvest the hay and grain
+and did other chores, and still found time to smooth out and
+advance my flying.</p>
+
+<p>As part of the general defense preparedness the government
+<span class="pagenum" id="Page_84">[Pg 84]</span>was in the process of converting the old CAA pilot-training program
+to something new called Civilian Pilot Training (CPT),
+designed to encourage a great number of young people into
+aviation. The new program, affiliated with colleges and universities,
+amounted to a government subsidy for aviation ground
+school and flight training. Through normal channels it then cost
+about $200 to get a private license. Under CPT it was free. For
+me this bargain-basement offer couldn’t have come at a better
+moment. That summer I promptly enrolled in CPT at Centralia
+Junior College near Chehalis. Art Beal, Elden Reed, and Louise
+Wilrich joined me. Unfortunately Bill Young could not join us;
+but in the evenings he got much of what we had learned second
+hand.</p>
+
+<p>The flight instructor of our small, almost informal CPT class
+was a man of about fifty named Elvin V. Puckett, a one-time
+Montana cowboy with a weather-beaten face and large, strong
+hands. Years before, having tired of “riding fences” on a horse,
+Puckett bought a plane and taught himself to fly, thus patrolling
+the huge ranch boundaries the easy way. He went on to barnstorming,
+finally settling down in Washington State. Puckett
+“sat” an airplane as I’m sure he sat a horse, easy, relaxed, natural.
+Maybe he wasn’t the best instructor in the world, but he taught
+me one lesson that stuck: the pilot of a plane is captain of his ship
+and fully responsible for its operation at all times. “No one else
+should ever be allowed to interfere with the pilot’s controls or
+to overrule the pilot’s judgment,” he told us.</p>
+
+<p>As luck would have it, it fell to me to stick by that rule to my
+possible disadvantage on one of the biggest days in my early flying
+life. Having completed flying with Puckett’s class, now came
+time for the big test. A Civilian Aeronautics Administration inspector,
+G.&nbsp;S. Buchanan, climbed into my airplane to pass me or
+fail me for my private license. When we reached altitude,
+Buchanan leaned over and pulled the engine throttle to idle.</p>
+
+<p>“You’ve just lost your engine,” he said.</p>
+
+<p>Puckett’s rule ran through my mind. Yet, I thought, here certainly
+is the exception. I debated. But no, a rule is a rule. There
+should be no exceptions to rules in the air.</p>
+
+<p><span class="pagenum" id="Page_85">[Pg 85]</span></p>
+
+<p>I stared at Buchanan and said: “Keep your hands off the controls
+of this airplane.”</p>
+
+<p>He stared back.</p>
+
+<p>“When I’m flying this airplane, you are a passenger,” I said.
+“The passengers don’t handle the controls. If you want to simulate
+a lost engine, you tell me and <i>I</i> will pull the throttle back
+to idle.” I pushed the throttle forward to regain air speed, thinking
+well, that’s that and I fail.</p>
+
+<p>As it turned out, Buchanan found the episode amusing and
+yielded.</p>
+
+<p>“All right,” he said. “You win. You lost an engine.”</p>
+
+<p>I pulled the throttle back and followed through with emergency
+procedures for a lost engine. When we got on the ground,
+Buchanan gave me an “up-check,” meaning I passed.</p>
+
+<p>Officially then I “soloed” in the summer of 1941 and got my
+license. But at that point I probably had more than fifty hours
+in the air. Quickly I moved up the grade, accumulating more
+time and passing official government tests for larger and more
+powerful airplanes. I bought a one-third interest in a Taylorcraft,
+but it cracked up on take-off at Tacoma and killed my two partners.
+It was a funeral pyre. The coins in their pockets were
+melted.</p>
+
+<p>I returned to the University in the fall of 1941 with my mind
+made up to stay off the sorority-house butler circuit. My search
+for a better-paying and more interesting job soon led to Boeing’s
+Seattle plant, which had just secured enormous contracts to build
+bombers for the U.&nbsp;S. Air Force and the British. Boeing was
+desperate for new people. The word was that they were hiring
+anything that walked. I applied for a job, planning to schedule
+my college courses around my work. But when I hired on for the
+seemingly fabulous wage of sixty-two cents an hour as an assembly
+page clerk—making certain the stockroom numbers were
+kept up to date—that plan went out the window.</p>
+
+<p>When I got my first look inside the Boeing plant I was fascinated.
+Everything about it thrilled me: the rattle of rivet guns,
+the heavy thumping of the presses, the shrill grinding of the saws,
+the whirling of the lathes. But greatest of all was watching an
+<span class="pagenum" id="Page_86">[Pg 86]</span>airplane grow in shape and perfection all in one room: from the
+confused beginnings of the production line to the end product
+which rolled out the door. In this environment thoughts of the
+ivy-smothered buildings at the University were lost. This was
+action. This was it!</p>
+
+<p>The pace in the plant is best described as frantic. The war
+was coming fast and the Air Force wanted airplanes yesterday.
+My job, as it turned out, couldn’t have been better suited to my
+purposes. I was not tied to any specific point; the whole factory
+was my domain. As an assembly page clerk, I was called or
+sent to every part of the plant and production line. Where there
+is strong interest there is strong retention. Quite soon all the
+apparent confusion made eminent sense to me, and I became
+intimately familiar with the problems and techniques of building
+real airplanes. In this job I was an observer with a free ticket
+to a great show.</p>
+
+<p>Some time around my twentieth birthday I was promoted to
+the position of production expediter, a glorified title for a bottleneck-breaker.
+In my new job I was to chase down certain parts
+that were not available in time and hand-carry or expedite them
+through their many processes so that they arrived at the assembly
+line in the right quantity at the right time. This work led
+to greater responsibility. Having noted my talent with a pencil,
+my boss assigned me the task of drawing up special change-orders
+and engineering change-orders for various small airplane
+parts. Most of this was “emergency” work, trying to salvage a
+part from damaged material, or devising a substitute for a part
+for which no material was available. This job, too, took me to
+all corners of the plant. I think that in a few months I learned
+as much as many men who work for years in an aircraft plant
+assigned to a specific detail. I worked long hours seven days
+a week and occasionally slept on the drafting table through the
+remaining hours of the night.</p>
+
+<p>When the Japanese struck Pearl Harbor, my duty was clear.
+I would have to lay aside my personal ambition and go win the
+war—in an airplane, of course. The week following Pearl Harbor
+I visited an Air Force cadet recruiting center and filled in all
+the papers. A few days later I reported for a physical examination.
+<span class="pagenum" id="Page_87">[Pg 87]</span>I flunked it. My pulse rate, possibly an aftereffect of my
+childhood illness, was too high. It might also have been the
+result of the long hard hours at Boeing. The Air Force doctor
+told me to rest up a few days and come back for a second try.</p>
+
+<p>The years of discipline from working on the farm and training
+under my father paid off. The disappointment was short-lived.
+I would do something about this. I would not be denied
+my life’s determination.</p>
+
+<p>I looked up a private physician in Seattle. Everyone, I suppose,
+was feeling patriotic in those days and they all wanted to help
+any boy get into the service. The doctor gave me a handful of
+pills—probably sedatives—and told me to take one before retiring,
+one on arising, and one just before the physical. The pills did the
+trick. I passed the physical.</p>
+
+<p>For a long time I was plagued with this high pulse rate on
+physicals. In due time I learned to control my pulse—to hold it
+down—almost by yogi. Once I tried the traditional trick of using
+the depression of a hangover to pass a physical. It worked, but it
+wasn’t worth it. Certainly this annoyingly high pulse rate never
+in any way hampered or restricted my endurance and flying
+ability, which may or may not prove something about the accepted
+routine of flight physicals.</p>
+
+<p>My boss at Boeing was greatly put out when he learned I had
+been “called up.” First he offered to get me a draft deferment,
+and then he insisted on it, declaring I was essential to the war
+effort. I couldn’t make him understand that I <i>wanted</i> to go.
+Finally, to preclude drastic action on his part, I simply told him
+I was in the Reserves and there was nothing he could do about
+it. My friends at Boeing gave me a small farewell party, and
+off I went to the wars.</p>
+
+<p>I was back at Boeing a week later working at the same job.</p>
+
+<p>The Air Force shipped me from McChord Air Force Base near
+Tacoma to Williams Field, a processing center in Arizona. Williams
+was a madhouse. Evidently every recruiting office in the
+nation was swamped by boys eager to join the Air Force. The
+base was saturated with starry-eyed kids. There were no living
+quarters nor places to feed all these people. The officers in
+charge shipped me back to McChord. There I was told to go
+<span class="pagenum" id="Page_88">[Pg 88]</span>home and wait until there was an opening in a cadet class. While
+waiting, I returned to my old job.</p>
+
+<p>I waited and waited, wondering if the war would be over
+before I could get into the service. In the second week of February,
+with still no word from the Air Force, I went down to a
+Navy recruiting station. The requirement then for Naval Aviation
+cadets was at least two years of college. The Naval officers examined
+my record at Boeing, my University credits, my private
+flying background (some three hundred hours now), and waived
+the two-year college requirement. Frankly, I think they were
+overjoyed to snatch an Air Force cadet. I took three more pills,
+passed the Navy physical, and was sworn in on February 21,
+1942, in Seattle. I then resigned from the Air Force.</p>
+
+<p>The Navy was giving primary training to some of its aviation
+cadets at Sand Point Naval Air Station in Seattle, a fact that
+pleased me no end, having briefly glimpsed the parched-earth
+and desolation at Williams Field in Arizona. I was scheduled to
+join a Cadet Class at Sand Point on the day I was sworn in, but
+I was delayed by a ridiculous but, to the Navy, vital matter. I am
+a “junior,” and that fact was duly published on my birth certificate.
+I never used the junior in my signature. Thus I filled out
+my Navy papers “A. Scott Crossfield.” When the discrepancy
+was spotted, the officers, following meticulous Navy regulations,
+insisted that my papers be returned and corrected. Because of
+this I missed my class. My reporting date was postponed until the
+next class convened on May 7th, two and a half months later.</p>
+
+<p>While waiting, I kept on at my job at Boeing. As before, I
+worked seven days a week, never hesitating to accept greater
+responsibility. When I think about it now, I laugh at some of the
+quick and (to me) awesome decisions I made there. Actually, I
+suppose, the mind functions pretty clearly between the ages of
+nineteen and twenty-five. It is not yet encumbered by experience
+and mistakes, or corralled by conservatism, which is the product
+of fear of making a mistake. It is bold and aggressive, and difficult
+to deny.</p>
+
+<p>I believe those nine furious months at Boeing were among the
+most valuable in my life.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_89">[Pg 89]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_9">CHAPTER 9 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 9</span> <i>Manhood and Maturity</i>
+ </h2>
+</div>
+
+
+<p class="noindent">I served in the Navy four years, until I was twenty-four. I
+never achieved my goal of engaging the enemy plane-to-plane
+over the Pacific. After winning my wings I was waylaid as a flight
+instructor for eighteen months. I very nearly made it. When the
+war ended, I was in training in Hawaii with a carrier air group
+for the invasion of Japan.</p>
+
+<p>My Navy tour laid the groundwork for the contribution I made
+to aviation and the nation years later in a different kind of war.
+In the Navy I became a professional, disciplined aviator.</p>
+
+<p>Ironically, I almost flunked at the outset. It happened during
+my two months of “elimination” service in Seattle in May and
+June of 1942. Like many men who already knew how to fly
+when they entered the military services, I found my past experience
+in the air not a help but a hindrance. A civilian pilot is an
+individualist. In the military a pilot is part of a closely meshed
+precision team. The adjustment is difficult to make. Civilian
+pilots learn many “bad habits.” One day my instructor said:
+“Crossfield, I don’t think you’re going to make it.” I did make it.
+In fact I never got a “down-check” although there was one
+close call.</p>
+
+<p><span class="pagenum" id="Page_90">[Pg 90]</span></p>
+
+<p>It was a glove that almost did me in. One of our final checks
+at Seattle was an emergency landing in a small tree-bordered
+field. My airplane was an old N3N or “Yellow Peril” biplane, built
+in about 1933. While flying near this field one day my instructor
+gave me the signal to simulate an engine failure. I throttled
+back all the way and aimed for the field, calculating my glide-path,
+intending to make a perfect approach and landing.</p>
+
+<p>I miscalculated. We were quite low when I realized I had
+undershot the field and would have to open the throttle. My
+instructor reached this conclusion about the same instant. He
+moved his gloved left hand to the throttle. As I pushed forward
+a split second before him, his glove caught and jammed in the
+throttle bracket. He tried to pull the throttle back momentarily
+to disengage the glove. Unaware of this mishap, all the while I
+was pushing the throttle hard forward, wondering what was
+holding it.</p>
+
+<p>The ground was rushing up fast. I had to land. There was a
+hole between the trees that looked large enough to squeeze
+through. We grazed over a barbed-wire fence and penetrated
+the hole. It was too small. The right wing brushed the top of a
+tree, making a fearful racket on the taut dope-covered fabric of
+the wing. The plane bounced on the grass strip and rolled out.
+My instructor crawled out of the front cockpit, lit a cigarette, and
+paced about the plane, inspecting the broken ribs in the wing
+and the torn fabric. I sat in the cockpit awaiting the inevitable.
+Soon, I knew, I would be headed for a ship as a seaman second
+class.</p>
+
+<p>I wondered why my instructor was delaying. Then it dawned
+on me. He was worried that we had damaged the plane so badly
+that it would fall apart in the air.</p>
+
+<p>“As long as we’re here,” he said, “I’ll just stay on the ground
+and watch while you make a few precision landings between the
+markers over there.” This was the next phase of my test, scheduled
+to be carried out at another field. It was true that it would
+save time to do these maneuvers at this field. But I had a hunch
+the real reason was that the instructor wanted me to take that
+plane up and test-fly it—alone.</p>
+
+<p><span class="pagenum" id="Page_91">[Pg 91]</span></p>
+
+<p>Very well, I thought, I’ll do it. I got us into this fix. I gunned
+the engine and took off. The plane held together and I made
+the precision landings without further incident. The instructor
+climbed in and we flew back to main base. He gave me an “up-check,”
+but I believe I earned it by default—because he was
+ashamed to report the glove snafu and because I had tested the
+airplane for him. Thereafter, in the way some men respond to
+error, I was determined never to repeat that fiasco. In time and
+with exacting practice, landings became the strongest point of my
+flying.</p>
+
+<p>We moved from Seattle to the Naval Air Training Center in
+Corpus Christi, Texas—the big league. What a sight! It was the
+Boeing plant all over again. The Navy was just gearing for the
+instruction of aviators on a mass scale. Thousands of people were
+pouring into Corpus Christi each week. Everywhere new outlying
+flying fields were being scratched out of the dry, ugly Texas soil.
+Hangars, maintenance shops, barracks and officers’ clubs, it
+seemed, were sprouting all across the great expanse of Texas. It
+was semi-organized confusion on a grand scale. For the next
+six months, along with the fifteen other members of my cadet
+class from Seattle, I lived, studied, and flew hard while this
+transformation was taking place. We paid it scant heed. Our
+minds were set on learning our profession and going on to war,
+to the Pacific, where Naval aviators were desperately needed.</p>
+
+<p>The skies over Texas were black with airplanes flown by young
+inexperienced pilots, feeling their oats, frozen in the grip of that
+infantile phase all pilots must go through: flat-hatting, or buzzing
+the ground. I don’t know how or why all pilots get this disease.
+Maybe it’s simple showing-off, or some kind of deep-seated
+craving for the sensation of speed, or a reaction to the highly
+disciplined military formation flying. It is very dangerous. But a
+lot of fun.</p>
+
+<p>We had several special flat-hatting tricks calculated to stretch
+any pilot’s nerves to the breaking point. First there was wind-milling.
+The surface of Texas is a forest of windmill-driven water
+pumps. We used to dive at these lazily turning windmills, scream
+across the ground, lift the wing as we passed over the tower, and
+<span class="pagenum" id="Page_92">[Pg 92]</span>kick the rudder. When the plane’s slipstream hit the blades of the
+windmill, they would turn at tremendous speed, gushing water in
+a torrent, and probably grinding up the pump gears.</p>
+
+<p>Another trick was the rare sport of playing leapfrog with
+automobiles. We would spot a lone car driving on a long, straight
+Texas road. Then we would ghost down and land behind him.
+We would clip along, waving at the awestruck kids in the back
+seat, their noses pressed against the rear window. We’d gun the
+engine and hop over the moving car, taxiing on down the road
+at high speed. I saw one pilot do this to a moving van. When
+the plane’s slipstream hit the broad side of the van it knocked
+the truck into a ditch.</p>
+
+<p>Then there was the railroading. What better sport than to fly
+down a railroad track at night, directly toward an oncoming
+train, and at the last second turn on the plane’s landing lights
+and pull up steeply, all the while enjoying the vision of the
+engineer grinding his brakes into steel filings, wondering what he
+was about to smash into.</p>
+
+<p>Bridges, of course, held the greatest fascination to the youthful,
+inexperienced pilot. There was a bridge up near Smithville
+on the Colorado River that loomed as my greatest flat-hatting
+challenge. It was tricky because there was a little turn involved
+just before passing under the bridge. Flying below the river
+banks, the drafts and winds were confusing and I had to
+take care that the plane didn’t drift into one of the bridge
+foundations. I made several tries before I finally plunged under.
+As it turned out, there was plenty of room—fully twenty feet
+clearance between the bottom of the bridge and the water. My
+dream was to loop around that bridge, but for some reason I never
+did. No guts, I guess, or maybe I had a little sense, at that.</p>
+
+<p>These were rare diversionary moments in a rigid schedule of
+work and study. Mostly we flew in formation under strict observation.
+We advanced steadily in our profession, on the ground
+and in the air, learning about engines and propellers, navigation,
+night flying, bombing, gunnery, and the niceties of being a Naval
+officer. I learned one special discipline. On the night before a
+special check-flight, I would mentally fly the complete trip from
+<span class="pagenum" id="Page_93">[Pg 93]</span>take-off to landing, going through every motion of the controls
+and relating the movement of the plane to the geography. At
+Edwards many years later I was still able to commit a complicated
+experimental airplane flight to memory the night before
+flight. This left my mind free to concentrate not so much on
+flying but on gathering the aeronautical data we sought.</p>
+
+<p>In December, 1942, one year after Pearl Harbor, we graduated
+as ensigns and full-fledged pilots. I had just turned twenty-one.
+Of the twenty-five men who were commissioned that day twenty-three
+got orders to the fleet. Two drew orders to remain at Corpus
+Christi as flight instructors. I was one of the two. At the time it
+seemed the blackest day of my life. I partially offset my deep
+disappointment by thinking that I had been selected for the job
+because I was an outstanding pilot. But I am sure they just
+picked my name out of a hat. I came to this conclusion when I
+saw what poor pilots some of the instructors were.</p>
+
+<p>For six weeks I attended a school to learn how to be an instructor
+in advanced bombing and gunnery, then I was assigned
+to Kingsville Naval Air Station—a desolate outlying field. There
+I soon learned that instructors are not the infallible monarchs I
+had considered them when I was a cadet. Instructors are men
+like all other men, full of imperfections, contradictions, and uncertainties.
+Most of us were very young—twenty-one or twenty-two.
+We lived in dirty BOQs, engaged in seemingly endless cycles of
+new students, parties, poker games, graduation, new students,
+parties, poker games, graduation, new students, and so on. The
+pace we kept would defy all aero-medical studies on pilot
+fatigue—especially my own. I slept hardly at all. I flew probably
+four and sometimes six flights a day, with occasional time off
+during brief periods of bad weather. I never missed an assigned
+flight.</p>
+
+<p>The second stage of infantilism in an airplane comes when the
+pilot learns aerial acrobatics and can be sure of a captive audience.
+As instructors we had such an audience in our students.
+One sure way to get a rise was to make a series of barrel rolls
+around a tight formation of student airplanes. This was one of
+my specialties until one of the new instructors, a former student
+<span class="pagenum" id="Page_94">[Pg 94]</span>of mine, tried to imitate it. Evidently he had not first practiced
+the maneuver behind the student formation. He miscalculated
+and smashed into a student plane, killing himself, the student,
+and another student in the rear seat. After that, I was far more
+conservative in the air when students were around.</p>
+
+<p>I don’t mean to overdramatize this incident. Death is the handmaiden
+of the pilot. Sometimes it comes by accident, sometimes
+by an act of God. Over the years I have tried to become calloused
+about death. This attitude began at Corpus. Twelve out of the sixteen
+members of my original class at Seattle were eventually
+killed in airplanes. Hundreds of students, many of whom I knew
+well, passed through Corpus to a quick death in the Pacific.
+Eleven men in my training squadron were killed at Corpus.
+Indeed, come to think of it, three-quarters of all the pilots I ever
+knew are now dead.</p>
+
+<p>There was a camaraderie among the instructors, and a sharp
+sense of competition. Teaching bombing and gunnery week in
+and week out eventually turned us into pros. One reason was
+that we shot and bombed far more than anyone else, including
+pilots in combat. When a new class reported in, we instructors
+began with a “demonstration” of bombing and gunnery, each
+with a student in the back seat of the plane. For us this was a
+moment of high drama. Instructor was pitted against instructor.
+We laid huge money bets for high score. In our eagerness to win
+we very nearly drove our planes into the ground or into the
+target sleeves. It must have been quite an indoctrination for the
+students. Some of them resigned after the demonstration flight.</p>
+
+<p>We felt pretty good about our gunnery records until “Bogie”
+Hoffmann, a senior Navy pilot, came up from DeLand, Florida.
+A mustang from the famed Fighting 2 off the Lexington, Hoffmann,
+with Captain John (“Jimmy”) Thach, had developed a new
+gunnery technique. It was astounding in its simplicity and it
+greatly improved our scores. Alongside Hoffmann we instructors,
+supposedly the pros, felt like amateurs. I made every effort to
+hitch a ride in the back seat of Hoffmann’s plane when he made
+a demonstration. I strove to imitate him. The results were gratifying.
+From that point on, I met few men in the Navy who could
+<span class="pagenum" id="Page_95">[Pg 95]</span>seriously challenge me in aerial gunnery, but I could never touch
+Hoffmann’s shooting.</p>
+
+<p>Flying over Corpus shepherding my flocks amid the hundreds
+of planes milling about, both in daylight and at night, and with
+a near-crisis every ten minutes, I learned the value of stern
+discipline in the air. Too often in times of trouble I witnessed
+tragedies which could have been averted had the participants
+remained at least outwardly cool. Too many times I heard people
+shouting conflicting advice—and orders—into radio circuits. I saw
+then the advantage of my father’s detached, emotionless attitude.
+I deliberately emulated it, striving never to raise my voice but to
+take positive command in times of emergency and do what I
+thought was right. Some people—those who knew only this
+calculated glacial exterior—thought I was a cold fish. No matter.
+The technique paid off.</p>
+
+<p>One day, for example, I was leading a group of my students
+on a “tail chase”—a sort of follow-the-leader of aerial acrobatics,
+including loops, rolls, Cuban Eights, chandelles—the works. Somehow
+one of the pilots fell out of place and the prop of his plane
+chewed into the tail of the plane in front of him. The first word
+I had of impending catastrophe was a blast on the radio:</p>
+
+<p>“Jones. Land immediately. Your tail is chopped off.”</p>
+
+<p>The first thought of inexperienced aviators who get into trouble
+is to get back to earth quickly. They get down low only to find
+out the plane is no good and it is too late to bail out. The proper
+course is to keep all possible altitude until someone can find out
+how badly the airplane is damaged. I broke in on the radio
+circuit, my voice deliberately held low:</p>
+
+<p>“Jones. Remain at your present altitude until we check your
+airplane.”</p>
+
+<p>Jones started to argue back.</p>
+
+<p>“Shut up,” I said calmly.</p>
+
+<p>I moved in and took a look at his plane. Quite a bit of the
+tail was missing.</p>
+
+<p>“Head for base,” I ordered.</p>
+
+<p>I flew alongside, coaching him through gentle maneuvers to
+feel out the plane. One of these showed that if he slowed to
+<span class="pagenum" id="Page_96">[Pg 96]</span>ordinary landing speed, the plane would not fly. If he had followed
+the first advice on the radio, he would have been killed.</p>
+
+<p>“Okay,” I said. “You land that plane about ten or fifteen knots
+above normal speed.”</p>
+
+<p>Just then someone else broke in and radioed the base tower:</p>
+
+<p>“We’ve got a crash coming in! Emergency! Emergency!”</p>
+
+<p>This yelling only served to rattle the pilot of the stricken
+plane. Holding back my rage, I spoke on the radio:</p>
+
+<p>“Defer the emergency. We don’t need any special equipment.
+Jones, remember to land fast.”</p>
+
+<p>The pilot landed the plane, saving his own life and a piece of
+expensive government equipment. Experiences like these drove
+home the lesson never to permit foolish, though well-meant,
+interference to supplant a pilot’s responsibility in the air. The
+lesson is documented by a long roll of dead pilots.</p>
+
+<p>As the months rolled on the flying was hard, endless, and
+gratifying. Life in the BOQ at night was soft, endless, and boring.
+Night after night we gathered in one room or another and drank
+until the bottle was empty, hangar-flying and telling endless,
+untrue sea stories. I tried correspondence courses to pass the
+time, but the insidious magnetism of that fun-loving bunch of
+troops shot down that effort. It did not take keen observation to
+see this was not doing some of us any good. In a few it was
+reflected by poor flying which made me wonder about my own
+flying. Here I would not compromise in the slightest—this nonsense
+had to stop. I had to get off that circus wagon.</p>
+
+<p>I was engaged to a twenty-two-year-old girl from Seattle named
+Alice Knoph, a beautiful blonde who worked as a long-distance
+telephone operator. I met Alice on a double date back in the
+days when I worked at the Boeing plant. She was a vivacious
+Nordic type with a talent for singing, and she quickly became
+the delight of my life. She was engaged to a friend of mine, a
+picture I was determined to change. On our first date I told
+Alice I would marry her some day. She laughed, but six months
+later she was wearing my ring. Very sensibly we decided not to
+marry until the war was over.</p>
+
+<p>But one day in April, 1943, I called Alice on the telephone and
+<span class="pagenum" id="Page_97">[Pg 97]</span>asked her to come down to Corpus Christi and marry me. The
+call cost $56.00, but this and the money I sent her for train fare
+was the best investment I ever made. Her sudden answer to my
+call for help naturally dismayed her family. But in the end
+they became reconciled. Alice lost her luggage on the trip down.
+When we were married by a Justice of the Peace in Corpus
+Christi she wore one of my shirts as a blouse. A cab driver was
+best man.</p>
+
+<p>Alice and I rented an apartment in Corpus. Inevitably it became
+a hang-out for my bachelor friends among the instructors.
+There were too many parties. In that wartime atmosphere it was
+not quite possible to avoid a party even if we wanted to, which
+was not always the case. But when Alice came, it was as though
+I gained a balance wheel. My entire outlook changed.</p>
+
+<p>I was always profoundly conscientious about my students.
+Slipshod instruction in gunnery and bombing could cost a combat
+pilot his life. But now I took on a new, voluntary chore. I became
+a specialist at saving the pilots slated for wash-out—the imperfections
+of our factory. In a way it was faintly comparable to my
+job at Boeing, when I redesigned parts that would otherwise have
+been scrapped.</p>
+
+<p>I’m not certain just how or why I was moved to do this work.
+It may have started one day when I learned that an entire flight
+of cadets was about to be washed out. I looked into it and
+discovered that their instructor was a former student of mine.
+Had some imperfection in my own teaching caused this chain
+reaction? In any case, to my regular flights I added hundreds of
+hours of overtime work with these bruised pieces of fruit. To
+me this work, an attempt to mold these wayward men and their
+machines into perfect fighting units, was the most trying, and in
+some ways the most rewarding, of all. I tackled the job with
+missionary-like zeal.</p>
+
+<p>Most of the work amounted to patient tutoring, simply building
+confidence first, then teaching technique. Occasionally, however,
+it was a matter of using common sense. I remember one
+case. The cadet was an ex-theology student. He stopped at our
+apartment one morning after church.</p>
+
+<p><span class="pagenum" id="Page_98">[Pg 98]</span></p>
+
+<p>“Mr. Crossfield,” he said. “What can I do? I don’t want to
+give up.”</p>
+
+<p>He came in and sat down while Alice rustled up some coffee.
+This was a very sad case. The cadet had been before three different
+boards. Each board failed him. For some reason he simply
+could not make precision landings, which were crucial to flying
+on and off an aircraft carrier.</p>
+
+<p>While we sat waiting I looked at him, trying with him to
+ferret out his lack. Then I noticed his legs. They were the shortest
+I had ever seen on a man. An idea flashed in my mind.</p>
+
+<p>“Can your feet reach the rudder pedals?” I asked.</p>
+
+<p>“Yes, sir,” he said. But as I thought about it and mentally
+measured his legs in the cockpit, I knew he wasn’t being completely
+frank. He probably reached the pedals, but with difficulty.</p>
+
+<p>“Tell you what you do,” I said. “I’ll get you another flight and
+tomorrow when you go up I want you to put a pad—<i>two</i> pads—behind
+your back. This will bring you forward and closer to the
+rudder bars.”</p>
+
+<p>Next day the student flew with two pads behind his back. From
+then on the precision landing was a cinch. It was that simple,
+after over two hundred hours of apparently indifferent instruction.
+The flying board reversed its decision and he went on to
+fight in the Pacific. I don’t know what happened to him.</p>
+
+<p>The best way to learn anything thoroughly, I believe, is to
+teach the subject to others. This is no new thought: college professors
+and scientists have known it for centuries. With each
+new student you begin all over, retracing the same fundamental
+course, each time exposed to a fresh, inquiring, and often challenging
+mind, and sometimes superlative ability. During my
+eighteen months at Corpus I logged 1,400 hours of single-engine
+time. Thus in one sense I learned to fly a thousand times, repeating
+the same familiar steps over and over and over, but each time
+adding a little knowledge and polish.</p>
+
+<p>I think that this single tour of duty, more than anything else,
+honed my flying to a point of near-perfection.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_99">[Pg 99]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_10">CHAPTER 10 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 10</span> <i>No Penalty for Being Late</i>
+ </h2>
+</div>
+
+
+<p class="noindent">The last fourteen months of my active Navy service amounted
+to a determined but futile endeavor to get to war. This crazy-quilt
+travelogue took me from Corpus Christi to Jacksonville,
+Florida, back across the country to San Diego, to Seattle, to
+Klamath Falls, to Seattle, to Pasco, to Arlington, to Seattle, to
+Hawaii, to Philadelphia, to Norfolk, and back again to Seattle.
+Along the way, intense operational training improved and
+broadened my flying considerably.</p>
+
+<p>The rat race began in September, 1944, when at last I was
+sprung from my duties as instructor in gunnery and bombing
+at Corpus and issued orders to the fleet. I was told to report to
+the Naval Air Training Center in Jacksonville, Florida, for a
+brief operational transition course. Alice and I packed our
+worldly belongings in our 1940 Mercury and set out. When I
+reached the new base and checked in, I was again forced to
+acknowledge that the Navy was not run for my express benefit.
+I had drawn an assignment to dive bombers.</p>
+
+<p>To a fighter pilot, being a fighter pilot is very important.
+Fighters are the <i>avant garde</i>, the lancers, the agile fencing foils
+of the fleet, the spearhead of offense and defense in any pitched
+<span class="pagenum" id="Page_100">[Pg 100]</span>air-and-sea battle. The forte of the fighter pilot is individuality,
+perhaps erroneously, but nevertheless romantically, inspired by
+two wars. I had connived to be assigned to fighters when I was
+a cadet at Corpus Christi. With mixed feelings of adherence to
+duty and instructions, I decided to try again to bend the course
+of events more to my inclinations. If I didn’t try, I thought as a
+salve to my feelings, what a waste of two years of intensive
+training!</p>
+
+<p>“Can’t I get fighter orders?” I asked the officer at the desk.</p>
+
+<p>“We don’t have any fighter-plane orders,” he said.</p>
+
+<p>“Well, in that case, consider me on leave.” I had about twenty-two
+days coming, as I had foregone leave since I was commissioned.
+My thought was to postpone my reporting date until
+some fighter orders came in. Alice and I rented a cottage on
+Jacksonville Beach. Each day for three weeks I drove eighty
+miles to the Naval Base to see whether any fighter orders had
+arrived.</p>
+
+<p>During this time—it was October 20, 1944, to be precise, and
+I don’t know why I remember the specific date because I remember
+few others—a hurricane struck the beach where we
+were living. This incredible unleashing of nature’s power was
+without doubt the most impressive thing I have ever seen in my
+life. The pounding sea ripped up the concrete seawall and stove
+in cottages. It swept over automobiles, including ours. I tried to
+save it, and others besides, feverishly working on the drowned-out
+engines while the wind-driven rain pelted me like BB shot.
+It was useless. I pushed the Mercury against a fence which I
+hoped would prevent the car from drifting out to sea. Then
+Alice and I caught the last Coast Guard rescue truck, which
+took us to a brick schoolhouse in an emergency housing area
+for the displaced people. Before that storm hit us I never
+quite realized the awesome force the earth has cached in its
+storehouses. When this model of perfection goes awry it is a sight
+to behold. Against this force man’s efforts seem feeble indeed.</p>
+
+<p>Against the U.&nbsp;S. Navy this man’s efforts were feeble, too. I
+was assigned to dive bombers, along with eleven other instructors
+from Corpus. Our instructor was a Marine and a wonderful aviator.
+<span class="pagenum" id="Page_101">[Pg 101]</span>He greeted us thus: “Boys, bombing is my business. If any of
+you want to put a little money on the bombing competition,
+I’ll be glad to match it.” Without telling him we had been bombing
+instructors too, we all laid bets. Dive bombing turned out
+to be far easier than the glide bombing we were doing in Texas
+every day for eighteen months. We won in a walk. The result
+was really to our benefit. In the strange way that a competent
+pilot shows his respect for other competent pilots, our instructor
+worked us night and day with no quarter, and gave us, rather
+than a transition, a post-graduate course in the finer points of
+dive-bombing tactics.</p>
+
+<p>As a result of my desire to be a fighter pilot, I found my
+rear-seat man an annoyance through no fault of his own. To
+this day I find it hard to justify a flight crew of more than one
+in almost any airplane. The additional crew encumbers the
+pilot and compromises the performance of the airplane with
+added weight and duplication. Most of the new rear-seat men
+remembered all the horror stories they heard in training school
+about target fixation on a dive. So whether the pilot liked it or
+not, the men insisted on calling out the altitudes during the
+dive. The only cure for this was for the pilot to recover at such
+high G that the rear-seat man blacked out. Sooner or later
+he’d get the point. But my man stumped me. He never gave
+up. Once I dived almost into the ground and pulled out viciously.
+On the way down the rear-seat man called the altitudes: “10,000
+... 5,000 ... 2,000 ... 1,500 ... 1,200 ... 1,000 ... 800....”
+And from there on I was blacked out. Coming to in the climb,
+I could almost hear him shaking off the blackout, foggily picking
+up where he left off, calling altitude as we <i>climbed</i>. I gave up.</p>
+
+<p>A few weeks later came the last straw. Sometimes on our
+flights we carried aloft a three-pound bag of powdered gilt-paint
+pigment. If the usual floating targets were engaged by other
+flights, we tossed the bag of paint out of the cockpit. When it
+splashed into the ocean, it spread out and made a good substitute
+target. I handed my rear-seat man the paint bag and told him to
+drop it if and when I so instructed.</p>
+
+<p>It was an unforgettable take-off. By regulation we kept the
+<span class="pagenum" id="Page_102">[Pg 102]</span>greenhouse canopy open, and the cockpit was always very windy.
+About midway down the runway my rear-seat man got curious
+and opened the bag. Then he dropped it. The bag burst. The
+rushing wind caught the powdered paint and swirled it through
+the cockpit—a regular blizzard of gold. I was almost blinded. The
+gold flecks coated everything, including our faces and hands,
+sticking to the oil film that usually covered us on those flights.
+I cleared my eyes somehow and landed. The cockpit, the instruments,
+everything—and both of us—were beautifully gold-plated
+El Dorados. Weeks went by before I got all the flecks out of my
+hair. Incidents like this strengthened my desire for the lonesome
+fighter cockpit.</p>
+
+<p>Fate intervened favorably. After a couple of months, I was
+ordered to report to San Diego for fleet orders—without my rear-seat
+man. I packed the car again and we set off cross-country.
+Alice was about two months pregnant.</p>
+
+<p>We were leaving Shreveport the next morning when suddenly
+I recalled all the stories I had heard at Corpus about the bigness
+of the State of Texas. “I’m going to cross Texas the long way in
+one day,” I said to Alice. It was 986 miles to El Paso. We made
+it, but the cost was high. A little further along, in New Mexico,
+Alice had a miscarriage.</p>
+
+<p>My orders required me to report in “on or before” a certain
+day that January of 1945. Time was short. If I took Alice to a
+hospital I would have to leave her there alone in New Mexico,
+an unthinkable desertion. But I knew the long drive remaining
+would be dangerous for her. Trying to make the best of an
+impossible situation, we decided to push on as rapidly as possible
+to leave Alice in the care of my sister, Elena Ruth, who lived
+near Los Angeles.</p>
+
+<p>I drove on swiftly, without sleep, completing the cross-country
+drive from Jacksonville to Los Angeles in eighty-eight hours.
+When we reached my sister’s house, Alice was very ill. She
+almost died. It was a sobering lesson for a young man. I made
+up my mind then that no matter what challenge loomed in my
+life I would never tackle it at the risk of involving her or
+anyone else. I would go it alone—all the way. From that time
+<span class="pagenum" id="Page_103">[Pg 103]</span>on, Alice, with my encouragement, drew a protective cocoon
+around her life. She never inquired about what new Mount
+Everest I might be scaling, and in fact until she read this book
+she had little idea of the flying at Edwards. I’ve pointedly ignored
+it, both with her and the children. I’ve lived in two different
+worlds: in hers with our family, and in the world of my other
+love, aviation. This separation is a boon. It removes the insidious
+and encumbering influence of expressed day-to-day concern so
+common in the lives of pilots. And to some degree—to a great
+degree, I hope—it has spared her the anguish of waiting for the
+telephone call so many of her friends have received when their
+men bought the farm.</p>
+
+<p>When I was certain Alice was in good hands, I raced on to
+San Diego, reporting in twenty minutes before the deadline.</p>
+
+<p>Good news was waiting for me at the end of that mad
+journey. When I got there, the last man to report, some of the
+other pilots had been assigned to dive bombers, torpedo planes,
+and so on. But at the very last minute a request came through
+for a few fighter pilots for Air Group 37, based in the Seattle
+area, of all places. I snatched up the orders and hurried north
+to Seattle, then to Klamath Falls, Oregon. As soon as she was
+well, Alice joined me.</p>
+
+<p>We had time to visit with her family and to spend a few
+days on the farm in Boistfort Valley. I found my father and
+mother—like most farmers during the war—short-handed but more
+prosperous. My father’s research and diligence were bringing
+handsome returns. He was laying plans to build a modern barn
+with an automatic milking line, and to buy new power tools
+and tractors.</p>
+
+<p>He was reconciled to my chosen profession by then, but he
+openly urged me to do more. “A pilot,” he said, “is nothing more
+than a glorified chauffeur. Use your skill and talent in flying as
+a tool to help accomplish something lasting and significant for
+mankind.”</p>
+
+<p>From Air Group 37 at Klamath Falls I was re-assigned to Air
+Group 51 at Seattle. We recommissioned that famed squadron
+and moved to Pasco, Washington. Air Group 51 prepared for
+<span class="pagenum" id="Page_104">[Pg 104]</span>war. We flew morning, noon, and night. Our skipper, Commander
+William Lamb, an Annapolis graduate, was one of the ablest
+men I have ever met. He rated others strictly by performance.
+Although I was a senior lieutenant, with many more flying
+hours than most of the pilots, I flew last man Charlie until I
+proved to him in the air that I knew what I was about. After
+that he assigned me to command a division. All Naval officers
+must assume a collateral duty, and as I had been with every
+squadron, I was assigned as an Engineering Officer. When we
+changed a wing, or conducted a major overhaul of an airplane,
+it was my job to take the plane into the air for the first test
+hop, to make sure it had been put back together properly. This
+was not flight-test work in its purest sense, but as close as I
+could come. I took keen satisfaction in squeezing longer life
+from some of those tired old birds and tried to keep them in
+near-perfect mechanical order, just as I did my automobile.</p>
+
+<p>One man I especially admired in that outfit was a boot ensign
+named Smith. He was a natural hunter like Sergeant York, or
+Gabreski, or Chuck Yeager. No matter how hard I tried—and
+I went full-bore—he could always top my score in aerial gunnery.
+He was eventually transferred to another outfit, but of all the
+men I knew in the Navy this Ensign Smith stands out in my
+memory like a sore thumb—or an unscaled Mount Everest. I don’t
+know what ever happened to him.</p>
+
+<p>We were scheduled to ship out on the aircraft carrier Cabot,
+but she broke a shaft, so our Group sailed to Hawaii, planeless,
+on an LSV that burned out a bearing and so proceeded at a top
+speed of six knots. It was one of the longest voyages of the war,
+I’m sure. The ship was crowded with aviators and soldiers. I
+remember it as one long Acey-Deucy tournament, which in the
+end I lucked out and won (the pot was $28.00). In Hawaii we
+were assigned to the aircraft carrier Langley and given brand-new,
+400-mile-an-hour F6F airplanes.</p>
+
+<p>And that was as close as I came to the war. In Hawaii we
+moved down to the island of Maui and for several months
+trained with the Second Marine Division, preparing for the invasion
+of Japan. The training was quite realistic, with live
+<span class="pagenum" id="Page_105">[Pg 105]</span>ammo and bombs. We were assigned a specific landing point
+on the coast of Japan, and on Maui we practiced our invasion
+role on terrain similar to it. Then the scientists unlocked the
+power of the atom and ended the war. We boarded the Langley,
+lashed down our planes, and steamed to Philadelphia via the
+Panama Canal. We based in Philadelphia for a few weeks at
+Mustin Field. From there we moved to Norfolk for decommissioning.
+Alice had been waiting on the farm ever since I shipped
+off to Hawaii.</p>
+
+<p>For a while I considered remaining in the Navy after the
+war. It had many appeals for me. I met some of the finest men
+in my life in the Navy. It was a good life if you approached it
+from the right point of view in the right frame of mind. It was
+an opportunity to do my country a service in my chosen endeavor.
+The Naval Air Test Center at Patuxent River, Maryland,
+where new Navy planes are flight-tested, had just opened up, and
+I thought of applying for a test pilot’s job there. In fact I talked to
+Commander Lamb about it at length. He gave me little encouragement
+to buck the Academy men and those with technical training
+with my “trade school” background. I decided then to return
+to college for a sound engineering education. I was well grounded
+in aviation, but too many people, such as Commander Lamb,
+clearly held an advantage over me. If I had known then that
+the Navy would send many of its officers to college after the
+war to obtain engineering degrees, I might have stayed on and
+thus avoided the tight financial squeeze that soon followed.</p>
+
+<p>A lunatic episode, the maddest race of all, climaxed my Navy
+career. I’m not certain how it began. I think that the separating
+officer at Norfolk resented reservists who were deserting the
+Navy. “Okay,” he said, “we’ll separate you in Seattle, the point
+closest to your home, and fast, too. You’re due at the separation
+center there not ‘on or about’ but ‘on or before’ five days from
+now. You’ll have no transportation priority.”</p>
+
+<p>“But how do you expect me to get to Seattle in five days with
+no priority?” I asked. It was November 1, 1945, and the entire
+transportation system of the nation was staggering under the
+load of returning servicemen. Without a priority commercial
+<span class="pagenum" id="Page_106">[Pg 106]</span>airlines were out of the question. All military airplanes were
+jammed. Trains were packing people in like sardines and running
+days behind schedule.</p>
+
+<p>“That’s your problem,” the officer said. He handed me my
+orders.</p>
+
+<p>This return trip to Seattle suddenly and curiously emerged
+as a great game. I don’t know why. I guess it was because the
+officer implied that I could never make it. <i>All right, I thought, if
+that’s the way it is, that’s the way it is. And I’m not about to
+report in late for the first time in my Naval career and spoil a
+perfect record.</i> I packed a few clean clothes in a suitcase, sealed
+and shipped my foot-lockers (which arrived months later), and
+set off.</p>
+
+<p>From beginning to end the trip was insane. I left Norfolk on
+a train, standing in the aisle. We chugged north for a thousand
+years and then south for another thousand, then east, I think it
+was, and finally arrived in Washington, D.&nbsp;C., which is about
+a hundred miles from Norfolk—fourteen minutes by fighter plane.
+I made up my mind right then that I would get back on a train
+only as a last resort, after trying a mule. Incidentally, I still feel
+that way about trains. I checked in at Military Operations in
+Washington and by great luck got a hop almost immediately to
+Olathe, Kansas. I waited patiently there for a ride farther west,
+or north, or northwest, but the few planes that came through
+were jammed with priority passengers. The time was ticking by
+rapidly.</p>
+
+<p>When I heard that I might have better luck in Chicago, I
+wormed my way on board a military plane going there. In
+Chicago I felt richer: I was now far ahead of the train. I could
+have boarded a train in Chicago that day and made it to
+Seattle with ease. But the thought of that prolonged trip was
+enough to make me gamble. Heavier air traffic was moving
+across the South so I jumped on another military airplane and
+wound up in Fort Worth, Texas. This move put me <i>behind</i> the
+train schedule. I had to make it by air, or else....</p>
+
+<p>In Fort Worth I waited. Without a priority it seemed hopeless.
+But luck is where you find it. I discovered very late that
+<span class="pagenum" id="Page_107">[Pg 107]</span>night that the Naval officer dispatching people on the airplanes
+was an old student of mine from Corpus Christi days. As a favor
+to a buddy, he stamped my orders with the lowest possible
+priority. Still it <i>was</i> a priority and it moved me ahead of about
+a hundred people in the line. Hurrying now, for I was far behind
+the train schedule, I scrambled aboard a plane heading for
+Oakland, California, with an intermediate stop in Phoenix, Arizona.
+If I didn’t get bumped in Phoenix, I knew I had it made.</p>
+
+<p>I got bumped in Phoenix. I then had less than twenty-four
+hours to make it to Seattle.</p>
+
+<p>I paced the floor of the waiting room. The clock ticked on.
+Then a minor miracle happened. Completely unexpected, an
+airplane came through Phoenix headed for San Francisco. It
+was an old R4&#x2060;-D, converted to a hospital plane, manned by a
+flight crew and a staff of male and female nurses, flying back and
+forth between the East and West coasts, hauling the wounded
+to hospitals in the East and caring for them along the way.
+They were returning for more. I have never seen people so dead
+tired. I don’t think any of them had slept in a bed for a month.
+Yet they immediately turned their thoughts to my comfort. They
+gave me a sleeping bag, some hot coffee, and a ride to San
+Francisco. This little touch of humanity made me feel like a
+new man. Moreover, this hop to the Coast made up much lost
+time and put me ahead of the train again.</p>
+
+<p>In San Francisco I boarded an Air Force plane bound for
+Seattle. As fate would have it, just then some luckless pilot drove
+an airplane into a mountain nearby. The plane I was on was
+diverted from its destination to help in the search for survivors.
+They dropped me off at the end of the world—Medford, Oregon.
+I might have made it to Seattle by train yet—a ten-hour trip—but
+having come that close, I refused to give up, although I was
+getting pretty tired at this point and was badly in need of a bath
+and clean clothes.</p>
+
+<p>The next morning I met an Air Force colonel who had flown
+down to Medford in a B&#x2060;-17 bringing a ground rescue crew. At
+that moment he was debating with himself whether to return in
+heavy weather to his base at McChord Field, Tacoma, about
+<span class="pagenum" id="Page_108">[Pg 108]</span>thirty miles south of Seattle. I got into the debate, urging that
+the weather wasn’t so bad and that he return to McChord with
+me as his passenger. At about three in the afternoon we took
+off into a raging snowstorm. I sat shivering in the plexiglass nose
+turret.</p>
+
+<p>When we got to Tacoma about dusk the snowstorm was still
+in full fury. I think the Colonel would have sought another field
+then—probably <i>any</i> pilot would have—except for the expression
+on my face which plainly said: “It doesn’t look so bad to me.”
+Coming from a Naval aviator, it was a challenge to this Air
+Force type, perhaps. He lowered the gear and we threaded
+our way up the river through the storm groping—and I do mean
+groping—for McChord Field. It was dark and snowing hard
+when we landed. The runway lights were on, the tower was
+manned, but otherwise there was not a soul to be seen. No
+jeep came out to the plane; hell, the weather was too lousy.</p>
+
+<p>My clock was running out. Without so much as a “thank you”
+to the Colonel, I plowed through the deep snow to a road where
+I hitched a ride in a truck that happened along. The truck
+dropped me at the base gate. I then moved out onto the main
+highway and thumbed a ride—I believe it took two rides—to
+Seattle. I arrived at the Processing Center at eleven o’clock that
+night, one hour before my deadline, November 6, 1945.</p>
+
+<p>I have recounted these last days and hours of my active
+Naval service in some detail for special reasons. For one thing,
+the recollection of that trip has always astonished and amused
+me, especially the way those Florence Nightingales just happened
+along in Phoenix in the hospital plane and took pity on a
+forlorn traveler engaged in a restless, disjointed journey, a crazy
+race against time. That was the dénouement of the trip; that
+hop really let me win. And to those people, whose names I
+cannot recall, I shall be forever grateful. Another thing: I think
+this screwball tale tells a lot about the workings of the feeble
+clot of gray matter which I call my mind.</p>
+
+<p>I should close this account by adding the significant fact that
+there would have been no penalty whatsoever if I had arrived
+late. Even a couple or three days late.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_109">[Pg 109]</span></p>
+
+
+
+<p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_11">CHAPTER 11 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 11</span> <i>How Dark the Clouds</i>
+ </h2>
+</div>
+
+
+<p class="noindent">During my four years at the University of Washington in
+Seattle after World War II, I kept strong ties with Naval
+aviation. In early 1946 I helped organize a reserve squadron,
+VF&#x2060;-74, a group of mature “Weekend Warriors.” The pilots were
+experienced aviators, mostly married men and veterans of the
+war. Under Navy supervision we trained hard to achieve a high
+degree of readiness, prepared for instant mobilization in the
+event the nation went to war again. We flew drills two days a
+month and spent two weeks on active Navy duty every year. Our
+squadron was consistently among the leaders in Naval reserve
+gunnery scores, but we could never claim a trophy because our
+maverick pilots were indifferent to paperwork. For me personally,
+my tour with this hard-flying outfit provided not only the
+most rewarding moments in the air but also in one instance
+the most humiliating.</p>
+
+<p>The rewarding moments came during the months and months
+of weekend flights around Seattle. Our squadron was furnished
+a mixed bag of F6F and F4U Corsair airplanes, leftovers from
+World War II requiring constant maintenance. After the Navy
+demobilized, funds were scarce for reserve squadrons and thus
+<span class="pagenum" id="Page_110">[Pg 110]</span>our operations were run on a tight-fisted basis. One result was
+that we pilots could not shift around, checking out in different
+airplanes. I was an F6F pilot, restricted to that type of airplane.
+This annoyed me. The Corsair was considered something of a
+flying challenge, a fairly unstable plane, quick to stall and
+difficult to recover from a spin, but none the less a superior
+gun platform. I longed to master that beast and at the same time
+possibly improve my gunnery score.</p>
+
+<p>One day while I was waiting in the operations office for my
+airplane assignment, the officer detailing the airplanes piped up:
+“Hey, I need a Corsair pilot.” It happened that at that moment
+there were none around.</p>
+
+<p>“Put me down,” I called. I had been waiting for just such a
+chance. It never occurred to this officer to ask me if I were
+checked out in the plane. He neatly printed “Crossfield” on the
+blackboard in a space alongside the number of the airplane.</p>
+
+<p>In a way, airplanes are like women, that is to say impossible
+to understand fully, and often ticklish to handle. It takes a little
+time to get to know them, to find out how and to what they respond.
+Some must be manipulated by fingertips, with infinite
+finesse, others must be pushed around like trucks. Some forgive
+the pilot’s sins; some don’t. The Corsair was very nearly inscrutable.
+She was hard to figure, slightly forgiving, and she
+required a great deal of attention.</p>
+
+<p>I found this out under extraordinary circumstances. Soon after
+my name appeared on the board, I took off with five other
+planes. The flight had moved out so quickly I had time only
+to glance briefly at the airplane handbook in the cockpit. The
+flight leader was in a frisky mood. When we reached altitude he
+whipped the formation into the damnedest tail chase I have ever
+been in. I found myself in that totally strange airplane doing
+Cuban Eights, loops, barrel rolls, chandelles, and the Lord knows
+what else. Only a pilot can fully appreciate this situation, I suppose.
+Locked in that crazy ride, with one plane twenty feet
+ahead of me and another twenty feet behind, I really sweated. I
+thought to myself: “You damned fool. How’d you ever get
+<span class="pagenum" id="Page_111">[Pg 111]</span>into this?” But I wasn’t about to pull out, to admit that I couldn’t
+hack it.</p>
+
+<p>The Crossfield luck rode with me that day. I sinned, but the
+Corsair was in a forgiving mood. There was no mid-air collision.
+The whole flight came down alive and landed. From that point
+on I was a Corsair man and glad of it. My gunnery score improved.
+Much later someone noticed that my paperwork was not
+in order for that plane. But it was too late then and the fact
+was overlooked. The outfit was an action squadron.</p>
+
+<p>Our squadron skipper was Commander William Flateboe, a
+married man a little older than I, twenty-nine or so. We had
+served together at Corpus as instructors. When he was an ensign
+at Corpus, Flateboe was one of the wildest flat-hatters in
+Texas, a champion windmiller. When we organized the Reserve
+squadron, he was as conservative in the air as an airline pilot.
+But as the weeks and months dragged on, both he and I became
+restless and bored in the air and a second stage of infantile flat-hatting
+set in. I think I must have logged fifty hours flying below
+the rim of the Columbia River gorge.</p>
+
+<p>In the midst of this flat-hatting renaissance, the thought struck
+me that we ought to legalize our flat-hatting. Thus was born the
+13th Naval District Stunt Team, which in time became one of the
+best aerial stunt teams in the country, and we felt, of course, that
+it was <i>the</i> best. There were four of us on the team: Flateboe, the
+“slot” man, Lou Colvin, a wingman, and an ensign named Bill
+Helsell, my usual wingman; I was the leader. The really remarkable
+fact about this stunt team was that we performed our
+precision formations in the supposedly dangerous Corsair.</p>
+
+<p>Helsell was a fabulous aviator, one of the few men I have
+known whom I completely trusted in the air. He was low on
+total flying hours, and from a technical standpoint he knew and
+cared little or nothing about airplanes, but he was a rare natural
+pilot.</p>
+
+<p>I first met him in a University car pool. He was the son of
+a Seattle lawyer. He studied engineering at Yale, achieving a
+straight A record; then he switched to law at the University of
+Washington, graduating cum laude. He was a dour-faced lad,
+<span class="pagenum" id="Page_112">[Pg 112]</span>outwardly a cynic and cold as ice. But that was a mask; he displayed
+many a kindness but feigned annoyance at the necessity.</p>
+
+<p>Formation stunt flying, to my mind, is the quintessence of
+precision, and beyond any doubt it requires much skill and intense
+concentration. All four planes, tucked in as tight as we
+could get them without scraping paint, flew through the air as
+though locked together by invisible steel bars. As the leader,
+I guided the team. The other three planes flew “on me,” adjusting
+speed in minute increments, always keeping their eyes fixed
+on my plane. If I looped, they looped in unison. If I rolled, they
+rolled in unison. If I pulled a Cuban Eight, they pulled Cuban
+Eights in unison. Had I flown straight into the ground, they
+would have flown straight in with me in unison.</p>
+
+<p>I set a hard pace. Striving for perfection and developing a
+flair for showmanship, which is the ultimate goal of most stunt
+teams, we worked at our drills at altitude. When we flew them
+cold, we performed right on the deck, a wingspan above the
+ground. We were soon very much in demand for various events.
+We felt that even in our aging Corsairs we could show the Regular
+Navy Blue Angels in their Bearcats a thing or two.</p>
+
+<p>The original team did not last long. Flateboe was the first
+to go. Something had been eating away at him. One weekend
+evening while working at the base on some papers, he got up
+and said: “To hell with it.” He jumped in an airplane and set a
+course to rendezvous with one of the squadron flights on a training
+exercise out over the Strait of Juan de Fuca. Flateboe overhauled
+the flight at great speed and wound his plane into a
+gigantic barrel-roll around the formation. That was the last
+anyone ever saw of him. He evidently dived straight into the
+water. Later Colvin dropped out, leaving Helsell and me to
+carry on.</p>
+
+<p>A subtle shift in emphasis then took place. Showmanship became
+secondary, the spectators unimportant. The stunt team
+changed into a delightful, though perhaps dangerous, aerial
+contest between two very competitive pilots. All attempts to
+make Helsell cry “uncle” failed. This contest reached its peak
+<span class="pagenum" id="Page_113">[Pg 113]</span>one day in Astoria, Oregon. I pulled out of a giant loop not more
+than twenty feet above the ground, screaming across the airport
+at 350 miles an hour. A tower, part of an adjoining skeet range,
+loomed in our path, dead ahead. I bore on, casually lifting my
+wing to clear the tower in the last second. Locked in beside me,
+Helsell skillfully followed my maneuver, never once batting an
+eyelash.</p>
+
+<p>“<i>That</i> ought to scare you,” I radioed.</p>
+
+<p>“You’ll have to do better than that, Dad,” Helsell replied.</p>
+
+<p>There was a professional stunt team, a barnstorming outfit
+complete with wing-walkers and a delayed-parachute performer,
+giving a show on the same field that day. After we landed, the
+leader of this team came up to me and said: “Hey, fellow. Do
+us a favor, will you? Will you please stay away from the fields
+where we’re working? You’ll put us out of business.”</p>
+
+<p>I considered that one of the finest compliments ever paid us,
+but the man had no cause for worry. Helsell and I soon put
+ourselves out of business. One day during a regatta on Lake
+Washington, I led Helsell through a low-altitude formation roll
+over a crowd watching the crew races. Such a maneuver was
+routine to us then (we had logged five hundred hours of precision-stunt-flying),
+although by CAA regulations illegal. Probably
+a hundred amateur movie cameras caught the act. The
+13th Naval District received a mass complaint shortly afterwards
+and restricted us to an altitude minimum of 1,000 feet.</p>
+
+<p>“Hell,” I said, “at 1,000 feet it’s no fun.”</p>
+
+<p>“I know,” the Old Man said, “but that’s an order.” He abruptly
+ended the conversation. And with that the stunt team folded.</p>
+
+<p>Working with that team, working that fine artistry in Corsairs,
+was one of the most rewarding periods in the air I have ever
+experienced. Every second of each maneuver was a supreme
+satisfaction, a delight akin to playing fine music.</p>
+
+<p>With me the bad always comes with the good. The most
+humiliating experience I had in an airplane occurred during a
+routine drill with VF&#x2060;-74. The fact that I was a party to this fiasco
+has stuck like a lance in my side ever since. It seemed impossible
+that our fine outfit could pull such a blooper. It began one day
+<span class="pagenum" id="Page_114">[Pg 114]</span>while we were on two weeks’ active duty, flying out of Sand
+Point.</p>
+
+<p>It seems that the Naval Reserve unit in land-locked Denver,
+Colorado, was having difficulty in stirring up public interest and
+getting recruits. Someone conceived a grandiose plan: our whole
+air group, including VF&#x2060;-74, some twenty-five fighters and fifteen
+torpedo planes, would fly to Denver en masse and land amid
+contrived hoopla and press coverage. As a good-will gesture and
+public relations stunt, we would bring along an ice-packed
+salmon caught that same day in Puget Sound and present it to
+the mayor of Denver. Afterwards there would be a big official
+dinner party, more hoopla, and finally a gay time for us on the
+town, we hoped. We packed our smartest uniforms and took off.</p>
+
+<p>Disaster struck the torpedo planes flying in separate formation.
+Caught in a bad storm, they were forced to land on a field in
+Helena, Montana, in a stiff ninety-degree crosswind. The long
+crosswind taxi of these cumbersome birds burned out the downwind
+brakes on several of the planes. With no brakes the planes
+were finished, grounded. The salmon, a key item in the good-will
+gesture, was on board one of the torpedo planes. It never left
+Helena.</p>
+
+<p>The remaining airplanes, our twenty-five fighters, first ran into
+trouble at Ogden, Utah, when we landed to refuel. Fifteen of us
+took off without difficulty, but the engine of the sixteenth plane
+conked out on the narrow taxiway, blocking the remaining nine
+planes. They could not get into the air until the disabled plane
+was towed out of the way. The fifteen of us waited at altitude
+for a quarter of an hour, then radioed that we were pushing on
+alone. After all, there was a huge reception gathering at the
+Denver airport and we couldn’t be late. No, sir.</p>
+
+<p>We were falling behind schedule now and our leader elected
+to bypass the ordinary roundabout air routes and steer a direct
+course for Denver, about four hundred miles away. This
+course led us directly over the Continental Divide and some of
+the most desolate, mountainous country in the world, which from
+15,000 feet had a remarkable sameness about it. I laid out a
+course on a chart but, as was customary in fighters, let the flight
+<span class="pagenum" id="Page_115">[Pg 115]</span>commander do the navigating. He miscalculated a compass
+heading and we drove on, aiming considerably south of Denver,
+all of us thinking he had reasons of his own for this course.</p>
+
+<p>After some time I was convinced that we were steering too
+far to the south. The same feeling overcame the other thirteen
+pilots in our formation. Suddenly the radio was alive with
+chatter and debate. The skipper broke in and said: “If I’m right,
+then in four and a half minutes we’ll pass over Waldron,
+Colorado.” Precisely four and a half minutes later we passed over
+a town on the fork of a river which resembled the plan of
+Waldron on the chart. There was an airfield on the opposite
+bank which seemed to confirm positively the skipper’s navigation.
+However, to make doubly sure, I peeled off and dived into the
+valley to check the name on any available sign. I missed signs
+but spotted a large “W” painted on the mountainside. It was
+Waldron, all right, I thought. The skipper was correct.</p>
+
+<p>Actually we were over Gunnison, Colorado, considerably to
+the south of Waldron. Gunnison, too, is located on the fork of a
+river with an airfield on the opposite bank. The “W” on the
+mountainside had nothing to do with Waldron. It was put there
+by the students of Western State College in Gunnison.</p>
+
+<p>Led astray by this strange set of coincidences, we flew on
+following the skipper, who predicted a second town lying ahead,
+Fort Collins. Twenty seconds later a town passed beneath our
+wings.</p>
+
+<p>“We are now forty miles north of Denver,” the skipper said.
+“Close into parade formation.” We pulled our planes together in
+neat formation, following the highway straight into Denver, or
+so we thought, then about ten minutes away. We flew and flew
+and flew. Fifteen minutes passed, but no sign of Denver, no
+familiar big-city haze, no gradual build-up of traffic on the highway,
+no increase in housing. On the contrary, the countryside
+looked, if anything, more desolate. Helsell, who usually had little
+to say, piped up sourly: “I’m logging a strong Las Vegas, New
+Mexico, beam.” Now we were very concerned. Time was ticking
+away.</p>
+
+<p>Again there was a confused debate on the radio. In the midst
+<span class="pagenum" id="Page_116">[Pg 116]</span>of it we passed over still another small town. I peeled off and
+buzzed it. The Rotary Club sign on the highway at the city
+limits read: “Alamosa.” Alamosa? No one knew where this
+could be. It was off our charts. Nine of our planes, low on fuel,
+pulled out of formation and landed at Alamosa.</p>
+
+<p>I radioed my wingman, Bill Helsell:</p>
+
+<p>“Nuts. I’m going to find Denver. You want to come with me?”
+He did, of course, so we cleared with the skipper and took off
+on our own, fiddling with our radios, trying to pick up a station,
+any station. Thunderstorms all around us gave little but static.</p>
+
+<p>Regretting now that I had not carefully tracked the skipper’s
+navigating, I retraced our course from memory on my plotting
+board. We had indeed come too far south and Denver lay to
+the northeast of us. We flew in that direction. Soon we picked up
+Trinidad radio, which I knew was south of Denver, but still off
+our charts. We homed eastward on Trinidad and then turned
+due north, on course to Denver at last. We picked up Pueblo
+radio beacon as expected. Homing on Pueblo, we flew into a
+very black thunderhead full of rain and lightning. In that weather
+we lost the Pueblo radio signal. Minutes later we relocated ourselves
+by radio. We had passed Pueblo, which was under the
+storm. We couldn’t see the ground.</p>
+
+<p>Long overdue in Denver, the authorities there became concerned
+about us and sounded a disaster alert. They figured we
+had exhausted our fuel. The Navy, the Civil Air Patrol, the Air
+National Guard, and the Lord knows who else, took to the air in
+search of fifteen Navy planes downed somewhere on the Continental
+Divide. The nine fighter planes blocked on the runway
+in Ogden had finally made it, sans fish, to Denver. There was
+great confusion at the airport over whether to wait for the lost
+planes or begin the ceremonies with the nine pilots.</p>
+
+<p>Helsell and I were doing our damnedest—almost. Used to conserving
+fuel, another of our private competitions, we were still
+in the air looking for Denver. Every time we saw a house we
+zoomed down to see if it held a clue. Convinced that Denver
+lay to the northeast, I made one more attempt to find it. We
+<span class="pagenum" id="Page_117">[Pg 117]</span>flew northeast and came up over a ridge right into the face of
+another black line of thunderheads. I began to lose heart. It was
+almost dark, we had only a half-hour’s fuel, the radios yielded
+only static. To plunge into that thunderstorm flying blind, in the
+Rocky Mountains, with the distance to Denver unknown, could
+be idiotic.</p>
+
+<p>“What do you think?” I radioed Helsell.</p>
+
+<p>“Do <i>you</i> think we should turn back?” he answered.</p>
+
+<p>“Yes,” I said.</p>
+
+<p>“So do I.”</p>
+
+<p>And turn back we did, searching for the nearest airfield. At the
+point of turning we were exactly twenty-three miles southwest
+of Denver, or about six minutes by Corsair. The thunderstorm
+line was thin and lying on the last ridge before the midwestern
+plains. Denver was clear as a bell. If we had pressed
+on for six more minutes, we would have landed, salvaging part
+of the day, heroes, pride of the Navy. Instead we were bums.
+We landed on a mountainside field—elevation 9700 feet—in a
+small town called Fairplay, Colorado, and joined the skipper and
+three other pilots who had followed the same course.</p>
+
+<p>When I found how close we had come, I was mortified. The
+next day when we got to Denver, after the Navy sent a gasoline
+truck to refuel us, I was even more mortified. Captain Greber
+flew down from Seattle to chew us out.</p>
+
+<p>“I can understand the torpedo planes grounded in Helena, out
+of commission,” Greber said. “I can understand one plane, or
+maybe two planes, getting lost. By really stretching my imagination
+I can conceive of maybe six planes getting lost together.
+But fifteen airplanes, in largely clear weather on a four-hundred-mile
+flight! An hour-and-a-half hop. It’s beyond belief.”</p>
+
+<p>He was right. It was the most incompetent, unprofessional,
+ridiculous performance I had ever seen in the air, one that I
+could have tempered if I had held to my convictions and not
+quit. Worse was the fact that my decision also made Helsell look
+like a chump.</p>
+
+<p>This brilliant maneuver did little to boost recruiting in
+<span class="pagenum" id="Page_118">[Pg 118]</span>Denver, but it brought VF&#x2060;-74 fame of a different sort in Navy
+circles. For me it was a great personal lesson. Not once since
+then, either on land or in the air, have I ever turned back from
+any course that I set upon, no matter how dark the clouds that
+lay ahead.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_119">[Pg 119]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_12">CHAPTER 12 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 12</span> <i>A Short Man with
+ Santa Claus Eyebrows</i>
+ </h2>
+</div>
+
+
+<p class="noindent">During my four years at the University of Washington, from
+1946 to 1950, the free-thinking, curious, intellectual atmosphere
+was a pleasure and a delight to me. I ate it up. Most of this time
+I held firmly on my course, but there were brief interludes when
+I was buffeted by contrary winds. Once, as I related at the beginning
+of this account, I was ready to chuck it all to fly the Bell
+X&#x2060;-1 rocket plane. On the opposite tack briefly, I seriously entertained
+the idea of remaining at the University as a teacher. For
+a time, at the University, my mind became overly absorbed in
+detail of theoretical analysis. A man named Seeger reversed this
+trend and sent me on my way.</p>
+
+<p>From the outset, my father warned me against becoming an
+academic bum, an all-too-familiar figure on our college campuses.
+“Let’s be a little careful here,” he said. “You don’t have the patience
+to be a pure theoretician. Your inclinations are to see things
+grow out of ideas and theory; you’re interested in things, pieces
+of hardware, that you can feel with your hands, proofs of theory.”</p>
+
+<p>This may have been a calculated taunt; I’m not certain. In any
+<span class="pagenum" id="Page_120">[Pg 120]</span>case, the remark stuck in my craw. It was a clear challenge, and
+it spurred me into a pile-driving effort at the University. Over the
+gentle protests of my academic adviser, I registered for an extraordinarily
+heavy load of classes, with the full knowledge that I had
+mapped out a grueling course of work and study. Since boyhood,
+long hours and hard work were routine for me. Every course of
+my free choice was “engineering,” applications of theory to adapt
+the things of nature to man-made shape.</p>
+
+<p>Alice and I readjusted to an austere budget. My income dropped
+drastically from Navy days, and we drew heavily on our savings
+to bolster the GI Bill income of about $90 a month. We moved
+into a microscopic apartment in a temporary wartime housing
+area. Here in this space, decorated with a few sticks of furniture,
+I studied until one or two every morning while Alice read or
+listened to the radio through some earphones I had rigged.</p>
+
+<p>The earphones didn’t last long. Whenever anything funny was
+said on the radio, Alice would naturally burst out in laughter. This
+was a weird experience—to sit in a small room with somebody who
+laughs periodically for reasons unknown. In time, rather than put
+up with that, we chucked the earphones and I resorted to natural
+powers of concentration.</p>
+
+<p>Our wants were quite modest and we purposely avoided the
+heavy social life of the University campus, but the rising cost of
+living forced me to seek part-time work. Alice, who found that the
+tiny apartment left her with time to kill, returned to the telephone
+company and took a job operating a small switchboard in the
+evenings while I studied. My first part-time financial venture, a
+car-repair business, was a flop. I enjoy working with my hands
+and tinkering with engines. But I made an ill-timed bid to repair
+a fleet of company cars and lost my shirt. After that I took the job
+in the University’s wind tunnel at fifty cents an hour.</p>
+
+<p>From the outset I was completely fascinated by that job. A wind
+tunnel is basic and fundamental. Here airplanes are born and grow
+to perfection. Here the imperfections are discarded—at least, that
+is the final objective. Here a man’s idea in miniature is tested
+against the great forces and laws of nature. Here the airplane
+grows to life, amid a thousand calculations and tests.</p>
+
+<p><span class="pagenum" id="Page_121">[Pg 121]</span></p>
+
+<p>The wind tunnel was for me a happy combination of study,
+theory, model airplanes, wonderful machinery, and work. Not surprisingly,
+we found that a pilot has a natural aptitude for wind-tunnel
+operations. Several other pilots were on the staff.</p>
+
+<p>Our tunnel team, mostly World War II veterans such as Joe
+Tymczyszyn, was a conscientious, energetic group. We devised
+new techniques to increase the efficiency of the tunnel and, as a
+result, set new records for operational speed and data output. The
+work was no schoolboy drill. It cost a company about $1,500 a
+day to use the tunnel. Company engineers were usually on hand
+when we ran the tests, and for us students this contact with the
+men in the industry was invaluable. In time I was promoted to
+Chief Operator of the tunnel and my salary was raised accordingly.</p>
+
+<p>Older and wiser now, I retraced a path through two years of
+basic college engineering. Then I advanced to my major, aeronautical
+engineering. In spite of my heavy academic load and the
+part-time work in the tunnel, I was so much in earnest that I was
+able to make all A’s and B-pluses in my courses, graduating in
+June, 1949, with a bachelor of science degree. I was elected to
+Tau Beta Pi and to Sigma Xi, the honorary scholastic societies for
+science and engineering. My father, a Sigma Xi, was surprised.</p>
+
+<p>Now ready to go on for my master’s degree, I was determined
+not to hang around and be an “academic bum,” as my father so
+tersely put it. I’d allow one school year, three quarters, not recommended,
+but I felt it necessary to set a limit rather than mark time
+waiting for an end point to appear. This may have been a mistake;
+my responsibilities were growing. Our oldest daughter, Becky, was
+a year old. Alice had left her job before Becky was born. After a
+few months the hard pace began to tell. I was wearing down—but
+too stubborn to admit it. My father got wind of this and stepped
+in. After elaborate subterfuge to avoid “helping” me, he lent me
+money that made it possible for me to give up all part-time work
+and concentrate exclusively on my studies. I was very grateful
+and studied all the harder. The loan meant that I could complete
+my course in three quarters, as planned.</p>
+
+<p>The University of Washington graduate course in aeronautical
+<span class="pagenum" id="Page_122">[Pg 122]</span>engineering is considered one of the best in the country. I found
+it lacking in one important respect. I felt that too much emphasis
+was placed on theory and philosophy and not enough emphasis
+strictly on engineering.</p>
+
+<p>My father was absolutely right in this respect: I am no theoretician.
+I deal best with application of ideas, not theories. Since,
+under my concept of it, I was working for a master’s degree in
+engineering, not theory or scientific philosophy, I became impatient
+with the long hours of theoretical work, the hypothetical
+cases which required abstract analysis and had no example in
+nature. I longed to deal with specific problems against which I
+could apply natural physics and come up with a physical solution.
+My approach brought me into frequent and sometimes stiff
+conflict with the graduate-school professors, most of whom were
+theorists at heart, like my father.</p>
+
+<p>The time came to submit my thesis. Nowadays, regrettably,
+theses are not required for master’s degrees at most schools. According
+to the concept, I was supposed to make a “new contribution
+to the art or science of aviation.” Most of my fellow students
+presented theses which contained some elaborate mathematical
+analysis. I tried something different. My thesis was “A Semi-Empirical
+Method of Obtaining Static and Dynamic Aerodynamic
+Parameters of Swept-Back Wings Analyzed on a Basis of Plan
+Form.” It was, if you please, a new and simplified method of
+predicting aerodynamic characteristics. It could be done with a
+slide-rule in a matter of minutes in place of hundreds of hours of
+computing-machine time. It was a tool to be used to attain adequate
+accuracy but replace the laborious rigid mathematical methods
+which were guesses anyway. It was influenced by my work in
+the wind tunnel and was, I think, a profitable blending of theory
+and practical application, the essence of engineering.</p>
+
+<p>This thesis stirred up tremendous consternation among some of
+the professors. One problem was that it wasn’t long enough, or
+didn’t weigh enough, for a master’s thesis. My wish was that I
+could have cut it to one page. Their position was certainly understandable.
+I hoped that mine was. The paper was accepted, probably
+by default. The faculty, who were all respected friends,
+<span class="pagenum" id="Page_123">[Pg 123]</span>agreed to let me disagree and certainly were not of a nature to
+flunk me for disagreeing.</p>
+
+<hr class="tb">
+
+<p>I think Alice has a slight touch of claustrophobia. She soon tired
+of the four walls of our small apartment and set out house-hunting
+around Seattle. One day she came home bubbling with news of
+a two-bedroom house in Clyde Hill, a section of Bellevue which
+almost fit our budget. The house was really charming, set in the
+middle of a small cherry orchard on a hillside. We splurged and
+moved in.</p>
+
+<p>The house was owned by an amazing character named Oscar
+Seeger, who lived on an adjoining tract of land. Seeger, a short
+man with Santa Claus eyebrows, was one of the most direct and
+dynamic men I have ever met. One night when he visited us,
+Alice suggested our house might be improved by installing a
+counter between the dining ell and the kitchen. Without a moment’s
+delay Seeger found a saw and ripped out an eight-foot
+section of the wall. The finished job was not thorough, but neither
+was it unsightly. I was somewhat stunned by his speed and skill.</p>
+
+<p>Seeger was the president of a small electrical contracting
+company. During World War II he tentatively branched into the
+manufacture of small aircraft accessories for Boeing—wash basins,
+seat arms, tables, and the like. When he discovered that Alice and
+I were scraping bottom financially, he arrived at the house one
+day with his company’s billing lists and asked if I would type and
+mail them out. (I had learned to hunt and peck on my father’s
+1910 Corona portable.) For a time this billing was a regular
+monthly job. It helped Alice and me considerably. Later when
+Seeger had to submit formal blueprints on some job, I drew them
+for him on my drafting board set up in the bedroom. And after
+that we became very close friends.</p>
+
+<p>One day Seeger made me a business proposition. The airlines,
+he said, were asking for bids on 20,000 aircraft tables. Seeger located
+some surplus aluminum material which he thought he could
+get for a low price. If I designed the table, he said, and drew
+up the specifications, he would take care of the manufacturing.
+We would split the profits on a percentage basis which, the way
+<span class="pagenum" id="Page_124">[Pg 124]</span>Seeger presented it, was very generous—too appealing to ignore,
+in fact.</p>
+
+<p>Designing a table is no great feat, but I wanted to do it right
+for Seeger. I made a federal case of it. I set out to design the perfect
+aircraft table. I worked for hours, days, weeks. That damned
+table absorbed me as deeply as my studies at school and the Navy
+stunt team. Seeger became impatient.</p>
+
+<p>“Look, Scotty,” he said. “You’ve got the wrong idea about life.
+You can’t waste your time trying to design the perfect table. The
+important thing to do is design a table that will do the job, win
+the contract, and bring in the money.”</p>
+
+<p>“When I do something, I like to do it right,” I replied. I thought:
+Seeger is not an opportunist, but how different he is from my
+father, the absolute perfectionist.</p>
+
+<p>“We all try to do the best we can, Scotty. But do you realize
+that you could spend the rest of your life trying to design the
+perfect table? Did you ever see a table with four legs precisely the
+same length? The thing to do is give it all you’ve got for a reasonable
+time and then move on to something else. Absolute perfection
+is highly desirable but unattainable.”</p>
+
+<p>Reluctantly I hurried the design of that table. At the last
+minute—just under the wire—we got our bid in to the airlines.
+To my complete astonishment, we won. Seeger’s generous percentage
+brought in a nice piece of change. But more important, perhaps,
+was the total, amazing impact of Seeger. He gave me a new
+perspective on life. I gave up trying to build a table with four legs
+precisely the same length. From then on, I made the decision that
+the important thing was to do a job well, to the best of my ability,
+and move on. Had I not, it is possible that I might still be at the
+University, seeking perfection in my studies, or in the wind
+tunnel, or else energetically at work in some shop, striving to
+build the perfect valve or cotter key. Instead I moved on to
+Edwards.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_125">[Pg 125]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_13">CHAPTER 13 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 13</span> “<i>Barefoot Boy with Cheek</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">It was a sparkly clear spring day in the desert, about eight
+months after I joined NACA at Edwards. When the Air Force
+B&#x2060;-29 mother plane reached 8,000 feet, its pilot, Captain Pete
+Sellers, passed that fact over the intercom. It was a signal to
+me: aft in the bomb-bay compartment, converted to nest the
+X&#x2060;-1 in the bomber’s belly, I climbed on the small elevator—a
+plank with aluminum-tubing guard-rails—hitched up my chute,
+and waved to the launch operator, Eddie Edwards. The elevator
+descended slowly through the bomb-bay, and presently I found
+myself precariously suspended over the wide-open spaces, battered
+by the slipstream. The vast, desolate desert lay in unobscured
+view in all directions.</p>
+
+<p>The X&#x2060;-1 “door” was on the side of the airplane. Thus it could
+not be entered, like the Skyrocket, from the mother plane’s
+bomb-bay compartment. The pilot had to go outside, below the
+mother plane. The elevator, seemingly a crude way to get to the
+X&#x2060;-1, was actually considered plush. In the early stages, back in
+1947, Chuck Yeager had to climb down a ladder into the whipping
+slipstream.</p>
+
+<p>I eased into the cramped X&#x2060;-1 cockpit and waved my hand.
+<span class="pagenum" id="Page_126">[Pg 126]</span>The elevator ascended and presently came down again, bearing
+the X&#x2060;-1 door, which had been placed inside the bomb-bay compartment
+before take-off. I set it in place and dogged the handles
+shut from the inside. In preparation for my first flight in the X&#x2060;-1,
+I had practiced this maneuver several times on the ground.</p>
+
+<p>Actually, that day, the fitting of the door in place was much
+more difficult than I have made it out to be. The reason was that
+I had three broken ribs. This minor calamity had occurred several
+days earlier in the hangar while I was skylarking with the
+mechanics. I had playfully grabbed one by the seat of the pants
+and thrust him through the stockroom window. As his head disappeared
+over the sill, his feet came up and accidentally smacked
+me in the chest, cracking three ribs at once. I had sworn him and
+the others to secrecy. I knew that if Williams or Vensel found
+out, I would be grounded for a long period.</p>
+
+<p>There were two additional NACA pilots at Edwards then,
+Walt Jones and Joe Walker. Walt Jones, about 25, had been
+hired about the time John Griffith left NACA. A graduate of
+Purdue, he had served in the Air Force with Griffith. A handsome
+man, the son of a minister, he was short on flying hours but
+showed great potential. He later left NACA and was killed test-flying
+for Northrop. Joe Walker, my age, was an Air Force
+veteran of World War II, who had worked at NACA’s Lewis
+Lab. A superb foul-weather pilot, Walker specialized in de-icing
+experiments at Lewis. Walker was a Pennsylvanian, but he talked
+like a West Virginian, and had a slow easy-going manner and
+a toothy smile. But Jones and Walker were new to Edwards, and
+the demands on NACA were increasing. So I had my chest taped
+and flew anyway.</p>
+
+<p>My flight that day in the X&#x2060;-1, as planned, was nothing sensational;
+simply a check-out flight. By then, not surprisingly, I had
+acquired a reputation for encountering an emergency on first
+flight. I was determined that the X&#x2060;-1 check-flight would go off
+without a hitch.</p>
+
+<p>After I had dogged the X&#x2060;-1 door in place, there was still a
+long and monotonous climb to our drop altitude of 30,000 feet.
+I snapped my lap belt and shoulder harness and settled back,
+<span class="pagenum" id="Page_127">[Pg 127]</span>sweeping my eyes across the instrument panel, checking the
+pressures in the rocket-fuel tanks and other systems. Everything
+was normal, or as near-normal as it is possible to come in a
+research airplane.</p>
+
+<p>The X&#x2060;-1 was old then—going on six years—but she was still
+the fastest and best research airplane at Edwards. The main
+reason for this was the fact that the plane was a model of
+simplicity. When Bell had been assigned the job of designing
+her in 1944, they had ably and swiftly tamed a wide frontier
+of aerodynamic unknowns. They knew that a .50 caliber bullet
+had been fired supersonically, so they shaped the X&#x2060;-1 like a
+bullet. They stuck on a pair of thin, straight, stubby wings and
+a Navy-sponsored rocket engine, built by Reaction Motors, Inc.,
+a small outfit working out of a garage in New Jersey. From
+beginning to end, Bell’s Chief Engineer Robert Stanley insisted
+on simplicity. The control system, instrument panel, landing
+gear, everything about the plane, were deliberately and forcefully
+held to a minimum of complexity.</p>
+
+<p>Stanley’s approach to research airplanes had paid rich dividends
+a hundred times over. After Yeager had cracked the sonic
+wall, and Pete Everest had climbed to 73,000 feet in the X&#x2060;-1, a
+dozen other test pilots had flown the ship during 1948, ’49, and
+’50. <i>Glamorous Glennis</i> was in the Smithsonian, but our X&#x2060;-1 had
+already logged a total of maybe forty-five flights. They had provided
+tons of data without a single flight casualty. It would
+continue to fly off and on over the next few years, providing
+data in the trans-sonic area and a never-ending challenge for its
+pilots. In its day, the X&#x2060;-1 was the king of the hot-rods.</p>
+
+<p>Approaching launch altitude, I got set for my first X&#x2060;-1 drop,
+priming the rocket engine, building up pressures in the fuel
+system. My chase pilots that day were Air Force Majors Jack
+Ridley, an old X&#x2060;-1 hand, and Pete Everest. Tucked in close under
+the tail of the B&#x2060;-29, they watched the puffs of vaporized fuel
+snaking out prime lines and reported:</p>
+
+<p>“Prime looks good.”</p>
+
+<p>B&#x2060;-29 pilot Pete Sellers began the countdown. Suddenly I
+recalled a humorous incident which had happened one time
+<span class="pagenum" id="Page_128">[Pg 128]</span>when Bob Champine, the pilot I replaced at NACA, had reached
+this stage of an X&#x2060;-1 flight. It had been no fault of the plane, just
+a simple language snafu. An ex-Navy pilot, Bob always spoke in
+Navy terminology in the air. Seconds before launch, the pressure
+gauges fell off, and he decided to cancel the flight. From the
+cockpit of the X&#x2060;-1 he snapped on the radio: “Secure the drop.”</p>
+
+<p>Dick Payne, in the bomb-bay compartment, was then working
+loose the pins in the shackles which held the X&#x2060;-1 in its belly
+nest. Accustomed to working with Air Force pilots, Payne
+thought “secure the drop” meant “go ahead and complete the
+drop.” Champine had loosened his lap belt and was on the
+point of crawling out of the X&#x2060;-1 side door to return to the bomb-bay
+when his plane suddenly fell away from the bomber. Luckily
+he had time to snap himself down. From then on, “secure the
+drop” was used to rib all of us ex-Navy types.</p>
+
+<p>To achieve a good launch from the mother plane it is vital
+that the research plane be in proper trim. This means that the
+plane’s controls should be set for full fuel tanks. A pilot <i>could</i>
+correct the control trim after launch, but an overly nose-up
+or nose-down setting at the moment of launch <i>could</i> cause the
+plane to take off on a wild gyration.</p>
+
+<p>The X&#x2060;-1 stabilizer was always set on “trim” on the ground
+before take-off. That morning I had watched the engineer working
+with a template and inclinometer, attempting to align the
+stabilizer chord with the wing chord. I had done this many times
+on models in wind tunnels and knew it was quite easy to make
+a mistake. I had asked a few questions but the engineer replied,
+in effect, that he knew what he was doing. I was still feeling my
+way then with the ground personnel. I let it go.</p>
+
+<p>As it turned out, the engineer <i>had</i> made a mistake. The X&#x2060;-1
+was launched with a full degree in excess of normal stabilizer
+trim. The result was spectacular. When I dropped away from
+the mother plane, the X&#x2060;-1 pitched, stalled, and flipped on its
+back.</p>
+
+<p>Chase pilots Pete Everest and Jack Ridley, who had been
+flying beside me, quickly searched the skies, wondering where I
+disappeared to. When Pete spotted the X&#x2060;-1 below them, upside
+<span class="pagenum" id="Page_129">[Pg 129]</span>down, he was dumbstruck. At last, he found his voice and, with
+the aplomb he could always muster, spoke on the radio:</p>
+
+<p>“Well, <i>that’s</i> certainly a new way to launch!”</p>
+
+<p>There was no use in blowing my stack, I thought. The launch
+was hopelessly botched. It was now clear to me that on first
+flight of any plane I was jinxed, and there was no reason to fight
+it. The thing to do now, I thought, was to make a respectable
+recovery from an impossible start. Get the plane right-side up,
+light off the rockets, and go for broke.</p>
+
+<p>I rolled out, cranking the stabilizer back to normal trim, and
+then I fired all four rocket barrels. When they caught, the X&#x2060;-1
+lurched ahead, picking up speed. I held the nose steady and
+climbed. But there was no chance for high speed on that flight.
+During the unorthodox launch and recovery, the X&#x2060;-1 had fallen
+too far into the thick atmosphere. Drinking fuel at better than
+a ton a minute, her engine, I knew, would sputter and die in
+another eighty seconds. I focused all my attention on maintaining
+a positive gravity (positive G) pull on the airplane. If I
+porpoised and lost it, including weightlessness (zero G)—that
+unusual sensation one sometimes experiences in a fast-falling
+elevator—the fuel flow to the engine would stop, closing it down
+prematurely. At least I would try to avoid that.</p>
+
+<p>I did. I was hitting about Mach .9 and going through 41,000
+feet when the last of the fuel whipped through the engines. The
+four barrels of the rocket engine blew out almost simultaneously,
+each one making a noise like a pop-gun. Following that, the X&#x2060;-1
+was a tomb of silence. Except for the crackle of static in my
+earphone, and a gentle scrubbing of air on the fuselage skin,
+there was no earthly sound. I was now flying a glider—one of the
+world’s heaviest and fastest—which I would have to sail back to
+Rogers Dry Lake alongside Edwards Base.</p>
+
+<p>If misfortune had dogged my flight thus far, it was nothing
+compared to what happened next. Quick as a wink, on base leg
+for landing, the whole windshield was blanketed by a thick
+coating of ice. I was sealed in—blind as a bat. This time the
+cause was not attributable to the failure of machinery. The X&#x2060;-1
+defogging system was simply too weak. On humid days it was
+<span class="pagenum" id="Page_130">[Pg 130]</span>not unusual for considerable moisture to collect inside the X&#x2060;-1
+cockpit on the climb to pilot boarding-point while the door was
+off. At high altitude this moisture turned to ice. It was my first-flight
+luck to go aloft on a very humid day.</p>
+
+<p>When I reported an iced windshield on the radio, I received
+little sympathy from my fellow pilots. Jack Ridley laughed over
+the radio and, in his strange, falsetto voice, cracked: “Funny,
+isn’t it? Same thing happened to me the other day.” Both pilots
+joined me quickly, however, and pulled their fighters close in to
+my wingtips, standing by to guide me back to the lake-bed landing,
+if necessary. An old hand with iced windshields by now,
+I banked around and, with help from Ridley, lined up on the
+lake.</p>
+
+<p>By Hollywood standards, by now I should have been overwhelmed
+by fear. Beads of perspiration should have been popping
+out on my forehead, and my hand should have been trembling
+on the stick. Alas, such was not the case, nor have I ever
+known it to be amongst my fellow test pilots.</p>
+
+<p>So many people have asked me so many times whether I have
+ever experienced “fear” in the air that I have been compelled
+to think about this word and analyze it. My conclusions may be
+far from complete and slightly inarticulate, since I believe this
+word falls into the realm of philosophy, which is not my strong
+point. Fear, I think, is something that a man feels when faced
+with an unknown—when in spite of his background and experience
+he runs out of things to do. In a mechanical device such as
+a fast-moving airplane, an unexpected or unpredicted emergency
+often happens suddenly, and it is startling. Perhaps it is comparable
+to walking up behind a child and shouting “Boo!” The
+child is startled, and this is a better word than “fear” to describe
+the initial moment, I believe. If the circumstances are fairly
+routine, the child follows a pattern of action. He turns to see
+what has startled him. Observing the cause, he laughs away his
+concern. There are exceptions, of course—a startled child in a
+strange or hostile environment, for example, which may make
+a lasting impression.</p>
+
+<p><span class="pagenum" id="Page_131">[Pg 131]</span></p>
+
+<p>Pilots are occasionally startled like everyone else. The normal
+reaction to being startled, like the child’s, is to look for the cause.
+The pilot learns from long experience to determine this cause
+swiftly and positively. Then, in place of the child’s immature
+laughter, he turns to action. There are set procedures to put
+matters straight again. If, for example, a fire-warning light suddenly
+flashes on the instrument panel of a propeller-driven airplane,
+there are prescribed routines. The pilot shuts down the
+engine, cuts off the fuel lines, dumps a fire-extinguisher foam
+into the cowling, and feathers the propeller so that it does not
+cause unnecessary drag on the surviving engines. Then, if necessary,
+he must look for a field and land. If a pilot is certain of a
+bad fire in a jet, there is one prescribed procedure: get out fast
+in the ejection seat.</p>
+
+<p>When startled by an emergency, pilots whose minds dissolve
+into a frenzy which delays, interferes with, or prohibits corrective
+steps ought, I believe, to get into some other business. Beads
+of sweat on the forehead should come only from hard work or
+too much clothing; a trembling hand on the stick only from a
+hangover.</p>
+
+<p>Men who climb mountains don’t experience fear when faced
+by some crisis. They take the necessary steps to avoid the crisis.
+Experienced divers don’t melt into a panic when they face an
+aggressive shark underwater. They take the necessary counteraction.
+Ship captains don’t give up in despair when their craft
+founder. They launch the lifeboats.</p>
+
+<p>These are cases where the emergency comes swiftly and in
+an environment that seems to attract the purple-prose experts.
+But men and women in other walks of life face grave, unheralded
+emergencies every day of the week. Consider the
+ponderous emergencies big financiers must slide into as they deal
+on the stock exchange day by day. Or surgeons who probe the
+human body, or mothers who must deal promptly with gagging
+children. We never think of these people as dissolving into fits of
+fear, yet their responsibility may outweigh the lone pilot in his
+craft by a factor of a thousand or ten thousand. If something
+<span class="pagenum" id="Page_132">[Pg 132]</span>goes wrong, they take the necessary steps to settle it favorably.
+The incident is rarely noted publicly, as are the pilot’s emergencies.</p>
+
+<p>I suppose there are many people who go through all of life
+beset by a variety of fears. It could be fear of disease, of professional
+failure; fear of love or of not being loved; fear of the
+neighbors; fear of government, or their leaders, or fear of fear
+itself. All these people, in my book, would fare better in this
+life if they probed the cause of this fear, if they don’t know it
+already. Once the cause were known, they could, or should, take
+the proper action to right the situation, and rid themselves of it.
+This could even apply to those people who live in slave nations,
+under a constant so-called reign of fear of a different order.
+Witness the birth of this nation.</p>
+
+<p>I have been startled in an airplane many times. This, I may
+say, is almost routine for the experimental test pilot. But I can
+honestly say I have never experienced real fear in the air. The
+reason is that I have never run out of things to do.</p>
+
+<p>Some day I might. Conceivably, I might be locked helplessly
+in the cockpit of a burning airplane in a death spiral, unable to
+take any further action to save my life. Facing certain death
+which I was powerless to forestall, I might very well be overcome
+by fear. But for me this would be a very special kind of
+fear—a fear of coming face-to-face with a strict God who might
+look askance on the ways of a test pilot—and not be talked out
+of it. But so far I have been spared that ultimate confrontation.</p>
+
+<hr class="tb">
+
+<p>What concerned me that afternoon on my first flight in the
+X&#x2060;-1 was the landing—the possibility I might wind up in the
+ever-growing “Nose Wheel Club.” The X&#x2060;-1 had a most peculiar
+behavior pattern just at the moment of touchdown. In the final
+flare-out, when the three wheels were reaching for the ground,
+the plane sometimes bounced skyward without warning. Ordinarily
+a pilot in a plane that behaved thus would push forward
+on the stick and bring the nose down. If he did this in the X&#x2060;-1,
+the nose slammed hard and caved in the nose wheel. That master
+pilot, Yeager, had discovered by his native skill that if the pilot
+<span class="pagenum" id="Page_133">[Pg 133]</span>were to violate all his instincts and pull <i>back</i> on the stick, the
+plane would recover and grease on with no damage. Only
+Yeager and a few other pilots had avoided the Nose Wheel Club.
+It was no disgrace to prang a nose wheel, and to avoid it was a
+fine point of flying indeed, but I intended, as a matter of pride,
+to stay out of this club. The iced windshield, however, vastly
+complicated my first X&#x2060;-1 landing and made my nomination almost
+certain.</p>
+
+<p>As my altimeter unwound rapidly, I searched the X&#x2060;-1 cockpit
+for a rag, a tool, anything I could use to rub off the coat of
+ice. There was nothing. I had no handkerchief in my flying
+coveralls. But wait....</p>
+
+<p>I loosened my shoulder straps and bent over, pulling at the
+shoestrings of the low-cut oxford shoe on my right foot, thanking
+my lucky stars I hadn’t worn flying boots. In two seconds I
+had the shoe off. Then I took off my right sock and replaced my
+bare foot on the right rudder bar. The metal was frightfully
+cold. My foot clung to the bar stickily, like one’s hand on the
+bottom of an ice tray just out of the freezer. Using my cotton
+sock as a scraper, I rubbed hard in one spot on the front windshield,
+just over the instrument panel.</p>
+
+<p>By the time we had descended to 5000 feet—gliding like a
+brick—I had worn a small hole in the ice, enough to permit me
+to see the X&#x2060;-1’s nose and the long desert lake bed stretching
+ahead. I squinted one eye and fixed the other on the small hole
+like a peep-sight, lining up the parallel black lines painted on
+the dry-lake floor. Ridley was droning off my decreasing altitude,
+but I didn’t need him. I flared out at 135 miles an hour.</p>
+
+<p>I brought the stick back slowly; the air speed got low and the
+right wing dropped sharply, scraping the desert floor as I
+touched down. I threw the stick to the left at just about the
+moment the nose wheel touched. The X&#x2060;-1 rolled out straight and
+level, rumbling firmly across the hard-packed silt. The nose
+wheel held.</p>
+
+<p>The usual caravan of vehicles, trailing a huge rooster-tail of
+dust, tore out across the lake and clustered around the small
+white bird. When I undogged the X&#x2060;-1 door, a mechanic lowered
+<span class="pagenum" id="Page_134">[Pg 134]</span>it to the ground. I climbed out—with my right foot bare as a
+baby’s behind.</p>
+
+<p>Someone shouted: “Where is your right shoe?”</p>
+
+<p>When I held it aloft for all to see, another voice cried: “Barefoot
+boy with cheek.” Then they all broke into laughter. I knew
+that at Edwards, at least, I had it made.</p>
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter"></div>
+
+<h2 class="hidden">Illustrations I
+ </h2>
+
+<figure class="figcenter illowp60" id="i_134fp_01a" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_01a.jpg" alt="Formal picture of a family">
+ <figcaption>
+ <p>My maternal grandfather, Thomas A. Dwyer, my grandmother, Paula, and their
+ children. My mother, Lucia, is third from right.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp30" id="i_134fp_01c" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_01c.jpg" alt="Formal portrait of a man">
+ <figcaption>
+ <p>My paternal grandfather,
+ Judge Amasa Scott
+ Crossfield.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_01b" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_01b.jpg" alt="Portrait of a woman">
+ <figcaption>
+ <p>My mother, Lucia,
+ just after her marriage.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_01d" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_01d.jpg" alt="Photo of a man, side view">
+ <figcaption>
+ <p>My father,
+ Albert Scott Crossfield.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp30" id="i_134fp_02a" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_02a.jpg" alt=" picture of a man reading papers spread out in front of him">
+ <figcaption>
+ <p>Elena Ruth, Mary Ann,
+ and I, 1928.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_02b" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_02b.jpg" alt="Picture of a house with a tree in front of it">
+ <figcaption>
+ <p>Our home in Wilmington, the eucalyptus tree at right.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_02c" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_02c.jpg" alt="Picture of a man reading">
+ <figcaption>
+ <p>Carl Lienesch.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_03a" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_03a.jpg" alt="Picture of a man in front of an airplane">
+ <figcaption>
+ <p>McNulty’s Inland Sportster and budding aviator, 1935.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_03b" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_03b.jpg" alt="Picture of a young man">
+ <figcaption>
+ <p>Farmer’s son, 1937.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_03c" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_03c.jpg" alt="Picture of a young man with livestock">
+ <figcaption>
+ <p>Showing prize Guernsey bull.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_04a" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_04a.jpg" alt="Picture of a boy with model seaplanes">
+ <figcaption>
+ <p>With seaplane models, 1932.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_04b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_04b.jpg" alt="Picture of a boy with a large model plane">
+ <figcaption>
+ <p>This gas-powered model logged
+ over 1,000 flights.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_04c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_04c.jpg" alt="A model airplane with arching wings on the lawn">
+ <figcaption>
+ <p>The radio-controlled model
+ with geodetic construction.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_04d" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_04d.jpg" alt="A model airplane in a shop with many tools">
+ <figcaption>
+ <p>A corner of my shop on the
+ second floor of the farmhouse.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_05a" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_05a.jpg" alt="Formal portrait photo of a young man">
+ <figcaption>
+ <p>High school graduate, 1939.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_05b" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_05b.jpg" alt="Picture of an aircraft">
+ <figcaption>
+ <p>The ill-fated Taylorcraft.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp30" id="i_134fp_05c" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_05c.jpg" alt="Formal picture of a young man in a uniform">
+ <figcaption>
+ <p>Aspiring cadet, 1942.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_05d" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_05d.jpg" alt="Picture of an airplane in the sky">
+ <figcaption>
+ <p>My home for almost two years, an SNJ over Corpus Christi.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_06a" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_06a.jpg" alt="A group of men in flying gear posing in front of an airplane">
+ <figcaption>
+ <p>Dive bombers in Jacksonville, 1944. Rear-seat men kneeling, SBD airplane in
+ background. I’m standing second from left.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_06b" style="max-width: 43.9375em;">
+ <img class="w100" src="images/i_134fp_06b.jpg" alt="A young pilot in an an open air airplane">
+ <figcaption>
+ <p>F6F fighter pilot,
+ Pasco, Washington, 1945.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_06c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_06c.jpg" alt="A young man standing with his hand on an airplane wing">
+ <figcaption>
+ <p>Corsair pilot, 1946.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_07a" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_07a.jpg" alt="Six men in uniform ">
+ <figcaption>
+ <p>A few of the veterans of the Denver fiasco returning to Seattle, 1947, much
+ subdued. I’m on extreme left.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_07b" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_07b.jpg" alt="A young couple with a dog sitting on the grass">
+ <figcaption>
+ <p>Alice and I visiting the farm in
+ 1947. Our Dalmatian, “Cadet,” in
+ the center.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_07c" style="max-width: 25.0em;">
+ <img class="w100" src="images/i_134fp_07c.jpg" alt="A boy trying on a helmet with aid froma man in a flight suit">
+ <figcaption>
+ <p>Beginning a new circle. Tommy
+ tries on the helmet. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_08a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_08a.jpg" alt="Picture of a woman holding out her arm">
+ <figcaption>
+ <p>My mother in 1947.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_08b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_08b.jpg" alt="Picture of a man reading">
+ <figcaption>
+ <p>My father in 1947.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_08c" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_08c.jpg" alt="Picture of a family">
+ <figcaption>
+ <p>The family, 1960. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_09a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_09a.jpg" alt="Picture of an airplane on the ground with a plume coming ouf of its back end">
+ <figcaption>
+ <p>The X&#x2060;-1, rocket engines ablaze, is tested on the ground. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_09b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_09b.jpg" alt="Crew working with two airplanes">
+ <figcaption>
+ <p>Preparing to mate the X&#x2060;-1 to the mother plane. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_10a" style="max-width: 62.5em;">
+ <img class="w100" src="images/i_134fp_10a.jpg" alt="An airplane attached to the bottom of a larger airplane">
+ <figcaption>
+ <p>The X&#x2060;-1 snugged into position. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_10b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_10b.jpg" alt="An airplane in the air">
+ <figcaption>
+ <p>The X&#x2060;-1; straining for altitude. USAF photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp30" id="i_134fp_11a" style="max-width: 48.125em;">
+ <img class="w100" src="images/i_134fp_11a.jpg" alt="A man in uniform in a narrow apparatus">
+ <figcaption>
+ <p>“Slick” Goodlin going down the
+ elevator to enter the X&#x2060;-1 cockpit.
+ Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_11b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_11b.jpg" alt="A small airplane being released from a larger mother-plane">
+ <figcaption>
+ <p>Three ... Two ... One. Drop! Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_12a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_12a.jpg" alt="The X&#x2060;-1 flying">
+ <figcaption>
+ <p>The X&#x2060;-1, rocket engines ablaze, is tested in the air. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_12b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_12b.jpg" alt="X&#x2060;-1 coming in for a landing">
+ <figcaption>
+ <p>The X&#x2060;-1 landing. USAF photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_13a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_13a.jpg" alt="A man crawling out of a plane with two men standing beside it">
+ <figcaption>
+ <p>Chuck Yeager climbing out of the X&#x2060;-1 cockpit. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_13b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_13b.jpg" alt="A man half out of a plane talking with three men standing next to it">
+ <figcaption>
+ <p>John Griffith of NACA, my boss, after an X&#x2060;-1 flight in 1950. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_134fp_14a" style="max-width: 43.75em;">
+ <img class="w100" src="images/i_134fp_14a.jpg" alt="A man standing in front of an airplane">
+ <figcaption>
+ <p>Bell’s Joe Cannon and the
+ X&#x2060;-1 (No. 3) “Queenie,” at
+ Edwards, 1951. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_134fp_14b" style="max-width: 43.75em;">
+ <img class="w100" src="images/i_134fp_14b.jpg" alt="A wrecked plane">
+ <figcaption>
+ <p>Sad demise of the “Queenie.”
+ Cannon survived. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_14c" style="max-width: 43.75em;">
+ <img class="w100" src="images/i_134fp_14c.jpg" alt="A damaged plane">
+ <figcaption>
+ <p>The mother plane was also
+ damaged. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_15" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_15.jpg" alt="A large crew with various vehicles and an airplane in the background">
+ <figcaption>
+ <p>Yeager, his linemen, and the support equipment for an X&#x2060;-1&#x2060;-A flight. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_16a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_16a.jpg" alt="Two airplanes next to each other">
+ <figcaption>
+ <p>The second generation X&#x2060;-1s in parade formation. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_16b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_16b.jpg" alt="An airplane flying">
+ <figcaption>
+ <p>Straining for altitude. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_17a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_17a.jpg" alt="A small airplane flying directly under a larger plane">
+ <figcaption>
+ <p>The X&#x2060;-1&#x2060;-A; Three ... Two ... One. Drop! Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_17b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_17b.jpg" alt="An aiplane flying on a downward slant">
+ <figcaption>
+ <p>The X&#x2060;-1&#x2060;-B gliding home. USAF photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_18a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_18a.jpg" alt="a ground of men gathered around a plane">
+ <figcaption>
+ <p>Chuck Yeager surrounded by Edwards personnel immediately following his
+ record-breaking Mach 2.4 flight and violent tumble. Note crewman at left
+ inspecting cracked canopy. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_18b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_18b.jpg" alt="Two men in tightly fitted suits shaking hands in front of an airplane">
+ <figcaption>
+ <p>Mutual admiration society. Chuck Yeager and Kit Murray wearing partial-pressure
+ suits, and the history-making X&#x2060;-1&#x2060;-A in background. USAF photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_134fp_19a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_19a.jpg" alt="An airplane on the ground with its nose down">
+ <figcaption>
+ <p>X&#x2060;-1&#x2060;-B starts a new Nose
+ Wheel Club. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_134fp_19b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_19b.jpg" alt="An airplane on the ground that appears to have no landing gear">
+ <figcaption>
+ <p>NASA’s modernized X&#x2060;-1&#x2060;-E
+ joins the club. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_134fp_19c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_19c.jpg" alt="An airplane wreck with men standing nearby">
+ <figcaption>
+ <p>The price of progress. Remains
+ of the X&#x2060;-1&#x2060;-D. Quick
+ action saved Everest. Bell
+ photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_134fp_19d" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_19d.jpg" alt="An airplane wreck">
+ <figcaption>
+ <p>A similar demise for the
+ X&#x2060;-1&#x2060;-A. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_20a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_20a.jpg" alt="The X&#x2060;-3 flying">
+ <figcaption>
+ <p>The X&#x2060;-3; straining for altitude. Douglas photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_20b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_20b.jpg" alt="The X&#x2060;-4 flying">
+ <figcaption>
+ <p>The X&#x2060;-4 in flight. USAF photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_20c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_20c.jpg" alt="The X&#x2060;-5 landing">
+ <figcaption>
+ <p>The X&#x2060;-5 about to touch down on lake bed. USAF photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_21a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_21a.jpg" alt="An airplane on a road with a car next to it, along with several people">
+ <figcaption>
+ <p>The XF&#x2060;-92&#x2060;-A on Crossfield Pike. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_21b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_21b.jpg" alt="An airplane wreck">
+ <figcaption>
+ <p>The nose wheel got tired. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_22a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_22a.jpg" alt="A hangar with several airplanes in front of it">
+ <figcaption>
+ <p>My stable of thoroughbreds, posed before the old NACA hangar. From left:
+ Skyrocket, Skystreak, X&#x2060;-5, X&#x2060;-1, XF&#x2060;-92&#x2060;-A, X&#x2060;-4. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_22b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_22b.jpg" alt="One man sitting and five men standing, all looking happy and relaxed">
+ <figcaption>
+ <p>Joe Vensel and NACA pilots. From left: Joe Walker, Stan Butchart, Jack McKay,
+ and a cigar-smoker. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_23a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_23a.jpg" alt="An airplane in a hangar">
+ <figcaption>
+ <p>The sonic wall was Yeager’s, the hangar wall was mine. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_23b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_23b.jpg" alt="An airplane in flight">
+ <figcaption>
+ <p>The Skystreak in flight. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_24a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_24a.jpg" alt="An airplane on the ground">
+ <figcaption>
+ <p>The D&#x2060;-558&#x2060;-II Skyrocket, my loyal steed for four years. Douglas photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_24b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_24b.jpg" alt="Five men standing next to a man in a flight suit">
+ <figcaption>
+ <p>The faithful grooms: the Skyrocket ground crew. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_25a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_25a.jpg" alt="A crew attaching a small plane to the underside of a larger plane">
+ <figcaption>
+ <p>Mating the Skyrocket. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_25b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_25b.jpg" alt="An airplane flying">
+ <figcaption>
+ <p>Straining for altitude. Douglas photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_26a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_26a.jpg" alt="A smaller airplane directly underneath a larger airplane">
+ <figcaption>
+ <p>Three ... Two ... One. Drop! NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_26b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_26b.jpg" alt="An airplane flying">
+ <figcaption>
+ <p>Skyrocket in flight. Douglas photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_27a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_27a.jpg" alt="Two airplanes flying, a larger round-nosed plane somewhat lower than a plane with a pointed nose">
+ <figcaption>
+ <p>Gliding home again. Douglas photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_27b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_27b.jpg" alt="A plane landing">
+ <figcaption>
+ <p>Touching down on the lake bed. Douglas photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_134fp_28a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_28a.jpg" alt="A pilot in an aircraft listening to a man leaning on the plane">
+ <figcaption>
+ <p>Walt Williams hears it first: Mach 2,
+ Nov. 20, 1953. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_134fp_28b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_134fp_28b.jpg" alt="Three men standing in front of a plan">
+ <figcaption>
+ <p>The Skyrocket and her three record-holders.
+ From left: Bill Bridgeman,
+ Colonel Marion Carl, and the farmer’s
+ son. Douglas photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_28c" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_134fp_28c.jpg" alt="Several men sitting in a circle on the tarmac next to a plane">
+ <figcaption>
+ <p>The X&#x2060;-2 and her Air Force team of jockeys. Clockwise from center: Pete Everest,
+ Iven Kincheloe, and Mel Apt. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_29a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_29a.jpg" alt="A plane on the ground with its engine running and steam billowing out around it">
+ <figcaption>
+ <p>Ground-testing the X&#x2060;-2. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_29b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_29b.jpg" alt="Several men looking up at a plane mounted underneath a larger plane">
+ <figcaption>
+ <p>The X&#x2060;-2 nested in the mother plane’s belly. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_30a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_30a.jpg" alt="A plane in flight with four contrails">
+ <figcaption>
+ <p>Straining for altitude. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_30b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_30b.jpg" alt="Three planes in the air, one small one with a large contrail directly below a larger plane">
+ <figcaption>
+ <p>Three ... Two ... One. Drop! The X&#x2060;-2. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_31a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_31a.jpg" alt="A plane landing with mountains in the background">
+ <figcaption>
+ <p>The X&#x2060;-2 lands on the lake bed. NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_31b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_31b.jpg" alt="A man standing next to a sleek plane on the ground">
+ <figcaption>
+ <p>Skip Ziegler joins the Nose Wheel Club. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_32a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_32a.jpg" alt="A man in a plane talking with a man on a ladder next to it">
+ <figcaption>
+ <p>The X&#x2060;-2 and her record holders: Mel Apt in cockpit, Iven Kincheloe on the
+ ladder. Note scorched paint on the nose. Bell photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_134fp_32b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_134fp_32b.jpg" alt="An airplane wreck">
+ <figcaption>
+ <p>Mel Apt and the second X&#x2060;-2 died on the desert. Bell photo.</p>
+ </figcaption>
+</figure>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_135">[Pg 135]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_14">CHAPTER 14 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 14</span> <i>The Need for Speed</i>
+ </h2>
+</div>
+
+
+<p class="noindent">The desert spring had fused almost imperceptibly with early
+summer. The temperature climbed to a routine 105 degrees in
+the shade. Edwards became a hell of wind and sand. The wind
+moaned through the cracks in the temporary buildings; the sand
+and dust heaped in piles on the sills and in the corners. I considered
+it a minor miracle that the mechanics could keep the
+jewel-like machinery of the research airplanes operating in such
+conditions. We pilots retreated, between flights, to the comfort
+and cleanliness of air-conditioning. One day in late May, 1951, I
+was killing time in Walt Williams’ office, sipping coffee and discussing
+the future of the research airplane program which had
+by now become inextricably entwined with my own future.</p>
+
+<p>“Walt, I’m telling you we have got to move in and do something
+about Bell’s X&#x2060;-2. The whole deal is going sour.”</p>
+
+<p>My feet were propped up on the edge of Williams’ desk.
+An NACA research airplane pilot at Edwards got to be an old
+hand fast in those days. I had been there almost a year: I was
+an old hand. I had accumulated more than half a hundred
+flights in the X&#x2060;-4, X&#x2060;-1, Skyrocket, and D&#x2060;-558&#x2060;-I. I had flown supersonic.
+I was becoming wiser in the ways of government and
+<span class="pagenum" id="Page_136">[Pg 136]</span>industry politics. One had to at NACA, because the agency was
+caught in the middle of all the political currents. The X&#x2060;-2 situation
+was one of those touchy ones.</p>
+
+<p>NACA existed to serve the industry. It received its planes
+from the military services which, in turn, were customers of the
+industry. Thus it was dependent on everyone for survival and, as
+I learned, it was important not to bite the many hands that fed
+it. The competition among the aircraft companies striving to
+sell their products to the military was intense, as was the competition
+among the various military services. Thus there were
+always a hundred minor controversies going on. We at NACA,
+to survive, tried to remain aloof from these internecine battles,
+taking protection behind the cloak of science. The information
+we garnered was passed out impartially to all of industry and
+the military services. If the military asked our advice about a
+certain competitive airplane, we responded in double-talk and
+purposely contrived, abstruse mathematical formulae. We had
+to do this. The governing body of NACA itself was a committee
+composed of the leaders in aviation. Any conclusion NACA
+reached was instantly known everywhere in the aviation world.
+It was like working in a fish bowl.</p>
+
+<p>All of this naturally generated conservatism within NACA.
+Before we passed judgment or recommended a course of action,
+we had first to weigh the impact on half a hundred points of
+contact. Thus, while we flew fast in the air, we moved at a snail’s
+pace on the ground.</p>
+
+<p>The data from my flights were accumulating by the bushel-basketfuls.
+But all of these were concerned with the subsonic,
+sonic, and trans-sonic zones, about which we were beginning to
+know a great deal. In our thoroughness, I felt, we were losing
+sight of the forest for the trees. The new supersonic Century
+Series fighters, which could outfly our research airplanes, were
+almost on the point of factory roll-out. There were a thousand
+different things we didn’t know at Mach 1.5 and above. Two
+especially grave unknowns loomed before us: high-speed instability
+and aerodynamic heating. What we needed was much
+more speed to stay out in front of the combat airplanes. In
+<span class="pagenum" id="Page_137">[Pg 137]</span>short, our research airplanes were too slow, and NACA was
+not, in my opinion, doing enough about it.</p>
+
+<p>After the fabulous success of the X&#x2060;-1, the Air Force had invited
+Bell to build a second generation of straight-wing, rocket-powered
+X&#x2060;-1 airplanes. These were to be larger, faster, with
+longer-burning rocket engines. The planes were to have a “combat
+cockpit,” an uninspired idea of someone who thought the
+craft <i>might</i> be used for brief high-speed reconnaissance bursts
+over enemy territory. These airplanes were designated the X&#x2060;-1&#x2060;-A,
+X&#x2060;-1&#x2060;-B, X&#x2060;-1&#x2060;-C, and X&#x2060;-1&#x2060;-D. Some said these planes might fly at
+Mach 3—three times the speed of sound. At the very least we
+knew they would nearly double the speed of the original X&#x2060;-1s.</p>
+
+<p>These planes were conceived shortly after Yeager’s historic
+flight in the X&#x2060;-1. By then the ingenious team sparked by Bob
+Stanley, which had pioneered the X&#x2060;-1, had left Bell. Advanced
+airplanes are not the product of a company, but the product of
+men with boldness and imagination. The Air Force blew hot and
+cold on these advanced X&#x2060;-1s and supplied money, virtually a
+month-by-month dole. As time passed, inevitably the airplanes
+grew in complexity and they fell far behind schedule. Even the
+third model of the original X&#x2060;-1, which was being converted to a
+low-pressure fuel system, had not yet been delivered to NACA.</p>
+
+<p>The same fate had overtaken the much-heralded X&#x2060;-2, which
+I was supposed to fly for NACA in due course. The X&#x2060;-2 had
+been designed years earlier, only a few months after the
+original X&#x2060;-1s. Two ships were under construction. In concept
+the X&#x2060;-2 represented a tremendous jump over the X&#x2060;-1. On paper
+it had over eight times the power—a 15,000-pound-thrust Curtiss-Wright
+engine—sharply swept wings, and an escape system—a nose
+that could be separated from the main body of the airplane in
+emergency. The X&#x2060;-2 was to be built of stainless steel in order to
+withstand the tremendous frictional heat it was expected to encounter
+at its maximum speed of nearly Mach 3. Its windshield
+was to be tinted to resist solar radiation, which might be a
+menace at the X&#x2060;-2’s maximum altitude of 150,000 feet. However,
+the X&#x2060;-2 was already three years behind schedule.</p>
+
+<p>Altogether, then, Bell had seven rocket airplanes in the plant
+<span class="pagenum" id="Page_138">[Pg 138]</span>in various stages of construction. All of them were capable of
+flying at over twice the speed of sound. All of them were behind
+schedule, and falling farther behind every day. Meanwhile, at
+Edwards, no one had yet exceeded Yeager’s speed of Mach 1.4,
+set in the original X&#x2060;-1. The new military fighters were designed
+to exceed that speed. Even faster military fighters were then in
+the advance design stage.</p>
+
+<p>“If we don’t watch out, Walt,” I said, “we’re going to be
+coming up with these data a day late and a dollar short. The
+gap is closing.”</p>
+
+<p>Walt Williams, of course, knew this as well as I. But there
+was little that NACA could do about it. The situation was an
+“Air Force problem.” The Air Force supplied the planes. The Air
+Force’s main attention was focused on producing enough airplanes,
+right that minute, to fight the Korean War.</p>
+
+<p>“Walt,” I said. “We have the technical say-so with these aircraft.
+We can make recommendations through headquarters in
+Washington. Why don’t we propose that I be assigned to the
+Bell plant and bird-dog this thing in our behalf?”</p>
+
+<p>“Nobody would buy that, Scotty,” Williams said. “We can
+make technical judgments when invited to do so, but we can’t
+stick a man in the plant full-time.”</p>
+
+<p>“Why not?” I asked. “We need these planes in a hurry, don’t
+we?”</p>
+
+<p>“Well,” Williams said, “I really don’t think you know what
+you are proposing. Geez. Can you imagine an NACA man in the
+Bell plant? And you of all people?”</p>
+
+<p>I had developed something of a reputation as a driver and
+an iconoclast. It was not strictly my doing. Part of it was the
+fact that I had arrived coincidentally with the outbreak of
+the Korean War, and the new sense of urgency had come at the
+same time. It was a fact, however, that I frequently challenged
+the accepted method. Like many other pilots, I particularly deplored
+the growing gap between desk designer and pilot. Machinery
+was being put in illogical places with little thought for
+pilot efficiency or maintenance ease; the mounting overemphasis
+on safety had reached the point where engineers were putting
+<span class="pagenum" id="Page_139">[Pg 139]</span>cotter keys in cotter keys. All of this was slowing us down
+at a time when we urgently needed to be picking up speed.</p>
+
+<p>As for my proposal to go to Bell to bird-dog the lagging rocket-plane
+program, on reflection I am certain now that it was the
+goal of my life trying to peck through its shell prematurely.
+I realize now the time was far from propitious. The X&#x2060;-1, X&#x2060;-2
+thing was a mess, and in time it would become worse. Had I
+gone there, I might have helped some. But I might also have
+fallen far short of my dream.</p>
+
+<p>I let the matter drop. Williams had been around NACA far
+longer than Scott Crossfield. I knew and admired him as a man
+of action. I was certain that if he could perceive even the
+faintest glimmer of hope of NACA’s bailing out the rocket planes,
+he would be in favor of positive action, and in spite of the prevailing
+conservatism within the agency, would press for it.
+Obviously, the safest course as far as Bell was concerned was
+hands off.</p>
+
+<p>“Besides, Scott,” Williams said, dangling a diverting sweet,
+“you have the Skyrocket program.”</p>
+
+<p>I couldn’t argue that point.</p>
+
+<hr class="tb">
+
+<p>The Skyrocket then was the one bright ray of hope on an
+otherwise darkly blotched horizon. Douglas Aircraft was a big,
+bustling corporation with enormous military and commercial
+business. The company had withstood the postwar aviation famine
+quite well. In fact, it had thrived on production orders for
+DC&#x2060;-6 transports, and Navy carrier-launched fighters. At Douglas
+there had been money and engineering talent enough to
+sustain a healthy research and development program, which included,
+of course, the D&#x2060;-558&#x2060;-II Skyrocket. During the fall of
+1950 the emphasis had been placed on the conversion of the
+original jet-only (JATO boosted) Skyrocket to an air-launch, all-rocket
+vehicle, which conceivably might reach Mach 2 and
+100,000 feet. On paper it was easily capable of shattering Yeager’s
+X&#x2060;-1 speed record of Mach 1.4 and Everest’s altitude record
+of 73,000 feet. The Navy and Douglas were anxious.</p>
+
+<p>Bridgeman and the Douglas crew had arrived with the all-rocket
+<span class="pagenum" id="Page_140">[Pg 140]</span>Skyrocket in January of 1951. The plane had been parked
+in the Douglas hangar next door, alongside the older jet-rocket
+version of the Skyrocket. When the word got around, it caused
+a sensation. I hurried over to take a look at the ship, which I
+would fly soon after Bridgeman had established its “envelope,”
+and had, incidentally, scratched up some new speed and altitude
+records for the Navy. The ship was dazzlingly white. Its lines
+were similar to the old Skyrocket, except that it was cleaner. The
+jet engine scoops were gone.</p>
+
+<p>When Bridgeman first climbed into the Skyrocket, snugged in
+the belly of the mother plane, Yeager and Everest flew chase for
+the Air Force with more than casual interest. However, the first
+blush paled. The Skyrocket was new and untried. Like all new
+research airplanes, it was dogged by trouble during the de-bugging
+stage. During January, February, and March, 1951,
+Bridgeman had gone aloft six times in the mother plane. Six
+times the launch had been canceled at the last minute.</p>
+
+<p>On the seventh attempt, in April, a hair-raising event occurred
+that will never be forgotten at Edwards. When the mother plane
+bore down over the launch point, all gauges were in the green.
+Bridgeman, who through no fault of his own was gaining a reputation
+for being a Reluctant Dragon, was pressing hard for a
+launch. At the last second a tank pressure fell off. Grudgingly
+Bridgeman reported:</p>
+
+<p>“No drop. This is an abort.”</p>
+
+<p>He prepared to go through abort procedures to return to the
+base. Then to his horror he heard the mother-plane pilot, George
+Jansen, ticking off the launch countdown on the radio: “Ten,
+nine, eight, seven....”</p>
+
+<p>“No drop! No drop!” Bridgeman shouted over the radio. Everyone
+heard him but Jansen, who had keyed his radio mike for the
+countdown. Nobody, not even the star Bridgeman, could get
+through to George. Frantically, Bridgeman brought the plane’s
+ailing machinery to life and squared away for an undesired
+launch.</p>
+
+<p>Falling away from the mother plane, Bridgeman lighted the
+rocket engines. The Skyrocket roared heavenward, just short of
+<span class="pagenum" id="Page_141">[Pg 141]</span>Yeager’s record speed of Mach 1.4. Bridgeman growled over the
+radio:</p>
+
+<p>“Goddammit, George, I <i>told</i> you not to drop me.”</p>
+
+<p>“You got keen friends, Bridgeman,” said Everest, who was
+flying chase that day.</p>
+
+<p>After that incident, countdowns were shortened; research airplanes
+were equipped with a switch on the instrument panel,
+connected to a light on the mother-plane instrument panel. A
+green light meant the rocket pilot was ready to launch, and only
+if it was on would he be launched. And so far as I know, no
+pilot after that was dropped against his will.</p>
+
+<p>The Douglas test program dragged on through May and June.
+At NACA we became very anxious to take over the airplane. In
+fact, in an unprecedented move NACA headquarters wrote
+Douglas telling them, in effect, to hurry up. We urgently needed
+the Douglas plane for high-speed flight data. Another reason
+was that the word had gotten around that Bridgeman was afraid
+of the airplane. This was unfortunate because Bridgeman, I
+thought, was one very superlative pilot. He later admitted that
+flying the Skyrocket unnerved him. But the delay in the Douglas
+flight program was not his fault. It was the usual work of the
+gremlins which flock to research planes like seven-year locusts.</p>
+
+<p>Not long after my chat with Walt Williams the slow-starting
+Douglas Skyrocket program blazed into a stem-winding finish.
+In the next four powered flights, the last of which took place
+on August 15, 1951, Bridgeman flew the Skyrocket to a speed of
+Mach 1.87 and an altitude of 79,000 feet. Both figures were records
+by a wide margin. Bridgeman assured his place in the Hall
+of Fame, and demonstrated that the Skyrocket was all that they
+had hoped. Bill went on to the X&#x2060;-3 and some brilliant airmanship.
+The Navy, now holding the official records, beamed, and
+Douglas released a flood of press handouts. With little ceremony
+NACA took over the plane and mother ship, assigned me as
+Skyrocket pilot, and I got set to probe the high-speed mysteries
+the Skyrocket had already brought to light.</p>
+
+<p>These mysteries somehow leaked to the press, which sensationally
+proclaimed that Bridgeman had discovered a phenomenon
+<span class="pagenum" id="Page_142">[Pg 142]</span>known as “Supersonic Yaw.” Actually we had expected it.
+Bridgeman had expected it. It was one of those unknowns about
+which we urgently needed data. Reduced to simplest terms,
+“Supersonic Yaw” meant that airplanes nearly became directionally
+unstable at high speed in thin air. The nose turned sideways
+and the plane skidded obliquely through the air. What we
+had to do then was to find some means of improving the controls
+or the design of airplanes to avoid it, or else develop a
+technique for living with it. This was one reason alone for the
+need for speed. The same thing could happen to our military
+planes, causing needless death in peace and war.</p>
+
+<p>Following Bridgeman’s footsteps, I made four quick flights
+in the all-rocket Skyrocket. The first flight was, in a way, a
+milestone for me. I broke my first-flight jinx, launching and
+flying with no unusual difficulty. I achieved a speed of Mach
+1.6 and an altitude of 60,000 feet. These were not records, but
+we at NACA were not out to set records. We wanted to find
+out in actual flight about Supersonic Yaw, among many other
+things.</p>
+
+<p>On all flights the Skyrocket was loaded with hundreds of
+pounds of delicate instruments which recorded every significant
+fact about the flight: speed, altitude, G forces, pressures, air flows.
+Bridgeman had intuitively conceived a method of taking the
+plane to its near limits without meeting disaster. Under his
+skillful coaching, I successfully carried out his idea, and the
+information we recorded kept the engineers busy for months.
+After these four flights the plane was laid up for some badly
+needed repairs which had been deferred during our quick
+investigation.</p>
+
+<p>One day not long after I had completed the last of these
+flights, I stopped at the coffee machine to pass the time of day
+with Hubert Drake and Bob Carmen, NACA’s long-range design
+“dreamers.” In a friendly way they probed for first-hand information
+about the Skyrocket.</p>
+
+<p>“How’d it go?” Drake asked.</p>
+
+<p>“It was all right,” I said. “You people and Douglas had already
+<span class="pagenum" id="Page_143">[Pg 143]</span>sensed what to do and I just did it. No special trick. We got
+the data, but the problem is that the airplane is already old for
+its time. The plane is obsolete for those speeds.”</p>
+
+<p>“Yes, I know,” said Drake.</p>
+
+<p>“Some day I hope we can get ahead of this game,” I said. “I
+would like to see a research airplane built from scratch that can
+fly like it is supposed to—stable, that is—and far enough ahead
+of the game to provide some useful data to industry. In another
+few months they’ll be catching up with us.”</p>
+
+<p>“You ought to come down and see our stuff,” Carmen said.</p>
+
+<p>“What have you got?”</p>
+
+<p>“We think we have an airplane that can perform at Mach 6
+and fifty miles,” Drake said.</p>
+
+<p>“How do you get that kind of performance?”</p>
+
+<p>“It’s simple. First off, the mother plane is a rocket plane. She
+has five Viking engines. The research airplane, a modified X&#x2060;-2
+with a one-rocket engine, rides piggy-back. You take off and
+launch at Mach 3 and about 70,000 feet. The research airplane
+goes on up to maybe Mach 6 and maybe 250,000 feet. It’s all
+done with existing hardware.”</p>
+
+<p>I had a vision then of trying to make ready and light off the
+five temperamental rocket engines on the mother plane. The
+effort would be something like the invasion of Europe. The odds
+that everything would work, and that the research airplane
+would launch—and light off—were, conservatively, about a hundred
+to one. Still, it was an idea. Dreamers should never be discouraged.
+An engineering analysis of the Columbus voyage had
+shown it couldn’t be done.</p>
+
+<p>“Well, why don’t you write it up and send in a report?” I
+asked. “God knows someone ought to try to get ahead of the
+game. That would be a big jump forward.”</p>
+
+<p>“We <i>did</i> write it up,” Drake said, crumpling his paper coffee
+cup. He aimed carefully but missed the big G.I. can.</p>
+
+<p>“What happened?”</p>
+
+<p>“We turned it in to Walt Williams,” Drake said. “That was
+back in November, 1950. He read it and said it was ‘premature.’
+Told us to pigeon-hole it for a while.”</p>
+
+<p><span class="pagenum" id="Page_144">[Pg 144]</span></p>
+
+<p>The Drake-Carmen report was still in a pigeon-hole, gathering
+dust. In later years Walt Williams still felt it was wise to
+delay that report. Maybe he was right. Had it been brought forward
+in late 1950, NACA might have been laughed out of school.
+No one else was ready.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_145">[Pg 145]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_15">CHAPTER 15 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 15</span> <i>Disaster on the Race Track</i>
+ </h2>
+</div>
+
+
+<p class="noindent">The success of the Navy-sponsored Skyrocket caused great consternation
+in the Air Force camp at Edwards. Suddenly two of
+Bell’s rocket planes were made ready—or <i>almost</i> ready, as it turned
+out—for flight. One was the long-awaited X&#x2060;-1, model 3 (called
+“Queenie”), with a low-pressure fuel system, thus putting its
+debut years behind those of its sister-ships, <i>Glamorous Glennis</i>
+and the NACA’s X&#x2060;-1. The second Bell plane was the X&#x2060;-1&#x2060;-D, one
+of the second-generation X&#x2060;-1s with the larger fuel tank and the
+military cockpit. In the strange way of schedules, the X&#x2060;-1&#x2060;-D was
+completed before the X&#x2060;-1&#x2060;-A and X&#x2060;-1&#x2060;-B. The planned X&#x2060;-1&#x2060;-C was
+never built. Its parts and funds were cannibalized to complete
+the A, B and D models.</p>
+
+<p>The X&#x2060;-1&#x2060;-D was a new animal, a strikingly fast, dangerous research
+airplane. On paper it could reach Mach 2.5 or maybe
+Mach 3. Like most of the planes arriving at Edwards in those
+tumultuous, fast-moving days, its design was already outmoded.
+We knew that the X&#x2060;-1&#x2060;-D would be unstable at very high Mach
+numbers. Its new fuel system, nearly identical to that in Queenie,
+was untried, and full of bugs. Under such circumstances, caution
+was the better part of valor. But no. At Edwards occasionally
+<span class="pagenum" id="Page_146">[Pg 146]</span>the temptation to throw caution to the winds was overwhelming.
+As Pete Everest has written in his book, <i>The Fastest Man Alive</i>,
+mincing no words: “... we had a chance to set another record
+that would be much harder to beat.”</p>
+
+<p>Everest goes on: “Bell flew half a dozen tests to prove the new
+rocket ship’s flying characteristics and tested the rocket engine
+in run-ups on the ground.” The historical accounts show that in
+actual fact <i>two</i> test flights were made, neither of them thorough
+or conclusive because of pressure of schedule and poverty. On
+the first, the X&#x2060;-1&#x2060;-D was carried aloft, empty of fuels, cut loose,
+and steered back to earth, as a glider, by Skip Ziegler. On the
+second, the X&#x2060;-1&#x2060;-D was fueled for a powered flight with Everest
+but aborted when the fuel system malfunctioned. The tests had
+been, to say the least, inconclusive.</p>
+
+<p>Then, as Everest writes, “I was selected to take it up and see
+what it could do wide open.” In short, Everest elected to take
+over the X&#x2060;-1&#x2060;-D, which had never been flown under power, and
+never flown at all by Everest, on a maximum-speed run on first
+powered flight. That he agreed to this at all, I think, demonstrates
+remarkable courage. That the Air Force would sanction
+such a first flight has always been a mystery to me. They were
+smarting badly from Bridgeman’s licking.</p>
+
+<p>That day in August, 1951, was a dark one in Edwards’ history
+and a very lucky one for Pete Everest. Al Boyd, then a brigadier
+general, and still commander of Edwards, elected to fly chase.
+Jack Ridley was co-pilot of the mother ship, a B&#x2060;-50, a more
+powerful version of the B&#x2060;-29. At 10,000 feet Everest put on his
+helmet and crawled from the mother ship’s bomb-bay into the
+X&#x2060;-1&#x2060;-D cockpit. He noticed right off that the rocket plane’s gauges
+were in the red. There was a leak; the tank pressures were
+sagging.</p>
+
+<p>Everest climbed back into the B&#x2060;-50 bomb-bay compartment
+for a conference with Jack Ridley. They agreed “reluctantly,”
+Everest reports, that the flight should be canceled. Everest returned
+to the X&#x2060;-1&#x2060;-D cockpit to jettison fuel. Standing in the seat
+of the plane, he reached down to pressurize the tanks. As he did,
+a bone-jarring explosion shook the X&#x2060;-1&#x2060;-D and nearly threw
+<span class="pagenum" id="Page_147">[Pg 147]</span>Everest to the floor of the cockpit. A tongue of fire licked into
+the mother ships bomb-bay compartment.</p>
+
+<p>Everest leaped from the X&#x2060;-1&#x2060;-D cockpit into the B&#x2060;-50 bomber.
+Seconds later Jack Ridley pulled an emergency lever and the
+burning X&#x2060;-1&#x2060;-D fell away from the bomber, trailed by bits and
+pieces of the B&#x2060;-50 which were shattered loose by the force of the
+rocket-ship explosion. The $5 million X&#x2060;-1&#x2060;-D crumpled onto the
+desert floor, a costly disaster on the race track.</p>
+
+<p>It was lucky for Everest that the X&#x2060;-1&#x2060;-D blew up when it did.
+In the haste to launch the flight, the plane had only half a load
+of liquid oxygen. Had Everest launched, the X&#x2060;-1&#x2060;-D would have
+been so much out of balance that it would have spun in, instantly
+and uncontrollably. The ship had no ejection seat.</p>
+
+<hr class="tb">
+
+<p>Joe Cannon, a test pilot for Bell, had been chosen to make
+the initial demonstration flights in the Queenie. With the new
+low-pressure fuel system and larger fuel tanks, some thought
+that Queenie might crack Mach 2. This would put her a shade
+beyond the record Bridgeman made in the Skyrocket. Queenie
+had “U.&nbsp;S. Air Force” painted in large letters on the fuselage.
+Whether Cannon or some Air Force pilot, such as Yeager or
+Everest, flew it, the Air Force technically would regain the
+record. After that, NACA would take charge of the plane for
+high-speed instability and aerodynamic heating investigations. I
+was to fly the Queenie for NACA.</p>
+
+<p>The new low-pressure fuel system in Queenie gave much
+trouble. Bell ground engineer Q.&nbsp;C. Harvey, a fox-terrier type
+with limitless nervous energy, was nearly frantic from the thinly-veiled
+pressure. The Bell ground crews cut corners. In early
+November on the second “heavyweight captive” flight—a trip to
+launch altitude with fuel tanks loaded for test purposes—Joe
+Cannon could not jettison the plane’s fuel. The B&#x2060;-29 mother
+plane returned to earth, bearing Queenie fully loaded with volatile
+fuel.</p>
+
+<p>It was something of a trick to purge the little planes of fuel
+on the ground. The B&#x2060;-29 moved into the dump area, still mated.
+Cannon began the ground-jettison routine. Suddenly a tremendous
+<span class="pagenum" id="Page_148">[Pg 148]</span>explosion rocked Edwards. Queenie and the mother plane
+were enveloped by swirling, vaporizing liquid oxygen.</p>
+
+<p>Cannon had removed the side door of the X&#x2060;-1. Through the
+fog the men saw him come through the opening, feet first. Then
+they saw his head and heard him yelling:</p>
+
+<p>“Get the hell out of here! She’s going to go!”</p>
+
+<p>Joe Cannon scrambled down to the ground and ran away from
+Queenie as fast as his legs could take him. The concrete ramp
+was flooded with the slippery, dangerous Lox. He fell headlong
+into a puddle of fuel. The Lox “burned” through his clothing
+and froze his skin, putting him out of action for nearly a year.
+Queenie and the mother ship went up in a burst of smoke and
+flames. Fortunately, no one was killed. The loss of the $4 million
+Queenie was severely felt at NACA.</p>
+
+<p>The Navy retained the speed and altitude records. The official
+investigations into the X&#x2060;-1&#x2060;-D and Queenie explosions went on
+for months and ultimately delayed the delivery of the X&#x2060;-1&#x2060;-A and
+X&#x2060;-1&#x2060;-B nearly two years. After the official report came out, all
+rocket airplanes of this series were extensively modified. At
+NACA our own X&#x2060;-1, in which I had completed about a dozen
+flights since last overhaul, was considered “fatigued” and was
+withdrawn from active flying. We launched a project to redesign
+and rebuild our X&#x2060;-1. The plane was redesignated the X&#x2060;-1&#x2060;-E, and
+years later it got into the air. But it never really produced
+again. For all practical purposes it was retired that fall.</p>
+
+<p>Along about the same time—that grim fall of 1951—we gave
+up hope on still another promising airplane. This was the celebrated
+Douglas X&#x2060;-3, a weird-looking, needle-nose craft with two
+jet engines and brief straight wings. The X&#x2060;-3 was designed to
+cruise for long periods at very high speed, hopefully near Mach 2.
+But she had fallen victim to the cotter-key crowd. No more complicated,
+botched-up, dangerous airplane was ever produced,
+unless it was the XF&#x2060;-92&#x2060;-A, which I shall deal with in time.</p>
+
+<p>Bridgeman was waiting patiently at Douglas to make the first
+flights on the long-delayed X&#x2060;-3. I talked to him about the plane
+occasionally, since like the Skyrocket it was ultimately slated
+for NACA. It was possible that I might be named X&#x2060;-3 pilot along
+<span class="pagenum" id="Page_149">[Pg 149]</span>with my other duties. In time, Bridgeman made twenty flights
+in the plane. Happy to be rid of it then, he turned it over to
+Chuck Yeager and Pete Everest, and never again flew an experimental
+airplane. Yeager and Everest flew the plane three times
+each. “It was one of the most difficult airplanes I have ever
+seen,” Everest said.</p>
+
+<p>Apart from its sheer mechanical complexity, the basic trouble
+with the X&#x2060;-3 was that it was underpowered. The high-thrust
+engines, which had been planned for it, fell behind schedule and
+then were canceled because of lack of funds; the interim engines
+used yielded only about fifty per cent of the desired thrust. Thus
+it required every trick in the book to get the heavy X&#x2060;-3 into the
+air and keep it there without falling out. When Yeager and
+Everest, with few regrets, turned the plane over to NACA,
+we tried unsuccessfully to fix it. Walker made about twenty
+flights. The X&#x2060;-3 became a glamorous Hangar Queen, useful
+mainly for publicity photographs. I never got to fly it.</p>
+
+<p>Thus the Douglas Skyrocket became by default the lone high-speed
+workhorse at Edwards. I was the lone jockey for a while.
+As the weeks sped by, the NACA Skyrocket team began to mesh
+with carrier-deck efficiency. We often flew the Skyrocket every
+other day—such “turn-around” time was then considered a near-miracle—probing
+the dark mysteries high in the sky. No Skyrocket
+flight was ever routine. But I got to know the ship so
+well that I could land it dead-stick on the dry lake and coast
+right up on the NACA parking ramp in front of the hangar
+door—without brakes! This saved my hard-working ground crew
+the trouble of going out to the lake with a tow-tractor.</p>
+
+<hr class="tb">
+
+<p>The floor of the Bell plant in Buffalo was immaculately clean.
+In one corner behind a curtain the shell of the X&#x2060;-2 lay awaiting
+inspection. In another corner engineers had rigged a simulated
+cockpit and control system. I was there with Walt Williams and
+other NACA and Air Force engineers to pass an interim judgment
+on this much-delayed airplane. I was especially interested
+because if the X&#x2060;-2 were ever finished I would fly her after Skip
+Ziegler had made the demonstrations.</p>
+
+<p><span class="pagenum" id="Page_150">[Pg 150]</span></p>
+
+<p>I walked up to a mechanic, working near a row of dry-cell
+batteries. I knew these batteries were to be installed in the X&#x2060;-2
+to supply power for the control system. I picked up a battery.</p>
+
+<p>“What’s this for?” I said to the mechanic.</p>
+
+<p>“My God!” he yelled. His face was white. “Don’t pick that
+up. It’s delicate. It’s for the X&#x2060;-2 control system. If you jar it, it
+might break.” It was a new and sophisticated kind of battery.</p>
+
+<p>“You don’t mean it?” I said. Then I smashed the battery down
+on the bench. Sure enough, five plates broke and the battery
+short-circuited.</p>
+
+<p>Later I learned from a Bell engineer that the delicate batteries
+had been shipped to Bell from the manufacturer in a nitroglycerine
+truck. I said to the engineer: “You really expect to put
+that kind of stuff in an airplane that will be subject to God
+knows what kind of loads and shocks in the air?”</p>
+
+<p>“Don’t ask me, Scotty,” he said. “I just work here and we
+have a thousand bosses in every corner of the government.”</p>
+
+<p>While the X&#x2060;-2 control system was a studied attempt to make
+a tremendous step, there was much we did not like about it. I
+noticed that when I operated the stick in the simulator cockpit,
+it whipped. The simulator, for demonstration purposes, was set
+to operate only at full design loads, which was far from a realistic
+measure. At my insistence the simulator was rigged to carry
+low-load conditions. Guessing what force the whipping stick
+might display, I asked Pete Everest, a member of the Air Force
+inspection party, to get in the cockpit and try it.</p>
+
+<p>The demonstration was far more dramatic than I could have
+hoped. When Everest pulled on the stick, the electrical units
+took hold, the stick whipped violently, and Everest, a small man,
+was thrown clear out of the cockpit.</p>
+
+<p>This highly sophisticated control system, which had already
+cost $4 million, was symptomatic of the disease that had drained
+the X&#x2060;-2 program (many programs, in fact) of its vitality. It
+obviously could not be made suitable for the X&#x2060;-2 in time, and
+although it meant some further delay on delivery of the airplane,
+Bell was asked to come up with a reliable and simple control
+system. Under the revised plan X&#x2060;-2 number 1 was to be hastily
+<span class="pagenum" id="Page_151">[Pg 151]</span>equipped with cables, which would not overly delay the glide
+tests scheduled to take place at Edwards. X&#x2060;-2 number 2 would
+have a hydraulic-control system. Similar units would be installed
+in X&#x2060;-2 number 1 after the glide tests.</p>
+
+<p>The X&#x2060;-2 with cable controls arrived at Edwards in June of
+1952, hung in the belly of the B&#x2060;-50 mother plane. I should say
+the shell of the X&#x2060;-2 arrived. The lagging engine (itself overly
+sophisticated) was still on the test bench at Curtiss-Wright. In
+its place was concrete ballast. Everybody at Edwards must have
+turned out to see the X&#x2060;-2. Few of them realized then that the
+ship was jinxed. They saw only a sleek, swept-wing airplane,
+looking as though it were moving supersonically while sitting
+still on the ground.</p>
+
+<p>The X&#x2060;-2 had the conventional nose wheel; and the main landing
+gear had been made a broad ski which protruded from the
+fuselage just below the wing center-section. The main purpose
+of the glide test was to check on the nose-wheel ski concept.
+Bets were laid when Ziegler went aloft in the X&#x2060;-2 on his first
+flight. It was important that the gear work perfectly. A powerless
+rocket plane landing dead-stick cannot go around for another
+try.</p>
+
+<p>I watched from the sidelines. The X&#x2060;-2 was heavy, and the
+B&#x2060;-50 mother plane labored to reach launch altitude of 30,000
+feet. Then I saw the X&#x2060;-2, looking like a tiny white toy in the
+deep blue sky, fall away cleanly. Powerless, silent, Skip guided
+the plane toward Rogers Dry Lake. His flare-out, at 200 miles
+an hour, looked good. The skid and nose wheel popped out. The
+X&#x2060;-2 touched and the nose wheel failed. When it collapsed, the
+plane churned around on a wingtip, gouging a hole in the desert
+runway.</p>
+
+<p>The plane was repaired and the landing-gear unit improved.
+They also added “whisker skids”—smaller skis midway under
+each side of the wing. Skip Ziegler tested the new gear without
+incident. Then Pete Everest made one hair-raising test—the left
+whisker ski extended only after the right ski had jarred the
+earth—and the X&#x2060;-2 was shipped back to the factory for installation
+of the new hydraulic-control system and the rocket engine.</p>
+
+<p><span class="pagenum" id="Page_152">[Pg 152]</span></p>
+
+<p>Months later the plane was ready for “captive” fuel tests.
+These were conducted not at Edwards but over Lake Ontario,
+near the Bell factory, because of Ziegler’s dedicated zeal to get
+the program rolling. On the second captive fuel test in May,
+1953, an explosion ripped through the X&#x2060;-2. The blast and flames
+reached into the mother ship’s bomb-bay, killing Skip Ziegler and
+a Bell crewman, Frank Walko. The X&#x2060;-2 was cut loose and
+plunged flaming and exploding into Lake Ontario. The B&#x2060;-50,
+blown skyward and gutted by the explosion, somehow stayed
+together long enough for Bell pilot Bill Lewshon, with brilliant
+flying, to get it back on the ground. Then it was junked.</p>
+
+<hr class="tb">
+
+<p>Dr. Hugh Dryden, one of the world’s leading aeronautical
+scientists, was Director of NACA. Technically, Jimmy Doolittle
+was chairman of the main National Advisory Committee for
+Aeronautics, which reported directly and only occasionally to
+the President. But Dryden was Doolittle’s chief general. Dryden,
+an older man who wore thick glasses, ran NACA day by day.
+He had a slow, deliberate way of talking. If ever a government
+agency was the perfect image of its director, it was NACA. In
+Dryden’s face you could see it all: conservatism, scholarship, wisdom,
+caution. His office in an old building on H Street in Washington
+was Spartan. It might have been the office of a college
+professor.</p>
+
+<p>I was there on an urgent mission—back on a familiar theme.</p>
+
+<p>“Dr. Dryden,” I said. “This X&#x2060;-2 program is in serious trouble.
+What’s lacking is a Bob Stanley or a Skip Ziegler, if you will.
+The drive has gone out of the X&#x2060;-2 project. If we’re not careful,
+sir, it’s going to wind up like the X&#x2060;-3, a great big expensive
+Hangar Queen.</p>
+
+<p>“I know this is an Air Force project, that they’re funding it.
+But I think it is time we stepped in and took a firm hold. That
+plane’s supposed to come to us for serious aerodynamic investigation.
+There’s another investigation going on about the explosion.
+It may take months. The control system hasn’t been checked out.
+The engine is so far behind schedule you can’t say anything
+good about it.”</p>
+
+<p><span class="pagenum" id="Page_153">[Pg 153]</span></p>
+
+<p>“Well, you certainly seem quite interested in this program,”
+Dryden said. He weighed each word.</p>
+
+<p>“Yes, sir,” I said. “I am supposed to fly the airplane and I
+would like to do so before I retire.”</p>
+
+<p>“What do you propose?”</p>
+
+<p>“I propose that I be assigned to the Bell plant on temporary
+duty. There I’ll help every way I can to spark the program to
+completion. Then I’ll make the demonstration flights for Bell.
+Then I’ll return with the plane to NACA at Edwards and complete
+the flight-test program. I have talked with Bell people
+about it and they think the idea has some merit.”</p>
+
+<p>Dr. Dryden’s answer surprised me, frankly. “Very well,” he
+said. “If Williams approves, you may try it.”</p>
+
+<p>I returned to Edwards on Cloud Nine. The X&#x2060;-2 plan, as I had
+envisioned it, would be immensely valuable experience and
+background for my future. It would give me time in a rocket-plane
+factory, flight-test experience in the most advanced airplane
+man had conceived, and inevitably a little public notice
+which, I was learning, was a necessary part of moving ahead in
+my field. The X&#x2060;-2 was not the ideal because it amounted, in
+effect, to bailing out a sinking boat. But it was a start.</p>
+
+<p>“Damn it, Scotty,” Williams said, “we really need you around
+here. The X&#x2060;-2 can wait. That plane may kill more people yet.”</p>
+
+<p>“But Walt,” I said. “When you hired me you said I’d get a
+crack at the X&#x2060;-2. That was three years ago and we haven’t got
+the plane yet.”</p>
+
+<p>“Well, maybe it’s okay with me if it’s okay with Vensel. He’s
+your boss. He has the final say-so. Tell him it’s up to him.”</p>
+
+<p>Vensel said no. He implied I was urgently needed at Edwards.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_154">[Pg 154]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_16">CHAPTER 16 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 16</span> <i>Bright Light Under a Bush</i>
+ </h2>
+</div>
+
+
+<p class="noindent">I eyed the new ship skeptically. White as a lily, it was the X&#x2060;-5,
+another product from Bell. The ship was powered by a single
+jet engine, and from a distance it appeared fairly conventional.
+What was vastly different about the X&#x2060;-5 was that its wings
+could be swept to several different angles in flight. Two X&#x2060;-5s
+had been built. One was turned over to the Air Force; NACA
+got the other. Joe Walker was project pilot and had gotten
+our program off the ground. I was to make my first check-out
+flight.</p>
+
+<p>“What do you want on this flight?” I asked Thomas Finch, an
+NACA engineer.</p>
+
+<p>“The flight plan calls for aggravated stalls,” he said. These
+would help define the safe low-speed limits of the airplane.</p>
+
+<p>“What do you mean, aggravated stalls?” I said. “How far?”</p>
+
+<p>“Use your own judgment,” Finch said. “But if you can take
+her well into the stall region, that’ll be fine.”</p>
+
+<p>The wings were to be swept to sixty degrees that flight.
+I cooled down the runway, followed by an Air Force chase,
+and climbed rapidly to altitude. I had read the manual on the
+airplane and all of the early flight reports, which had been
+<span class="pagenum" id="Page_155">[Pg 155]</span>prepared by Skip Ziegler before he died over Lake Ontario;
+I had also been briefed by Joe Walker. The X&#x2060;-5 handled in
+the air like a three-wheeled automobile. It was loose and
+danced crazily. Even so, we thought it would make a fine
+research tool. With its high sustained speed just under Mach 1,
+and its variable sweep, NACA could explore a wide variety of
+unknowns. It was like having a whole stable of swept-wing
+airplanes in one.</p>
+
+<p>I climbed to 25,000 feet and reported to chase that I would
+make several aggravated stalls. I pulled back on the throttle
+and eased back the stick. As the X&#x2060;-5 slowed, she began to
+buffet; slower and slower, more and more buffet. Suddenly
+her nose veered sharply to the left. In a split second, the X&#x2060;-5
+turned 180 degrees. Then she dropped precipitously into a
+spin. My first-flight jinx was back.</p>
+
+<p>A kaleidoscope of brown desert, blue sky, and white clouds
+passed dizzily in review in my windshield as the X&#x2060;-5 wound
+up steadily toward the desert floor. I pushed the stick hard to
+forward left and bent on full right rudder—the prescribed spin-recovery-control
+maneuver—but the X&#x2060;-5 stubbornly refused to
+conform. Then I tried every trick in the book, pretty thick by
+now, after those years of flying unstable airplanes at Edwards.
+After a drop of over 10,000 feet, the X&#x2060;-5 pulled out.</p>
+
+<p>Walker had run into the same thing. This slow-spin-recovery
+was a dangerous weakness of that airplane. Since the Edwards
+area was 2500 or more feet above sea level, we made a careful
+note on the plane’s flight handbook <i>never</i> to perform maneuvers
+which could result in a spin below 20,000 feet.</p>
+
+<hr class="tb">
+
+<p>“Did you get the word on Popson?” Joe Walker asked. Popson
+was an Air Force pilot assigned to fly the Air Force’s X&#x2060;-5.</p>
+
+<p>“No,” I said. “What happened?” I had just come in from a
+trip to the East Coast.</p>
+
+<p>“He was assigned to do aggravated stalls at 12,000 feet. He
+spun in.”</p>
+
+<p>I was sick. We had somehow failed in a basic NACA mission—getting
+information to the right place in time.</p>
+
+<p><span class="pagenum" id="Page_156">[Pg 156]</span></p>
+
+<p>Popson was a well-qualified pilot. If there had been better
+coordination between Air Force and NACA, he might be alive
+today; his flight plan was his death warrant, as so often happened.
+He was dead before he took off, the thirteenth pilot to
+die at Edwards. Following custom, a street was named in his
+honor.</p>
+
+<hr class="tb">
+
+<p>Bell’s Bob Woods was a tremendous man. He’s dead now, so
+there is no way to check, but I think he weighed at least three
+hundred pounds. He was the last of the Great Guns of an era at
+Bell. In spite of the X&#x2060;-1 and X&#x2060;-2 difficulties, Wood carried on in
+the grand old style. You had to admire his vision and political
+guts.</p>
+
+<p>Woods had a talent for hypnotizing a crowd—or anyway <i>me</i>,
+at least. And so it was in the spring of 1952, during a semiannual
+meeting of the full NACA Aerodynamics Subcommittee at the
+Ames Laboratory, Woods stood before a blackboard. From my inconspicuous
+seat in the background, I stared at his girth and
+the vast outpouring of enthusiasm as he made a case which,
+to me, was as fascinating as his size.</p>
+
+<p>“As I see it,” Woods went on before the large meeting of
+industry designers, “this would essentially be a research aircraft
+and come under NACA jurisdiction. The information it
+returned would be made available to all. The craft would be
+mounted on top of a vertical booster, in effect a ballistic missile.
+Launch speed would be 4,000 or 5,000 feet a second. The
+booster would fall away. The vehicle would continue a climb
+to about eighty miles. On descent, recovery would be effected
+by a deployed parachute. The booster vehicle could essentially
+be a V&#x2060;-2 type missile.</p>
+
+<p>“This vehicle would enable us to probe a number of unexplored
+areas. Aerodynamic heating at hypersonic speed. Weightlessness
+for the pilot and research airplane machinery.” As he
+talked, a lieutenant stood by to flip through a set of expertly
+drafted drawings demonstrating each point.</p>
+
+<p>“Gentlemen,” Woods concluded, “I don’t think I have to stress
+the need for an advanced research vehicle. The best thing we
+<span class="pagenum" id="Page_157">[Pg 157]</span>have in the hopper now is the X&#x2060;-2 and we all know the limitations
+of this aircraft, which has not even flown yet. We must
+face up to the fact that we are going to do something about
+this or sit back and let the Russians take the lead.”</p>
+
+<p>I listened eagerly while the brass kicked around Woods’ proposal.
+There were many pros and cons from a technical standpoint.</p>
+
+<p>As I say, Bob Woods had something of a magnetic personality.
+After the meeting at Ames, he paid us a visit at Edwards.
+Then, I suppose, he went on to NACA headquarters in Washington
+and probably on down to talk to John Stack at NACA’s
+Langley Lab in Virginia. In any case, all at once, all the
+somnolent parts of NACA were suddenly awake and chirping
+simultaneously about a new advanced research airplane. One
+reason was that the timing was good. The other rocket planes
+were in trouble or dropping far behind schedule. The missile
+engineers were then beginning to squeeze enormous thrust out
+of a single rocket barrel, more than twice the power of the V&#x2060;-2
+rocket engine developed by the Nazis. The Army’s Redstone
+missile generated 75,000 pounds thrust, about ten times the
+thrust of the engine in the Douglas Skyrocket. It was clearly
+time to take advantage of this rapid technological advance.</p>
+
+<p>Walt Williams came alive with enthusiasm. He called in Drake
+and Carmen and asked them to pull out their advanced report
+which had been pigeon-holed the year before.</p>
+
+<p>“Damn it,” said Williams, “if Woods can get up before a
+meeting of the Aerodynamics Subcommittee and propose shooting
+a man eighty miles into space in a missile, I guess we can
+propose the five-engine monster.” The Drake-Carmen report,
+with Williams’ endorsement, was sent on to the Langley Laboratory
+for serious study.</p>
+
+<p>None of this produced any immediate results in terms of
+hardware. The Drake-Carmen proposal was rejected out of
+hand. The Woods proposal, because it came from industry, got
+the full NACA treatment—that is to say, a rejection, complete
+with technical data attached. Basically, no one at that time was
+in favor of the “ballistic” approach, although the U.&nbsp;S., and
+<span class="pagenum" id="Page_158">[Pg 158]</span>NACA, specifically, would return to exactly that same approach
+for Project Mercury some five or six years later. However, all
+this activity set NACA planning toward a more or less “conventional”
+advanced research airplane in the range of Mach 6
+and 100-mile altitude. As everyone knows, once the ponderous
+machinery of a government agency is set in motion toward an
+objective, it can hardly be stopped.</p>
+
+<p>During the weeks that followed, I paid this paper-study airplane
+more than casual attention. From exactly this kind of
+start, I knew, eight years earlier Kotcher, Stack, and Woods had
+given birth to the X&#x2060;-1 and ushered in a new dimension in aviation.
+With rocket engines now ten times more powerful, were
+we on the threshold, were we in the very act of conceiving a
+new generation that would make the X&#x2060;-1 pale by comparison?
+Man had yet to fly at Mach 2 and we were talking of Mach 6
+and altitudes of 100 and 200 miles. This was Buck Rogers stuff,
+space flight. This was it!</p>
+
+<p>I knew instinctively that my future lay in that paper airplane.
+It was then no more than a column of figures together
+with NACA’s resolution to investigate its possibilities. But in
+my mind it was a thing of steel, or titanium, or whatever
+material it would be built of—a sleek, perfectly engineered object,
+a thing of marvelous beauty and near-perfection, a boyhood
+dream in real life.</p>
+
+<p>The X&#x2060;-15 had been born. The name of the game was to get
+aboard it somehow, and at the right time.</p>
+
+<hr class="tb">
+
+<p>The months rolled by at NACA. I flew sometimes two or
+three flights a day in the X&#x2060;-4, X&#x2060;-5, and other craft. But my biggest
+effort was reserved for the Douglas Skyrocket. Lacking
+other high-speed rocket airplanes for data purposes, I gradually
+pushed the Skyrocket to Bridgeman’s record of Mach 1.8 and
+beyond. In fact, during the spring of 1953 after I had logged
+some thirty flights in the bird, I regularly flew to Mach 1.8
+and frequently to Mach 1.9 or a little more. Since we had no
+real technical reasons to exceed it, I kept below Bridgeman’s
+altitude record of 79,000 feet. My speed in the Skyrocket was,
+<span class="pagenum" id="Page_159">[Pg 159]</span>of course, a world’s record. Typical of NACA we hid this bright
+light under a bush, and Dr. Dryden ordered me to stay below
+Mach 2. It mattered only a little to me. I had grown up professionally
+within NACA and had come to accept urgency in
+record-making as childish.</p>
+
+<p>The military thought otherwise. That year, 1953, the world
+was celebrating the fiftieth anniversary of flight, and the
+publicists were casting around for a sensational drum-beat in
+memory of the Wright brothers. In short, a new speed or altitude
+record. That summer the long-awaited Bell X&#x2060;-1&#x2060;-A, a sister-ship
+of the ill-fated X&#x2060;-1&#x2060;-D, arrived at Edwards. With it came
+the Air Force’s star, Chuck Yeager, temporarily released from
+another assignment. We knew what he would be shooting for:
+Mach 2. If he made it, he would go down in history as the
+first man to fly Mach 1 and then Mach 2. It was a publicity
+agent’s dream, a perfect unveiling for the fiftieth anniversary
+of flight.</p>
+
+<p>The Navy had not the slightest intention of letting the Air
+Force pluck this plum without a stiff fight. One day in the
+summer of 1953 Marine Colonel Marion Carl arrived at NACA.
+Carl is one of the most fabulous aviators in history. A leading ace
+in World War II, Carl had set a speed record in the original
+D&#x2060;-558&#x2060;-I back in 1947. Since that time he had been engaged in
+other assignments in Washington and was top pilot for the Naval
+Air Test Center, Patuxent River, Maryland, the Navy’s counterpart
+of Edwards. Carl had never flown a rocket airplane. But
+Walt Williams called all of us into the office to announce that the
+Navy was “borrowing” the Skyrocket for a few days. Colonel Carl
+would try to beat Bridgeman’s altitude record of 79,000 feet and
+set a speed record of Mach 2.</p>
+
+<p>“That will really make Yeager’s job tougher,” Williams said.</p>
+
+<p>I threw myself into the venture as enthusiastically as if the
+flight had been planned for me. One reason was that Carl, a
+big lanky guy, was immensely likable and a superb aviator,
+in my book. I had to admire his guts. There weren’t many pilots
+in the world who would deliberately jump in the Skyrocket
+and go for broke. We stayed up late at night. I told him every
+<span class="pagenum" id="Page_160">[Pg 160]</span>detail of the Skyrocket, all her quirks and strong points, what
+to beware of, just how to balance on that knife-edge high in the
+thin air, how to avoid the dangerous Supersonic Yaw that had
+bothered Bridgeman and myself. In many ways this was superfluous:
+he had done considerable cramming before he came.</p>
+
+<p>Carl had one advantage over most beginning rocket-plane
+pilots. The NACA Skyrocket team was unbeatable. The plane
+was by now almost completely debugged. He could count on
+efficiency and competence up to the moment of launch, and a
+mechanically near-perfect bird in flight. The rest was up to him.</p>
+
+<p>The first two flights were failures—he never launched. On the
+first I flew chase. Carl experienced some difficulty in the strange
+Skyrocket cockpit and I was too far away to help. Thus on
+the second flight I rode in the mother-ship bomb-bay compartment.
+I helped Carl suit up and strapped him in the Skyrocket
+cockpit. Then, up until the moment of launch, I helped
+Jack Russell operate the mother plane’s manual Lox top-off
+system, pumping Lox into the tanks of the Skyrocket to replace
+boil-off. Since liquid oxygen (Lox) “boils away” at altitude, we
+had equipped the mother plane with a Lox “top-off system,”
+which keeps pumping Lox into the research airplane until a
+few moments before launch. Full Lox tanks also mean a longer
+rocket flight, always a prime objective. Carl would need every
+ounce we could squeeze in to break an altitude record. The
+second flight ended much like the first. Frankly, I was amazed
+at the limitless competence of the man in a brand-new and, to
+him, hostile environment.</p>
+
+<p>On the third flight and first launch Carl made it. After a
+perfect light-off he stood the Skyrocket on its tail and blazed
+to 85,000 feet, beating Bridgeman’s record by a healthy 6,000
+feet. His recovery in that thin air was adroit, and he landed
+the ship dead-stick on the lake, beaming with pride. Now he
+was ready to tackle the speed record, to rack up Mach 2 for
+the Navy.</p>
+
+<p>This would be tough, I knew. My top speed in the Skyrocket,
+and Carl had to exceed this first, was Mach 1.96. I had achieved
+that speed only after months of flying in the ship, of learning
+<span class="pagenum" id="Page_161">[Pg 161]</span>to tread the knife-edge with extreme care and skill. In that
+airplane even the slightest over-pressure on the stick would
+cut the speed back drastically and botch a flight. It would be
+tougher in summer, when the air was warmer. The Skyrocket
+performed best when it was cold.</p>
+
+<p>Colonel Carl made two unsuccessful tries for Mach 2. Then,
+under pressure from some conservative elements in Navy headquarters,
+he gave up the attempt, after failing to come close.
+Ever since, I have held Carl in highest regard. In five brief
+Skyrocket flights he had shattered the world altitude record.
+His record is usually omitted from most aviation-record summaries.
+I think that is because he was a Marine. But Carl, in no
+sense a small man, had never raised the point himself.</p>
+
+<p>Carl’s performance made a lasting impact on me. After he
+left Edwards I began to think hard about records. The names
+of the famous rocket pilots hummed through my mind: Yeager,
+Boyd, Ridley, Everest, Bridgeman, Carl. I had seen enough of
+these men to know that when they spoke they commanded the
+attention of four-star generals and admirals, even Dr. Dryden.
+Although only one (Ridley) was an engineer, when they made
+a suggestion about an airplane it was considered a command,
+and millions were spent on their intuitive say-so. Their authority
+had been built not only on a foundation of tens of thousands
+of data points wrung from research airplanes, but mainly from
+singular, spectacular bursts—records.</p>
+
+<p>With the right man at the controls I knew the Skyrocket
+could reach Mach 2, though not easily. Scott Crossfield might
+be the man, the first man to fly at Mach 2. If so, who knew what
+the future held?</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_162">[Pg 162]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_17">CHAPTER 17 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 17</span> <i>Light in the Open</i>
+ </h2>
+</div>
+
+
+<p class="noindent">“What’s the situation on the X&#x2060;-1&#x2060;-A?” Williams asked. I
+had just come from an inspection of the ship, which was being
+readied for flight in the Edwards Air Force hangar.</p>
+
+<p>“There are some technical difficulties in the airplane, some
+of them critical, I think. I’ll give it to you in a report,” I said.</p>
+
+<p>“Is Yeager going to go?” Williams asked.</p>
+
+<p>“All out, that’s for sure. He was trying to feel me out a
+little, find out what we were doing with the Skyrocket. I didn’t
+tell him, although I let drop it was a pretty high Mach number.
+They’re going to get this flight in before the Wright Brothers
+Memorial dinner if it kills them.”</p>
+
+<p>“Don’t say that.”</p>
+
+<p>“I didn’t mean it that way, Walt.” I said. “But everything
+indicates that this airplane is going to go directionally unstable
+at Mach 1.8 and above. I’m sorry to see they have pulled Yeager
+back especially for this. Something might happen. He is going
+to Mach 2 or faster if he can.”</p>
+
+<p>“How about giving me a written report on the inspection?
+At least we can show we were trying to make this thing as
+nearly safe as possible. I’ve already put in one objection and
+<span class="pagenum" id="Page_163">[Pg 163]</span>gotten my ears pinned. Don’t get into the flight operations
+aspects, just confine the report to the systems inspection.”</p>
+
+<p>“Okay, Walt.” I turned to leave.</p>
+
+<p>“By the way,” Williams said, “we’re supposed to get some stuff
+together for this proposed advanced research airplane. I’ve got a
+report here prepared by O’Sullivan, Brown, and Zimmerman
+from Langley.”</p>
+
+<p>My heart skipped a beat or two.</p>
+
+<p>“What do they recommend?” I asked.</p>
+
+<p>“It’s not a recommendation for a specific airplane configuration.
+They think some more study should be given. They want
+to run a lot more wind-tunnel studies on shapes. They especially
+want to investigate aerodynamic heating. They’ve sent
+the report to all NACA facilities for general comment, and in
+some cases for specific engineering studies. Most of the technical
+work will be done down at Langley—the aerodynamic
+heating phase. They’ve rigged up a shotgun-type wind tunnel
+that will give them a micro-second blast as high as Mach 16.
+Miniature stuff, but a start.”</p>
+
+<p>“What can we do to keep this thing rolling, Walt?” I asked.</p>
+
+<p>“<i>Keep</i> it rolling? You mean <i>get</i> it rolling good and fast, don’t
+you? This thing could die on the vine right quick if the right
+people don’t push it.”</p>
+
+<p>“All right, <i>get</i> it rolling.”</p>
+
+<p>“What I’d like <i>you</i> to do, Scotty, is prepare a report—take
+your time, a couple of weeks, if need be—outlining the operational
+phase of the proposed advanced research airplane. Make
+this a real positive report. Write it as though the airplane were
+a definite thing and don’t overstress the problems. Show them
+that for us the flight program of this airplane would be strictly
+no sweat.”</p>
+
+<p>“I can do that because I believe it will be no sweat,” I said.
+“What kind of guide-lines have they given us on speed and
+altitude?”</p>
+
+<p>“The numbers they’re kicking around now are Mach 6 and
+75 miles altitude, close to 400,000 feet.”</p>
+
+<p>I got up and walked to a map which covered one part of
+<span class="pagenum" id="Page_164">[Pg 164]</span>the wall in Williams’ office. I made some mental calculations
+and spaced off some distances with my thumb and little finger
+stretched to maximum.</p>
+
+<p>“I think you’ll probably have to launch some place over Salt
+Lake to make a powered flight and land at Edwards,” I said.</p>
+
+<p>Williams got up and joined me before the map.</p>
+
+<p>“How about this area around Las Vegas?” he said.</p>
+
+<p>We stared at the patches on the map which outlined the
+many dry lakes. There was a long string of them between
+Edwards and Salt Lake, forming almost a straight line. Any
+of the lakes along the route could serve as an emergency strip
+if something went wrong.</p>
+
+<p>“How far is it from here to Salt Lake?” Williams asked.</p>
+
+<p>“About four hundred miles,” I said.</p>
+
+<p>He sat down and doodled on a scratch pad. He slammed
+open his desk drawer and pulled out a slide-rule. He figured
+swiftly for several minutes, scratched his closely cropped, stiff
+hair. I noticed that it was beginning to gray.</p>
+
+<p>“I think that’s it,” he said. “If the mother plane is fast enough,
+you can take off from here, fly to Salt Lake in an hour or so
+and launch. The research plane would be back here on the
+ground in half an hour more.”</p>
+
+<p>“Our first aircraft in space,” I said. In NACA’s vernacular
+we called it “extra-atmospheric flight.”</p>
+
+<p>That afternoon I began my report: “Operational techniques
+for a research airplane of the type proposed in reference (a)
+will <i>not</i> present difficult problems if operational people have a
+strong voice in the philosophy of the design and function of
+the airplane and its parts....”</p>
+
+<p>I went on to discuss some of the technical details of the
+mother plane, the launch speed and altitude and recovery phases,
+recommending the Salt Lake area as a launch point. Then I
+digressed into a discussion of the pilot safety and escape
+mechanisms, emphasizing that all could be performed adequately
+by following known procedures and making use of
+existing techniques. I expressed doubt that cosmic radiation or
+zero G weightlessness would prove a problem, although at that
+<span class="pagenum" id="Page_165">[Pg 165]</span>time, typically, there were experts in these fields who had made
+a federal case of each.</p>
+
+<p>I concluded my report: “Directly proportional to operational
+problems, and hence of vital importance, is the complication of
+the airplane devices and over-engineering of the systems. From
+the inflight point of view, the pilot-protection items lose their
+value if reliability and airplane performance are sacrificed.”</p>
+
+<p>In short, let’s not botch up the airplane like the X&#x2060;-2 and X&#x2060;-3.
+Keep it simple, always realizing that performance means pilot
+safety and performance comes in this sense from reliability.</p>
+
+<p>I completed the report on the following day and forwarded it
+to Walt Williams. Thus, little by little, and much too slowly for
+our money, the X&#x2060;-15 was taking shape in people’s minds.</p>
+
+<hr class="tb">
+
+<p>They had towed the XF&#x2060;-92&#x2060;&#x2060;-A far down on the lake bed. It
+was sensitive to crosswind and the more the take-off run was
+directly into the wind, the better. Pete Everest was ready to
+make the last Air Force test flight before turning the plane
+over to NACA. After the plane was in place, the wind changed
+slightly. But that was enough to cancel the flight. I was in
+Williams’ office with Everest.</p>
+
+<p>“Well, Scotty,” he said, “you’re going to fly the plane next
+week. Why don’t you go down to the lake and get it? You can
+taxi it back and lift it off the lake, just to get the feel of it.”</p>
+
+<p>I grabbed my flight gear and drove down to the airplane.</p>
+
+<p>The XF&#x2060;-92&#x2060;-A was the worst-flying airplane built in modern
+times that I know of. It was a delta-wing plane, the first modern
+delta job manufactured in the country. Originally the plane was
+designed for a ram-jet engine. When that engine fell by the
+wayside, the XF&#x2060;-92&#x2060;-A was fitted with first one jet engine and
+then another. It was a hopeless mess, a patchwork quilt of fixes
+upon fixes. It was underpowered, under-geared, under-braked,
+and overweight. It was a nightmare. When it first arrived at
+Edwards in the early days, Chuck Yeager washed out the gear on
+take-off. After company demonstration, and Al Boyd’s flight, by
+Air Force order only three Edwards pilots were permitted to fly
+<span class="pagenum" id="Page_166">[Pg 166]</span>the plane: Yeager, Everest, and Crossfield. The Air Force was not
+sorry to turn it over to me.</p>
+
+<p>I climbed into the cockpit, pulled the canopy shut, and got set
+for a fast taxi, and shallow lift-off, back toward the base area. I
+gunned the engine, and the plane, heavy with fuel, wobbled
+into the air. I had read the manual and talked at length with
+Pete Everest. I knew the plane was weak on brakes. One way
+to stop the roll was to hold the plane nose-high—very high.
+With the lake bed running out on me, I horsed back on the
+stick and brought the nose up. My speed fell off only slightly.
+I pulled back hard on the stick and nearly stood the beast on
+her tail. She plopped down on the lake but continued to roll
+like a Ferrari.</p>
+
+<p>I was in trouble. The lake was all but gone. I was barreling
+toward a cluster of sand dunes, unable to stop the plane. Well,
+Crossfield, I thought, the old first-flight jinx is working hard,
+and this time you’re going to wrap this plane up in a ball. It
+would be a mess, too. The plane was fully fueled, all the tanks
+around the engine and wheel-wells were brimming. Even under
+the best of circumstances, she was a fire-trap.</p>
+
+<p>I figured a way to save my own hide. I could see that a
+small bluff lay ahead directly across my path. I would let the
+plane roll on until an instant before it smashed into the bluff.
+At that second I would retract the gear, turn on all the fire-extinguishers,
+blow off the canopy, and, as the belly skidded
+onto the bluff, jump out and run. I stop-cocked the engine and
+shut down all the circuit breakers and pumped what little
+brake I had, first left then right, to dodge a couple of sand
+islands in my path.</p>
+
+<p>As the plane raced on toward the bluff, I suddenly noticed a
+narrow dirt road going off to my left. Could I make that? I
+jammed on the left brake with all my might. The small brake
+seized for a split second, then fell off on the lake floor, a molten
+mass of metal. But the plane had turned slightly toward the
+rutted dirt road and I turned it still more by sheer will power.
+When I hit the road, the tires blew and burned. But the plane
+stayed straight and level. A hundred yards up the road, it finally
+<span class="pagenum" id="Page_167">[Pg 167]</span>ground to a halt. I pulled the fire-extinguishers and jumped out.</p>
+
+<p>After that the dirt road was facetiously renamed the Crossfield
+Pike in my honor. Everest cracked: “You know, Scotty,
+you’re the only pilot still alive at Edwards who has a road named
+after him.”</p>
+
+<p>One of the weakest points of the XF&#x2060;-92&#x2060;-A was the engine
+installation. During the early phase of the program before I flew
+it, we burned out an engine on almost every other flight, laying
+the ship up for repairs for weeks on end. In fact, it took eighteen
+months to log eighteen flights. We made many changes in the
+installation and operational procedures, so that by the time
+I flew it we fortunately never lost another engine. But every
+time I took off in that plane I held my breath until I reached
+sufficient altitude to use the ejection seat, if necessary. The
+pilot never really flew that airplane, he corralled it.</p>
+
+<p>I made twenty-five flights in her during the summer and fall
+of 1953. On the last one, in October, she collapsed on the lake
+bed while taxiing after landing. The nose wheel simply got tired
+and buckled. The plane ground-looped and came to rest, teetering
+on the nose and one wingtip. After I was sure that it would
+not fall over on me, I crawled out.</p>
+
+<p>The plane never flew again after that. It was finished and
+no one shed any tears. Some mechanics patched it up, and for
+a while it was used for publicity purposes as a static exhibit
+at air shows, Rose Bowl parades, and so on.</p>
+
+<p>From an engineering standpoint I should not be overly harsh
+on the XF&#x2060;-92&#x2060;-A. Actually, the combined Air Force-NACA flight
+program produced a great deal of information which ultimately
+made the Convair F&#x2060;-102 delta-wing fighter and its newer sister-ship,
+the F&#x2060;-106, feasible airplanes. The data we accumulated
+from the XF&#x2060;-92&#x2060;-A enabled the F&#x2060;-102 and F&#x2060;-106 to achieve an
+acceptable stability in flight, and thus the darned thing had
+accomplished its purpose.</p>
+
+<hr class="tb">
+
+<p>Not long after the final demise of the XF&#x2060;-92&#x2060;-A, I visited the
+office of “Perk” Perkins, the Navy liaison civilian stationed at
+<span class="pagenum" id="Page_168">[Pg 168]</span>Edwards. He was the very valuable contact for NACA when we
+needed something from the Navy. He had been in the thick of
+the Marion Carl altitude and speed attempts in the Skyrocket.
+He was a good friend.</p>
+
+<p>“Perk,” I said, “I can’t be here officially. Dr. Dryden has
+ordered me not to take the Skyrocket to Mach 2. But this is a
+Navy-sponsored plane and I thought I would kick around some
+possibilities with you. Something that the Navy would think
+beneficial.”</p>
+
+<p>Perkins caught on fast. My case made sense. Yeager was
+going to take the X&#x2060;-1&#x2060;-A to Mach 2, come hell or high water.
+The X&#x2060;-1&#x2060;-A was a new bird. We knew it would be unstable
+above Mach 1.8. Yeager had already encountered instability
+above that speed on a practice run. Knowing Yeager, though,
+the chances were he would make it. The Wright Brothers dinner
+was coming up. We could achieve Mach 2 in the Skyrocket because
+after scores of flights we had learned to live with its
+instability. I knew the plane well. I could fly it. “U.&nbsp;S. Navy”
+was stamped all over the project. The Navy would get the credit
+without risking a failure. If I failed, no one would be the
+wiser.</p>
+
+<p>“The only thing is,” I said, “the pressure for this flight must
+come from the Navy direct to Dr. Dryden on the highest levels.
+It’s going to be tough because Dryden does not want to challenge
+the Air Force. He’ll be caught in the middle but it ought
+to be interesting.”</p>
+
+<p>I left Perkins’ office wondering if I had not slipped a cog.
+Imagine Crossfield proposing a record attempt. Imagine Dr.
+Dryden approving it!</p>
+
+<p>In the best Navy tradition, Perkins was a resourceful and
+decisive man. Right off, he found out that the Navy’s Chief of
+the Bureau of Aeronautics, Rear Admiral Apollo Soucek, was
+visiting on the West Coast. Perkins tracked him down. Soucek
+had no objections, provided the matter had been cleared through
+the Chief of Naval Operations in the Pentagon. Perkins got on
+the wire to the Pentagon and talked with our old friend Marion
+<span class="pagenum" id="Page_169">[Pg 169]</span>Carl. Carl knew just how to do it, apparently, because a week
+later Dryden sent word to Walt Williams to say that the Mach 2
+restriction on the Skyrocket had been lifted. Williams was dumbfounded
+and for some reason suspicious of my role in this caper.</p>
+
+<p>“It’s up to you now, Scotty,” said Perkins. “The Pentagon
+says we can have one try at it. If we miss, we have to step aside
+for Chuck Yeager.”</p>
+
+<p>“I won’t miss,” I said.</p>
+
+<hr class="tb">
+
+<p>The timing was splendid. I was not aware of it then, but a
+change was taking place within NACA. The cost of operating
+its laboratories was mounting in direct proportion to the increasing
+complexity of modern airplanes. NACA urgently required
+advanced tools to probe new areas of flight. These had to be
+in place in a hurry if they were to do any good. But money was
+hard to come by. The administration, in general, had taken a
+dim view of “research,” and NACA’s contributions were not
+easy to explain in lay language. NACA was about to bring its
+light into the open. The Mach 2 proposal must have fitted very
+neatly with NACA’s new plans.</p>
+
+<p>In fact, a few days later, to my astonishment Dr. Dryden’s
+able assistant, Walter Bonney, arrived at Edwards. Bonney,
+a good-natured man then a few years my senior, had worked
+for Bell Aircraft for years as a public relations man. In 1949
+Bonney had joined NACA in Washington, where he soon discovered
+that his talents as a flack were not so appealing as his
+talent for writing history. In the prevailing atmosphere Bonney
+went underground and began preparing the most thorough and
+objective history of aviation yet conceived. For years my hobby
+had been aviation history. During the years Bonney and I had
+spent many hours together on this subject. I had turned over
+to him my collection of research.</p>
+
+<p>“Walt!” I said. “What brings you to Edwards? We’re not
+doing anything out here an aviation historian would be interested
+in.”</p>
+
+<p>“Son,” Bonney said, tossing me a quizzical smile, “I’m not a
+<span class="pagenum" id="Page_170">[Pg 170]</span>historian on this mission.” Bonney called everyone younger than
+he “son.”</p>
+
+<p>I knew then that Bonney had come out to handle “press relations”
+in the event I was successful in reaching Mach 2. What
+was happening to staid old NACA, anyway?</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_171">[Pg 171]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_18">CHAPTER 18 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 18</span> “<i>Fastest Man on Earth</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">November 20, 1953, was a cold, blustery day on the desert.
+I arrived at the ramp before daybreak, shivering from the frigid
+wind and weak from a bad dose of influenza. I had slept only
+a few hours. But it mattered little how <i>I</i> felt. My mind and body
+would be called upon to perform full-bore for only four critical
+minutes. I had no doubt that both could be summoned to peak
+at the proper time. The important thing was how the Skyrocket
+shaped up.</p>
+
+<p>She was snugged under the belly of the B&#x2060;-29 mother plane,
+almost lost in a swirl of liquid oxygen fog, which boiled out
+of a vent. Pipes, wires, and hoses leading from the ground-equipment
+carts and fuel trucks were plugged into her top and
+sides. A swarm of mechanics, heavily bundled against the cold,
+fretted about. In the background was a steady, eerie, high-pitched
+whistle caused by pressure dumping overboard through
+a relief valve, signifying to all that the Skyrocket was ready for
+action. It was a falsetto call to arms.</p>
+
+<p>In truth, the Skyrocket was being called upon to perform a
+minor miracle. She was not designed for supersonic flight in the
+first place. In concept she was old, years old, and even at Mach
+<span class="pagenum" id="Page_172">[Pg 172]</span>1.8 we were pressing her far beyond rational limits. One simple
+fact made her go fast: the 200-second blast of her enormously
+powerful rocket engine lighted off in mid-air at 35,000 feet,
+where we could take advantage of the thin air. If the Skyrocket
+took off from the ground, which she was not designed
+to do, even with her rocket engine going she would not exceed
+the speed of sound. Too much time would be lost, too much
+fuel consumed, leaving the ground and climbing through the
+thick air that lies between the earth and 35,000 feet. The secret
+lay in the air-launch. And even with an air-launch, the best any
+ordinary team could hope for, with luck, was a speed of Mach
+1.9. Bridgeman and I had already crowded her limits. This
+speed was achieved in the thin air above 50,000 feet, where at
+any instant the Skyrocket, not designed for flight in those regions,
+could skid slightly and then tumble wildly out of control.</p>
+
+<p>After months of working together, the NACA Skyrocket team
+had learned many little tricks to save time and gain an edge on
+the unknown. Take the prime, for example, when we squirted a
+preliminary shot of Lox through the engine, to chill it down for
+the big start. The prime exhausted through a tube in the rear
+of the bird. As soon as the prime flowed smoothly, we launched.
+If we delayed, we wasted valuable Lox-energy. Jim Newman,
+an observer in the B&#x2060;-29, had learned to anticipate the prime. He
+could tell on the first puff if it was going to be good. As another
+example, I had perfected a rhythmatic method of lighting off
+the four rocket barrels so that each tube gave us every ounce
+of impulse it was capable of exerting.</p>
+
+<p>All else being equal, in the final analysis the speed we
+achieved depended directly on how much fuel we could carry.
+Here, too, we had tried a trick. If we pumped the frigid, unstable,
+boiling liquid oxygen into the Skyrocket about four or
+five hours before flight time, giving it time to “settle down,”
+we knew we could squeeze in a few more pounds. Storing the
+freezing liquid in the airplane for so long a period caused the
+ship to transform into a gigantic deep-freeze. Because of this,
+we called the procedure “cold-soaking” the airplane. We also
+chilled the alcohol fuel for higher density.</p>
+
+<p><span class="pagenum" id="Page_173">[Pg 173]</span></p>
+
+<p>The way our orders read, we had only one chance to crack
+Mach 2. There could be no mistakes and thus we did everything
+possible to grease the ship, hoping to gain a knot of speed or
+save an ounce of weight. Everyone scoffed, but I had the crew
+wax the glistening white wings and fuselage. We placed masking
+tape over every aperture and crack. We replaced the stainless-steel
+prime and jettison tubes, used only in an emergency
+fuel-dump, with lightweight aluminum tubing. We carefully bent
+these tubes so they curved into the blast of the rocket engine.
+Once I had lighted off and no longer required them, they would
+burn away and fall off, shedding another few pounds of drag
+from the Skyrocket.</p>
+
+<hr class="tb">
+
+<p>“How’s everything, Jack?” Jack Moise, one of the B&#x2060;-29 launch-panel
+operators, had, along with the whole crew, been awake
+most of the night nursing the Skyrocket. He was an able mechanic
+and a cool head in the air at launch time. He often
+operated the liquid oxygen top-off system in the mother plane,
+pumping in the last bit of fuel before launch.</p>
+
+<p>“She looks real good, Scotty,” Jack said. “We’re ready to load
+hydrogen peroxide.” We used peroxide as a fuel for the Skyrocket’s
+fuel and Lox pumps that supplied the rocket engines
+with the <ins class="corr" title="Transcriber’s Note—Original text: 'high-pressure propellents'" id="tn-173">high-pressure propellants</ins> at tremendous rates. The
+peroxide solution—ninety per cent—was so strong that a rag
+doused in the liquid would spontaneously burst into flames.</p>
+
+<p>“Go ahead,” I said. I tightened my jacket against the cold
+desert wind.</p>
+
+<p>Moise gave the signal and the peroxide flowed from a truck
+into the Skyrocket. But a calamity was in the making—one of
+those unfortunate “accidents” that always seem to haunt the
+record-breakers at Edwards. The long “cold-soak” had frozen
+shut a hydrogen-peroxide vent fitting. The dangerous liquid,
+pumped in under pressure, sought an escape route. It overflowed
+into a manifold, rushed through a pipe, and suddenly
+burst out of an untaped port near the rear of the Skyrocket,
+showering Jack Moise. He yelled and covered his face with his
+hands.</p>
+
+<p><span class="pagenum" id="Page_174">[Pg 174]</span></p>
+
+<p>A quick-thinking mechanic, Kinkaid, grabbed a fire hose and
+brutally splashed Moise full in the face with water. Without a
+second’s delay we hurried Moise to the flight-line emergency
+dispensary. There they carefully rinsed his face and eyes and
+stripped off his peroxide-soaked clothing. His face was blotched
+white in a few spots, but fortunately these disappeared within
+a few days.</p>
+
+<p>Coming out of the doctor’s office, I saw Kinkaid sitting on a
+bench, waiting for a check-up. He was soaking wet.</p>
+
+<p>“You better get out of those wet clothes,” I said.</p>
+
+<p>“No, Scotty, it’s okay. I’m warm,” he said.</p>
+
+<p>I was about to leave when a question flashed into my mind.
+Why would Kinkaid, wet as he was, be “warm” on so cold a
+day? The answer came quickly: he, too, was soaked with peroxide,
+a thermite bomb, ready to burst into flames.</p>
+
+<p>I’m sure Kinkaid thought I had lost my mind. I ran to him
+and began peeling off his many layers of clothing—two pairs of
+trousers, long underwear, a jacket, sweater, and shirt. When at
+last he stood before us completely nude and looking sheepish,
+I saw that his arms and legs were bleached white. We had
+saved him from serious injury and possibly a consuming peroxide
+fire.</p>
+
+<p>This near-disaster delayed our preparations, but not much.
+Back at the ship another mechanic thawed the peroxide fitting
+with a hot-air gun, and soon the Skyrocket was loaded, ready
+to go.</p>
+
+<p>Herman Ankenbruk, the project engineer, had spent many
+hours working out a flight plan that would give the Skyrocket
+maximum performance—and then some. Usually after drop I
+flew the plane on a giant parabolic course, going uphill and
+then pushing over, achieving maximum speed in a mild dive.
+Everything was timed to the split second. Too much climb
+would rob me of rocket-engine burning time on the descent.
+A sloppy pushover would leave the Skyrocket at too low or too
+high an altitude at burn-out. The high-speed dive lasted only
+a few seconds. Plunging earthward, the Skyrocket soon encountered
+thick air, building up a dragging shock-wave on the nose.
+<span class="pagenum" id="Page_175">[Pg 175]</span>When the drag equaled the thrust of the rockets, they shut off
+and the Skyrocket slowed like a truck hitting a brick wall.</p>
+
+<p>After a brain-numbing analysis of all previous flight data and
+endless conferences with me, Herman advised me to climb to
+72,000 feet. The winds aloft that day blew from the east. A
+launch in the western end of the valley, heading east, might
+add a few miles per hour, we thought. The cold temperature
+that day suited the Skyrocket fine.</p>
+
+<hr class="tb">
+
+<p>The success of the flight to a large extent depended on the
+performance of the mother-ship crew. On this day especially,
+the Lox top-off had to be perfect. Each drop of Lox pumped
+in at the last moment added precious micro-seconds to the
+burning time. I was completely confident. Jim Newman, I knew,
+would anticipate the prime and call it right. The mother-plane
+pilot, Stan Butchart, an old friend from the war and the University
+whom I had recruited for NACA, would drop at precisely
+the right point at the best speed and altitude. He had
+done so many times in the past. These men were pros.</p>
+
+<p>At 10,000 feet I crawled into the familiar cockpit of the Skyrocket
+and the canopy was slammed shut. All the gauges were
+in the green. Only one thing worried me. When we reached
+altitude, it was my job to pressurize the cockpit of the Skyrocket
+by releasing compressed air through a valve. There was
+no gradual compression. The gas exploded into the cockpit in
+one burst. The effect on the pilot was similar to that a diver
+might experience with a split-second change in depth. The
+sinus tubes sometimes clogged and built up pressure that telegraphed
+a racking pain through every cavity in the pilot’s head.
+Long before, from years of flying and pressure-chamber work,
+I had developed that dreadful occupational affliction of pilots:
+tortured, mangled sinus channels. On two occasions in the past
+the pain had been so severe at pressurizing that I had had to
+cancel. I worried now about how my influenza might have
+complicated my sinuses. It was possible they might be unbearably
+painful.</p>
+
+<p>Against this possibility I had brought along a piece of insurance,
+<span class="pagenum" id="Page_176">[Pg 176]</span>a small cork. Preparing to pressurize, I reached back and
+plugged the cork in the compressed-air tube outlet. I turned
+the valve and eased the cork out of the pipe slowly. The pressure
+in the cockpit built up gradually and caused me no pain
+whatsoever. When the cabin-pressure gauge reached the green,
+I reported by radio to Butchart:</p>
+
+<p>“Pressurized.”</p>
+
+<p>We droned on toward launch point, our path marked by four
+snowy-white contrails. The air was slightly turbulent and we
+bounced more than usual. The Skyrocket creaked in its mechanical
+nest. Too busy to care, I set my stop-watch and began the
+pre-launch routine. I pressurized the fuel tanks. The gauges,
+thank God, held steady in the green. Then I turned the switch
+on the Skyrocket panel which blazed a green “ready” light on
+Butchart’s panel in the B&#x2060;-29.</p>
+
+<p>“Going to prime,” I intoned on the radio. There was no dramatic
+nonsense on our radio circuits. Almost before I had completed
+my sentence, Jim Newman called back:</p>
+
+<p>“Prime looks good.”</p>
+
+<p>“Five, four, three, two, one. DROP!” Butchart called the
+countdown with almost exaggerated calm.</p>
+
+<p>The Skyrocket fell away on its elevator course, and a blinding
+flash of sunlight hit my eyes. When the ship rolled gently
+to the right, as usual, I trimmed quickly and hit the rocket-barrel
+switches, pausing a split second until each caught. The
+Skyrocket surged ahead. I pulled back on the stick and the
+horizon disappeared from my windshield. I called Butchart by
+radio for a steer.</p>
+
+<p>“You’re to my right and going uphill, Scotty,” Butchart said,
+placing the Skyrocket in relative position to the mother plane.
+This was important because in the steep climb I couldn’t tell
+direction.</p>
+
+<p>“All four going good,” chase Captain Givens reported. I
+soon left them far below and behind.</p>
+
+<p>With luck the rocket barrels would burn a total of 200 seconds.
+These three minutes would spell success or failure. While
+the Skyrocket bored steadily toward the heavens, I prayed
+<span class="pagenum" id="Page_177">[Pg 177]</span>silently to God. “Don’t let me goof this one.” Meanwhile I kept
+my eye glued to the needle-ball, air-speed and altitude instruments,
+an archaic but very effective method. If they charged
+ahead too much or dropped off suddenly, I would burn fuel
+needlessly. The way Herman had calculated it, I had to ride
+an imaginary parabola in the sky, veering no more than a few
+feet off course. This was the delicate knife-edge.</p>
+
+<p>Coming up on 72,000 feet, I began the push-over. The Skyrocket,
+engines blazing furiously, arched nicely and began the
+big downhill run. This was the supreme moment: the Olympic
+bobsled run, the 80-meter ski-jump, the first and last downhill
+lunge on my wild roller-coaster. I prayed that the barrels would
+burn a few more seconds. My eye now alternated from the
+Mach meter, which was slowly edging toward the magic 2.0
+reading, to the needle and ball; if either deviated, precious
+energy and speed were lost.</p>
+
+<p>I could hear the usual chatter on the radio from chase: “Do
+you have him in sight?”</p>
+
+<p>“No. I see the exhaust. But I can’t see him. He’s lost in the
+sun some place.”</p>
+
+<p>“Well, I’ll ease over the base and try to pick him up when
+he gets back down here.”</p>
+
+<p>“Rog.”</p>
+
+<p>The Skyrocket was performing like an Olympic champion.
+She held true on her spectacular dive. The rocket engine burned
+several seconds longer than usual—207. The “cold-soak” had paid
+off. The Mach meter needle edged past 2.0 and hung at 2.04.
+WE HAD MADE IT! I had become the first man to fly at twice
+the speed of sound, and this historic milestone had been automatically
+recorded by the data instruments in the Skyrocket.</p>
+
+<p>The rocket engine cut off with a pop-pop-pop-pop, just about
+the instant the Skyrocket entered the “thick” air. The ship slowed
+abruptly, throwing me forward against the shoulder straps. I
+drew back on the stick and began the pull-out, still coasting at
+better than Mach 1.8, taking care to see that the ship did not
+fall off the knife-edge. Dropping silently back through Mach
+<span class="pagenum" id="Page_178">[Pg 178]</span>1.0, the Skyrocket for a brief instant shook harshly, like a wet
+dog drying his fur.</p>
+
+<p>Now it was time for the dead-stick lake-bed landing. Coming
+over the edge of the lake at 15,000 feet, I whipped the ship
+into a victory roll. As I slowed, the chase planes found me and
+closed on my wingtips. I lined up for the let-down.</p>
+
+<p>The Skyrocket’s wheels touched down between the two long
+black lines painted on the dry-lake bed at precisely the point I
+had picked to land. She rolled to a stop twelve minutes from
+launch. Walt Williams, followed by Walter Bonney, ran up to
+the side of the ship, awaiting my report. I pushed back the
+canopy and looked at Bonney.</p>
+
+<p>“I don’t think you’ve wasted your time coming out here.”
+He beamed.</p>
+
+<hr class="tb">
+
+<p>“Scotty, how did it feel?” It was a mob scene in a room of the
+Statler-Hilton Hotel in Los Angeles. In the glare of spotlights,
+newsreel cameras ground and flash cameras exploded in my
+face. The reporter who asked the question, one of about fifty
+jammed in the room, held his notebook in hand, pencil poised.
+Other reporters were shouting from all corners of the room.
+The phone was ringing. Everybody wanted an interview. National
+magazines were on the scent. Walter Bonney was in his
+element. At last NACA had hit the big time in his business, too.</p>
+
+<p>How did it feel? I turned the question over in my mind slowly,
+gazing blankly at the reporter. How did you explain how it felt
+in a word or two, which was all he wanted? Tell them you
+didn’t believe in making records? Tell them it was part of a
+careful lifetime plan? Reveal the secrets of the proposed advanced
+research airplane? Tell them you just wanted to show
+Yeager a thing or two?</p>
+
+<p>“Well, if you want to know the truth,” I said, “I didn’t feel
+good yesterday. I had the flu. A real bellyache.”</p>
+
+<p>The newsmen scrambled out, leaving Bonney and me to
+sort through a hundred or more invitations to make speeches,
+appear at football games in the half-time, and other scientifically
+significant events, and to fend off still more reporters who
+<span class="pagenum" id="Page_179">[Pg 179]</span>wanted to write “human interest” stories about me and, worse,
+my family. It was a new and zany world to me. That night
+when I picked up a Los Angeles newspaper, I stared dazedly
+at the black headline two inches high and eight columns long:</p>
+
+<p class="center p1t p1b">
+PILOT FLIES MACH 2 AND GETS BELLYACHE
+</p>
+
+<p>A few nights later I was guest of honor at a ceremony in
+San Diego. Sitting next to me at the head table was movie
+star and swimming champion, Esther Williams. We all waited
+patiently while some Air Force general droned through a long,
+prepared speech about the marvels of science and airplanes
+in particular. Finally my beautiful dinner companion, dressed
+in a tight-fitting gold lamé dress, was called upon to speak.</p>
+
+<p>Esther Williams approached the mike. Leaning over the
+lectern until her best features were prominently spot-lighted,
+she spoke slowly: “You know, I’ve been getting a lot of static
+all night long about sitting next to the fastest man on earth.
+But I don’t believe it. He hasn’t laid a hand on me yet!”</p>
+
+<p>I only wished that the exceedingly eminent Dr. Dryden had
+been there to see the crowd double up on the floor with glee.
+NACA had indeed arrived at a turning point. Scott Crossfield,
+too.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_180">[Pg 180]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_19">CHAPTER 19 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 19</span> “<i>Leaf in a Tempest</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">I was king of the race track for three weeks. Then the old
+master, Chuck Yeager, did it again. He shattered my record,
+but he nearly died doing it.</p>
+
+<p>I had been expecting the coup de grâce at any moment.
+Chuck had been scheduled to fly the X&#x2060;-1&#x2060;-A on the day after my
+Mach 2 flight in the Skyrocket. But when I logged Mach 2, the
+Air Force team pulled back and regrouped, as the military say.
+Yeager now had his hands full. Pete Everest describes this Air
+Force record-breaking in his book: “By this time the old X&#x2060;-1
+record had long since been broken by both Bridgeman and
+Crossfield, so there was no question of keeping ahead of them.
+Our problem now was trying to catch up.”</p>
+
+<p>In early December Chuck flew the X&#x2060;-1&#x2060;-A Mach 2 and caught
+up. To quote Everest again: “We had matched Bridgeman and
+Crossfield even money and now we raised the bid.” Yeager would
+gun the X&#x2060;-1&#x2060;-A all out.</p>
+
+<p>I watched these warm-ups—between my own press conferences—with
+more than casual interest. The Wright Brothers
+Memorial dinner was just a few days away. If Chuck failed,
+the Navy and Douglas could publicly boast a clean sweep:
+<span class="pagenum" id="Page_181">[Pg 181]</span>Carl’s 85,000-foot altitude record and my Mach 2 speed record,
+both set in the Skyrocket. Yeager flew on December 12.</p>
+
+<p>I took up a post that day on the Edwards radio circuit, to
+listen in on the flight from the ground. Jack Ridley and Major
+Arthur “Kit” Murray flew chase. I heard them routinely chatting
+on the air as the mother plane bore down on the launch point
+at 32,000 feet. Then like the crack of a starting pistol we heard
+the mother-plane pilot snap to the co-pilot:</p>
+
+<p>“Drop her, Danny.”</p>
+
+<p>In my mind’s eye I could see the X&#x2060;-1&#x2060;-A falling rapidly away
+from the mother plane and Yeager adroitly moving the controls.
+Now I knew he would be hitting the four rocket-switches
+at intervals, blasting skyward. In a matter of three minutes he
+would reach the finish line. The seconds ticked by slowly.</p>
+
+<p>“Got him in sight, Kit?” It was chase Ridley speaking to
+chase Murray.</p>
+
+<p>“No,” Murray replied. “He’s going out of sight. Too small.”
+That was a good sign—for Yeager.</p>
+
+<p>The radio circuit was silent. There was no word from Yeager.
+I dragged on a cigarette thinking: It’s just like him to keep
+everybody on the hook.</p>
+
+<p>Then suddenly all hell broke loose. Something was wrong.
+I became aware of it when I heard Murray and Ridley shouting
+over the radio to Yeager.</p>
+
+<p>“Chuck! Chuck! Yeager! Where are you....”</p>
+
+<p>Then Yeager came on the air, his voice hoarse and rasping,
+and barely audible:</p>
+
+<p>“I’m ... I’m down ... I’m down to 25,000 feet ... over
+Tehachapi. Don’t know ... whether I can ... get back base or
+not....”</p>
+
+<p>“At 25,000 feet?” Ridley asked incredulously.</p>
+
+<p>“I’m ... I’m ... Christ!”</p>
+
+<p>“What say, Chuck?” Ridley called. “Chuck!”</p>
+
+<p>“I say ... don’t know ... if I tore ... anything or not ...
+but, Christ!”</p>
+
+<p>Yeager was obviously in serious trouble. The word flashed
+across the base. Emergency trucks screamed toward the flight
+<span class="pagenum" id="Page_182">[Pg 182]</span>line. Helicopters lifted off, heading for Tehachapi. We leaned
+over the radio speaker, hanging on each word. Race-track competition
+was one thing, but now a pilot’s life—a <i>great</i> pilot’s life—was
+in jeopardy. I felt helpless—almost sick.</p>
+
+<p>“Chuck from Murray,” the radio crackled. “If you can give
+me altitude and heading, I’ll try to check from outside.” The
+chase pilots were trying desperately to find Yeager’s tiny craft,
+to guide him back to base, to tell him if his wings were still
+in place.</p>
+
+<p>“Be down at 18,000 feet. I’m about ... be over the base at
+15,000 feet in a minute,” Yeager reported.</p>
+
+<p>On the ground we cheered the master on. His last radio
+report indicated he would make it. His voice had new confidence.</p>
+
+<p>“Yes, <i>sir</i>,” Murray snapped on the radio.</p>
+
+<p>We heard the routine as Chuck jettisoned and vented fuel
+tanks. He sounded much better. The chase closed in.</p>
+
+<p>“Does everything look okay on the airplane?” Yeager called,
+lining up for the lake-bed landing.</p>
+
+<p>There was still time to bail out if the ship was busted. But
+he got little help. In his eagerness Murray had lined up on the
+wrong airplane, a T&#x2060;-33 jet trainer. Quickly Murray shifted targets
+and gunned his engine to close on Yeager’s craft, but it was too
+late. Yeager was already letting down, committed.</p>
+
+<p>“I don’t have you, Chuck,” Murray called.</p>
+
+<p>“I’m on base leg,” Chuck reported. His voice sounded firm
+and strong. “I’ll be landing ... in a minute.”</p>
+
+<p>We heard some additional chatter and then Yeager said:</p>
+
+<p>“Going to land long. I would appreciate it if you’d get out
+there and get ... this thing ... this pressure suit. I’m hurting
+... I think I busted the canopy with my head.” He landed
+like the pro he is.</p>
+
+<hr class="tb">
+
+<p>Yeager’s had been the fastest and wildest airplane ride in
+history. The grim details of it spread through Edwards,
+hurriedly passed along by tongues stammering in disbelief and
+admiration.</p>
+
+<p><span class="pagenum" id="Page_183">[Pg 183]</span></p>
+
+<p>After drop, Yeager had lighted off the four X&#x2060;-1&#x2060;-A rocket
+barrels one by one to achieve maximum speed. He pointed the
+X&#x2060;-1&#x2060;-A’s nose toward the deep blue and at 75,000 feet he pushed
+over. The X&#x2060;-1&#x2060;-A, in level flight, roared to Mach 2.42, or about
+1600 miles an hour, faster by a wide margin than man had ever
+flown before. Then in that rarefied air, at a speed the X&#x2060;-1&#x2060;-A
+was not designed to fly, the plane “uncorked.” The X&#x2060;-1&#x2060;-A tumbled
+wildly like a “leaf in a tempest, a cork in a flooding stream,” as
+Everest puts it.</p>
+
+<p>The X&#x2060;-1&#x2060;-A spun uncontrollably, dropping 51,000 feet in fifty-one
+seconds, smashing Yeager about in the cockpit. As Yeager
+later recalled the experience: “The voices have no reality in this
+lost moment of your life. You’re taking a beating now and you’re
+badly mauled. You can see stars. Your mind is half blank, your
+body suddenly useless as the X&#x2060;-1&#x2060;-A begins to tumble through
+the sky. There is something terrible about the helplessness with
+which you fall. There’s nothing to hold to and you have no
+strength. There is only your weight knocked one way and the
+other as the plane drops tumbling through the air. The whole
+inner lining of its pressurized cockpit is shattered as you’re
+knocked around, and its skin where you touch it is still scorching
+hot. Then as the airplane rolls, yaws, and pitches through
+a ten-mile fall, you suddenly lose consciousness. You don’t know
+what hit you or where.”</p>
+
+<p>Probably no other pilot could have come through that experience
+alive. Much later I asked Yeager, as a matter of professional
+interest, exactly how he regained control of the ship.
+He was vague in his reply, but he said he thought that after he
+reached the thick atmosphere, he had deliberately put the ship
+into a spin.</p>
+
+<p>“A spin is something I know how to get out of,” he said.
+“That other business—the tumble—there is no way to figure that
+out.”</p>
+
+<p>The Air Force squeezed in by the skin of its teeth. Yeager’s
+new record was triumphantly announced at the Wright Brothers
+Memorial dinner in Washington. Yeager received many accolades.
+I didn’t begrudge him one of them. If ever a pilot deserved
+<span class="pagenum" id="Page_184">[Pg 184]</span>praise for a job well done, it was Yeager. After that
+X&#x2060;-1&#x2060;-A episode, he never flew a rocket airplane again.</p>
+
+<hr class="tb">
+
+<p>While it still retained control of the X&#x2060;-1&#x2060;-A, the Air Force
+itched to make a try for an altitude record. As Everest says:
+“While we waited for the engineers to tell us why Chuck got
+into trouble, we began an alternate program to set a new
+altitude record....”</p>
+
+<p>By then Everest must have come to believe his own Air
+Force press releases. He says: “Bill Bridgeman’s record of 79,000
+feet in the Douglas Skyrocket was the mark ... to beat.” In
+reality the “mark to beat” was Marion Carl’s 85,000-foot record
+established in the Skyrocket. But, as I said, Carl’s record was
+seldom included in the aviation-record summaries.</p>
+
+<p>Major Kit Murray, who had flown chase for Chuck Yeager
+on the ill-fated X&#x2060;-1&#x2060;-A flight, was picked as pilot for the Air
+Force altitude attempt. His boss, Pete Everest, was reserving
+his strength and skill for the X&#x2060;-2 flight program, if and when
+the airplane became ready. Murray had flown chase on the
+X&#x2060;-1&#x2060;-A many times, but he had never flown a rocket plane. Even
+so, as Everest puts it, Murray was “well qualified” for this all-out
+attempt in the unstable X&#x2060;-1&#x2060;-A. After long months of study,
+and conferences with Yeager, he was thoroughly familiar with
+the airplane. However, as Everest reports: “... we approached
+his flights with extreme caution.”</p>
+
+<p>Inevitably there were delays. Murray’s “gravy flight,” as the
+Air Force termed the record tries, did not arrive until June of
+1954. After drop and light-off Murray duplicated Yeager’s flight
+plan up to 65,000 feet. Then in place of Yeager’s high-speed
+run, Murray raised the nose of the ship sharply and zoomed
+toward the sky. At 90,000 feet Murray pushed over in a gentle
+parabola, his speed just under Mach 2. Says Everest: “Had he
+kept the nose up he could have gone higher.... We wanted
+to play this one safe and use proper techniques and not take
+chances.”</p>
+
+<p>Then, Everest goes on, in spite of these “precautions,” the
+X&#x2060;-1&#x2060;-A flipped out of control, virtually duplicating the final phase
+<span class="pagenum" id="Page_185">[Pg 185]</span>of Yeager’s last X&#x2060;-1&#x2060;-A flight. As Everest explains it: “In thin air
+of the upper atmosphere the plummeting rocket ship uncorked
+and fell forty thousand feet before Kit was able to get control
+again. Because he was going considerably slower than Yeager
+when he tumbled, fortunately he did not take as bad a beating.
+After regaining control he returned safely to base and landed,
+having flown higher than any other human being.”</p>
+
+<p>Murray had topped Carl’s record by 5,000 feet.</p>
+
+<p>Following these demonstrations the X&#x2060;-1&#x2060;-A and its sister-ship,
+the X&#x2060;-1&#x2060;-B, which had undergone several check flights by Everest
+and Murray, were turned over to NACA for aeronautical research
+and investigation. In his pilot report Pete Everest recommended
+that both planes, “by using a cautious approach,” could probably
+be flown to a maximum theoretical speed of Mach 2.5, or
+just a shade faster than Yeager flew the X&#x2060;-1&#x2060;-A on his record-breaking
+flight. Neither airplane was ever flown again to such
+speeds and altitudes.</p>
+
+<p>By then the need for an advanced research airplane of stable
+design was urgently felt throughout the entire aviation industry.
+At NACA, Edwards, we then had four rocket planes in
+our hangar. These included the X&#x2060;-1&#x2060;-A and the X&#x2060;-1&#x2060;-B, our rebuilt
+X&#x2060;-1, renamed the X&#x2060;-1&#x2060;-E, and the trusty Skyrocket. All these
+airplanes were obviously unstable above Mach 2; the Skyrocket
+could just barely squeak through to that speed. The swept-wing
+X&#x2060;-2, by then almost ten years old from a design standpoint, was
+at Edwards, in Everest’s able hands, but the engine was still
+not ready for flight test. On a powerless glide test, with ballast,
+the X&#x2060;-2 nose wheel had again skewered, causing the plane to
+ground-loop at high speed, badly shaking Everest. This convinced
+us—if we needed convincing—that the X&#x2060;-2 was really
+jinxed.</p>
+
+<p>It was vital for the research airplanes to reach far ahead of
+the military combat airplanes. Already the first of the Century
+Series supersonic fighters had arrived at Edwards, and Air
+Force pilots were flying at impressive speeds, encountering
+dangerous instability and high-altitude engine malfunctions. One
+of these military planes, a Lockheed F&#x2060;-104 straight-wing, lightweight
+<span class="pagenum" id="Page_186">[Pg 186]</span>day-fighter, with the pilot’s pilot, Tony Le Vier, at the
+helm, cracked Mach 2 only a few months after my Mach 2 flight
+in the Skyrocket. However, it was plain that if we had learned
+more from the research airplanes in time, the F&#x2060;-104 and the
+military planes that came with it—the F&#x2060;-100, F&#x2060;-101, and F&#x2060;-105—good
+as they were, would have been immeasurably better
+craft. At that time, moreover, the advance designers were
+laying plans for a new generation of Mach 3 military airplanes.
+We had yet to achieve Mach 2.5 in research airplanes. So the
+requirement for data was even more pressing. It is possible to
+tell a great deal from wind-tunnel data, of course, but wind-tunnel
+data are always corrected with assumptions, which inevitably
+contain errors. Airplanes must be flown full-scale to
+find out the true story. In reaching to Mach 6, the NACA’s
+paper-study advanced research airplane would provide a long-overdue
+and much-desired quantum leap.</p>
+
+<hr class="tb">
+
+<p>The plane was slowly making its way into the world. In
+April of 1954 NACA completed its engineering studies, proposing
+a design that looks very much like the X&#x2060;-15 of today.
+After the usual headquarters shake-down, NACA forwarded this
+report to all of the senior members of the main NACA committee
+and to the chairman, Jimmy Doolittle. A few weeks
+later, in July of 1954, NACA brass met with the Pentagon brass
+to hammer out the final details of the airplane. During this
+meeting the Navy revealed that Douglas had prepared a paper
+study of an “advanced Skyrocket,” with essentially the same
+performance of the NACA-conceived craft. This report was received
+with great interest, and some of its suggestions were later
+absorbed into the X&#x2060;-15 program. But it was clear from the outset
+that the X&#x2060;-15 would be primarily an Air Force show, with
+the Navy playing a supporting role. There was not enough
+money in the kitty to build both Navy and Air Force versions
+of a Mach 6 research airplane.</p>
+
+<hr class="tb">
+
+<p>“About all this airplane will do is prove the bravery of the
+pilot.” The speaker was the chief designer of a large aircraft
+<span class="pagenum" id="Page_187">[Pg 187]</span>manufacturer, addressing a very influential body, NACA’s
+Aerodynamics Subcommittee. The Subcommittee was composed
+of the chief design engineers of the major aircraft companies of
+the United States. They were meeting at NACA’s Edwards facility
+for a final rehash of the X&#x2060;-15. At that pronouncement my heart
+skipped a beat. I was sitting on the sidelines, a very interested
+bystander.</p>
+
+<p>From conception the X&#x2060;-15 had proved controversial, just like
+most matters in the highly competitive, uncertain aviation industry.
+Some engineers believed NACA should reach for higher
+speed in measured increments, that is to say, Mach 3, Mach 4,
+Mach 5, with separate vehicles. Experts in the new and growing
+field of aero-space medicine believed that zero G weightlessness
+and cosmic radiation would render flight in the fringe of
+space, or in space itself, impossible. Structural experts worried
+about the “re-entry” heating of the X&#x2060;-15. It was known that the
+plane would glow red, like a blacksmith’s forge, when it plunged
+back into the thick atmosphere. What known metal could withstand
+so hot a blast and retain its integrity? Still others were
+concerned about the very low L over D of the X&#x2060;-15. Designed
+for stable, high-speed flight in rarefied air—or no air at all—on
+landing, the ship would come in fast, dropping like a brick.</p>
+
+<p>These were technical details. Even more significant was an
+ominous philosophy underlying this historic meeting. By then—October,
+1954—the U.&nbsp;S. had embarked on a massive, semi-crash
+program to build a family of long- and medium-range ballistic
+missiles, to include the Thor, Jupiter, Atlas, and Titan. In anticipation
+of these weapons, missile-test vehicles had already achieved
+speeds—Mach 10 and up—that made our manned-aircraft efforts
+seem puny, indeed, in some people’s eyes. These test vehicles
+were accumulating a vast storehouse of limited-flight data within
+and beyond the atmosphere on high-speed control, structure and
+aerodynamic heating. It was not precisely airplane-type information,
+but it was very closely related. Thus some of the
+engineers questioned the very need for a high-speed manned
+research aircraft. Detractors suggested that an automatic missile-type
+guidance system replace the pilot in the X&#x2060;-15.</p>
+
+<p><span class="pagenum" id="Page_188">[Pg 188]</span></p>
+
+<p>Without quite realizing it, these engineers, who must always
+look five to eight years down the road in their business, were,
+in a way, debating the future of the manned airplane, as we
+think of it. Not one of them would then have come right out
+and said that the manned aircraft was diminishing in importance.
+On the contrary, they would have protested it to the heavens.
+But the impact of the guided missile was beginning to be felt,
+even though none of the proposed missile weapons had been
+test-fired. In a subtle way, the missile was creeping into all considerations
+of future projects. The fact that the need for the
+X&#x2060;-15 and a pilot to fly it was questioned at all was clear proof.</p>
+
+<p>Despite strong objections the NACA Aerodynamics Subcommittee
+at this meeting put the final stamp of recommendation on
+the X&#x2060;-15, in effect ratifying Dr. Dryden’s course of action in
+Washington. Like other research airplanes in the past, the X&#x2060;-15
+would be an “open secret,” that is, everything learned in its construction
+and flight operations would be made available, through
+NACA and contractor reports, to all of industry. The airplane
+would be thrown open to all industry for bids. The Air Force
+would supply ninety per cent of the funds, the Navy about ten
+per cent. When completed, it would be flown at Edwards in
+accordance with the scheme I had developed earlier and presented
+to Walt Williams. Just <i>who</i> would fly the plane was left
+open for further consideration. The whole project was to be
+carried out with high priority as a “matter of national urgency.”
+A few weeks later the Air Force called for bids.</p>
+
+<p>Subsequently NACA displayed unusual boldness in dealing
+with the Department of Defense over the proposed technical
+flight program of the X&#x2060;-15. NACA demanded and received sole
+authority to determine who should fly the airplane, and to what
+speed and altitude it should be flown on each flight. Deference
+would be shown the Air Force, of course, since that agency was
+footing most of the bills for the plane, but NACA made it clear
+that aeronautical research would take precedence over record-breaking.
+The X&#x2060;-15 would shatter existing records, all in the
+line of business.</p>
+
+<p>There was much that worried me after the aeronautical design
+<span class="pagenum" id="Page_189">[Pg 189]</span>titans had departed Edwards. As I saw it, there was danger that
+the X&#x2060;-15 would wind up with too many cooks. Almost any member
+of the many interested agencies had the authority to impose
+his ideas on the airplane. Each was a specialist in one field
+or another; each an advocate of this or that controversial, and
+often unproven, concept. The overall shape and power requirements
+of the plane had been fixed by physical law, but everything
+else was subject to change: the instruments, the control
+surfaces, the control mechanism, the landing gear, the escape
+system, and a lot of things yet to be invented. The X&#x2060;-15, subjected
+to many individual influences, might wind up not the
+ultimate, but a “bucket of worms” (all too familiar) as the inevitable
+result, and far too late.</p>
+
+<p>One thing worried me more. This was the growing influence
+of the unmanned missile that had been so evident at the meetings.
+This same influence had permeated the staff at our Edwards
+outpost. One day during a bull session with the pilots, one of
+them said to me:</p>
+
+<p>“You know, this X&#x2060;-15 might very well be the ship that closes
+a grand era in aviation. The last of the great manned airplanes.”</p>
+
+<p>“The hell you say!” Anger flushed my face. “The X&#x2060;-15 won’t
+close anything. On the contrary, the X&#x2060;-15 will open a whole new
+era in aviation: the second phase, the second fifty years.
+Centuries from now historians dealing with space flight will
+look back to the X&#x2060;-15 as a starting point. They will compare its
+flights to the great voyages of discovery, to the exploratory
+probes of Prince Henry the Navigator’s captains down the coast
+of Africa, preceding the voyage of Columbus. This is the beginning,
+not the end.”</p>
+
+<p>“Say, Scotty,” one of the pilots said, “you feel pretty strong
+about that airplane, don’t you?”</p>
+
+<p>“You’re damned right I do.”</p>
+
+<p>And that was a fact. I did.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_190">[Pg 190]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_20">CHAPTER 20 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 20</span> “<i>Please Come to a Complete Stop</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">Over the swiftly passing years the face of the Edwards base
+had dramatically changed. The Air Force, NACA, and civilian
+contractors had erected modern, air-conditioned offices, engineering
+spaces, and massive hangars. A new concrete runway,
+miles long and as much as two feet thick, crossed the flatlands.
+Installations for fueling and testing experimental airplanes
+and rocket engines were now formal, restricted areas.
+Pancho’s Happy Bottom Riding Club was gone, gobbled up by
+the Air Force, which pushed the boundaries of the base in all
+directions, including up. The sleek, modern Edwards tower occupied
+the space that once held the complete, historic town of
+Muroc. The old tarpaper “Kerosene Flats” living area had been
+replaced by comfortable housing. Edwards was big and busy,
+encumbered with red tape and a new formality.</p>
+
+<p>The people had changed, too. General Al Boyd’s one-man show,
+the jet-age flying circus, had passed into history. The new
+Edwards commander was a no-nonsense general, Stanley Holtoner.
+Holtoner endeared himself to no one by deliberately snubbing
+Pancho Barnes, but he reorganized the expanding base on
+a businesslike basis. The Air Force pilots who had reigned in
+my early days at Edwards—Ridley, Wolfe, Sellers, Bryce,
+<span class="pagenum" id="Page_191">[Pg 191]</span>Hoover, Lathrop, Gregorious, Popson—were gone, almost all
+to their graves. Yeager had moved on to other assignments. Only
+Pete Everest hung on, playing a tight-fisted waiting game with
+the lagging X&#x2060;-2.</p>
+
+<p>The shift to the elaborate new NACA “laboratory” had considerably
+changed the atmosphere in our outfit. More distant
+now from the mechanics, and the smell of grease and fuel, we
+discarded our sport shirts for business suits and ties, and played
+the scientist role to the hilt. This was inevitable. NACA’s record
+at Edwards had far exceeded all expectations. Our prolonged
+tour on the frontier of flight had not only developed millions of
+data points, but new theory as well. We had challenged many
+old and accepted wind-tunnel methods. We had raised warning
+flags on trouble to come and desperately tried to head it off.
+In truth, the High Speed Flight Station was no longer a gypsy
+caravan camped on the fringes of Edwards, but a solid, permanent
+NACA installation, an important new source of aeronautical
+think-how and know-how. Occasionally I longed for the old
+racing-pit days, the time of sweating all night long side-by-side
+with a bunch of mechanics over a balky valve, but I knew this
+deprivation was the price of progress.</p>
+
+<p>The emphasis in the air had changed as well. The rocket airplanes
+were still far and away the most spectacular craft on the
+base. But the big push was now placed on the new production
+airplanes, which were afflicted with the aches and pains of
+faster and faster speed. These airplanes had to be made safe—or
+as safe as humanly possible—for the green Air Force second
+lieutenant just out of flight school.</p>
+
+<p>The aches and pains had been anticipated years earlier. Flying
+near the speed of sound, an airplane creates a resisting field
+in its path. The air immediately ahead of the plane, in effect, is
+transformed into a rugged area of angry sound waves which
+criss-cross, backwash, tumble, speed up, and slow down, behaving
+somewhat like the foaming water in an ocean wave when it
+tumbles against a rock-bound coast. In the beginning at Edwards
+the job was to design and fly a plane to the edge of this coast. The
+bullet-shaped X&#x2060;-1, deliberately built to withstand tremendous
+<span class="pagenum" id="Page_192">[Pg 192]</span>stress, had blazed right through to the smooth beach beyond. But
+military airplanes, which could not be so heavy and brutal, had
+a tough time of it. As they felt their way along, they were
+battered and smashed about in the surf. And when they finally
+reached the beach, they still had trouble.</p>
+
+<p>The most common afflictions the airplane experienced in
+piercing the turbulent trans-sonic air were two abrupt, divergent
+motions which we called pitch and yaw. These were terms
+adopted, appropriately enough, from the seamen. Pitch describes
+the movement of the airplane if the nose suddenly and unexpectedly
+jerks up or down, like the bow of a ship in a heavy
+sea. Yaw describes the movement of the airplane if the nose
+cocks sharply to left or right, somewhat like the clumsy wallow
+of a vessel in a following sea. When or if both abrupt movements
+occur simultaneously—a dreadful and often fatal sequence—it
+is called “coupling.”</p>
+
+<p>The impact of pitch and yaw on the airplane varies with
+altitude and speed. In the thick air of low altitudes a fast-moving
+airplane pitching or yawing severely is subjected to intense
+strain, so much that it is not uncommon for the ship to disintegrate
+in mid-air. At higher altitudes where the air is much
+thinner, a fast-flying airplane can “take” a greater divergent motion.
+If it yaws, pitches, or couples, the airplane simply skids
+through the air in whatever awkward or ungainly position it
+assumes. However, an airplane in such altitudes must be slowed
+before it reaches the thicker air; otherwise, it will enter this
+blanket beyond stress-design and disintegrate. At any altitude, if
+a plane flips out of control, the pilot must respond with care
+and skill. Over-controlling, or pumping on the wrong controls,
+compounds the problem.</p>
+
+<p>There was no known way to avoid completely such divergent
+motions in supersonic airplanes built especially for combat and
+near-routine take-off and landing on ordinary airfields. Thus,
+from the beginning we had focused attention on “damping” the
+motions, striving for minimum instability by various wing and
+tail designs, angles of sweep, and mechanical devices on the
+wing called fences and slats. Control systems were devised with
+<span class="pagenum" id="Page_193">[Pg 193]</span>a built-in “damping” system which, in theory, automatically
+sensed a divergence and automatically moved the controls just
+enough to compensate. These were called SAS, short for Stability
+Augmentation System.</p>
+
+<p>After production airplanes were delivered to Edwards, the
+experimentation continued unabated. New vertical tails and
+fancy devices were tacked on the airplanes. The horizontal
+stabilizers were moved to new positions on the fuselage.</p>
+
+<p>During 1954, like other pilots at Edwards, I was swept up in
+the new race to bring the fast new jets within safe flying limits.
+I made twenty-five additional flights in the Skyrocket in support
+of these experiments. In between, I went aloft many times
+in early-model production aircraft such as the F&#x2060;-84&#x2060;-F, an advanced
+version of the Republic Thunderjet; the F&#x2060;-102, a direct
+outgrowth of the horrible delta-wing XF&#x2060;-92&#x2060;-A; and the “hard-wing”
+F&#x2060;-86—so-called because its automatic slats were removed—which
+had been hastily engineered especially to destroy MIGs in
+Korea. The F&#x2060;-86 Sabrejet particularly held my interest from an
+aeronautical-engineering point of view. The plane had already
+earned its niche in history, and hundreds were flying from Air
+Force bases, but its complete range of dangers had yet to be defined
+in any report. The thought that some second lieutenant
+might be killed because we at Edwards had fallen down on
+the job haunted me. I resolved to do something about that particular
+airplane.</p>
+
+<p>Customarily we began investigations which would push an
+airplane to the limit at high altitudes, where the air was thin
+and the ship would stay in one piece if it uncorked. Joe Walker,
+Stan Butchart, Jack McKay, a promising new pilot at NACA, and
+I divided the hard-wing F&#x2060;-86 work, starting at 40,000 feet and
+working down slowly. As we edged down into the thick air at
+lower altitudes, the F&#x2060;-86 pitch-up became more violent and
+dangerous. Our boss, Joe Vensel, drew the line. He ruled that we
+could not deliberately uncork the airplane below 30,000 feet.</p>
+
+<hr class="tb">
+
+<p>“But the most important area,” I said to Walt Williams, protesting,
+“is down around 25,000 feet. That’s where the military
+<span class="pagenum" id="Page_194">[Pg 194]</span>pilot can get in serious trouble, chasing a target sleeve or something.
+If this plane has a serious divergence at that altitude they
+ought to know about it.”</p>
+
+<p>“Look, Scotty,” Walt said, “we’re in the middle. We can’t come
+up with a negative opinion of some company’s airplane like that.
+All we can do is fly the thing and collect data and present the
+data objectively in an NACA report.”</p>
+
+<p>“Okay, fine,” I said. “Then let’s keep on going. Let’s do the
+30,000-foot data and then drop down to 25,000 feet.”</p>
+
+<p>“That’s up to Vensel,” Williams said. “He’s your boss.”</p>
+
+<p>“Vensel says no.”</p>
+
+<p>“Then the answer,” Williams said, “is no.”</p>
+
+<p>For the first time in my life I deliberately violated my boss’s
+orders. Without rechecking with Vensel, I recorded the hard-wing
+F&#x2060;-86 maneuvers at 25,000 feet. As we all expected, the
+pitch-up was severe. The airplane held together—North American
+traditionally built rugged planes—but the stress, or G force,
+caused me to black out. A pilot bent on a mission other than
+paying strict attention to the unique maneuver could get in serious
+trouble. When I turned over the data, Vensel was understandably
+incensed. After the data were released—to save the
+lives, I hope, of some pilots—Vensel pouted and claimed I had
+conducted the test at 25,000 feet to prove that the other pilots
+were “chicken.” Walt Williams called me to his plush new
+office, decorated with new space-charts, and gave me unshirted
+hell. I guess I tossed it back as fast as he dished it out.</p>
+
+<hr class="tb">
+
+<p>Another of these advanced planes with supersonic aches was
+the North American F&#x2060;-100. It had been flying experimentally, off
+and on, about one year, when we received the twenty-third production
+model at NACA in September, 1954. She was a powerful,
+wonderful beast, capable of reaching Mach 1.3 in level
+flight. At that stage in her test-flight program, mechanics spent
+fifteen hours working on her for every one hour she spent in the
+air. She had a reputation for being mean, if mishandled. She
+had uncorked and disintegrated, killing North American’s top
+test pilot, George Welch. There was a big debate raging among
+<span class="pagenum" id="Page_195">[Pg 195]</span>the pilots at Edwards about whether or not the F&#x2060;-100 could be
+landed dead-stick. North American had not yet demonstrated
+it. It fell to me to find out on my first F&#x2060;-100 flight.</p>
+
+<p>We were down for an 0800 take-off, but the unbeatable NACA
+mechanics were ready ten minutes before, so I went aloft
+ahead of schedule, before the radars and tracking stations were
+warmed up to zero in on me. There had already been built at
+North American new, bigger vertical tails for the F&#x2060;-100. We
+needed some specific data points. Our F&#x2060;-100 was packed full of
+NACA instruments. The ship was not a research airplane. I had
+declined a chase plane.</p>
+
+<p>Poised on the end of the new three-mile concrete runway,
+I fire-walled the throttle. The F&#x2060;-100 rolled, picked up speed,
+and then stood on her tail, afterburner blazing, climbing almost
+vertically into the desert sky. I was quite impressed. The F&#x2060;-100
+was no toy but it handled well. By then, North American had
+built thousands of F&#x2060;-86 jets in all models and it was obvious
+they knew what they were doing.</p>
+
+<p>When I reached 35,000 feet, I leveled the ship. At that very
+instant a blaze of red flashed on my instrument panel. Fire in
+the compressor section! My old first-flight luck was stalking
+me again. (It had never left me, really. Some time before this,
+during a first flight in a new F&#x2060;-84&#x2060;-F, I had run into serious
+trouble and made an emergency landing on the lake.)</p>
+
+<p>There were two fire-warning lights in the F&#x2060;-100. One covered
+the aft end of the engine, the other covered the forward end,
+or compressor section. A fire, or heating up, in the aft end was
+not uncommon in a jet with afterburner. If the pilot throttled
+back or otherwise varied the running conditions of the engine,
+it usually disappeared and the light went off. But a fire warning
+in the compressor section, crowded with fuel lines, gear boxes,
+and other vital parts, was serious indeed. Usually a compressor section
+fire did not last long; it raced through the intake into
+the compressor and the plane disappeared in a puff of smoke
+and flame. There was an old and tired axiom about it at Edwards:
+“If you see a compressor fire-warning light and you
+haven’t blown up, well, you’re going to in just a second.”</p>
+
+<p><span class="pagenum" id="Page_196">[Pg 196]</span></p>
+
+<p>A small notice riveted to the panel next to the compressor
+fire-warning light informed me:</p>
+
+<p class="center p1t p1b">
+COMPRESSOR SECTION FIRE WARNING LIGHT ON:<br>
+STOP-COCK ENGINE. IF LIGHT REMAINS ON BAIL OUT.
+</p>
+
+<p>A hell of a sign to put in a cockpit, I thought. It inhibits one’s
+thinking.</p>
+
+<p>I got busy fast. I throttled back on the engine. As I did, the
+fire-warning light flickered and dimmed. Then it flashed back
+on again full-strength. Following the instructions on the panel,
+I stop-cocked the engine completely, turning off all fuel valves.
+The engine unwound and settled down to a slow wind-milling.
+The fire-warning light flickered but remained on.</p>
+
+<p>When the powerless F&#x2060;-100 slowed to glide speed, the leading
+edge slats, which provide lift and stability in slow flight,
+cracked and extended automatically. This produced a steady
+rumbling noise which I assumed to be the fire blazing in the
+engine air-intake directly beneath my feet. (At that time few
+pilots had remained in an F&#x2060;-100 with a wind-milling engine long
+enough to hear that slat noise.)</p>
+
+<p>I called NACA radar and asked them to take a look through
+their field-glasses and see if I was trailing smoke. Since I hadn’t
+blown up yet there was a possibility that the fire might blow
+itself out. As a matter of professional pride, I was reluctant to
+abandon a new airplane that was still in one piece. Somehow,
+NACA radar failed to find me. After several garbled radio exchanges
+with them, I snapped impatiently: “Never mind.”</p>
+
+<p>The fire-warning light blazed steadily. However, I saw no
+other signs of real fire, so I concluded that it was a false warning.
+I would bring the ship down dead-stick. To my knowledge at
+that time, only one man, North American test pilot Bob Hoover,
+had ever dead-sticked an F&#x2060;-100. On that one occasion the struts
+had been pushed up through the wing, demolishing the plane.
+As a matter of fact, North American test pilots were then flipping
+coins to see who would deliberately bring an F&#x2060;-100 in dead-stick
+to fulfill a requirement of the Air Force acceptance tests. I was
+<span class="pagenum" id="Page_197">[Pg 197]</span>not concerned. Dead-stick landings in low L over D airplanes
+were my specialty. Every test pilot develops a strong point. I
+was certain that my talent lay in dead-stick landings.</p>
+
+<p>With the engine then idling and generating no energy to the
+plane’s systems, I was running out of hydraulic pressure to
+operate the controls. Following the handbook instructions, I
+pulled a lever which extended a miniature “windmill” into the
+slipstream. This “windmill” churned, building up pressure in
+the hydraulic lines. Unknown to me, there was a major leak in
+the line. The windmill was not helping, but hurting me. It
+was pumping hydraulic fluid overboard as fast as it could
+turn.</p>
+
+<p>I called Edwards tower and declared an emergency. All airborne
+planes in the vicinity of the base were warned away
+from the lake area. I held the ailing F&#x2060;-100 on course, dropping
+swiftly, lining up for a dead-stick lake landing, following the
+same glide-path that I used for the dead-stick Skyrocket. I
+flared out and touched down smoothly. It was one of the best
+landings I have ever made, in fact. Seconds later, while the F&#x2060;-100
+was rolling out, the remaining bit of hydraulic pressure in the
+control lines drained out and the controls froze.</p>
+
+<p>I then proceeded to violate a cardinal rule of aviation: never
+try tricks with a compromised airplane. The F&#x2060;-100 was still
+rolling at a fast clip, coming up fast on the NACA ramp, when I
+made my poor decision. I had already achieved the exceptional,
+now I would end it with a flourish, a spectacular wind-up. I
+would snake the stricken F&#x2060;-100 right up the ramp and bring it
+to a stop immediately in front of the NACA hangar. This trick,
+which I had performed so often in the Skyrocket, was a fine
+touch. After the first successful dead-stick landing in an F&#x2060;-100,
+it would be fitting.</p>
+
+<p>According to the F&#x2060;-100 handbook, the hydraulic brake system—a
+separate hydraulic system from the controls—was good
+for three “cycles,” engine out. This means three pumps on the
+brake, and that proved exactly right. The F&#x2060;-100 was moving at
+about fifteen miles an hour when I turned up the ramp. I hit
+<span class="pagenum" id="Page_198">[Pg 198]</span>the brakes once, twice, three times. The plane slowed, but not
+quite enough. It was still inching ahead ponderously, like a
+diesel locomotive. I hit the brakes a fourth time—and my foot
+went clear to the floorboards. The hydraulic fluid was exhausted.
+The F&#x2060;-100 rolled on, straight between the yawning hangar doors!</p>
+
+<p>The good Lord was watching over me—partially anyhow. The
+NACA hangar was then crowded with expensive research tools—the
+Skyrocket, all the X&#x2060;-1 series, the X&#x2060;-3, X&#x2060;-4, and X&#x2060;-5. Yet
+somehow, my plane, refusing to halt, squeezed by them all and
+bored steadily on toward the side wall of the hangar.</p>
+
+<p>The nose of the F&#x2060;-100 crunched through the corrugated
+aluminum, punching out an eight-inch steel I-beam. I was lucky.
+Had the nose bopped three feet to the left or right, the results
+could have been catastrophic. Hitting to the right, I would have
+set off the hangar fire-deluge system, flooding the hangar with
+50,000 barrels of water and ruining all the expensive airplanes.
+Hitting to the left, I would have dislodged a 25-ton hangar-door
+counterweight, bringing it down on the F&#x2060;-100 cockpit, and doubtless
+ruining Crossfield.</p>
+
+<p>Chuck Yeager never let me forget that incident. He drew
+many laughs at congregations of pilots by opening his talk:
+“Well, the sonic wall was mine. The hangar wall was Crossfield’s.”
+That’s the way it was at Edwards. Hero one minute,
+bum the next. The fact that I was the first pilot to land an F&#x2060;-100
+dead-stick successfully, and memorized elaborate and complete
+instrument data on the engine failure besides, was soon forgotten.</p>
+
+<p>The F&#x2060;-100 is a tough bird. Within a month NACA’s plane
+was flying again, with Crossfield back at the helm. In the next
+few weeks I flew forty-five grueling flights in the airplane, pushing
+it to the limits, precisely defining the roll coupling. (On one
+flight the coupling was so severe that it cracked a vertebra in
+my neck.) These data confirmed, in actual flight, the need for a
+new F&#x2060;-100 tail, which North American was planning to install
+on later models of the airplane.</p>
+
+<p>Every night after landing, I taxied the F&#x2060;-100 slowly to the
+<span class="pagenum" id="Page_199">[Pg 199]</span>NACA ramp. At the bottom, placed there on orders of Walt
+Williams, there was a large new sign, symbolic of the new
+atmosphere at Edwards. It said:</p>
+
+<p class="center p1t">
+PLEASE COME TO A COMPLETE STOP<br>
+BEFORE TAXIING UP RAMP
+</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_200">[Pg 200]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_21">CHAPTER 21 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 21</span> <i>End of the Line</i>
+ </h2>
+</div>
+
+
+<p class="noindent">During my first five years at Edwards NACA achieved a remarkable
+safety record. No NACA pilot had bought the farm;
+no airplane had been lost through accident. This was due partly
+to luck, partly to excellent maintenance and a thoughtful approach
+to flight test. But our luck was bound to run out. It
+did, finally, in August, 1955.</p>
+
+<p>I was sitting at my desk in the pilots’ room, roughing out
+a report on a Skyrocket flight—the old ship was still going
+strong—when the emergency broke. Somewhere high over the
+base, Stan Butchart, the B&#x2060;-29 mother-plane pilot, was about to
+air-launch Joe Walker in the X&#x2060;-1&#x2060;-A. I was absently following the
+progress of the flight over the radio loudspeaker as mother-plane
+pilot, chase pilot, and Joe Walker, strapped in the cockpit of the
+rocket plane, talked back and forth, getting set for the drop.</p>
+
+<p>“We have a fire.” The words crackled from the loudspeaker.
+I snapped to attention.</p>
+
+<p>“Fire?” Butchart repeated.</p>
+
+<p>“Yes. There’s been an explosion.”</p>
+
+<p>I raced upstairs to the NACA control tower. Soon it was
+jammed with NACA engineers and mechanics, crowding the
+<span class="pagenum" id="Page_201">[Pg 201]</span>loudspeaker, shouting conflicting accounts of the accident, and
+helpful and unhelpful suggestions.</p>
+
+<p>By that time NACA had had possession of the flashy X&#x2060;-1&#x2060;-A,
+in which Yeager and Murray set their speed and altitude records,
+and her sister-ship, the X&#x2060;-1&#x2060;-B, for a little over one year.
+We had not logged much flight time on the ships. NACA had
+shipped them back to the Bell factory for ejection-seat installation,
+and then filled both planes with data instruments.
+All this took time and delayed the flight program. The installation
+of the ejection seats caused considerable controversy. I was
+in favor of proceeding without them because of the urgency of
+the program and because Yeager, Murray, and Everest had demonstrated
+that the airplanes could be recovered from unstable
+flight. As senior pilot my views were carefully weighed, but
+the majority at NACA favored the escape device.</p>
+
+<p>The fire that broke out in the X&#x2060;-1&#x2060;-A was later traced to a
+similar source as that which destroyed the X&#x2060;-1&#x2060;-D, Queenie, and
+the first X&#x2060;-2 over Lake Ontario. After those accidents the airplanes
+were modified to reduce the possibility of a single
+catastrophic explosion. In theory, a fire from that source might
+be “controlled,” or held down to a smouldering effect. This was
+all theory, however. In my view, a fire in any airplane was
+dangerous. A fire in a rocket plane, loaded with tons of Lox
+and alcohol, brought to mind the picture of a bomb with a
+lighted fuse. In my opinion, there was only one thing to do: get
+rid of it, and fast.</p>
+
+<p>Each rocket-plane pilot had worked out, in conjunction with the
+pilot of the mother ship, a procedure to follow if an emergency
+developed in either plane. Jack McKay, who had developed into
+a very able test pilot, and I had agreed with Butchart that if
+something went wrong <i>after</i> either of us had entered the cockpit
+of the Skyrocket and had closed the canopy, he would immediately
+jettison the rocket plane, leaving the rocket-plane pilot
+to look after his own hide. As a matter of fact, McKay and
+Butchart later ran into such an emergency. One day something
+went haywire in a propeller on the B&#x2060;-29 mother plane. As agreed,
+Butchart instantly cut loose the Skyrocket. A split second later
+<span class="pagenum" id="Page_202">[Pg 202]</span>the B&#x2060;-29 prop tore loose and cartwheeled through the space
+the Skyrocket had just vacated. McKay landed without difficulty;
+but had Butchart not cut the parasite plane loose, the prop would
+have ripped into its fuel tanks, causing an explosion that would
+have killed everyone, including McKay.</p>
+
+<p>“What’s the situation up there?” Vensel yelled into the control-tower
+mike.</p>
+
+<p>“Well, we’ve got a fire in the X&#x2060;-1&#x2060;-A,” Butchart replied coolly.
+“We got Joe Walker out of the cockpit. He’s standing by in the
+bomb-bay compartment now. The fire’s pretty bad. I figure we
+ought to drop this thing pretty quick.”</p>
+
+<p>“Now let’s not take any chances,” Vensel said. “Don’t try to
+save the airplane if there’s any danger.”</p>
+
+<p>I fought down an urge to grab the mike and tell Butchart to
+pull the jettison lever then without another second’s delay. But
+he was already getting enough advice from the ground, and I
+couldn’t get near the mike, anyway.</p>
+
+<p>The Air Force chase plane was piloted by Major Kit Murray.
+He had been tucked up close to the X&#x2060;-1&#x2060;-A when the explosion
+occurred. The X&#x2060;-1&#x2060;-A wheel doors had blown off and smashed
+into Murray’s plane.</p>
+
+<p>Above the chatter in the control room I heard Murray report:
+“I might have a little damage here. I’ll try to stick around ...
+Butch, you’re getting a lot of smoke out of the back end. The
+Lox and hydrogen peroxide are dumping overboard....”</p>
+
+<p>Murray, with a plane damaged to an extent no one thought
+to investigate, was still hanging on, relaying an account of the
+scene from the outside. But how long could he remain on station
+with a damaged plane? Was he needlessly risking his own
+life?</p>
+
+<p>I ran to the nearest telephone and put through a call to
+Air Force Fighter Ops. Pete Everest answered.</p>
+
+<p>“Pete,” I said, “Murray’s up there. His plane’s been hit. How
+soon can you get a relief chase plane up?”</p>
+
+<p>“We’ll be up there in five minutes,” Everest said, ringing off
+hurriedly. I think he jumped into an airplane and flew up to
+<span class="pagenum" id="Page_203">[Pg 203]</span>relieve Murray. In any case, Murray soon landed without further
+difficulty.</p>
+
+<p>Now a big debate was raging in the NACA control room
+about what to do: keep the rocket plane attached to the mother
+plane and try to save it, or throw it away? No one asked me my
+opinion, but I gave it anyway:</p>
+
+<p>“Throw that damned thing away as fast as you can.”</p>
+
+<p>The experts thronging the control room soon swung to this
+conclusion. Then a second debate arose over where to drop the
+airplane. There was concern that the X&#x2060;-1&#x2060;-A might fall on a house
+or an automobile. Vensel called the Air Force and requested
+they assign a remote bombing area into which the stricken
+rocket plane might be jettisoned. While this discussion took
+place, the fire in the X&#x2060;-1&#x2060;-A raged about the plane.</p>
+
+<p>A new thought flashed to my mind. If the Lox had drained
+out of the rocket plane and the alcohol remained in its tank,
+the plane would be dangerously tail-heavy. When it fell away
+from the mother plane, it might pitch up sharply, perhaps fatally
+ramming the mother plane. Had the fact that the Lox drained
+away reached Butchart amidst all the bureaucratic chatter about
+where to drop the X&#x2060;-1&#x2060;-A?</p>
+
+<p>I ran downstairs and found a radio mike in a secluded room.</p>
+
+<p>“Butch,” I called, breaking in on the radio circuit. “This is
+Scotty.” I kept my voice low, trying to restore some semblance
+of order in the chaos on the radio circuit.</p>
+
+<p>“Go ahead, Scotty,” Butchart replied.</p>
+
+<p>“The Lox is drained, Butch. Be sure to pull some G’s when
+you drop her. Otherwise, she’ll pitch up and might climb right
+into the bomb-bay.”</p>
+
+<p>“Okay, Scotty, already thought of it, thanks anyway. I’m
+going to cut her now. I’m pulling G’s. I’m in a hard left bank.
+I think it will go okay.”</p>
+
+<p>Butchart pulled the lever and the smoking X&#x2060;-1&#x2060;-A disengaged
+from the mother plane. As we feared, the tail-heavy plane
+pitched up. In fact, it climbed right by the B&#x2060;-29 and almost
+<i>looped</i> before dipping and spinning crazily into the desert floor.</p>
+
+<p>Butchart received further instructions from the ground. Among
+<span class="pagenum" id="Page_204">[Pg 204]</span>other things, he was advised to land the mother plane as quickly
+as possible. I knew Butchart’s good judgment would prevail.
+He would check his ship thoroughly, with landing gear down
+and locked, before descending. Butchart had brought many
+damaged airplanes back to base in the Pacific during World
+War II.</p>
+
+<p>This accident reduced our stable of rocket airplanes to three:
+the X&#x2060;-1&#x2060;-B, the X&#x2060;-1&#x2060;-E (still being slowly rebuilt by hand), and
+the Skyrocket—and set off another prolonged investigation which
+grounded the Bell airplanes. It also influenced the future of the
+Bell X&#x2060;-2. That jinxed ship had finally arrived back at Edwards
+and was then being feverishly prepared for its first powered
+flight by Pete Everest and the Bell crew. Following the loss of
+the X&#x2060;-1&#x2060;-A, the Air Force passed the word that if the X&#x2060;-2 had
+not flown by December 31 of that year, the project would be
+completely abandoned. The plane would be consigned to the
+Smithsonian.</p>
+
+<p>Facing this harsh deadline, Everest finally got off a shaky
+powered flight. It took place on November 18, 1955, less than
+six weeks before the expiration date set for the X&#x2060;-2 program.
+It was almost ten years to the day since the X&#x2060;-2 had been conceived,
+and about three years and five months after Skip Ziegler
+had made the first X&#x2060;-2 powerless glide flight at Edwards. Everest
+held the X&#x2060;-2’s speed subsonic and landed hastily after a fire
+broke out in the tail of the plane. This flight gained the program
+a reprieve—an extension. In spite of this Pyrrhic victory, it
+seemed dead certain at the time that the X&#x2060;-2 would never provide
+the U.&nbsp;S. with useful aeronautical research data in time.
+The other rocket planes in our stable were almost obsolete.</p>
+
+<hr class="tb">
+
+<p>By comparison, NACA’s advanced research airplane, then
+officially dubbed the X&#x2060;-15 (the experimental vehicles from the
+X&#x2060;-6 to X&#x2060;-14 were mostly unmanned missiles), was showing
+strong promise. Six months after the Air Force asked for bids,
+or by June, 1955, all returns were in. Four companies—North
+American, Bell, Douglas, and Republic—submitted proposals.
+The lack of interest among the other aircraft companies is
+<span class="pagenum" id="Page_205">[Pg 205]</span>explainable. Research airplanes, as their stormy history clearly
+indicates, are unprofitable projects from a management standpoint.
+In the beginning they require superlative and expensive
+design and engineering talent. They do not result in big production
+orders, which are the bread and butter of the industry.
+Since the X&#x2060;-15 was an NACA project, all information and new
+theory and ideas developed with the plane would be made available
+without charge to all of industry. Many companies reasoned:
+why assign our most talented people to develop ideas
+which our competition can exploit?</p>
+
+<p>The bids were meticulously analyzed. The Republic proposal
+was extraordinarily good, but it showed clearly that the company
+lacked experience in the research airplane field. The
+Douglas airplane was essentially a redesigned version of the “advanced
+Skyrocket,” which its engineers hoped to sell to the
+Navy. The Bell airplane looked very good and demonstrated
+the company’s long experience in rocket airplanes. But because
+of many political factors, Bell’s wonderful flair for exotic inventions,
+and the recent performance of the X&#x2060;-1&#x2060;-A and X&#x2060;-2 planes,
+the Bell bid was not approved. In retrospect, it seems to me that
+from the beginning the contract was almost pre-ordained for
+the fourth company, North American.</p>
+
+<p>Ironically, many at North American, for many of the reasons
+just cited, were not seriously interested in building the
+X&#x2060;-15. Its designers, like those of other companies, had huddled
+with NACA engineers to find out what was wanted. Afterward
+the North American advanced design group came up with a
+scheme superior in detail to, but in general outline quite like,
+the other proposals. Actually, the North American proposal was
+carried through only as a “design exercise” for the company
+engineers, a not uncommon practice in the industry. One man,
+however, Harrison (“Stormy”) Storms, Chief Engineer of the Los
+Angeles Division, with a long-range look ahead, had sparked a
+growing interest in the endeavor within the high levels of the
+company.</p>
+
+<p>There were several reasons why the Air Force found North
+American the ideal company to build the X&#x2060;-15. For one thing,
+<span class="pagenum" id="Page_206">[Pg 206]</span>North American was an old friend of the Air Force and primarily
+an Air Force contractor, with an outstanding history
+going back to World War II, when it produced P&#x2060;-51s and B&#x2060;-25s
+by the thousands. At that time North American had built more
+jet airplanes—F&#x2060;-86s and F&#x2060;-100s—than any other company, and
+its relationships with the Air Force were close and very simpatico.
+North American’s engineers were conversant with high
+speeds and the problems of aerodynamic heating and instability.
+The company had great depth, in terms of engineering talent
+and money, on which it could draw in case of trouble. Its
+Rocketdyne division was producing the most powerful and
+reliable rocket engines in the U.&nbsp;S.—the power-plants for the
+missiles Thor, Jupiter, and Atlas. North American engineers were
+then in the advance design stages of a Mach 3 fighter, the F&#x2060;-108,
+which would benefit directly from the X&#x2060;-15 experience. Finally,
+North American, a Los Angeles corporation, was convenient to
+the Edwards test base.</p>
+
+<hr class="tb">
+
+<p>“Walt, I want to make a proposal to you.”</p>
+
+<p>“What is it, Scotty?” Williams said. He bounced out of his
+chair and paced about his office. I followed him with my eyes,
+but I didn’t move from my chair.</p>
+
+<p>“Do you remember my proposal in 1953 to Dr. Dryden to
+go to Bell and ride herd on the X&#x2060;-2?”</p>
+
+<p>“Sure. Certainly.”</p>
+
+<p>“You see where the X&#x2060;-2 is now,” I said. “That would have
+been a pretty good idea if we had followed it through. Right?”</p>
+
+<p>“Maybe,” Williams said. “Then again, maybe not. It may be
+that no one could have salvaged the X&#x2060;-2. Why?”</p>
+
+<p>“I’ve been thinking about this X&#x2060;-15,” I said.</p>
+
+<p>“Well, now, that’s a surprise. You wouldn’t kid me, would
+you? Have you been thinking about anything else?”</p>
+
+<p>“It’s a little difficult to spend time thinking about it, what
+with having to do most of your thinking besides.” At that,
+Williams chuckled and tossed his pencil at me, missing by yards.</p>
+
+<p>“Okay, Scotty. I can see you’re being real serious,” he said.
+“What do you have in mind?”</p>
+
+<p><span class="pagenum" id="Page_207">[Pg 207]</span></p>
+
+<p>“I want to do with the X&#x2060;-15 what I proposed for the X&#x2060;-2.
+I want to be assigned to the North American plant full-time on
+the X&#x2060;-15 project, carry out the company demonstration flights,
+and then return with the airplane to NACA, Edwards, and make
+the maximum-performance flights. I want to get in on the
+project from the beginning and stay with it right on through
+to completion.”</p>
+
+<p>Williams sat down heavily in the chair behind his desk. He
+doodled on his scratch pad, rubbed his head, turned and peered
+out the window, staring fixedly into the desolate wastes of
+tumbleweed, and said nothing for fully three minutes. I could
+imagine in detail every single political thought running through
+his mind. (The stars had long since gone from my eyes.) I
+could see him mentally arranging the complicated chessboard,
+putting NACA men, North American men, Air Force men, and
+other industry men in their proper starting order and mentally
+playing the game through. I had done it many times myself.
+Apart from the strictly personal relationships, there were larger
+questions to resolve in this game: how would it affect NACA’s
+relationship with the Air Force, with North American? How
+would it affect the operation at Edwards? What about the Air
+Force pilots—Pete Everest, Chuck Yeager, Kit Murray, and the
+other experienced hands? There were a thousand moves that
+might leave the King—in this case, Williams—or the X&#x2060;-15 program—vulnerable.</p>
+
+<p>“Why does this thing mean so much to you?” Williams asked
+me.</p>
+
+<p>“I’ve told you before, Walt. We must do something to get one
+of these research airplanes built in time to do some good,” I said.</p>
+
+<p>“But what will North American say?” Williams said. “That’s
+a huge company. A good company. They’ve got about five thousand
+engineers on the payroll down there. You know how they’ll
+react if we come butting in.”</p>
+
+<p>The answer from Williams was already coming through loud
+and clear. It was “no.” His reasons for arriving at that conclusion
+were perfectly sound, but the answer ill-suited my ambition.
+The time had come, I knew, to part company with NACA. It
+<span class="pagenum" id="Page_208">[Pg 208]</span>would not be easy to walk away dry-eyed. I had cut my teeth
+there, and formed many deep and lasting friendships, including
+that with Walt Williams. My future, however, lay not with
+NACA but with the product of its total genius, the X&#x2060;-15.</p>
+
+<p>“Walt, this is the end of the line,” I said.</p>
+
+<p>“Scotty. You want to think this one over carefully. You’re not
+a young pilot any more—you’re thirty-four. If past history is
+any example, that plane won’t be flying for a long, long time.
+You might be forty years old by then, and they might be looking
+for a younger pilot. A hundred things could go wrong.”</p>
+
+<p>“But you don’t understand. It’s <i>not</i> just the flying. I <i>do</i> want to
+fly the plane. But I want to help <i>build</i> it, too. I want to be a
+part of that airplane,” I said.</p>
+
+<p>“We’ve still got a lot of airplanes around here you can be
+part of,” Williams said. “You practically built the X&#x2060;-1&#x2060;-E yourself.
+And if they ever finish the X&#x2060;-15 you can fly that, too—if
+you live that long.”</p>
+
+<p>“I’m sorry, Walt. I may never be able to explain this properly
+to anyone. But I am going with that airplane.”</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_209">[Pg 209]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_22">CHAPTER 22 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 22</span> <i>End of an Era</i>
+ </h2>
+</div>
+
+
+<p class="noindent">I drove slowly, gaping at the pale green hangar-sized North
+American production buildings strung along the south edge of
+Los Angeles International Airport like some titanic freight train.
+Hundreds upon hundreds of automobiles were parked bumper
+to bumper in lots adjoining the buildings. Inside those buildings,
+I knew, tens of thousands of skilled workmen were riveting
+away on the last few hundred of the six thousand Sabrejets
+the Air Force had ordered, and tooling up for mass production
+of the supersonic F&#x2060;-100. Having taken the measure of its size
+from close quarters, I then understood how North American
+had ground out 43,000 airplanes in World War II. It was a tremendous
+operation—five hundred times the size of NACA,
+Edwards—a company that had built more airplanes than any
+other firm in the world. Its bid for the X&#x2060;-15 alone—about $50
+million—almost equaled the yearly budget for all of NACA.</p>
+
+<hr class="tb">
+
+<p>“How do you do, Mr. Crossfield.” North American’s president,
+Lee Atwood, a thin, soft-spoken man with deep-set green eyes,
+held out his hand. In stark contrast to the California environment,
+he was meticulously dressed, conservative style. An aeronautical
+<span class="pagenum" id="Page_210">[Pg 210]</span>engineer, in 1948 he had taken over day-by-day operation
+of North American from the dynamic Dutch Kindelberger,
+the famous airplane-builder who gave North American its great
+fame and reputation. Dutch had moved up to be chairman of the
+board of directors. Atwood offered me a seat and then returned
+to sit behind his broad desk. The office was mahogany-paneled
+and decorated with deep green potted plants.</p>
+
+<p>As I wound up for my pitch, it occurred to me that I was
+then about to address one of the most important men in the
+aviation industry. That I was in his office at all, I believe, was
+due solely to the fact that I was the first man to fly at twice
+the speed of sound. In the two years since I had made the
+record, this flight, technically insignificant though it was, had
+opened many doors. Like Yeager, Everest, and Bridgeman, I
+came to know four-star generals and other big shots in aviation
+on a first-name basis. For example, I had met Atwood the previous
+year in New York when at a gathering of aeronautical engineers
+he presented me the Lawrence Sperry award for my
+high-speed flight work. It was a farce, in a way, but for a man on
+a mission it made the job a lot easier.</p>
+
+<p>I was not really up to the interview that day. I was suffering
+from influenza, the same malady that weakened me on the day
+of the flight which paved my way to Atwood’s door. My nose
+was draining and every few minutes I had to take out my handkerchief
+and blow. It was annoying. I probably impressed
+Atwood as the least likely physical specimen to fly the X&#x2060;-15
+he ever saw.</p>
+
+<p>“Mr. Atwood, I want to come to work for North American on
+the X&#x2060;-15 project.” I paused to let this sink in, and to see if
+it might bring an immediate “no.” Mine was something of a
+bold and unorthodox move, to put it mildly. North American
+already employed a team of perhaps thirty test pilots, bossed
+by Bob Baker and Jack Bryan, both of whom had been with
+North American for many years. No doubt many of these pilots
+had their eyes on the X&#x2060;-15 and were fully capable of test-flying
+it. I had long since learned that big corporations like North
+<span class="pagenum" id="Page_211">[Pg 211]</span>American did not usually draw from the outside. They used
+their own talent of special jobs.</p>
+
+<p>“Rocket planes are my business,” I said, blowing again. “I’ve
+been flying them for five years at Edwards, as senior pilot for
+NACA. I not only flew them, I laid out flight-test programs,
+recorded the data, drew up the reports, and presented NACA
+conclusions. I also oversaw maintenance and participated in
+the rebuilding of the X&#x2060;-1&#x2060;-E to the extent of laying out the new
+propulsion system—a combination of the best features of the
+Skyrocket and the X&#x2060;-1—and other hardware.”</p>
+
+<p>Atwood interrupted me briefly to receive an important telephone
+call. I blew my nose and cursed my flu. When he hung
+up, I rolled on.</p>
+
+<p>“I know you have a very experienced organization down here
+with plenty of able talent. But if you have never tackled a
+rocket plane, there are some special problem areas. There’ll be
+a lot of problems on this particular ship. It’s revolutionary.
+We’ve had a bad history in research airplanes, as you know.
+Delays. Explosions. Investigations. Instability. I think I can contribute.
+And I’d like to have the privilege of working on this
+airplane. I want to help make it as nearly perfect as possible
+and get it to Edwards in time to do some good.”</p>
+
+<p>“What do you want to do specifically?” Atwood asked. It was
+clear from the telephone call I had overheard that he was a
+man of a few well-chosen words.</p>
+
+<p>“I’d like to start from the beginning. Work on the plane as
+an engineer, helping with the systems, in a sort of advisory
+capacity. In that way, when it came time to fly the airplane,
+I’d be thoroughly familiar with all of it, down to the smallest
+bolt. During the construction I could interject my experience
+with other rocket airplanes. At the same time, as an ex-NACA
+hand, I’d be useful as a liaison with that agency during all
+phases of construction and flight test.”</p>
+
+<p>I talked on, stressing my strong points—my master’s degree
+in aeronautical engineering, my background in the wind tunnel
+at the University of Washington, my brief experience at the
+Boeing plant in Seattle during the early days of World War II,
+<span class="pagenum" id="Page_212">[Pg 212]</span>my Navy tour as a flight instructor, my experience in manufacturing
+aircraft accessories, my flight and engineering record
+at Edwards. Whether it was all this combined, or the simple
+magic of Mach 2, I don’t know, but in spite of my influenza
+and runny nose, Atwood, as is his nature, gave me the benefit
+of the doubt.</p>
+
+<p>As president of North American, Atwood bossed six separate
+divisions of the company. Only one of these, the Los Angeles
+division, would build the X&#x2060;-15. A president of a company of
+that size delegates total authority to chiefs. He doesn’t hire men
+off the streets and thrust them upon his lieutenants. He operates
+by suggestion.</p>
+
+<p>“Would you like to go down and talk to Ray Rice about this?
+The proposal is a kind of unusual arrangement for us. His division
+will build the airplane and he knows what kind of people
+he needs.”</p>
+
+<p>“Certainly,” I said.</p>
+
+<p>“When can you get by to see him?”</p>
+
+<p>“Right now, if it’s convenient.”</p>
+
+<p>Ray Rice, Chief Engineer of the Los Angeles Division, bought
+my proposal, I have often thought since, with some reservations.</p>
+
+<p>At that time the X&#x2060;-15 project was still so new in the company
+and I was so new to the company that there was no specific
+job slot available to me. Thus I was hired, more or less, as a
+consultant, and didn’t really learn who my boss was for a long
+time.</p>
+
+<hr class="tb">
+
+<p>Coincidental with my move to North American, in December
+of 1955, the great and glorious era at Edwards was in the twilight
+of its life. The Skyrocket, after a total of about 130 flights,
+was slated for moth-balls. The X&#x2060;-1&#x2060;-E, so long in the rebuilding,
+flew shortly after my departure but never lived up to our
+expectations. Soon it was grounded for good, when NACA
+learned that the pilot’s boot-tips might strike the instrument
+panel in the event of an emergency ejection. The X&#x2060;-1&#x2060;-B made
+a few more flights, some to collect advanced information for
+the control system of the X&#x2060;-15, but this airplane was old before
+<span class="pagenum" id="Page_213">[Pg 213]</span>its time and it, too, was ultimately grounded. The X&#x2060;-2, the plane
+I was supposed to fly in the spring of 1951 for NACA, was still
+slowly winding her tragic course into history, six years or more
+behind schedule.</p>
+
+<p>A few weeks after I departed Edwards, Pete Everest took the
+X&#x2060;-2 on her second powered flight, firing only one of the two
+rocket barrels. In the weeks following, in a startling burst of
+activity, he clicked off six additional powered runs, achieving
+on his eighth and final flight a speed of about Mach 2.9, or
+1900 miles an hour. When Everest landed, as he wrote in his
+book, he telephoned his wife and said, “Honey, you are talking
+to the fastest man in the world.” She was—and his 1900-mile-an-hour
+flight in that unstable airplane was, in my opinion,
+remarkable. As Everest himself said, “Control was marginal and
+if the pilot overcontrolled or maneuvered the airplane too violently,
+anything could happen.”</p>
+
+<p>Walt Williams was anxious to take over the X&#x2060;-2 for NACA
+in order to press ahead with a series of aerodynamic heating
+studies at extreme speeds. But after its years of frustrating toil
+and heartbreak, the Air Force understandably was not about
+to turn the plane over until some additional records had been
+chalked up. On the verge of his departure for other duties,
+Pete Everest assigned two new, young Air Force pilots to make
+these flights. Iven Kincheloe, a handsome blond captain, a
+graduate of the Empire Test Pilot School, and a Korean ace,
+would make the altitude attempt. Captain Milburn (“Mel”)
+Apt, a balding veteran of Edwards, would make the speed
+attempt. NACA dutifully protested these flights, pointing to
+the dangers involved. The Air Force compromised, setting a
+deadline of November 1, 1956, for turning the plane over to
+NACA, whether or not Kincheloe and Apt were successful.</p>
+
+<p>Kincheloe came up to bat first. He made one check-flight in
+the X&#x2060;-2, under Everest’s direction. Then after Everest left,
+Kincheloe reared back to hit a home-run. He opened the engine
+wide when the X&#x2060;-2 was dropped, and pointed the tapered nose
+skyward, the stick hauled full back in his lap. On the first two
+flights the X&#x2060;-2 reached high, but not high enough. On the third
+<span class="pagenum" id="Page_214">[Pg 214]</span>try, Kincheloe’s fourth flight in the X&#x2060;-2, he succeeded. The X&#x2060;-2
+hurtled to 126,000 feet. In that rarefied air, when it ran out of
+momentum, the X&#x2060;-2 fell back toward earth. When the plane
+reached the thicker atmosphere, Kincheloe, in a remarkable
+piece of piloting, recovered, slowed, circled, and landed. He
+never again flew a rocket airplane. On the strength of these
+four flights and his inexhaustible enthusiasm for the business,
+the Sunday newspaper supplements labeled him “Mr. Space.”</p>
+
+<p>With the NACA deadline coming up fast, Captain Mel Apt,
+who had not yet had a check-flight in the X&#x2060;-2, made hurried
+preparations for a final effort to break Everest’s speed record.
+Four days before his time expired, he launched in the X&#x2060;-2 for
+the ship’s thirteenth powered flight. There was evidently no
+time for a preliminary flight at low speed. In any case, the Air
+Force did not specifically limit Apt on his first flight. He dropped,
+flicked on the rocket barrels, and flew a near-perfect parabolic
+flight plan. The X&#x2060;-2’s rocket burned six seconds longer than it
+ever had before. Mel Apt drove the X&#x2060;-2 to the amazing speed of
+about Mach 3.1, or 2,094 miles an hour, beating Everest by a
+wide margin.</p>
+
+<p>The thirteenth flight proved to be the unlucky one. At the
+end of the speed run the X&#x2060;-2 behaved as many had predicted.
+It cartwheeled out of control, subjecting the X&#x2060;-2 and Apt to
+tremendous G forces. He could not recover. As the plane
+whipped into a deadly inverted spin, he tried to abandon ship.
+He blew the nose capsule and it separated from the main
+fuselage, but before he could dive out and open his parachute,
+the capsule struck the desert floor with terrible impact. Apt
+was killed, the X&#x2060;-2 destroyed. Around Edwards, Pete Everest’s
+title was changed from “Fastest Man in the World” to “Fastest
+Man Alive.” A new street at the base was named in Apt’s honor.</p>
+
+<p>That was the final, dreadful end of the X&#x2060;-2. In eleven years
+from start to finish, the program had cost the U.&nbsp;S. millions of
+dollars. It robbed two excellent pilots and one crewman of
+their lives and destroyed, altogether, three airplanes. In its
+total of thirteen flights the X&#x2060;-2 had provided the U.&nbsp;S. a speed
+and altitude record, but precious little else. The X&#x2060;-2 yielded
+<span class="pagenum" id="Page_215">[Pg 215]</span>hardly a scrap of aerodynamic heating data, the purpose for which
+it was intended. The premature loss of the ship left the U.&nbsp;S.
+without a research airplane to probe the Mach 3 zone and created,
+in a sense, a larger and more urgent mission for the X&#x2060;-15.</p>
+
+<p>The way I see it, that last flight of the X&#x2060;-2 drew the curtain
+on the grand era at Edwards. It closed out what might be called
+the first phase of the history of the experimental research airplane
+in the United States. The big NACA installation went
+on, of course, piling up data points by the tens of thousands,
+which proved useful. But all the old race-track excitement was
+gone completely. There was no plane to probe exciting new
+areas.</p>
+
+<p>Edwards became a place of hard work and routine. NACA
+pilots wrung the last drop from the group of tired planes. The
+Air Force pilots concentrated on the newest production-model
+jets—Republic’s F&#x2060;-105 fighter-bomber; North American’s experimental
+F&#x2060;-107; Convair’s F&#x2060;-106, a faster, larger version of the
+delta-wing F&#x2060;-102; and Convair’s delta-wing, medium-range
+bomber, the B&#x2060;-58. The Navy pilots were busy de-bugging a
+stable of comparable carrier-deck fighters and bombers, and a
+pilotless missile, the Regulus.</p>
+
+<p>I don’t mean to imply that the test work was not dangerous.
+On the contrary, it was hair-raising at times and many pilots
+lost their lives. Missing from the busy, formal scene, however,
+was the echoing boom of a rocket engine exploding to life at
+35,000 feet, the long snaky trail of white rocket exhaust across
+the sky, the satisfaction of the free drink at Pancho’s, another
+milestone on man’s inexorable journey toward the stars reached
+or passed. In the period following the loss of the last X&#x2060;-2, almost
+everybody who cared to flew Mach 2 regularly in production-line
+airplanes. But no faster.</p>
+
+<p>It is only human to be nostalgic, and to view one’s own life
+from a special point of view. So I draw some satisfaction from
+the thought that my work on the frontier of flight contributed
+considerably to the story of the grand era at Edwards. True,
+I came on the scene late, three years behind Yeager’s epic
+Mach 1 flight; and I left early, about nine months before Mel
+<span class="pagenum" id="Page_216">[Pg 216]</span>Apt’s epic Mach 3 flight. But I had come when the experimental
+plane program was picking up, as the new ships came
+from the factories, and I left just before the whole show ran
+out of steam.</p>
+
+<p>In those five years I logged only six hundred hours in the
+air, but what hours they were! When I flip back through my
+own flight book, I am astonished. Where did I find the time?
+Eighty-nine flights in the Skyrocket; eleven flights in the X&#x2060;-1;
+a grand total of one hundred rocket flights. For what it’s worth,
+that total is about equal to all the rocket flights of Yeager,
+Everest, Marion Carl, Bridgeman, Murray, Kincheloe, and Apt
+put together. No less interesting were the twenty-five flights
+in the XF&#x2060;-92&#x2060;-A, thirty-two flights in the X&#x2060;-4, twelve flights in
+the X&#x2060;-5, sixty-five flights in the F&#x2060;-100, seventeen flights in the
+D&#x2060;-558&#x2060;-I, three flights each in the F&#x2060;-102 and F&#x2060;-84&#x2060;-F, one flight in
+a B&#x2060;-47 which I had studied years earlier in the University of
+Washington wind tunnel, thirteen flights in an F&#x2060;-86, one flight
+in a Navy F9F, sixty-four flights in the YF&#x2060;-84, and scores upon
+scores of routine flights in the wide variety of propeller-driven
+airplanes in NACA’s stable. I had even flown, briefly, a Hiller
+helicopter.</p>
+
+<p>In sum, I believe it is fair to say that I was good for NACA
+and NACA was good for me. My six hundred hours of flight
+time, plus countless hours of preparation and analysis on the
+ground, helped lay bare many secrets in the trans-sonic area.
+It was a small contribution, admittedly, but when taken together
+with all the aeronautical research and experimentation in the
+United States, I believe it helped to advance the state of the
+art. At the same time, the education provided me by NACA in
+engineering, flying, industry and government politics, and a
+thousand other things, was invaluable. At NACA, Edwards, I
+graduated in my field. Most important, I found the means of
+bringing my life full circle, to the X&#x2060;-15, the airplane that would
+begin a new era at Edwards, the second phase in the turbulent
+history of the research airplane, the second fifty years of aviation
+history.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_217">[Pg 217]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_23">CHAPTER 23 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 23</span> <i>Secrets in the Cafeteria</i>
+ </h2>
+</div>
+
+
+<p class="noindent">Building number 20, a relic of World War II, stood across
+the street from the main North American engineering offices,
+almost lost in a towering cluster of manufacturing buildings
+adjoining the Los Angeles International Airport. Building 20
+housed the cafeteria for North American employees. During the
+first half of 1956 a cramped space alongside the cafeteria, which
+we called the “garret,” served as home for the X&#x2060;-15. The space
+was restricted. A North American guard stood watch at the
+doorway, which bore the sign: <span class="allsmcap">SECRET. UNAUTHORIZED PERSONNEL
+PROHIBITED.</span> Visitors cleared to enter our workroom had first to
+sign a log book and be vouched for by an escort known to the
+guard on duty. It was all very hush-hush.</p>
+
+<p>Under ordinary circumstances, North American builds airplanes
+like Detroit builds automobiles—on a razzle-dazzle production-line
+basis. The plant people are divided into teams
+which specialize—excel, I should say—in various fields of aeronautical
+engineering, design, and manufacturing. One group, the
+Advanced Design Section, conceives the new airplanes, inventing
+and laying out drawings of concepts. This group then takes
+these plans and, working closely with the Washington office of
+<span class="pagenum" id="Page_218">[Pg 218]</span>North American, submits proposals to the government or, in
+the rare instance of a commercial airplane, to airline executives.
+If the government buys a North American design, or awards a
+production contract, the remaining teams of the plant, amounting
+to some 16,000 people, move in to transform the layout
+drawings and specifications of the Advanced Design Section
+to working hardware.</p>
+
+<p>This is an immensely complicated task, much too involved to
+describe in detail here. In brief, North American project engineers,
+working hand-in-glove with demanding “customer” project
+engineers, rough out a working concept of the airplane
+after first settling on the engine, or engines, usually furnished
+separately by the customer. In the initial stages the toughest
+problems are the weight and balance analyses, crucial to the
+final performance of the airplane. This delicate work goes on
+for months, turning hair gray and keeping many engineers preoccupied
+with wind-tunnel models of varying shapes and designs.
+The goal is to squeeze maximum performance out of the
+total package, taking into account infinite variables such as
+engine power and fuel consumption. Few people realize it, but
+in these days the fuel of an airplane, which, of course, constantly
+diminishes during flight and can change the center of
+gravity of the ship, sometimes accounts for sixty per cent of
+the total weight of the airplane at take-off.</p>
+
+<p>When the general scheme is finally agreed upon, and the
+equipment to go into the airplane, such as armament, navigational
+and safety devices, has been fixed, North American
+project engineers then call upon all sections of the plant for
+help. Hundreds of engineers in the structures, aerodynamic,
+thermodynamic, manufacturing, and sub-systems design departments,
+go to work, designing specific pieces for the airplane—instrument
+panels, for example, and landing-gear shock absorbers,
+dive brakes, windshields, and fuel tankage. At the same
+time, still another team builds a full-scale “mock-up” or dummy
+model of the airplane, complete with instrument panel and
+moveable controls, which the design engineers use to insure that
+<span class="pagenum" id="Page_219">[Pg 219]</span>all of the tens of thousands of pieces of the puzzle fit properly
+before they order production.</p>
+
+<p>The entire process from that point on is an endless, nerve-shattering
+battle to design parts that will perform the required
+task for the least weight. Every pound of payload (that is, armament,
+fuel, passengers) in an airplane can add more than
+seven pounds of weight to the total structure which the engine,
+with a fixed thrust, must force through the air. The drive to save
+weight is restrained only by safety considerations. Even these
+are pared to the bone. The safety factor of a big, lumbering
+merchant ship is about ten to one; that of a modern jet airplane,
+about one and a half to one, at best. The reason is simple. On
+a ship an engineer can design a motor to run, say, an electric
+fan, with little concern for total weight. Thus he builds it big
+and tough. It works fine, but it weighs twenty pounds. On an
+airplane engineers design a fan to perform the same job, but
+stay within a weight limit of, say, one pound. The result is a
+thin, sophisticated product—usually new and untried—with a
+minimum margin of safety.</p>
+
+<p>The North American Project Engineer rides herd on the
+entire plant force assigned to his airplane, watching schedules
+and doling out weight restrictions to engineers like so many
+gold doubloons. Each piece that goes into the airplane is tested
+for strength and reliability a hundred times over, under the
+amazing variety of temperature ranges which the modern airplane
+encounters in flight. A sample is fitted in the mock-up.
+When all the parts are in place, the customer conducts a formal
+inspection of the dummy plane, probing for weaknesses, suggesting
+improvements, and usually adding items, again driving
+the engineers into weight-trimming frenzies. Many additional
+customer checks follow the mock-up inspection as the work
+progresses.</p>
+
+<p>When, at last, the customer is satisfied, or as nearly satisfied
+as possible, he gives a green light and the North American
+Project Chief “freezes” the design. At that point detailed engineering
+drawings are released to the Manufacturing Division
+or to various subcontractors—“vendors,” as we call them in the
+<span class="pagenum" id="Page_220">[Pg 220]</span>trade. Manufacturing brings all of the tens of thousands of parts
+together at the right time and place on the assembly line, and
+soon thereafter the near-miracle is done. Finished airplanes roll
+out the door for a final painting or polishing in the California
+sunshine. Following several shake-down flight tests by North
+American pilots, the new planes are then delivered either to
+Edwards for customer tests, or, if the airplane is a proven concept,
+to operational units specified by the customer.</p>
+
+<p>The experimental X&#x2060;-15 did not fit this general production
+scheme. It began like other North American projects in the
+Advanced Design Section. But because it was something special
+and only three models would be built, North American conceived
+an unusual method to see the X&#x2060;-15 to completion. Management
+formed a special team under direction of Advanced
+Design, but divorced from the other departments of the plant,
+each man a specialist in one phase of aircraft design or manufacturing.
+To boss this group, management selected Charles
+Feltz, a 39-year-old mechanical engineer, who was pulled off
+the F&#x2060;-86 project. Lacking other quarters for this new team,
+management temporarily assigned it to the cafeteria building.</p>
+
+<p>Charlie Feltz was truly astonished by the assignment. Until
+he was named to head it, he had never heard of the X&#x2060;-15 project.
+It may seem surprising, but in a huge, decentralized company
+such as North American, project engineers are busy with their own
+problems and rarely have time to rub elbows with advanced
+design engineers, and vice versa. Moreover, from its inception
+the X&#x2060;-15 was a closely guarded secret. Thus Feltz was stunned
+by it all when I joined the X&#x2060;-15 group—consisting of eleven
+North American engineers besides Feltz—in the garret adjoining
+the cafeteria.</p>
+
+<hr class="tb">
+
+<p>“Morning, Charlie,” I said, sticking out my hand.</p>
+
+<p>Feltz was sitting at a cluttered desk pushed into one corner
+of the X&#x2060;-15 home. He was a short man with rumpled, graying
+hair and deep green eyes. He was a native of Texas, a graduate
+of Texas Tech and, as I soon learned, he affected a country-boy
+air. He dressed informally and butchered the King’s English.
+<span class="pagenum" id="Page_221">[Pg 221]</span>Behind Charlie’s relaxed exterior, however, lay a steel-trap mind
+and an unyielding ambition to build good airplanes. He had
+joined North American in 1940, on the eve of the industry’s
+gigantic expansion. He had not only survived the production
+ordeal of World War II but had also risen to the top of the
+best company in one of the most competitive professions in the
+world. In many ways Charlie Feltz reminded me of Chuck
+Yeager. In appearance and ability he was to the design of an
+airplane what Yeager was to the flight of an airplane.</p>
+
+<p>“’lo, Scotty,” Feltz said, eying me casually. “Welcome aboard.
+Maybe you can give us some idea what this darned thing is
+all about.” He raised up a sheaf of about twenty drawings which
+had been passed on to him from the Advanced Design Section.
+Appropriately enough, I noted, these drawings had been prepared
+by two engineers named Owl and Canary. Having won
+the competition, these engineers had moved on to other projects
+and were no longer concerned directly with the X&#x2060;-15.</p>
+
+<p>It is true that in the beginning North American management,
+completely absorbed with profit-making production-line airplanes
+such as the F&#x2060;-86, F&#x2060;-100, and other series, paid the X&#x2060;-15 scant
+attention. At first the X&#x2060;-15 was an annoyance to be tolerated.
+To be perfectly frank, only a few of us on the small X&#x2060;-15 team
+really grasped the fierceness of the tiger we had by the tail.
+Feltz, however, happened to be one who knew. It was characteristic
+of him to play ignorant about it. As I learned, that was his
+way of finding out even more, or of sizing up new men assigned
+to him.</p>
+
+<p>If the X&#x2060;-15 ill-fitted North American’s usual method of producing
+an airplane, I certainly ill-fitted the X&#x2060;-15 team concept.
+I was something of a mystery at first, a kind of fifth wheel. I
+did not work directly for Feltz. I was hired by someone else
+and my paycheck came from another source. For all Feltz knew,
+I might have been some vice president’s son-in-law. The arrangement
+for both of us, accustomed to a more or less rigid bureaucratic
+structure, was awkward and uncomfortable. In contrast,
+say, to those of a structural engineer or an aerodynamic heating
+engineer, my duties were undefined. Lacking a specific slot on
+<span class="pagenum" id="Page_222">[Pg 222]</span>the team, Feltz entered me on the rolls as a “Design Specialist,”
+which seemed broad enough to cover my general role as a high-level
+adviser or consultant to the project.</p>
+
+<p>On that first day, after Feltz had introduced me to the small
+X&#x2060;-15 team, we returned to his desk and talked a long time about
+the ship. Although the precise limits or mission of the airplane
+had not yet been established, the general outlines were known
+and the design had more or less been set by NACA engineers
+together with Hugh Elkin’s Advanced Design group. There
+was enough on paper to indicate that Feltz faced the most
+challenging assignment of all aeronautical engineers in the fifty
+years of aviation history. After our talk I went back to my desk,
+lost in wondrous thought.</p>
+
+<hr class="tb">
+
+<p>What was this big tiger we had by the tail? I studied the
+sheaf of drawings Charlie Feltz had turned over to me. I was
+familiar, of course, with the various bits and pieces, but this
+was my first opportunity to think of the project in terms of
+hardware. It was enough to excite any pilot or engineer.</p>
+
+<p>In her three-dimensional profile, as conceived then, the X&#x2060;-15
+shape appeared fairly conventional. In the side view she looked
+something like a high-performance jet fighter, poised in a level
+position, resting on nose wheel and center skids. (The X&#x2060;-2 skid
+concept had been carried on to the X&#x2060;-15 primarily as a weight-saving
+measure.) She had a tall, sweeping, vertical tail, elongated
+nose, and a smoothly fared-in, V-shaped cockpit canopy. Her
+wings were stubby and straight, like those on the X&#x2060;-3; they
+were mounted far aft on the exceptionally long, trim fuselage,
+almost butting against the horizontal stabilizer.</p>
+
+<p>According to the drawings and concept in those early days,
+the X&#x2060;-15 would be carried aloft in the belly of a B&#x2060;-36 mother
+plane. The B&#x2060;-36 was an enormous ten-engine bomber, built by
+the Air Force in quantity to deliver the nation’s largest nuclear
+bombs. In time, on this peaceful mission, the B&#x2060;-36 would depart
+Edwards with its fifteen-ton load and head to the launch
+point near Salt Lake, Utah, four hundred miles to the north.
+The mother plane would drop the X&#x2060;-15 at a launch speed of
+<span class="pagenum" id="Page_223">[Pg 223]</span>Mach .7 and at an altitude of about 35,000 feet, fast enough
+to insure stability at launch and high enough to avoid the fuel-wasting
+contact with the “thick” atmosphere. On its own then,
+the X&#x2060;-15 would fly south toward Edwards over the route we at
+NACA had conceived several years before. The rocket engine
+would burn for 88 furious seconds, consuming eight tons of
+fuel. After burn-out the X&#x2060;-15 would coast silently on course for
+Edwards and land dead-stick but hot on Rogers Dry Lake in
+the desert.</p>
+
+<p>The one fact that made the X&#x2060;-15 far from conventional was the
+power-plant. It was not shown in detail on the drawings, but
+the entry on the specification sheet told all: “<span class="allsmcap">ENGINE. REACTION
+MOTORS, INC. XLR&#x2060;-99. THRUST 57,000 POUNDS AT 40,000 FEET
+ALTITUDE.</span>” Like the engine in the X&#x2060;-2, this engine was to be
+throttleable; it had nine times the power of the Reaction Motors
+engine in the X&#x2060;-1 or Skyrocket. It would generate nearly one
+million horsepower, or as much power as seven Navy cruisers.
+On a shallow, ballistic-flight profile, it would hurtle the X&#x2060;-15 to
+a maximum speed of 7200 feet per second, which is over a mile
+and a quarter a second, 75 miles a minute, and better than 4500
+miles an hour, or about Mach 7.0, twice as <i>fast</i> as man had ever
+flown. On a “zoom,” or steep ballistic-flight profile, the powerful
+engine could boost the X&#x2060;-15 to an altitude above 250,000 feet,
+twice as <i>high</i> as man had ever flown. In between those extremes,
+the X&#x2060;-15 could explore more unknown areas than all
+of the research airplanes in history, and then some.</p>
+
+<p>To meet these dramatic dimensions of flight and to perform
+her role as a research tool, the X&#x2060;-15 had some new and startling
+wrinkles which were detailed in the specifications. For example,
+in addition to the conventional control system for flight in the
+relatively thick air girdling the earth, the X&#x2060;-15 was to be
+equipped with a set of “ballistic” controls to steer the ship in the
+virtually airless space above 200,000 feet. These were small
+rocket motors on the nose and wingtip through which the pilot
+could squirt a jet of hydrogen-peroxide steam to tilt the wing
+or raise or lower the nose. This system had never been tried.
+But NACA was already busy with an experimental set of ballistic
+<span class="pagenum" id="Page_224">[Pg 224]</span>controls it had installed in the Bell X&#x2060;-1&#x2060;-B rocket plane. Jack
+McKay later tested the system at an altitude of 70,000 feet.</p>
+
+<p>When the X&#x2060;-15 plunged from its extreme altitude back into
+the thick coating of earth-atmosphere, it would be subjected to
+intense frictional heat like a meteorite, or the nose cone of a
+ballistic missile. To withstand this tremendous heat, estimated
+to be dozens of times greater than any airplane had ever before
+experienced, the fuselage nose and wing leading edges
+were to be built of an ablating material which would absorb the
+brunt of the heat and then erode and melt away, leaving the
+major portion of the fuselage and wing-structure intact. The
+remaining skin of the airplane was to be made of a new metal
+known as Inconel X, a nickel alloy capable of withstanding heat
+up to 1200 degrees Fahrenheit without losing its structural
+integrity. This metal would also serve as a conductor to soak up
+heat throughout the plane. One of the principal purposes of
+the X&#x2060;-15 was to see what effect extreme temperatures would
+have on the airplane structure and equipment, not to say the
+pilot.</p>
+
+<p>Such, then, in briefest outline, was the grand and simple concept.
+It was truly revolutionary to me. For fifty years we had
+struggled to learn to fly within the earth’s atmosphere. It had
+been fifty years of sheer technical agony. Now we had designed
+an airplane that would not only fly double the speed man had
+ever flown in this coating, but also zoom beyond it—to the
+fringes of space. The ship would soar a few moments in this
+dark weightless void. Then it would make a <i>controlled</i> descent
+into the atmosphere and finally land on an airfield like an
+ordinary airplane. It occurred to me that the X&#x2060;-15 was more
+than simply an airplane or research tool. It was the prototype
+of man’s first space ship. In time, it was clear, all useful, piloted
+space craft would follow in the trail blazed by the X&#x2060;-15.</p>
+
+<p>How could I best help Feltz in this fabulous project? Sitting
+silently at my desk I thought about it for many hours. I could
+see the mock-up inspections that lay ahead, the inevitable delays,
+breakdowns, and requests from the customer for added
+equipment. The X&#x2060;-15, if permitted, could become the perfect
+<span class="pagenum" id="Page_225">[Pg 225]</span>pigeon for every new invention, half-baked or otherwise, of
+every engineer in the country. Each new device would add more
+and more weight to the total and, since the engine thrust was fixed,
+cut the performance. It would also add to the complexity and
+inevitably delay the day I first flew her. This past pattern of research airplane
+growth simply could not be allowed to happen
+with the X&#x2060;-15 and cause her demise like a few of her predecessors.
+Someone had to resist it, if possible, before it began.
+Most of these additions, I knew, were likely to occur in the cockpit,
+or “pilot’s office,” my special province, the command post
+of the X&#x2060;-15. With my background in rocket planes and as the
+X&#x2060;-15’s designated pilot, I concluded, I was probably least
+vulnerable politically and thus best equipped to say “no.”</p>
+
+<p>Thus, that day, my specific role in the X&#x2060;-15 project was defined
+to my satisfaction. I would be the X&#x2060;-15’s chief son-of-a-bitch.
+Anyone who wanted Charlie Feltz or North American to
+capriciously change anything or add anything in the cockpit,
+or in the whole X&#x2060;-15, for that matter, would first have to fight
+Crossfield and hence, I hoped, would at least think twice before
+proposing grand inventions. This negative approach was not a
+role I particularly treasured. It was quite foreign to my nature,
+which is basically positive, I think. But I was willing to play any
+role that would best serve our ends and contribute to the
+prestige of the nation by seeing the X&#x2060;-15 completed and flying
+on schedule.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_226">[Pg 226]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_24">CHAPTER 24 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 24</span> <i>Ullage and Capsules</i>
+ </h2>
+</div>
+
+
+<p class="noindent">We gathered close around Charlie Feltz’s desk in the garret.
+In two months our team had grown, seriously crowding our
+temporary quarters. Feltz now had two assistant project engineers,
+Bud Benner, a 33-year-old Pennsylvanian, capable,
+ambitious and relatively new to the company, and Raun Robinson,
+an old hand who had been around North American since
+the beginning of World War II. L. Robert Carmen had finally
+broken his “dreamer” partnership with NACA’s Hubert Drake.
+Now Carmen, who had helped Drake conceive the five-engine
+rocket-mother plane idea in 1950, was a member of the X&#x2060;-15
+team. He was way out most of the time, too far into space for
+us, but destined to make one crucial suggestion that would pull
+us out of a deep hole.</p>
+
+<p>We were all still new to the project and new to each other,
+feeling our way carefully, sizing up the talents and weaknesses
+of the individual players. It is not easy to start from scratch and
+organize a major-league team. In the field of rocket airplanes
+there were no minor leagues to draw upon. The major teams
+at Bell and Douglas which had preceded us in history had long
+ago drifted apart. Except for Carmen and myself, no one on the
+<span class="pagenum" id="Page_227">[Pg 227]</span>X&#x2060;-15 team had any experience whatsoever with rocket airplanes.</p>
+
+<p>What we lacked in experience we made up in spirit. Although
+we still had not yet been completely “recognized” by North
+American—the dark secrecy surrounding our project hurt us
+from this standpoint—each of us knew, or was beginning to
+wake up to the fact, that we were working on something very
+special and important. In no sense was the approach routine.
+Feltz set the pace. He worked twelve to fifteen hours a day
+seven days a week; the rest of us fell into step without complaint.
+Although overtime was normally paid for extra working hours,
+no man on the X&#x2060;-15 team got it.</p>
+
+<p>“All right,” Feltz said to the group around his desk. “Here is
+the bad news. In two months we have jumped from a 28,000-pound
+airplane to a 31,000-pound airplane. That’s three thousand
+pounds added weight.”</p>
+
+<p>Someone let loose a long, low whistle. All of us knew the
+plane had been getting heavier, but this was the first time Feltz
+had totaled it up.</p>
+
+<p>“To make matters worse,” Feltz added, “the specific impulse
+of the XLR&#x2060;-99 engine has dropped, according to Reaction
+Motors. It’s down from 278 to 269.” Specific impulse was our
+technical way of stating the efficiency of the engine, hence airplane
+performance.</p>
+
+<p>“What does that mean in velocity altogether, Charlie?”</p>
+
+<p>“Maximum velocity has slipped from 7200 feet per second to
+5700. That’s about twenty per cent loss in speed, a little over a
+complete Mach number,” Feltz replied. When Feltz was glum,
+he could be glummer than any man I ever met. He reached his
+nadir that morning.</p>
+
+<p>The engine under discussion, the XLR&#x2060;-99, was a customer-furnished
+item over which we had no control. If it failed to
+live up, it was not the fault of North American or our team.
+At that point North American’s Rocketdyne Division had built
+more rocket engines than any other firm in the free world. In one
+of its original X&#x2060;-15 proposals, North American had suggested an
+NAA-built Army Redstone rocket engine as a power-plant for the
+X&#x2060;-15. In that year, 1955, NAA tested the Redstone engine
+<span class="pagenum" id="Page_228">[Pg 228]</span>perhaps 5,000 times with singular success. But the Air Force
+picked Reaction Motors to supply our engine. There were good
+reasons for this decision. RMI had long experience in building
+rocket-airplane motors, reaching back to the early days of the
+X&#x2060;-1. Furthermore, North American’s Rocketdyne Division was
+very busy designing and building new engines for the Air Force
+ballistic missiles Atlas and Thor. The Air Force was reluctant
+to dilute the division with still another complex engineering
+project.</p>
+
+<p>It was no easy task the Air Force assigned RMI. In many
+ways the RMI engine project for the X&#x2060;-15 was as revolutionary
+as the X&#x2060;-15 itself. The customer hoped to wipe out all past
+weaknesses of rocket-airplane engines. The goal was to come
+up with a “dream” engine many times as powerful as any in the
+past, and throttleable as well. The demands placed on RMI from
+the standpoint of reliability and precision were unprecedented.
+In our eagerness and search for perfection, we frequently became
+impatient with RMI. The fact that RMI was a small company
+facing a tremendously complex job on a fairly modest
+budget, with a thin line of engineering talent, rarely entered
+into our sharp discussions. Lying a full continent’s distance away
+and completely beyond our jurisdiction, RMI naturally became
+a favorite whipping boy in our camp. We blamed them unfairly
+in some instances. Later they were absorbed by Thiokol, a large
+company specializing in design and production of solid-propellant
+rocket engines for ballistic missiles.</p>
+
+<p>“I think we can get some of this back,” Feltz said, referring
+to the lost velocity.</p>
+
+<p>We leaned over a drawing which Feltz had spread across his
+desk. For background Feltz began to explain the external shape
+of the X&#x2060;-15, changed from NACA’s original views.</p>
+
+<p>“On the X&#x2060;-1 and X&#x2060;-2 they mounted the maintenance tunnels
+on top and bottom,” Feltz said. Maintenance tunnels were housings
+or large pipes through which wiring, control cables, and
+plumbing were routed. Like missiles, the main body of a rocket
+airplane consists of a series of fuel and oxidizer tanks, as large
+in diameter as the fuselage. The wiring and plumbing cannot
+<span class="pagenum" id="Page_229">[Pg 229]</span>run through the sealed tanks; it must go around. Thus the tunnel
+concept was born years before.</p>
+
+<p>“We found out in the wind tunnel that if we shift these
+tunnels from the top and the bottom to the side,” Feltz continued,
+“we can fair them out like a wing stub, running the
+length of the fuselage. This surface will add to the lift and give
+us more efficiency. Besides that, the tunnels being at eye-level
+will make for easier maintenance. We tried running them all the
+way out to the nose, but we got a severe pitch-up in the wind-tunnel
+tests. So we just cut them off here, right behind the
+cockpit.”</p>
+
+<p>The new X&#x2060;-15 tunnel concept, the idea of George Owl, was
+absolutely ingenious. There is no other way to describe it.</p>
+
+<p>“Now, back to the weight,” Feltz went on. “We have still
+another problem. NACA is demanding a three per cent fuel
+ullage. Three per cent of eight tons of fuel is a lot of weight.
+It’s damned near five hundred pounds.”</p>
+
+<p>“Ullage? What the hell is that?” one of the younger engineers
+asked.</p>
+
+<p>“Ullage is the allowance to be made for the fact that no tank
+can be completely filled,” Feltz explained. “In other words, we get
+five hundred pounds shaved off the total fuel supply. That
+means two or more seconds less burning time on the engine.”</p>
+
+<p>We were all mentally calculating the performance penalty.</p>
+
+<p>“Now, the big weight increase on the airplane itself comes
+from the customer. The ablating leading edges and nose are out.
+They believe these might make the plane unstable. At least, the
+wind-tunnel tests seem to indicate that. So from here on, the
+leading edges will be solid Inconel X. That will <ins class="corr" title="Transcriber’s Note—Original text: 'add considerable'" id="tn-229">add considerably</ins>
+to the airframe. In addition, there’s some more instruments
+to go in, and more dampers for the control system.</p>
+
+<p>“To get the performance back, we’re going to add six inches
+to the diameter of the fuselage and lengthen the tanks within
+the airplane. That will give us 2500 pounds more fuel capacity.
+But that’s as far as we can go with it. If we get any bigger, the
+weight of the tankage and fuel already begins to offset the gain
+of the added fuel. It’s a point of diminishing return. With the
+<span class="pagenum" id="Page_230">[Pg 230]</span>bigger fuselage and some ideas I have to save weight in the
+landing gear, I figure we can get the velocity back up to 6600
+feet a second. That’s a net loss of only half a Mach number at
+maximum speed—down to Mach 6.5.</p>
+
+<p>“But I want to tell you right now,” Feltz went on seriously,
+“I don’t intend to add another ounce to this airplane. It weighs
+31,000 pounds now. It will weigh that when we roll her out.
+That means all you people have to trim every doggone thing
+out we can.”</p>
+
+<p>“Say, Charlie,” an engineer said. “You know we got a space
+between frame 210 and 220 that you can see through. If you
+don’t watch out, someone’s going to stick something in there.”</p>
+
+<p>“How big is that space?” Feltz asked.</p>
+
+<p>“About ten cubic inches, I’d say.”</p>
+
+<p>“Well, now,” Feltz said, “I just might cut a few inches off
+the length of this danged airplane. That’ll get rid of the space.
+No one can put something there if the space is gone.”</p>
+
+<p>The meeting broke up in gales of laughter. But the engineers
+were soon glum again, busy at their desks figuring new ways to
+save weight. I hung behind. Feltz had indicated he wanted to
+talk to me.</p>
+
+<p>“Scotty,” he said, propping his feet on a corner of his desk,
+“we got more problems. This one could really bust us for good.
+Take a look at this.”</p>
+
+<p>He handed me a letter addressed to North American from a
+high-ranking Air Force general. I scanned through it hurriedly,
+stunned by the contents. The letter said that under new Air
+Force policy <i>all</i> Air Force aircraft would be equipped with
+“escape capsules” rather than ordinary ejection seats. An escape
+capsule could assume many forms. Basically it was a “can,” as
+we called it, in which the pilot could enclose himself before
+ejecting from a disabled airplane. In theory the capsule would
+protect the pilot from wind-blast, heat, and high G forces associated
+with modern high-speed escape. The Air Force policy
+change had been prompted by experiences such as that of
+North American test pilot George Smith who had bailed out
+<span class="pagenum" id="Page_231">[Pg 231]</span>from an F&#x2060;-100 at supersonic speed. The blast tore the skin from
+his face. It was a miracle that he lived, really.</p>
+
+<p>“Does this mean us, too?” I asked.</p>
+
+<p>“It says <i>all</i> new Air Force planes. The Air Force is paying
+for this one.”</p>
+
+<p>“How much will this cost us?” We referred to weight like
+money.</p>
+
+<p>“Twelve hundred pounds at least, to start,” Feltz said.</p>
+
+<p>“That’ll ruin us.” I mentally estimated the total added weight
+to the plane—over eight thousand pounds. It would cost us at
+least a Mach number in performance, maybe more, and I knew
+it would take years to develop the capsule.</p>
+
+<p>I could see in my mind the new problems the capsule would
+generate. Set within the cockpit, all the wires, controls, and
+plumbing would have to pass through it. It would have to be big
+or heavy enough to withstand the impact with the earth to
+avoid breaking the spine of an escaping pilot. It would require
+automatic ejection and automatic separation devices, and a
+parachute that would deploy automatically. In short, the capsule
+meant not only added weight, but greatly increased complexity,
+a dozen more things that might go wrong.</p>
+
+<p>“This capsule thing,” I said. “It looks good on the surface,
+I know. But has anybody ever really engineered this thing out?
+We had a capsule nose on the Skyrocket but knew from the
+wind-tunnel data that if you separated the nose from the
+fuselage, the G force would be so great it could kill you. I
+made up my mind I would never use the Skyrocket capsule. I
+would ride the ship down and bail out. The X&#x2060;-2 has a capsule
+nose. It will probably kill the pilot, too.”</p>
+
+<p>“You don’t have to convince me, Scotty. The way I look at
+it, if something goes wrong, the cockpit of the X&#x2060;-15 is the safest
+place to be, at least for a while. It’s going to be pressurized
+with non-inflammable nitrogen gas. You can’t have a fire. You
+can’t have a fire in space, anyway, because there’s no oxygen to
+feed it. The cockpit is stressed for plenty of G forces. If you are
+moving at maximum speed, that in itself means nothing is
+wrong. If something goes wrong, it means inevitably that the
+<span class="pagenum" id="Page_232">[Pg 232]</span>plane will slow down fast. So what’s wrong with just staying
+in the cockpit until you get down low enough and slow enough
+to eject?”</p>
+
+<p>“I agree,” I said. “What can we do about it?”</p>
+
+<p>“Well, we’re not going to get exception to an Air Force policy
+ruling with a phone call. The way I see it, we’ve got to engineer
+this thing out with a fine-tooth comb. Since this falls
+into the pilot’s realm, I think it would be a good one for you
+to take on. Call on anyone in the plant that you need for
+help. We’ve got to shoot this down or we’re dead.”</p>
+
+<p>I turned to with a vengeance. I asked a half-dozen engineers
+to set to making studies on the big electronic brain in the main
+plant. Meanwhile I searched all the technical literature, pulling
+any and all engineering studies of escape systems. In the end,
+our team put in a total of 7000 engineering man-hours on this
+study. When it was completed, I was more convinced than ever
+that a capsule escape system was no good for the X&#x2060;-15. It might
+be suitable for combat-type airplanes. But for the X&#x2060;-15 it was
+superfluous.</p>
+
+<p>In Santa Barbara, California, a few weeks later I presented
+the complete study to a gathering of Air Force and industry big
+shots. The presentation, probably the most thorough ever assembled
+on this subject, critically analyzed all escape capsule
+concepts as applied to the X&#x2060;-15. In every case, as I showed in
+chart upon chart, they were found wanting. Capsule development
+would increase the weight of the X&#x2060;-15 from 31,000 to about
+40,000 pounds and delay the completion date perhaps years.
+The cost in terms of money would be enormous and unless a
+more powerful engine were used—at a cost of more millions—the
+X&#x2060;-15 would never be more than a Hangar Queen. And
+finally, I concluded after two hours at the lectern, the pilot
+would be no better off than he would be in the X&#x2060;-15’s special
+ejection seat. The audience, I hoped, was impressed.</p>
+
+<p>A few weeks after that, in July, 1956, our customers came
+to North American for the first formal cockpit inspection. By
+then we had finished the cockpit mock-up, complete with instruments
+and a control system. The X&#x2060;-15 cockpit had no capsule
+<span class="pagenum" id="Page_233">[Pg 233]</span>escape system. It was rigged with the original X&#x2060;-15 ejection
+seat, a specially-designed affair with a new type of pilot-restraint
+harness and small stabilizers to “weather-vane” it into
+the wind blast and prevent fatal tumbling or oscillation. A small
+solid rocket, developing the thrust of the engine in the F&#x2060;-86,
+would blast the seat up and behind the X&#x2060;-15. The seat, without
+a formal reversal of Air Force policy, passed the inspection with
+flying colors. There was no alternative, really. Tied to the
+XLR&#x2060;-99 engine as we were, if the customer had insisted on a
+capsule for the X&#x2060;-15, would have killed the ship right then.</p>
+
+<p>After the customers departed, Feltz said to me:</p>
+
+<p>“Scotty, you really earned your pay on that one.”</p>
+
+<p>“Somebody’s got to be stubborn and hold the line,” I said. “It
+might as well be me.”</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_234">[Pg 234]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_25">CHAPTER 25 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 25</span> <i>Girdles, Brassieres, and
+ Shattered Sinuses</i>
+ </h2>
+</div>
+
+
+<p class="noindent">At sea level, where most of us live, man breathes a mixture
+of twenty per cent oxygen and eighty per cent nitrogen. As man
+moves up higher into the thinning air, the percentage of oxygen
+and nitrogen remains the same, but the amount in each breath
+diminishes and breathing becomes more difficult. Most of us
+have experienced this sensation at high-altitude mountain resorts
+or retreats, where the breath becomes “short” and campfires
+or cigarettes which thrive on oxygen are difficult to keep
+going. Nowadays man carries his own oxygen to high places.
+Mountain climbers, seeking new and more dangerous heights,
+pack lightweight oxygen flasks so that they can continue climbing
+at near-normal rates. Pilots flying above about 15,000 feet
+must, by regulation, wear rubber “oxygen masks” to keep themselves
+constantly supplied with pure oxygen from a tank in the
+airplane. These masks are fitted to the jet pilot’s crash helmet,
+or “hard-hat,” which he wears to protect his skull against a
+rough landing.</p>
+
+<p>In high-flying passenger airliners designed specifically for
+<span class="pagenum" id="Page_235">[Pg 235]</span>transporting large numbers of people it is impractical to supply
+each person with an oxygen mask. Instead, the whole cabin is
+“pressurized,” meaning that the thin air through which the
+plane flies is scooped up, compressed, and fed into the cabin
+under pressure. In this way the airplane cabin moves through
+its hostile environment like a submarine hull through the ocean,
+and like submariners airline passengers may walk about the
+cabin freely and unrestrained, just as at low levels. At higher
+altitudes where the jets fly economically, cabin pressurization for
+commercial airliners is complicated by the fact that the cabin
+must be tougher and the compressed air demands are high.
+This introduces new weight and structure problems which must
+be balanced against payload and safety factors. The “mysterious”
+crashes of the first British Comet jet-airliner series were
+caused when the cabin structure failed under pressure. The
+Comets, of course, have been beefed up since then. In light of
+the Comet experience, our own jet airliners were subjected to
+exhaustive structural analysis and test before they were put
+into service. Today they are a much safer means of travel than
+the automobile.</p>
+
+<p>In the unlikely event of cabin-pressure failure on a commercial
+jet airliner there is little cause for concern. Individual oxygen
+masks, stowed in the service compartment over each passenger
+seat, would pop down virtually into the laps of the passengers.
+The passengers would breathe through these devices until the
+pilot brought the plane down to an altitude of, say, 7000 feet,
+where no artificial breathing devices are required.</p>
+
+<p>At altitudes above 45,000 feet the human body requires more
+than a supplementary supply of oxygen. In an unprotected
+environment the water and blood of the human body, held back
+only by human skin and accustomed to sea-level pressure, seek
+to “boil” or “explode” into the thinner air outside the body. The
+skin is not strong enough to contain this force. At present there
+is no reason for a commercial airliner to exceed an altitude of
+about 40,000 feet, so for ordinary passengers this factor is no
+problem. But for the military pilot or test pilot who flies above
+45,000 feet some additional means of protection must be provided
+<span class="pagenum" id="Page_236">[Pg 236]</span>in case the cabin pressurization of the airplane fails. And,
+incidentally, the chances of a cabin-pressure failure in a single-engine
+combat or test airplane are much greater than those in a
+multi-engine airliner or bomber.</p>
+
+<p>For want of a better name the emergency devices supplied to
+pilots who fly at extreme altitudes are called “pressure suits,”
+simply because they exert a restraining pressure on the skin and
+chest, which helps keep the blood and breathing in a normal
+state. Even under the best of circumstances the best of pressure
+suits is uncomfortable and restricting—clumsy, like a deep-sea
+diver’s outfit. The pilot must go aloft with his suit completely
+rigged, ready to operate the instant it automatically senses a
+cabin-pressure failure. This is somewhat comparable to a diver
+who must sit inside a submarine hull in full deep-sea rig.</p>
+
+<p>Pressure suits are infinitely complex. Not only must they be
+made sensitive to pressure, they must also be cooled at all times;
+otherwise, the pilot would faint from the heat generated by
+his sealed-in body. The windshield on the sealed pressure-suit
+crash helmet must be designed so that it does not fog or frost
+over when the pilot exhales against it. The suit must contain an
+independent oxygen supply, a parachute, and floatation capability,
+in case the pilot has to bail out at high altitude, possibly
+over water. Since the pilot wears the suit during the complete
+flight, it must support his radio earphones and mike. And it
+must have rubber bladders—anti-G devices—which automatically
+inflate when G’s are pulled on the airplane, to keep the pilot’s
+blood from draining from his head and causing a blackout. To
+complete the pilot’s protection, the suit must be worn with
+special gloves, boots, and insulating layers against heat and
+cold.</p>
+
+<p>Indeed, as I think about it, the pressure suit is far more complex
+than the deep-sea diving rig. And for the high-flying pilot
+it is as important and necessary as the diver’s suit. Without it
+he cannot go aloft.</p>
+
+<hr class="tb">
+
+<p>The history of the pressure suit in this country is long and
+tortuous, paralleling the history of the modern airplane. For
+<span class="pagenum" id="Page_237">[Pg 237]</span>the benefit of posterity it should be the subject of an exhaustive
+study. All spacemen will wear some type of pressure suit, and
+they might want to know its origin. Meanwhile, my knowledge
+of early work on the suits is hazy. The first pressure suit I know of
+was built for aviator Wiley Post before World War II by Goodrich
+Tire and Rubber Company. It was a monstrous thing of
+rubber, closely resembling the analogous deep-sea diving rig. I
+don’t think it was ever used more than once or twice in flight.
+During World War II the armed services, absorbed with more
+vital matters, advanced the pressure suit not a whit. But after
+the war, when it was obvious that airplanes would some day fly
+routinely above man’s tolerable limits, the Air Force and Navy
+both embarked on low-key, back-burner types of pressure-suit
+research and development programs, funded on shoestring
+budgets.</p>
+
+<p>The Air Force and Navy experts differed sharply then on the
+approach to the pressure suit. Eager for quick results, the Air
+Force contingent at Wright Field, sparked by Dr. James P. Henry,
+believed the best solution was a partial-pressure suit, that is,
+a cloth-rubber suit which would cover not the full body but
+critical portions of it—originally only enough to enable the pilot
+to get back down in a hurry if the plane’s cabin pressure failed.
+The Navy, eying future space travel and capability to stay on
+target for hours, chose to go to a full-pressure suit, one that
+would support a human being on the face of the moon. In 1947
+a young lieutenant named Paul Durrup, at the Naval Aircraft
+Factory in Philadelphia, drew up the Navy specifications which
+served as the basic full-pressure suit guide-lines for a decade.</p>
+
+<p>In spite of the shortage of money, the Air Force’s partial-pressure-suit
+program inched ahead significantly. By 1949, when
+Pete Everest was ready to try for an altitude record in the X&#x2060;-1,
+Wright Field had produced a partial-pressure suit which,
+amazingly enough, worked. This suit, in fact, saved Pete Everest’s
+life. On one flight above 60,000 feet the X&#x2060;-1 cockpit canopy
+cracked and the cabin-pressure gas escaped. The laced partial-pressure
+suit automatically came into play, squeezing Everest
+along the torso, arms, and legs, supporting his skin. He landed,
+<span class="pagenum" id="Page_238">[Pg 238]</span>uncomfortable but unhurt. When Bill Bridgeman later flew the
+Skyrocket to 79,000 feet, he wore a similar suit with an improved
+helmet.</p>
+
+<p>Just prior to my NACA assignment to the all-rocket Skyrocket
+in late 1951, I naturally developed more than a casual interest
+in pressure suits. The Air Force issued me a partial-pressure
+suit, which I used in the NACA airplanes. Eventually I wore out
+two Air Force partial-pressure suits during my many Skyrocket
+and X&#x2060;-1 flights. The Air Force had done the best job possible,
+considering its budget, but as a pilot who anticipated close association
+with pressure suits during prolonged high-altitude
+flight in the X&#x2060;-1&#x2060;-A and X&#x2060;-2 series, I was looking for something
+a little better.</p>
+
+<p>This search took me to the Navy’s pressure-suit lab in Philadelphia
+in 1951 and shortly thereafter into the strange and wonderful
+world of a brassiere and girdle manufacturer.</p>
+
+<hr class="tb">
+
+<p>“I’m Scott Crossfield,” I said, extending a hand to the Navy
+group at Philadelphia. The laboratory was a small loft crowded
+with manikins, sewing machines, plaster of Paris molds, regulators,
+airbanks, and all the novel tools of this arcane trade.
+Lieutenant Commander Harry Weldon, who had inherited the
+project from Lieutenant Durrup, introduced me around.</p>
+
+<p>“I’m going to be doing some high-altitude work at Edwards
+and I want to check around and see what you fellows have for
+me to wear,” I said. “I have an Air Force partial-pressure suit.
+But there are some things I don’t like about it. I understand you
+fellows are working on full-pressure suits which would better
+suit our plans.”</p>
+
+<p>“That’s right. But our approach is a long-range one here, looking
+toward the future. We still have a long way to go with this
+program. We don’t get much money from the Bureau. They say:
+‘Who the hell wants to walk around on the face of the moon?’”</p>
+
+<p>“We might be walking around on the moon before you know
+it,” I said.</p>
+
+<p>“That’s what we believe. Here, have you seen this suit? This
+<span class="pagenum" id="Page_239">[Pg 239]</span>is a David Clark suit, model number 7. It’s the most advanced
+thing we have. It was designed for me.”</p>
+
+<p>Commander Weldon proudly displayed Clark’s latest creation.
+I noticed in the rear of the building an altitude chamber,
+a heavy tank from which air could be drawn to simulate the
+vacuum of high altitude.</p>
+
+<p>“Mind if I try this thing in the chamber?” I asked.</p>
+
+<p>Weldon hesitated. Then after glancing at his co-workers he
+said, “Why not?”</p>
+
+<p>I put on the suit. It was made of rubberized nylon over which
+was stretched a layer of flexible white cloth. When the suit expanded,
+the cloth would hold the rubber in place close about the
+body, something like the principle of the inner tube and tire on
+an automobile. The helmet was attached to the suit the same
+way.</p>
+
+<p>I climbed into the chamber and closed the heavy steel door.
+The mechanics drew air out of the tank until I had reached an
+“altitude” of 90,000 feet. The suit worked well. I thought it
+far superior to the uncomfortable partial-pressure suit, and with
+improvements I thought it could be better. After the chamber
+was “lowered” to earth-atmospheric level, I climbed out and removed
+the suit, rattling off comments.</p>
+
+<p>I learned much later that my stint in the altitude chamber was
+the first time the suit had ever been tested under extreme conditions.
+I was surprised. I had simply assumed that the suit
+had been wrung out, perhaps hundreds of times. In later years
+Weldon and I often laughed about my being his “guinea pig.”</p>
+
+<p>I went directly from the Navy laboratory to the factory of
+the suit manufacturer, the David Clark Company in Worcester,
+Mass. David Clark, the owner and president of the company,
+turned out to be one of the most interesting men I have ever
+met in the aviation world. He was a stocky man of about fifty-five,
+with bushy eyebrows and delicate hands which, like his
+mind, seemed to be always in high-speed motion. He was a
+chain-smoker, shifting from cigarettes to cigars without missing
+a beat. He was proud and stubborn, but gentle by nature, the
+patron and father confessor of the David Clark Company family
+<span class="pagenum" id="Page_240">[Pg 240]</span>of employees, who were as loyal and hard-working a group as
+I have ever seen.</p>
+
+<p>Clark had begun his career in New England as a young man
+in the garment trade. Right off, he invented a knitting machine
+that would automatically make a seamless, one-piece, two-way-stretch
+girdle which, for its time, was considered fantastic. (The
+structural loads imposed on a girdle, as we all know, can be
+tremendous, and a machine that can build a good one automatically
+is an amazing engineering accomplishment, believe
+me.) With his ingenious machine Clark had all but cornered the
+important, expanding girdle market. Braving new frontiers, Clark
+moved into manufacture of brassieres, which, considering <i>those</i>
+structural loads, was even more awesome.</p>
+
+<p>During the war Clark became interested in the military field,
+inventing and making boots, shoes, helmets, goggles, anti-G
+suits, ear-muffs to protect crewmen from engine noise, and other
+specialty items. Since 1941 almost every piece of pilot “soft
+goods” has been pioneered by Dave Clark. The brassieres and
+girdles were his bread-and-butter business, but he was a compulsive
+gadgeteer and thus found himself in the pressure-suit
+line, not because there was money in it but because it was a new
+challenge to his inventive mind.</p>
+
+<p>I returned to Edwards immensely impressed with the David
+Clark operation. In late 1951 I wrote a letter to NACA headquarters,
+recommending that we encourage the Navy-Clark
+pressure-suit effort. This letter was forwarded routinely to the
+Navy. The Navy lab in Philadelphia was encouraged by this
+show of interest and immediately set to work on a “crash basis.”
+Clark, investing his own money in the project (there was little
+official contract money behind the work), built several suits by
+hand. He sent some men to NACA, Edwards; I worked with
+them, welding and gluing various pieces of the complicated
+suit into place. This work went on for months and it gave me
+solid groundwork in pressure suits that later paid handsome
+dividends.</p>
+
+<p>It also led indirectly to one of the most agonizing physical
+experiences of my life. We had no chamber at Edwards for
+<span class="pagenum" id="Page_241">[Pg 241]</span>tests, and I decided to use an airplane if I could get high
+enough. So, wearing the tried and true partial-pressure suit, I
+took off one day in a war-weary P&#x2060;-51, one of NACA’s miscellaneous
+test planes, and climbed as high as it would go. When
+I reached 43,000 feet, the suit automatically pressurized. Then
+for the next twenty minutes or so I tried to go higher, nursing
+the complaining airplane to 44,000 and then 44,500 feet, finally to
+45,000 feet, reporting by radio to the ground.</p>
+
+<p>The flight seemed to go perfectly, but the next day I had an
+awful headache. The pain was indescribable. It forced me to
+bed, where I remained for twenty-two days, my first illness since
+childhood. No amount of drugs, not even morphine, would ease
+the pain. Then, thank God, it went away. The doctors were
+baffled. No one could ever explain it. Some said it was the suit;
+some said I had contracted the “bends”; they later said “sinus.”
+The mystery remains unsolved to this day.</p>
+
+<p>Little by little, we brought the Clark full-pressure suit to
+a state of near-perfection. We switched regulators, experimented
+with new cooling systems, and a dozen different helmet-defogging
+devices. When Marion Carl came out briefly to borrow the
+Skyrocket for his altitude record, he wore the new Clark full-pressure
+suit. We stayed up half the night before his flight working
+out last-minute adjustments to the suit and making parts
+on a lathe. In my view, the fact that he wore this untried, jerry-rigged
+suit to 85,000 feet on his third flight made his record all
+the more remarkable. (When Kit Murray broke Carl’s altitude
+record about a year later, he wore an Air Force partial-pressure
+suit.)</p>
+
+<p>A ludicrous piece of journalism temporarily derailed our efforts
+to bring the Clark suit to operational perfection. The new
+money allotted the Navy lab at Philadelphia had naturally
+generated public interest in the pressure suit. A national magazine,
+now defunct, sent a writer to Philadelphia who composed
+a story describing the Clark suit in glowing terms. This pleased
+Commander Weldon, the Navy, and the Clark Company. But
+when the magazine photographer arrived in Philadelphia to take
+pictures, he was not impressed by the dirty khaki-colored Clark
+<span class="pagenum" id="Page_242">[Pg 242]</span>suit. It didn’t seem glamorous enough to be a “space suit.” To
+satisfy the photographer’s demands the Navy people pulled out
+a big, bulbous, experimental pressure suit that was years, if not
+decades, old, and dead from a development standpoint. But it
+was photogenic. The photographer was satisfied; his editor
+selected the picture of the hopelessly obsolete concept for the
+cover of the issue containing the article.</p>
+
+<p>This misguided publicity unintentionally touched off a minor
+but bitter pressure-suit battle between the Navy and the Air
+Force or, rather, brought the long-standing feud over the approach
+to the suit into the open. The ins and outs of this flap
+are much too complicated to relate here. The upshot of it all
+was that the pressure-suit people—both partial and full—got new
+and unprecedented appropriations. The Navy’s Philadelphia lab,
+for example, received what in that poverty-ridden field was considered
+a small fortune, $250,000. As the battle rolled on, alas,
+not the David Clark Company, but the firm whose suit had been
+on the magazine cover, received the contract to build the Navy’s
+full-pressure suit. All the money David Clark had spent out of
+his own pocket availed naught. The knowledge we had gained
+in years of pressure-suit work was turned over to a competitor.
+Such are the breaks of the aviation trade. Typically, Clark never
+complained. He is a true patriot and sporting competitor.</p>
+
+<p>The Clark suit was too good to die. When the Navy lost interest,
+the Air Force at Wright Field began to eye it with considerable
+excitement. A foresighted Wright Field technician,
+Ernie Martin, awarded Clark a small but encouraging contract
+to continue work on the suit, even though it was competitive
+with other Air Force projects. Clark kept on, spending large
+sums of his own money. Feeling somewhat responsible for his
+deep and profitless plunge into the pressure-suit field, and convinced
+that his suit was the ultimate answer for the Air Force
+and specifically the X&#x2060;-15, which I would fly, I urged Clark on
+and helped him with experimental work as best I could. I believe
+that during my five years at Edwards I logged more time
+in pressure suits than most of the pilots put together. This time
+<span class="pagenum" id="Page_243">[Pg 243]</span>the intense pressure completed the destruction of my sinus
+cavities. When I left Edwards they were shattered.</p>
+
+<p>In 1953 and 1954 during the preliminary studies on the X&#x2060;-15
+at NACA, I had urged the incorporation of a full-pressure suit in
+the ejection-seat concept. The helmet and full suit would provide
+additional blast-protection for the pilot in the event of
+bail out, an argument I effectively used against the capsule.
+The suit I proposed had all the best features of the Clark suit.
+The North American X&#x2060;-15 bid included the Clark-type suit,
+listed as a contractor-furnished item. Because of my long background
+in pressure-suit work in general, and past association
+with the David Clark Company in particular, the X&#x2060;-15 pressure
+suit naturally became one of my special projects at North American.
+In time, the Air Force’s Wright Field lab took over the development
+work on the suit and supervised the altitude-chamber
+tests. But the final product was a direct outgrowth of the old
+NACA-Navy-Clark suit which I first saw at Philadelphia.</p>
+
+<p>Knowing much of the discouraging history of pressure suits,
+I tackled my new responsibility with grim determination. But
+I was unaware then that during those early days of the X&#x2060;-15
+Dave Clark had a whopping surprise up his sleeve. It was a new
+“break-through” (and here I mean that overworked word in its
+literal sense) that would revolutionize the full-pressure suit business.
+In time the Clark-X&#x2060;-15-Air Force suit would become the
+standard full-pressure suit for the Air Force. A copy would be
+worn by the Mercury Astronauts, the seven men scheduled to
+orbit the earth in a capsule. It would serve as a prototype for
+suits to be worn by the first U.&nbsp;S. spacemen to land on the
+moon.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_244">[Pg 244]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_26">CHAPTER 26 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 26</span> <i>The Agricultural Approach</i>
+ </h2>
+</div>
+
+
+<p class="noindent">“And that, gentlemen, is the story of the X&#x2060;-15 to date.”
+My assistant switched on the lights in the briefing room.
+The group I was addressing—the fifth that month—was part of
+an Air Force headquarters inspection team. In aviation circles
+word of the X&#x2060;-15 was beginning to spread. We were besieged by
+official delegations from NACA, the Pentagon, and Congress, who
+wanted to know what it was all about. Charlie Feltz abhorred
+briefings—they seriously interfered with his work, for one thing—and
+had dumped this “public relations” chore on me. Through
+growing experience I developed an hour-long “road show,” complete
+with slides of charts and artists’ conceptions of the ship,
+and I thought it was pretty good. I could spout the speech in my
+sleep and, I think, frequently did.</p>
+
+<p>“Are there any questions?” I concluded.</p>
+
+<p>“I have a question about the seat,” a captain spoke up. “As
+I understand it, the pilot may spend long hours in the cockpit
+on the ground before take-off and during flight to launch point.
+Have you given any thought to a seat cushion, an air-inflatable
+or foam-rubber base, to add to the pilot’s comfort? Seems to me
+<span class="pagenum" id="Page_245">[Pg 245]</span>it’s asking quite a lot for the pilot to sit on cold, hard steel
+for all that time.”</p>
+
+<p>“Captain, as I believe I pointed out earlier, our overriding
+consideration in this airplane is saving weight. There are, of
+course, foam-rubber seat pads and inflatable air cushions under
+development. There is even an undulating air cushion which
+gently massages the behind during prolonged flight....”</p>
+
+<p>“Yes,” the captain said. “I have read reports on these projects....”</p>
+
+<p>“Well, any one of these seat pads could weigh as much as a
+pound, maybe two pounds. In the final analysis this is pure
+luxury payload. To take it into the air, we must add seven or
+maybe fourteen pounds to the overall weight of the airplane.
+Besides, these pads might slip around during ... ah ... shall
+we say ... the rough portions of the flight profile.</p>
+
+<p>“Now, I’ll tell you what we did about this. We sat down and
+said to ourselves: ‘Who in this country has had the most experience
+in keeping someone in a seat under rough conditions
+over prolonged periods?’ The answer, we found soon enough,
+was the International Harvester Company, manufacturers of
+tractors and farm equipment. We learned they had investigated
+the natural frequency of a man’s spine and how long a spring
+you should sit him on, and what’s the best shape of the seat, so
+that he gets the best opportunity to stay on a piece of farm equipment
+bouncing over rough ground, bearing in mind that a
+farmer might ride that seat twelve to sixteen hours a day.”</p>
+
+<p>“Is that a fact?” the captain asked in wonderment.</p>
+
+<p>“That’s a fact,” I said. “So you will see that the seat in the
+X&#x2060;-15 is an exact duplicate of a tractor seat, with apologies to
+International Harvester. It’s of minimum weight and maximum
+comfort and will keep the pilot solidly in place in event of
+rough flight.</p>
+
+<p>“Around here, we call this type of engineering the agricultural
+approach, getting right down to fundamentals, as basic as land
+and seed, and figuring the thing out. It’s typical of our thinking
+on this airplane.”</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_246">[Pg 246]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_27">CHAPTER 27 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 27</span> <i>A Tornado Named Stormy</i>
+ </h2>
+</div>
+
+
+<p class="noindent">Harrison (“Stormy”) Storms, Chief Engineer of the Los
+Angeles Division, who had sparked the initial management-level
+interest in the X&#x2060;-15 project, remained aloof from the day-to-day
+work on the airplane. But as Chief Engineer (he had replaced
+Ray Rice, who moved up to a Vice President’s slot), the technical
+responsibility for the ship was his. When we ran into trouble, he
+was first to answer the alarm and bring his high-level prestige and
+authority to bear. At no time was he ever more than a few minutes
+away.</p>
+
+<p>As time passed and all of us began to see the full dimensions
+of our tiger, Stormy came around more often. By then, the fall of
+1956, we had moved to larger quarters on the second floor
+of the main engineering building. Our team had grown to about
+sixty-five men, and every day we leaned more heavily on the
+various departments of the plant for aerodynamic, heating, structural
+data, and other help.</p>
+
+<p>Stormy was short and wiry, 41 years old, a native of Chicago.
+As a young boy he had developed an obsession for aircraft
+through contact with model planes. He took a master’s degree in
+Mechanical Engineering at Northwestern University and later
+<span class="pagenum" id="Page_247">[Pg 247]</span>made advanced studies in aeronautical engineering at Cal Tech.
+When the Japanese attacked Pearl Harbor, Stormy joined North
+American. A tough, uncompromising, technical man, and an
+articulate one as well, Stormy had fought his way to the top of
+North American. Although for years he had lived in the nation’s
+outdoor playground, Southern California, Stormy ignored the
+comforts and luxuries of life. Every waking moment he devoted
+exclusively to thinking of new and better ways to make airplanes.</p>
+
+<p>Stormy naturally became one of the ideal men to lay new
+proposals before the military. Thus when the Preliminary Design
+Section came up with a new concept, Stormy took it to Washington
+and pounded the halls of the Pentagon. He became a
+master at handling a presentation because, for one thing, he hated
+to lose a competition. He was scrappy, cocky, and confident.
+Under his direction the Los Angeles Division all but cornered
+the market of the future flying Air Force. Stormy had won the
+competition for the Air Force’s advanced fighter, the Mach 3
+F&#x2060;-108, and the advanced bomber, the Mach 3 B&#x2060;-70, both of
+which would benefit from the X&#x2060;-15’s flight experience. There
+were no other advanced combat aircraft in the Air Force inventory.</p>
+
+<p>In the fall of 1956 the X&#x2060;-15 ran into serious trouble, both
+from political and technical standpoints. Air Force Captain Mel
+Apt had just died in the crash of the final X&#x2060;-2 airplane. The
+basic cause was high-speed instability, a weakness in the airplane
+that was predicted years before. The loss of the X&#x2060;-2 denied
+the X&#x2060;-15 program badly needed flight experience and data in
+the Mach 3 zone and raised many new questions about acceptance
+of high-speed instability. The loss, in effect, vastly broadened
+the area which the X&#x2060;-15 would have to explore. From a
+political standpoint, it put North American and the government
+on the spot. If the X&#x2060;-15 also turned out to be unstable and
+crashed as a result of this instability, it might jeopardize not
+only all future research airplanes but also the entire future of
+manned aircraft. Thus in a twinkling the X&#x2060;-15 became an enormously
+important project at North American—indeed throughout
+<span class="pagenum" id="Page_248">[Pg 248]</span>the government and aviation industry—bringing to a climax
+a problem that had bothered us for some months.</p>
+
+<p>According to the preliminary design studies and wind-tunnel
+tests, the X&#x2060;-15, with its high-swept vertical tail, would be unstable
+during certain brief periods of the flight profile. It is
+impossible to build an airplane that can fly at six times the
+speed of sound and land like a conventional airplane without a
+compromise somewhere along the line. We had compromised
+in the tail. Its shape was not ideal. After the X&#x2060;-2 crash Stormy
+moved in like a tornado.</p>
+
+<p>The top members of the X&#x2060;-15 team gathered in his office.
+Stormy was emphatic and wasted no words.</p>
+
+<p>“This airplane is going to be directionally stable. One week
+from now I want all of you back here with every tail-study you
+have made on this configuration. I want the weight analysis,
+flutter studies, drag studies, the dive-brake studies, the whole
+works from A to Z. Bill Johnston says we have got to add some
+more tail below the fuselage, so be thinking about that.”</p>
+
+<p>We were back one week later with the paperwork in hand.
+Our engineers had collected data from wind tunnels and other
+sources on every conceivable tail shape. Ideally for our purposes,
+the best was one that looked like the tail of a ballistic
+missile, with fins protruding full length above and below the
+fuselage. But a fin below the fuselage conflicted with the rear
+landing-gear arrangement, the two skids which we had moved
+all the way aft to save weight. The lower fin would stick down
+below the skids and dig into the ground and become the world’s
+fastest plow, as we jokingly called it.</p>
+
+<p>The discussion in Stormy’s office was deeply technical and
+no joke, though. We pored over the paper studies, matching
+weight and drag against performance, proposing, rejecting, theorizing.
+The problem was complicated by a variety of factors.
+For example, the dive brakes were attached to the upper tail.
+According to our design scheme, to gain the biggest bite in the
+air the upper tail would move as a complete unit. Then there
+was the nagging question of the shape, or airfoil, of the upper
+and lower tail sections. Seen from above in cross-section, a diamond-shaped
+<span class="pagenum" id="Page_249">[Pg 249]</span>tail was best because the air “clung” to it better
+at low speeds. But at high speeds a diamond-shaped tail, thick
+at the middle of the diamond, would add little but weight to
+the X&#x2060;-15. Our goal was to conceive a new tail shape without
+adding an excess pound.</p>
+
+<p>We were in the midst of discussing a truncated lower tail, one
+that would not scrape the ground on landing, when Stormy
+suddenly exploded:</p>
+
+<p>“Why the hell can’t we simply drop the lower tail in flight,
+just before landing? We don’t need it then. It’s during the high-speed,
+high-altitude phase that we need it.”</p>
+
+<p>“Drop it? Drop the ventral?” someone asked, startled. “It’s
+never been done. How would you drop it?”</p>
+
+<p>“Blow it off with a ballistic charge,” Stormy shot back. “Who
+cares if it’s never been done? No one ever built an X&#x2060;-15, did
+they? This ventral could have a small parachute to lower it to
+the ground after it’s jettisoned. It would cost us only a few
+pounds.”</p>
+
+<p>We thought that over for a while. It was indeed a startling
+idea. But, as we finally concluded, why not?</p>
+
+<p>Next we tackled the airfoil of the tail, batting around the
+diamond shape versus other, more conventional shapes. As related,
+the diamond was the best approach for the X&#x2060;-15’s low-speed
+flight, and it would still have some high-speed advantage.
+The one problem was that it was marginally adequate and
+much too heavy.</p>
+
+<p>“What would happen,” Stormy asked, “if we cut that diamond
+shape off in the middle? Slice it right in two. Once the air
+passes the hump of the diamond, it has finished its work. It
+separates from the surface. The air won’t know it if the rear of
+the diamond isn’t there. That might cut the weight of the tail
+in half.”</p>
+
+<p>He was right. Wind-tunnel studies showed that the air behaved
+properly with only half a diamond, as seen in cross-section. We
+chopped the diamond in half, with the result that the X&#x2060;-15 in
+final form has a tremendous, wedge-shaped upper and lower
+vertical stabilizer, about which much ill-informed speculation
+<span class="pagenum" id="Page_250">[Pg 250]</span>has been spread around. It was no more and no less than a
+new attempt to get the most tail for the least weight. With this
+innovation, plus the droppable lower ventral (also wedge-shaped),
+the X&#x2060;-15 was supplied a tail that would make it completely
+stable in all speed ranges. Thanks to Stormy’s ingenious
+mind and courage, it was done despite the strong objections.</p>
+
+<hr class="tb">
+
+<p>In November of 1956 the design of the X&#x2060;-15 was frozen, and
+a special team started work on the mock-up of the airplane. The
+dummy mock-up was completed in a frenzy the night before
+our formal customer inspection in December, 1956. As I recall
+it, the painters were up half the night putting finishing touches
+on the wood and soft-metal fuselage. When we saw the “complete
+airplane” the following day, squatting behind a walled-off
+area marked “SECRET,” we were amazed and proud. All the
+parts fitted, and to the untrained eye the airplane in its final
+shape appeared ready to take off. We had reached this point,
+from conceptional design to mock-up inspection, in twelve months
+flat. Considering the product we were building, I believe this
+must be a record of some kind.</p>
+
+<p>About a hundred customers, including both NACA and Air
+Force personnel, came to the North American plant to gawk at
+and criticize our tiger. Among these was my old friend and
+boss, Walt Williams, who was still running NACA’s High Speed
+Flight Station. Now that the X&#x2060;-2 had gone by the boards, I
+could see the eagerness in his face. He was literally panting to
+get his hands on the X&#x2060;-15. I might add that we at North American
+were equally eager to deliver it to his test facility.</p>
+
+<p>I escorted Williams about the dummy airplane. His mind was
+churning with questions. He, of course, knew about the new
+tail concept—we reported all changes or modifications on the
+X&#x2060;-15 to our customers immediately, and NACA passed them on
+to the industry—but when he saw the rear of the full-scale
+model for the first time he eyed it skeptically. I put his mind at
+rest with a technical dissertation, flavored with a smattering of
+North American sales pitch. Williams poked his head inside
+the cockpit, shotgunning questions.</p>
+
+<p><span class="pagenum" id="Page_251">[Pg 251]</span></p>
+
+<p>No detail, however small, was overlooked in this inspection.
+For example, one Air Force officer, after a careful survey of
+the instrument panel, said to me: “Scotty, I don’t see a landing-gear-position-indicator
+light on the panel. How will you know
+for sure if your gear is down?”</p>
+
+<p>“The wiring and gauges for gear-indicator lights, we figured,
+would weigh about five pounds. Now when you get right down
+to it, they really aren’t necessary. Figure this. You’re coming in
+dead-stick at 200 miles an hour ready for touchdown. To maintain
+your air speed and prevent a high rate of sink near the
+ground, it’s best not to put the gear down until the last few
+seconds. Otherwise, the drag would be too great. So you pull
+the gear handle. If the gear doesn’t come down, you’ve had it.
+You have no engine power. You can’t take off and go around
+again for a second landing. So what good does a gear-position-indicator
+light do you?”</p>
+
+<p>All in all, our customers gave us a hearty pat on the back.
+The X&#x2060;-15 passed its inspection with flying colors and Charlie
+Feltz released the engineering drawings. To be sure, there were
+many minor requests for changes. I believe they totaled about
+ninety-five, half of which we had anticipated. At the time of the
+inspection, in fact, our engineers were busy modifying these
+items. The only really big proposal that emerged from the inspection
+was an idea of Walt Williams’ that the X&#x2060;-15 engine be
+designed so that it could “idle” while the plane was still mated
+to the mother ship. Williams wanted this to avoid the prospect
+of an engine failure after drop. But that was a problem for
+RMI, not North American. The engine was a customer-furnished
+item.</p>
+
+<hr class="tb">
+
+<p>The one cloud gathering on the X&#x2060;-15 horizon at that point
+in history was the rocket engine. Facing unprecedented problems,
+the thin line of technicians at RMI had wavered and
+fallen back. By mock-up time the XLR&#x2060;-99 engine was six to
+eight months behind the overall X&#x2060;-15 schedule and, we guessed,
+destined to drop even further behind schedule. For all of us on
+the X&#x2060;-15 team, this turn of events, inevitable in an advanced
+<span class="pagenum" id="Page_252">[Pg 252]</span>technological jump of that order, caused great concern and loud
+cries of anguish. We knew that in the end such a delay would
+reflect on our own efforts at perfection.</p>
+
+<p>Once again Stormy took the reins. After several prolonged
+meetings with our propulsion engineers, we wrote a letter to
+the Air Force which loudly rang the alarm. North American
+again offered to supply the engine from its Rocketdyne Division.
+But it was too late. By then the Air Force was heavily committed
+to the RMI effort. Contracts had been let; many millions
+had been invested in the small company. North American’s
+Rocketdyne was still busy supplying engines for Atlas and
+Thor, and designing even more powerful rocket engines, and
+the Air Force was still opposed to calling upon the division for
+technical assistance for the X&#x2060;-15. We would have to sweat it out.</p>
+
+<p>I was considerably put out about the engine delays. The
+engine was obviously crucial to the entire project. If it failed, we
+all failed, and I in particular failed in the goal of my life. The
+situation reached the point where I was no longer invited to
+attend the rocket-propulsion meetings. On that one subject I had
+turned into an outspoken zealot, and the others soon tired of
+my needling.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_253">[Pg 253]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_28">CHAPTER 28 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 28</span> <i>Wilting Straws in Plaster of Paris</i>
+ </h2>
+</div>
+
+
+<p class="noindent">The impasse in the perfection of the full-pressure suit was
+primarily in the restraining material or “tire” which holds the
+inflatable rubber “inner tube” against the pilot’s skin. Many
+materials were tested to keep the ballooning inner tube in place
+against the skin, but each was so heavy and rigid that when
+the suit was in operation, the pilot was trapped in a bulbous
+vise, unable to move his arms, legs, or head. The suit engineers
+tried to offset this by hinging the elbow, neck, wrist, and knee
+joints with bellows and bearings. But the end result was a complicated,
+mechanical monster, obviously unsatisfactory for a pilot
+working within the tight confines of an airplane cockpit, and
+quite marginal if escape from the aircraft became necessary.</p>
+
+<p>David Clark’s suit number seven, which I had first tested in
+the altitude chamber in Philadelphia in 1951, was an attempt to
+get away from the “stiff” suit concept. It was a step in the right
+direction but a long way from an operationally sound item. But
+if enough time and effort are devoted to any technical problem,
+the solution will come eventually. Obsessed with this new challenge,
+David Clark kept plugging away, with Air Force support,
+and in time came up with the answer.</p>
+
+<p><span class="pagenum" id="Page_254">[Pg 254]</span></p>
+
+<p>He revealed it to me one day in his factory, not long after
+we completed the X&#x2060;-15 mock-up inspection. After a tour of his
+fascinating plant we went to his private office. I could tell that
+he was bursting with pride.</p>
+
+<p>“Scotty,” he said, “did you ever see one of those ‘Chinese
+fingers’ made of straw? You know, those things you put your
+index finger in? You try to pull your finger out and the straw
+grips it even tighter?”</p>
+
+<p>“Yeah, sure,” I said. “I used to play with those when I was
+a kid.”</p>
+
+<p>“Well, take a look at this. I made this on an airplane when
+I was going up to Alaska last month to see my daughter.” He
+passed me a sample of hand-woven material which looked not
+like a Chinese finger but something like an Anchor Fence, except
+that it was made of nylon thread. I gave it a good pull and right
+off I saw what he was driving at.</p>
+
+<p>“We call this ‘link-net’ material in the trade,” Clark said.
+“I think it’s the answer to the pressure-suit restraining cloth. It
+will work just like the Chinese finger. If you bend your arm,
+the material on top will contract and the material on the bottom
+will stretch. It also twists easily from side to side under stress.
+At all times you will have an even pressure on the rubber
+bladders. It’s as flexible as cotton cloth, strong as steel, and
+weighs little or nothing. I think that with this material and the
+new regulators and other improvements we can give you a complete
+full-pressure suit with a total weight of thirty-five pounds.”</p>
+
+<p>“What?” I was astonished. At best, present equipment for the
+job added up to as much as 110 pounds, give or take a few.</p>
+
+<p>“Yes, thirty-five. Now it’s going to take a little time because
+we have to make this stuff by hand. But maybe we can come
+up with a machine to weave it.”</p>
+
+<p>Our long-standing faith in David Clark had paid off. The
+link-net material proved to be the great “break-through” in the
+full-pressure suit game. It relegated all the stiff suits to the
+junk-heap. The restraining material was as flexible as a suit of
+long-johns and almost as comfortable. It eliminated the need
+<span class="pagenum" id="Page_255">[Pg 255]</span>for bellows-joints at the knees and elbows and for bearings at the
+shoulders and wrists.</p>
+
+<p>As I was leaving the factory we passed through the Research
+Department. Amid the great humming looms and rattling sewing
+machines, I spotted a piece of shiny cloth lying on a long
+table. The material looked somewhat like silver lamé. I went
+over and picked it up.</p>
+
+<p>“What is this?” I asked Clark.</p>
+
+<p>“That’s a piece of nylon with a vacuum-blasted aluminum
+coating. Just something one of the boys was trying out.”</p>
+
+<p>“Pretty glamorous looking.”</p>
+
+<p>Then a light went on in the back of my mind. “Say, Dave,
+why don’t you make the outer cover of the pressure suit out of
+this material, in place of that awful-looking khaki coverall?”</p>
+
+<p>“Whatever for?”</p>
+
+<p>“You remember that time down at Philadelphia when they
+took that picture for the magazine cover? We don’t want to
+make that mistake again. A coverall of this material would
+look real good, like a space suit should—photogenic. To justify
+it technically we can tell them this silver material is specially
+designed to radiate heat or something.”</p>
+
+<p>“A marvelous idea, Scotty. I’ll make the boots and gloves out
+of black material for contrast.”</p>
+
+<p>“Great touch,” I said. Ever since then all pressure suits have
+been silver.</p>
+
+<hr class="tb">
+
+<p>I made my way to New York City. To save his fitters expensive,
+time-consuming cross-country trips each time they modified or
+improved the new suit, Clark suggested that we mold a “statue”
+of me just as I would sit in the cockpit of the X&#x2060;-15. I bought
+the idea without a second thought. How I lived to regret it!
+Believe me, no one can claim to have lived the full life until
+he has been cast in plaster of Paris.</p>
+
+<p>The appointment Dave Clark arranged in New York took me
+to a ratty building on 42nd Street just off Broadway. John Flagg,
+now a vice president of the Clark Company, met me, and together
+we took a squeaky elevator to the studio of a theatrical
+<span class="pagenum" id="Page_256">[Pg 256]</span>sculptor. He specialized in devices for stage sets, armor suits,
+horribly distorted masks, and the like. The proprietor, a tall,
+balding man with a walrus mustache, was a “mad artist,” a
+Romanian whose name I have forgotten. He had an assistant,
+just off the boat and unable to speak English. The studio turned
+out to be a cluttered, unheated attic. It was mid-winter.</p>
+
+<p>“Very well,” the artist said, rubbing his hands from the cold,
+or the unexpected windfall, or the artistic challenge standing
+before him, I’m not sure which. “We’ll make a plaster of Paris
+mold in two parts, the body and the head. Later we will cast
+the statue in this mold. Now first you must strip down completely
+and shave all the hair off your body except your head.”</p>
+
+<p>“<i>All</i> the hair off my body?” I asked incredulously.</p>
+
+<p>“Yes,” the artist replied. “<i>All</i> of it. Otherwise, it will stick in
+the plaster of Paris.”</p>
+
+<p>“I don’t have a razor,” I said feebly, eyeing the nearest exit.</p>
+
+<p>“Never mind, Scotty, I’ll go get one,” John Flagg said, chuckling.
+He ran down the stairway and in a few minutes was back
+with a small electric razor, the size used by ladies.</p>
+
+<p>“I don’t know how in hell I’ll ever explain this on my expense
+account,” he said, “but here it is.”</p>
+
+<p>I stripped, put on an athletic supporter, and shaved the exposed
+portions of my body. After applying a thick coating of
+vaseline to my skin, I sat down on a rickety chair, feeling like
+a half-frozen Greek god. The mad artist prepared the plaster
+of Paris mixture, screaming in Romanian and gesticulating wildly
+at his assistant, pausing at his work only to stand back to
+size up his victim. I noted with dismay the ripples on my stomach
+in a sitting position. I would be cast forever with a row of
+rubber tires on my waist!</p>
+
+<p>The artists erected a mold about my body and then, without
+warning, began slapping on the frigid plaster of Paris. At the
+beginning it felt like being immersed in ice water, but as time
+passed my sealed-off body heat began to build up, and for the
+first time since I entered the attic I was warm. But soon I was
+too hot, sweating and breathing heavily under the increasing
+load of plaster.</p>
+
+<p><span class="pagenum" id="Page_257">[Pg 257]</span></p>
+
+<p>The artists erected a cage of steel within the plaster to hold
+it together. Then they turned me upside down in the chair and
+did the other side. I waited in stolid agony for the plaster to
+harden, afraid to move a muscle lest the mold be ruined and
+the process repeated.</p>
+
+<p>“Now we must do the head,” the artist said. “This is the
+most difficult part. You’re not subject to claustrophobia, are
+you? Do you prefer to breathe through your nose or mouth?”</p>
+
+<p>“Mouth,” I said. “No, I don’t have claustrophobia.”</p>
+
+<p>The creation of the head mold was slightly different but no
+less taxing. First they covered me with a kind of rubbery
+moulage, and after putting two paper straws in my mouth so
+I could breathe, they then applied the plaster. After a few
+minutes the straws wilted and I could barely suck in enough
+air for survival. I couldn’t swallow because the movement of
+my Adam’s apple would destroy their work. With my head
+rigidly set in the heavy mold, I listened as the artists babbled.
+Their voices seemed to come from far away, from some deep
+cave. They watched me closely. With their heads so encased,
+some people become overwhelmed by claustrophobia and come
+up fighting—ripping at the mask.</p>
+
+<p>John Flagg was doubled up on the floor with laughter.</p>
+
+<p>Before applying the plaster over the rubbery moulage, the
+two artists had laid a string across my head from shoulder to
+shoulder. The idea was that when the mold hardened it could
+be cut in two and thus removed by pulling the string, something
+like opening a package of chewing gum or cigarettes.</p>
+
+<p>Now a great debate arose between the two artists about when
+to pull the string. Actually, this <i>is</i> a matter for careful consideration
+because the string must be pulled at exactly the
+right time. If it is pulled too soon, before the plaster has hardened
+enough, the whole thing crumbles, or the seam rejoins.
+If it is pulled too late, after the plaster becomes hard and
+brittle, the mask must be chiseled off and the process begun
+all over again.</p>
+
+<p>In the midst of the debate, the head artist remembered he
+had to make an urgent telephone call. He disappeared from
+<span class="pagenum" id="Page_258">[Pg 258]</span>the room, leaving his assistant to watch over the victim. It was
+clear from muffled conversation that the assistant was very
+concerned. He touched the plaster repeatedly, testing its hardness,
+shook his head glumly and paced the floor, obviously as
+torn by indecision as Hamlet. Finally, he could stand it no
+longer. He rushed over and pulled the string.</p>
+
+<p>A few moments later the chief artist returned and smilingly
+said: “Well, now, it is time to pull the string.” Then with a
+<ins class="corr" title="Transcriber’s Note—Original text: 'look of horrow'" id="tn-258">look of horror</ins> he saw that he had been beaten to the punch.
+He exploded and turned on the assistant in fury, babbling in
+Romanian, English, and, I think, six other languages.</p>
+
+<p>“I’ll fire you—you don’t know anything about this work—I’ll
+have your visa revoked—you’ll go home on the next boat—” And
+so on.</p>
+
+<p>The mold held together, after all. It was finally removed and
+I could breathe again. I tried to wash the vaseline coating from
+my body with cold water, and then I got out of there as fast
+as I could.</p>
+
+<p>As it turned out, the crazy artist made a fairly creditable
+statue from the mold and my rubber tires were immortally preserved.
+Clark used the statue to make number one and number
+two X&#x2060;-15 pressure suits. As far as the fit was concerned, they
+were perfect as long as I didn’t gain a pound.</p>
+
+<hr class="tb">
+
+<p>After that I spent the equivalent of years of flying in the
+Air Force’s altitude and test chambers at Wright Field testing
+the Clark pressure suits. The Air Force people—notably the
+Command Flight Surgeon of the Air Research and Development
+Command, Brigadier General Don Flickinger—displayed keen interest
+in the work and their support was unlimited. We wrung out
+the suits, not only in repeated “trips” to 150,000 feet altitude, but
+also in ovens and refrigerators, to make sure they, to say nothing
+of the pilot, could stand up under extremes of temperature.</p>
+
+<p>These prolonged tests became somewhat of a minor physical
+challenge for me. The aero-medical officers at Wright Field
+submitted, half jokingly, that considering my age (I was then
+36) my body would never take the beating. When they matched
+<span class="pagenum" id="Page_259">[Pg 259]</span>my performance against the data accumulated on human guinea
+pigs over several years, my record defied their statistics.</p>
+
+<p>“You’re a physical freak,” someone remarked. “No one can
+take that kind of punishment. How do you do it?”</p>
+
+<p>It seemed superfluous to point out that for centuries man has
+been outperforming and outliving the statistics of the physicians,
+and that, as I have said before, if the spirit is willing the
+flesh can exceed all probable limits. History is full of such accounts.
+Teddy Roosevelt is a good example.</p>
+
+<hr class="tb">
+
+<p>The sled track at Edwards was the brain-child of Air Force
+Colonel John Paul Stapp, an aero-medical officer who specialized
+in the physiological effects of high-speed and high-altitude bail out
+and severe G forces. The track was a mile long. The sled
+was powered by a cluster of solid-propellant rockets. When
+touched off, the sled accelerated with great speed. It roared
+down the track for a few seconds and then splashed into a
+pool of water. The water stopped the sled, subjecting it to
+tremendous G. On the front of the sled we mounted a dummy
+nose of the X&#x2060;-15, complete with cockpit canopy, ejection seat,
+and a plastic anthropomorphic form in the seat dressed in a
+Clark pressure suit.</p>
+
+<p>We gathered behind a concrete shield listening as the countdown
+was intoned on the loudspeaker: “5 ... 4 ... 3 ... 2 ...
+1 ... Zero!”</p>
+
+<p>The powerful rockets on the rear of the sled exploded to
+life. Within a few seconds the big sled was hurtling down the
+track at 1000 miles an hour, almost faster than the eye could
+follow. Cameras, mounted in a half-dozen positions, recorded
+the motion of the sled and the X&#x2060;-15 nose. Sensitive instruments
+on the seat and inside the plastic dummy telemetered back a
+constant stream of data. These data would tell us the total effect
+of wind-blast and heat on the dummy and pressure suit. It would
+settle once and for all the controversy of the X&#x2060;-15 ejection-seat
+principle.</p>
+
+<p>At the peak of acceleration of the sled—1000 miles an hour—the
+X&#x2060;-15 seat fired automatically. The V-shaped canopy blew
+<span class="pagenum" id="Page_260">[Pg 260]</span>off. The seat, with the dummy firmly restrained, rose from the
+sled and zoomed skyward. Over one hundred feet in the air
+the dummy separated from the seat and a parachute automatically
+deployed, lowering the pressure-suit-clad dummy to
+the desert floor. The parachute was a lightweight model with a
+twenty-four-foot canopy, built and tested especially for the X&#x2060;-15.</p>
+
+<p>The test was successful. To make certain we were right, we
+ran the sled several more times. All the data indicated the X&#x2060;-15
+pilot, protected by a Clark full-pressure suit, could eject under
+the most severe conditions we could anticipate without bodily
+injury beyond the usual bruises associated with an escape from
+a disabled airplane.</p>
+
+<hr class="tb">
+
+<p>“Charlie,” I said, pulling a chair alongside Feltz’s desk. “Here
+is the final word on the suit as we see it.” I laid out a series of
+reports and schematic drawings.</p>
+
+<p>“The basic deal is this: the first layer is winter underwear,
+the second a ventilation garment to cool the pilot. The third
+layer is the rubberized airtight pressure garment with the anti-G
+bladders. The fourth layer is this new link-net material for
+strength. The outer layer is this silver lamé material, mainly
+for photo appeal.</p>
+
+<p>“We have run the suit through heat and cold tests. It will
+withstand anything we can expect to meet. The suit itself, during
+X&#x2060;-15 flight, will be cooled by nitrogen gas from the same
+tank we use to pressurize the X&#x2060;-15 cockpit; you’ll hardly be
+able to measure the quantity. Here’s the way we have the
+oxygen regulators and supply set up. During ride to launch
+point the pilot in the suit breathes oxygen from a supply from
+the mother plane. When he’s ready to launch, he can turn a
+valve and get oxygen from a supply in the X&#x2060;-15. This will save
+us some oxygen weight. The suit itself contains a bottle of
+oxygen, enough to get him down on the ground, which automatically
+pressurizes the suit and helmet in case of ejection.
+Incidentally, we’ve got a rubber seal in the helmet just above the
+pilot’s mouth and nose to prevent fogging the helmet lens. No
+electrical heating required.</p>
+
+<p><span class="pagenum" id="Page_261">[Pg 261]</span></p>
+
+<p>“We worked it so that the parachute harness also serves as
+the seat-restraint straps. No need for extra shoulder straps and
+a lap belt. This will save us a few pounds. The sled tests show
+that the manacles will hold the pilot’s feet in place, and that
+the blast on ejection is far from fatal. The seat weather-vanes,
+as expected. The pilot will pull some G’s going out, but not
+enough to black him out. Now, to top it all off, I’m giving you
+the whole pressure suit for thirty-nine pounds. You could walk
+around in it on the moon.”</p>
+
+<p>“Dad-gummed,” Feltz said. “This sounds too good to be true.
+Where’s the hooker?”</p>
+
+<p>“The only problem is this. We’re still ironing out some improvements.
+We can’t go much faster than we’re going. I’m
+afraid that’s the way it’s going to wind up. We will be flight-testing
+the new pressure suit and the X&#x2060;-15 all at the same time.”</p>
+
+<p>“You won’t be able to flight-test the suit before then?”</p>
+
+<p>“No,” I said. “We’ll have a lot of chamber time, but no realistic
+in-flight operations.”</p>
+
+<p>“Well, that’s the breaks,” Feltz said. “Just make darned sure
+the thing works.”</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_262">[Pg 262]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_29">CHAPTER 29 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 29</span> <i>Eyes Toward Space</i>
+ </h2>
+</div>
+
+
+<p class="noindent">In mid-1957 two severe hurricanes struck the X&#x2060;-15 project
+within a matter of weeks. As they roared through our working
+space, we launched a series of crisis meetings beneath battened
+hatches. Again Stormy leaped in, bringing his authority to bear.
+The airplane was well along by then. Manufacturing had begun
+the difficult experimental welding of the Inconel X skin metal;
+other engineers, after prolonged agonizing, brain-numbing conferences,
+had finally set the design for the complex fuel tanks
+for the rocket engine. At that stage in X&#x2060;-15 history the slightest
+change in one part of the airplane ricocheted throughout the
+entire structure.</p>
+
+<p>The first storm was a request from the customer to add additional
+instrumentation devices to record the effects of wind, temperature,
+and G load on the airplane. Charlie Feltz announced
+this new request one morning at a meeting.</p>
+
+<p>“What they want among other things will double the instrumentation
+load, from 800 to more than 1500 pounds,” he said.
+We sat silently, each mentally calculating the loss in X&#x2060;-15 performance.
+The news fell over us like a death sentence. Charlie
+Feltz later told me he was ready to quit.</p>
+
+<p><span class="pagenum" id="Page_263">[Pg 263]</span></p>
+
+<p>“What do they want?” someone asked.</p>
+
+<p>“Well,” Feltz said heavily, “they want some more stuff in the
+instrument bay, and they want us to put in hundreds of pressure
+pick-ups, strain gauges, and thermocouples, and six manometers
+of archaic vintage. They want this stuff not only in the
+wing but also in the horizontal and vertical tail.”</p>
+
+<p>“Why didn’t they say so before now?” one of the engineers said.</p>
+
+<p>I closed my eyes and visualized the new request as it
+would finally show on the airplane. The thin wing would be
+pitted with tiny holes. Clusters of steel tubing, pencil size,
+would run from these holes and crowd through the wing root
+to the data-collecting manometers in the instrument and engine
+bays. As the X&#x2060;-15 whipped through the air, each of these tiny
+holes would have a story to tell, to relay through the tubing
+to the recording manometers. To install these pick-ups, and to
+route the tubing to the proper place through the thin wing
+was a terribly tough and delicate engineering job, comparable
+to engraving the Lord’s Prayer on the head of a pin. In the
+aft end of the ship the pick-up tubes would have to be arranged
+in some kind of infinitely complex universal joint because the
+horizontal elevator rotated.</p>
+
+<p>“Ah, to hell with them,” an engineer said. “Let’s don’t do it.”</p>
+
+<p>Although Feltz was deep in the dumps, this comment, which
+to him bordered on treason, brought him to his feet. As always,
+he spoke slowly and calmly.</p>
+
+<p>“I guess we have to remember this isn’t <i>our</i> airplane. We’re
+building it for the customer. He knows all the facts. He isn’t
+dumb. If he wants these pick-ups, then there must be a good
+reason. I’ll try to talk them out of putting them in the horizontal
+tail, but we’ll probably have to settle for the others. He knows
+what the extra weight will cost him. But let’s remember it is <i>his</i>
+decision, not ours. We have to do what they want.”</p>
+
+<p>Charlie was correct in making that point and his timing was
+good, as well. All of us had become so intensely wrapped up
+in the project that we frequently tended to think of the airplane
+as our own personal property. We resented any new suggestions
+and intrusions, the same way a parent becomes irate
+<span class="pagenum" id="Page_264">[Pg 264]</span>when somebody else corrects his child. We sometimes lost sight
+of the fact that the X&#x2060;-15 was a nation-wide project, conceived for
+the good of the entire industry, and that the customer had
+certain prerogatives which were denied us.</p>
+
+<p>“God only knows,” Feltz went on, “where we can cut out
+some weight, but we have to do it. The engine weight is up
+again, and this hurts us even more.”</p>
+
+<p>He began to detail some weight-saving ideas he and the
+structural engineers had recently conceived. One was a new
+arrangement for the fuel tank-plumbing that would save a hundred
+pounds without seriously affecting the overall center of
+gravity of the airplane. The second was a plan to install the
+nose wheel telescoped on the plane, saving considerable space
+and weight.</p>
+
+<p>The nose-wheel concept—Feltz’s own baby—was new and
+appealing. It greatly reduced the nose-wheel storage space and
+saved us half a hundred pounds or more. Few people realize it
+but the landing-gear apparatus alone on some airplanes can
+account for as much as eight per cent of the total weight. With
+our lightweight rear skids and new nose wheel, the gear on the
+X&#x2060;-15 made up only about one per cent of the entire weight of
+the airplane, or a total of 300 pounds.</p>
+
+<p>The second storm struck a few days later. It was more severe
+in force, but as I think back on it now it helped the project
+tremendously. But when it first came we thought it might delay
+us fatally. Again the news was passed out at a meeting in
+Feltz’s office.</p>
+
+<p>“Now, you won’t believe this,” he started out, “but the customer
+wants to change the mother plane.”</p>
+
+<p>A chorus of groans echoed through the office.</p>
+
+<p>“The customer says the B&#x2060;-36 is being phased out of the Air
+Force inventory. Spare parts will be hard to come by, maintenance
+on the B&#x2060;-36 is staggering, and so on. They want us
+to use a B&#x2060;-52.”</p>
+
+<p>The B&#x2060;-52, a monstrous eight-jet bomber, then being manufactured
+in quantity by Boeing, was designed to replace the
+B&#x2060;-36. The substitution of this new mother plane immediately
+<span class="pagenum" id="Page_265">[Pg 265]</span>raised grave new problems, which we batted about in the
+meeting.</p>
+
+<p>“You can’t put the X&#x2060;-15 in the B&#x2060;-52 belly,” an engineer said.
+“The landing gear is in the way.”</p>
+
+<p>“I know,” Feltz said. “We’ll have to hang the X&#x2060;-15 externally,
+out on the wing.”</p>
+
+<p>This concept in itself was extremely controversial. For some
+years the Air Force had been conducting experiments with
+external stores—the Rascal missile, for example—on high-performance
+jet airplanes. The appendage completely modified the
+overall configuration of the aerodynamic shape, and added drastic
+new problems to the already tough job of piloting a jet in the
+trans-sonic zone. The planes vibrated and the stores shook loose,
+or else produced so much drag that the original anticipated performance
+of the airplane was never reached. We were now
+asked to hang the largest external store ever conceived on a
+B&#x2060;-52—with a man in it.</p>
+
+<p>The wing-mounted X&#x2060;-15 and the use of the B&#x2060;-52 as a mother
+plane presented great new operational troubles. The pilot would
+have to board the X&#x2060;-15 before the mother plane took off, for
+example. The Lox top-off system would have to be not only
+remote but automatic, as well, because no mechanic could crawl
+out on the B&#x2060;-52 wing to adjust it. The B&#x2060;-52 flaps, which provide
+extra lift, could not be used on take-off because the X&#x2060;-15 tail
+would be in the way. Some means would have to be devised for
+a visual check on the X&#x2060;-15 in flight. There were no side windows
+in the B&#x2060;-52. We would have to put a switch in the X&#x2060;-15 so the
+pilot could launch himself if anything went wrong.</p>
+
+<p>This was not all. As conceived, the X&#x2060;-15 would be suspended
+from a pylon on the right wing, between the B&#x2060;-52 fuselage and
+the first, or inboard, engine pod. The “flutter and noise engineers,”
+especially a lady engineer at North American named
+Rose Lunn, who had a habit of being right, challenged this
+method, pointing out that the noise from the B&#x2060;-52 engine pod
+might seriously damage the X&#x2060;-15. Feltz set in motion detailed
+studies to determine the full extent of the vibration effect. The
+engineers strapped a dummy model of the X&#x2060;-15 on a B&#x2060;-52 wing
+<span class="pagenum" id="Page_266">[Pg 266]</span>and ran the B&#x2060;-52 engines for ten hours. Concrete ballast representing
+the weight of the X&#x2060;-15 was hung on the B&#x2060;-52 wing and
+dropped to see what effect it would have on the bomber. There
+was much juggling back and forth. In the end we beefed up
+the X&#x2060;-15 tail. The X&#x2060;-15 nose was mounted ahead of the B&#x2060;-52
+wing leading edge, so the X&#x2060;-15 pilot could eject if necessary.</p>
+
+<p>It was not easy to locate a couple of spare B&#x2060;-52 bombers for
+this mission. Air Force General Curtis LeMay, then boss of the
+Strategic Air Command, needed every airplane he had either
+for training or for the active deterrent force. But at last the Air
+Force located a couple of ancient B&#x2060;-52s, the third and eighth
+planes built, which were not rigged for combat. North American
+converted them, installing the X&#x2060;-15 mating pylon, automatic Lox
+top-off system, and remote TV sets, mounted to give the launch-panel
+operators in the B&#x2060;-52 a full picture of what was going on
+out on the wing.</p>
+
+<p>Air Force Captains Gahl and Charles Bock were designated
+mother-plane pilots. They perfected a system of horsing the giant
+airplane into the air carrying the X&#x2060;-15 load without flaps. When
+Gahl was killed in another airplane, Captain Jack Allavie, a
+test pilot at Edwards, moved in to take his place. Both Allavie
+and Bock were superb aviators.</p>
+
+<p>After this work was well along, Charlie Feltz said: “You
+know, Scotty, I think we might come out ahead on this mother-plane
+switch. Luckily we can save a loss in the schedule. With
+the B&#x2060;-52 we can launch a little higher and a little faster, and
+in the long run, this will give back some X&#x2060;-15 performance. I
+think we will also get back some of what we lost on the added
+instrumentation.”</p>
+
+<p>I had to agree. Although the shift caused great technical pain,
+it paid off.</p>
+
+<hr class="tb">
+
+<p>The new mother-plane launching scheme came at an interesting
+and provocative time in U.&nbsp;S. aviation history and set us
+to thinking in terms of even more exotic X&#x2060;-15 launching vehicles.
+Far-seeing engineers in the industry were beginning to turn their
+eyes toward space. The power of rocket engines had increased
+<span class="pagenum" id="Page_267">[Pg 267]</span>enormously. The Atlas missile, plus boosters, had a thrust of
+450,000 pounds. The U.&nbsp;S. had already announced a plan to put
+a basketball-size satellite into orbit to gather data for the International
+Geophysical Year. Russian scientific publications hinted
+that the USSR might orbit an object even sooner. Engineers
+were beginning to talk seriously among themselves about putting
+a combat vehicle into orbit. Primarily as an aero-medical
+experiment, Air Force General Don Flickinger asked industry
+to look into an orbiting capsule which could support a chimpanzee
+and, perhaps later, a man. This project was labeled MIS,
+for Man In Space. The North American Advanced Design Section
+was busy drawing up plans.</p>
+
+<p>Good-natured but intense debates on the proper course to
+follow in space exploration broke out among the engineers. Some
+engineers and scientists claimed space travel was nonsense.
+Others, especially the Army’s Redstone group in Huntsville,
+Alabama, urged that it was necessary to retain our freedom.
+The majority of us knew that man would go into space simply
+because space was there. At that time few could anticipate the
+psychological impact of space triumphs on the world.</p>
+
+<p>Charlie Feltz, Stormy, and I spent many hours after work at the
+plant discussing the coming space age. I think we agreed on
+all aspects of space exploration (Stormy eager, Charlie thoughtful,
+and me ready). The first step, we surmised, would be the
+launching of unmanned, highly-instrumented space devices to
+gather information on gravitational forces, radiation patterns,
+meteorites, communications, and unusual environmental conditions
+expected in space.</p>
+
+<p>Following these probes, man himself would go there, no matter
+what the cost in terms of money and scientific effort.</p>
+
+<p>“If the Russians get to the moon first,” Feltz said, “it will be
+a heck of a note. And who knows what’s up there? The moon
+might be solid gold. Think what that could do to the economy.
+Think what you might find out if you set up an astronomy lab
+in that clear atmosphere. We might change our entire concept
+of the origin and nature of the universe.”</p>
+
+<p>“I think the military phase of it will be important,” Stormy
+<span class="pagenum" id="Page_268">[Pg 268]</span>said. “You don’t know what you will run into until you go there.
+We might turn up some whole new concept which will make
+our present defenses inadequate.”</p>
+
+<p>Talking in these heady realms naturally led into a discussion
+of the hardware that would take man into space.</p>
+
+<p>“The moon thing is a long way off,” Stormy said. “You’d have
+to build a space station to orbit the earth first, and take off
+from there. Within the state of the art of power-plants, the thrust
+to offset gravity of the earth alone would make a non-stop earth-moon
+trip unfeasible.”</p>
+
+<p>“You’ll need some kind of space ship to commute back and
+forth between the orbiting space station and the earth,” I said.
+“Something you can control in space, shift orbits with, so you
+can pull alongside the space station and all that. And you’ll
+have to be able to re-enter the earth’s atmosphere and land, like
+an airplane. Personally, I can’t see this coming out of orbit with
+a parachute on a capsule. I’d want to fly in and out. Makes a
+lot more sense to me.”</p>
+
+<p>“I feel pretty certain the first experimental steps will be something
+like Flickinger’s MIS project. A brief orbit flight in a
+capsule, then a slowing down, and re-entry automatic, with a
+parachute.”</p>
+
+<p>“Yeah,” I said. “But you’re liable to land in the ocean, or any
+place. Pretty undignified way to come down, I’d say.”</p>
+
+<p>“True, Scotty,” Stormy said. “But, as I said, that is the logical
+starting point to see how man reacts to the new environment.
+Later on, we would get into your commuter space ships. Something
+like an X&#x2060;-15, perhaps. As a matter of fact, why not the
+X&#x2060;-15? We’ve got the capability to go into space, the systems,
+rocket engine, and full-pressure suit. What would happen if you
+put the X&#x2060;-15 on top of a big rocket booster like the Atlas? Or,
+say, the Navaho?”</p>
+
+<p>The Navaho was an intercontinental-range, air-breathing missile,
+which had been conceived by the Missile Division of North
+American. The Navaho was mounted piggy-back on an enormous
+three-engine rocket booster which developed about 415,000
+pounds of thrust. The building of this booster had pioneered
+North American’s way into the rocket-engine field and ultimately
+<span class="pagenum" id="Page_269">[Pg 269]</span>provided the U.&nbsp;S. with a reliable rocket engine for Redstone,
+Jupiter, Thor, and Atlas. It had also led to the development of a
+very reliable automatic inertial-guidance system, which was later
+used by the Nautilus on the submarine’s first submerged voyage
+under the North Pole. But the Navaho vehicle itself had been
+overtaken by technology—by the superior ballistic missiles.</p>
+
+<p>“You’d have some terrific aerodynamic heating problems,” Feltz
+replied. “The X&#x2060;-15 as it now stands doesn’t have the capability
+of anything much above Mach 7. You’re talking now about
+Mach 20 and above.”</p>
+
+<p>“But the basic vehicle is there,” Stormy insisted. “The power-plant,
+the shape, the internal systems, the communications, the
+instruments, the landing gear, pressure suit, escape system, and
+all the rest. What you’re talking about is simply a beefing-up of
+the skin to resist heat, aren’t you?”</p>
+
+<p>“Yeah, heck, I guess I am,” Feltz said. But I could tell what
+he was thinking. The skin would add weight, the higher heating
+loads would call for greater air conditioning for the instruments,
+and back we would be again in the maddening battle of weight
+versus thrust.</p>
+
+<p>“It would take a new airplane,” Feltz said. “The shape would
+be the same, but a new airplane, I think. Of course, we’re organized
+to handle it. We have the only rocket-airplane team in the
+country in being. We know this thing backwards and forwards.
+And like you say, it’s just a question of beefing it up. Yes. We
+could do it. I don’t think it would take long.”</p>
+
+<p>“How long?” Stormy pressed.</p>
+
+<p>“Two years,” Feltz said. “Two years from right now.”</p>
+
+<p>Stormy added figures in his head, then he scribbled on a
+piece of paper. Soon we were all scribbling on pieces of paper—envelopes,
+I think they were.</p>
+
+<p>Stormy said: “With a Navaho booster system and X&#x2060;-15 second
+stage, we could reach Mach 12 two years from now, or 1959,
+say early 1960 at latest, right?”</p>
+
+<p>“Right.” We confirmed his figures. My mind was spinning,
+trying to visualize an X&#x2060;-15 perched atop a Navaho booster on a
+launching pad, then blazing skyward at twelve times the speed
+of sound. At that speed it could zoom deep into space and
+<span class="pagenum" id="Page_270">[Pg 270]</span>cover a distance over the earth of perhaps nine thousand miles.
+Such a vehicle would have the capability of flying from a U.&nbsp;S.
+base to Russia and beyond. It could be a combat weapon, I
+thought.</p>
+
+<p>“It’d take a lot more to get into orbit,” Feltz said. “A new
+booster concept and a new X&#x2060;-15 altogether. Same shape but
+different materials. You’ve got a Mach 25 re-entry problem to
+contend with.”</p>
+
+<p>“We can get to that later,” Stormy said. “But if we’ve got to
+have a commuting space ship, why not get started on the initial
+step-by-step program now? We’ve got the team to do it. We’ve
+got half a dozen Navaho boosters lying around gathering dust
+in the attic.”</p>
+
+<p>“Stormy, you can’t go proposing that to Washington. Hell,
+we haven’t even flown this airplane yet. Mel Apt flew Mach 3
+and died doing it. Now you’re talking about leaping to Mach
+12. They’d just laugh at us.”</p>
+
+<p>“I won’t make a formal proposal, Charlie,” Stormy said.
+“I’ll just feel them out about it. If we can get the speed, we
+ought to be after it. The concept has military potential, a
+weapons system, something like the German boost-glide bomber
+idea of World War II. It’s a logical course to my mind. I’ll
+maybe put the thing through as a change-order.”</p>
+
+<p>“A change-order?” Feltz laughed. “A $90 million change-order?”</p>
+
+<p>Stormy talked it up in Washington informally, but the
+customers, while intrigued by the idea, were reluctant to move
+into an advanced X&#x2060;-15 project before the ship had proven itself
+in flight. Stormy argued that the flight experience itself was a
+logical stepping-stone toward an advanced X&#x2060;-15. While the
+X&#x2060;-15 was being debugged in flight test, the more advanced
+model could be coming along. By the time the latter was ready
+to fly, the original X&#x2060;-15 and its machinery would be a proven,
+reliable concept, as safe as an ordinary jet fighter plane. But in
+those days before Sputnik, money was scarce and most space,
+or semi-space, projects, taboo by order of Secretary of Defense
+Charles E. Wilson.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_271">[Pg 271]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_30">CHAPTER 30 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 30</span> <i>Muting the Cassandras</i>
+ </h2>
+</div>
+
+
+<p class="noindent">A centrifuge is a large word to describe what is essentially
+a simple piece of machinery. A centrifuge is a seat, cockpit,
+capsule, or gondola mounted on an arm which whirls around
+at high speed. I have often seen a low-grade centrifuge in an
+amusement park, mounted in a vertical position. The people
+whip around in circles right-side up and upside down, amid
+screams of delight and fear.</p>
+
+<p>The armed forces have used horizontally mounted centrifuges
+for many years to impose G loads on pilots for experimental
+purposes. When the gondola whirls in its circle like a bucket of
+water on the end of a rope, the pilot in the gondola goes through
+a series of tests under severe G. Lights flick on which he is
+supposed to turn off, and so on. In this way, the theory goes,
+the aero-medical officers can determine man’s reactions and
+limitations under severe flight conditions.</p>
+
+<p>The largest and newest centrifuge in the United States, built
+by the Navy, is located in Johnsville, Pennsylvania. The gondola
+is mounted on a fifty-foot arm. The powerful engine which
+rotates the arm from the centrifuge hub can accelerate from
+zero speed to 250 feet a second in a few seconds. The gondola
+<span class="pagenum" id="Page_272">[Pg 272]</span>can be tilted to almost any angle (for additional tests), and by
+using cams in the position control of the gondola, the gondola
+can be rocked gently or severely, slowly or rapidly, simulating
+the motions of an aircraft in distress, while pulling very high G.</p>
+
+<p>From the beginning, we had been anxious to test the X&#x2060;-15
+sidearm control system under strong G loads. The sidearm control
+had much merit (there is no real point in locating the airplane
+control stick in the center of the cockpit; it was simply
+put there in the early days of aviation and nobody bothered to
+change it), but I was eager to see what happened, if anything,
+when it was operated by wrist motion under the severe conditions
+for which it was designed. Thus I proposed that we put
+a wrist control in the Johnsville centrifuge and run some tests.
+It was a decision I lived to regret.</p>
+
+<p>The Navy’s Aero-Medical Acceleration Laboratory at Johnsville,
+having received little attention since inception, was overwhelmed
+by our show of interest in their machine. They seized
+on the X&#x2060;-15 tests like eager young starlets, and the first thing we
+knew we had a real and, at times, disconcerting, show on our
+hands. After the engineers rigged a complete X&#x2060;-15 cockpit in
+the gondola, I spent many hours whirling around in that crazy
+machine. Later, the Navy engineers ingeniously hooked the
+centrifuge to an electronic computer, which fed back instrument
+readings to the panel in the gondola, somewhat like our North
+American cockpit simulator. It then became possible to “fly”
+the ship on various missions, not only with actual instrument
+presentation, but also with theoretical G loads imposed on the
+pilot, a fantastically sophisticated tool.</p>
+
+<p>Most of these tests centered on that critical phase of the
+X&#x2060;-15 flight profile when the ship re-entered the “thick” earth
+atmosphere to which we added several emergencies. This was
+the point, in theory, when the G loads would be most severe
+and the temperature the highest and flying the most difficult.
+There were many ways to approach this atmospheric layer in
+the X&#x2060;-15. The pilot could enter lightly and slowly, decelerating
+in the process, or he could dive straight into it like a swimmer
+plunging directly into a pool. We favored a “shallow” penetration,
+<span class="pagenum" id="Page_273">[Pg 273]</span>a gradual straightforward descent, such as a commercial
+airplane might make on approaching an airport for a landing.</p>
+
+<p>It was important that the X&#x2060;-15 pilot be “lined up” almost
+perfectly for this approach on the atmosphere. If he came in
+skidding sideways—yawing—or nose-high—pitching—the re-entry
+could be sloppy and subject the X&#x2060;-15 to unnecessary strain and
+motion; it would cause high temperatures on areas of the ship
+not specifically designed to withstand them. The X&#x2060;-15 nose
+contains a special “ball” senser to relay yaw and pitch attitude
+to the instrument panel. If the pilot is not lined up properly,
+he can re-align the ship with the peroxide-rocket-ballistic controls
+on the wing and nose.</p>
+
+<p>At Johnsville we conducted hundreds of re-entry tests, in most
+of which the X&#x2060;-15 was made to approach the atmosphere under
+the worst possible conditions—an extreme emergency. We
+brought her in cocked sideways, with severe yaw and pitch
+angles—almost every way except upside down and backward,
+and with failed damping devices. Obviously under such circumstances,
+when the G loads approached the maximum the airplane
+could stand, we had some interesting results in the gondola
+cockpit. Pulling as high as nine or ten G’s, I was squashed into
+one corner of the seat. I blacked out and my head fell to one
+side. My eyes rolled up and the skin on my face was grotesquely
+distorted, but the sidearm control worked beyond our best
+hopes, even in these extreme conditions. All of these test runs
+were recorded by a remote movie camera mounted in the
+gondola.</p>
+
+<p>In their eagerness to call attention to their role in the development
+of the X&#x2060;-15, the authorities at Johnsville took this
+movie film, selected the worst possible frames, and patched them
+together as a full-length documentary of their operation. They
+claimed to have greatly influenced the X&#x2060;-15; yet we had changed
+nothing as a result of the tests. The next thing we knew, the
+Johnsville people were showing this film at various aero-medical
+symposiums and conventions. Then the word began to spread
+that the X&#x2060;-15 pilot couldn’t stand the re-entry loads. The fact
+that almost all the movie scenes represented the X&#x2060;-15 in emergency,
+<span class="pagenum" id="Page_274">[Pg 274]</span>just short of the point of total destruction, was not
+emphasized.</p>
+
+<p>This kind of thing is inevitable, I guess. Specialists in their own
+fields, not looking at the overall picture have cropped up all
+during history. These people claimed that the steamship,
+the airplane, the automobile, the atomic submarine, and who
+knows what else—perhaps even the wheel—would fail. They
+are proved wrong time after time, yet they reappear to
+frustrate dedicated people who are trying to get things done.
+You may think the engine in your automobile is a fine piece of
+machinery capable of operating for months without repair. Yet
+I’ll bet I can find a specialist who has run extreme tests on pistons
+who can convince you that your engine, under certain circumstances,
+would disintegrate. So what?</p>
+
+<p>Inevitably, as the X&#x2060;-15 neared completion, the effects of this
+movie and other dire predictions, as well, began to take hold.
+The specialists came after us in full fury. To offset this nonsense
+I hit the road with charts, movies, and slides which laid out an
+honest picture of the X&#x2060;-15 and its flight mission. In the months
+that followed I attended no less than a hundred meetings,
+conventions, symposiums, and other gatherings of so-called “experts”
+in various fields. This “public relations” activity, an attempt
+at muting the Cassandras, became a vital factor in the
+life of the X&#x2060;-15, not to mention my own. Without it, it is possible
+that the ship might have been talked out of existence.</p>
+
+<hr class="tb">
+
+<p>One such problem that developed in the very early days was
+the matter of radiation. It is well known that the layer of atmosphere
+surrounding the earth provides a kind of umbrella for
+earthbound folk against various energy emissions from the sun
+and space. Long ago a group of experts began to predict that
+when man went higher, beyond the protection of this umbrella,
+and came into direct contact with these strong emissions, disastrous
+things would happen. The tiny, invisible particles would
+bombard his body, causing his hair to fall out, and ultimately
+bringing premature death from radiation disease. The predicted
+altitudes at which these dire consequences would limit flying
+<span class="pagenum" id="Page_275">[Pg 275]</span>moved higher as we flew airplanes and balloons higher and
+higher. The meteorite scare followed the same pattern. Ultraviolet
+and X rays caused some concern.</p>
+
+<hr class="tb">
+
+<p>“Scotty,” Charlie Feltz said to me one day, “somebody here
+wants us to tint the windshield of the X&#x2060;-15. You know anything
+about this?”</p>
+
+<p>“Well, they tinted the X&#x2060;-2 windshield,” I said. “Tinting might
+keep some of the glare out and maybe protect the eyeballs a
+little against sunburn, but I don’t think it will make much difference
+as far as any other radiation is concerned. I’ll look
+into it.”</p>
+
+<p>We conducted experiments to tint the X&#x2060;-15 windshield. But
+they were complicated by the fact that the X&#x2060;-15 windshield
+consists of two layers of glass with a space between for defogging
+nitrogen gas. The best we could get out of it was a
+piece of smeared glass full of reflection and distortion. To be
+honest, we really didn’t put much effort into the scheme.</p>
+
+<p>By then, considerable high-altitude flight experience had been
+accumulated by various people. Air Force Major David Simons
+had soared to 100,000 feet in a balloon, and several Navy and
+civilian types nearly as high, after first sending aloft a dozen-odd
+mice. Dave didn’t seem to be suffering unduly, and his reports
+and data did much to debunk the radiation myth. By that
+time, too, the U.&nbsp;S. had logged considerable experience with the
+U&#x2060;-2 “high-altitude research airplane,” designed to overfly the
+Soviet Union on photo-reconnaissance intelligence missions.
+None of the U&#x2060;-2 pilots were losing their hair—at least not from
+radiation. Much later, of course, one of our satellites discovered
+the Van Allen radiation belt deep in space. But this layer of
+cosmic particles is too far out for the X&#x2060;-15 or earth-orbiting
+capsules. Deep-space travelers en route to the moon may have
+to thread through the belt, like a submarine through a minefield,
+but it is a long-range problem, and definitely not an insoluble
+one.</p>
+
+<p>“Charlie,” I reported, “this radiation is a lot of bunk. To
+hell with trying to tint the windshield.”</p>
+
+<p><span class="pagenum" id="Page_276">[Pg 276]</span></p>
+
+<p>“If you say so, Scotty,” Feltz replied.</p>
+
+<p>“Just make damned sure those windshields don’t ice up,” I
+joked. “This airplane is not designed to be flown blind.”</p>
+
+<hr class="tb">
+
+<p>Zero G, or weightlessness, which a pilot will experience in
+flights beyond the appreciable pull of the earth’s gravity, first
+came up with force in early 1950 during a meeting of “space”
+experts. Some serious scientific questions were raised. For example,
+would the fluid in the inner ears “float” and cause
+critical disorientation? How could a man drink water? With no
+pull of gravity to take it to his stomach, might he not drown?
+And so on.</p>
+
+<p>Weightlessness is the one condition we cannot simulate on a
+machine, such as the centrifuge, located on the face of the earth.
+The nearest we can get at present is to fly an airplane on a
+parabolic curve, during which time the airplane, for a variety of
+complicated reasons, very briefly becomes apparently disengaged
+from the pull of gravity. Chuck Yeager was one of the
+first pilots in the country to try this experiment. As early as 1950
+he flew weightless trajectories in a jet airplane for periods of
+about thirty seconds. He reported slight disorientation and slight
+nausea.</p>
+
+<p>I was curious about this because I was then preparing for
+the Skyrocket flights which would take me on a parabolic flight-path
+at, or close to, weightlessness for a brief period. I took an
+NACA F&#x2060;-84 jet and flew about fifty weightless trajectories. I
+suspended a pencil on a string in the cockpit to check that I
+was really weightless. When the pencil floated and the string
+slackened, I knew I had achieved the desired result.</p>
+
+<p>Not once during these fifty flights did I experience any undesirable
+effects or dangerous disorientation. As a matter of
+fact, I rather enjoyed the sensation. It was fun, like riding a
+roller-coaster. Occasionally during the weightless portion of the
+flight, my weightless arm would overreach. But soon I adjusted
+to this and piloted the airplane without mishap or discomfort.
+Sometimes I flew the trajectory upside down. On three occasions
+during the recovery from this maneuver, when the airplane
+<span class="pagenum" id="Page_277">[Pg 277]</span>was rotating about three axes, and building from zero to
+a high G level, I felt weird, as though I were going into a loop,
+quite similar to the common experience of an accelerating or
+decelerating centrifuge. But this was due, I knew, solely to the
+recovery maneuver, not the zero G condition. I wrote a report
+down-playing the effect of zero G.</p>
+
+<p>Unfortunately, my notes from these flights actually served
+for years as a rallying point for the zero G doom-criers. Some
+experts seized on the three inverted-recovery disorientations and
+trumpeted them throughout aero-medical circles. I tried my best
+to curb these charges, but the truth never caught up. It still
+hadn’t caught up when I joined the X&#x2060;-15 project. It was well
+known that the X&#x2060;-15 pilot would experience about three to
+five minutes of weightlessness on the altitude trajectories. These
+experts predicted alarming consequences.</p>
+
+<p>To me this was nonsense, if not downright scientific dishonesty.
+And it really irritated me to realize my own flight notes
+were being used to foster this untruth. I believe people are
+affected by weightlessness somewhat as they are by motion sickness.
+Some people become air-sick and disoriented; others don’t.
+Any pilot, especially a test pilot, will be able to adjust to short
+durations of weightlessness in the X&#x2060;-15 or any other sub-orbital
+space craft.</p>
+
+<p>A prolonged period of weightless flight may be another story
+altogether. I don’t know what will happen to spacemen orbiting
+the earth for a matter of days. New ways of “forced” eating
+will have to be developed. In fact, the Air Force has already
+come up with a toothpaste-tube method of injecting water into
+a weightless body, and other innovations. Just what effect prolonged
+weightlessness will have on the heart, urinal tract, and
+other vital organs of the body where moving fluids are located,
+is a mystery. Thus I quite agreed with Air Force General Don
+Flickinger’s MIS aero-medical proposal to orbit man for
+progressively greater durations. But I strenuously fought off any
+suggestion that the X&#x2060;-15 might be compromised because of short
+periods of weightlessness. And I stubbornly resisted the flight
+surgeons who proposed “instrumentating” the X&#x2060;-15 pilot’s body,
+<span class="pagenum" id="Page_278">[Pg 278]</span>so that they could listen in on his heart, respiratory system, and
+so on. The line must be drawn somewhere.</p>
+
+<hr class="tb">
+
+<p>“Here we go again,” Charlie Feltz moaned one day.</p>
+
+<p>“What is it now?” I asked.</p>
+
+<p>“The low L over D on landing again,” Feltz said. “They’re
+worried about it.”</p>
+
+<p>The L over D, or sink rate, of the X&#x2060;-15, I have related,
+was a controversial matter from the outset. We all knew the
+ship would come in for its landing hot, and falling like a brick.
+The landing would be tricky, with little margin for error. But
+we had concluded long before that it was well within the
+capability of a qualified pilot. It was astonishing to have this
+matter come up again so late in the game.</p>
+
+<p>The L over D ratio of the X&#x2060;-15 was about two or three to one.
+In other words, for every two or three feet it moved ahead in
+the glide, it would drop one foot. During my days at NACA,
+Edwards, I had made many low L over D landings. For example,
+we had made tests in the X&#x2060;-4 with speed brakes open,
+calculating the L over D to be less than three to one. The L
+over D of the horrible XF&#x2060;-92&#x2060;-A on a dead-stick landing was
+about three to one. The L over D of the Skyrocket, which I
+flew almost routinely, was about five or six to one.</p>
+
+<p>To lay this matter at rest once and for all, I organized a
+special flight-test program to simulate the X&#x2060;-15 sink rate. I
+found that if I landed an F&#x2060;-100 with engine idling, dive brakes
+and gear extended, and a drogue chute deployed, I could come
+close to approximating the X&#x2060;-15 landing glide-path. At Edwards
+I made hundreds of such landings. Later I came closer to the
+real thing by shifting to an F&#x2060;-104. With the engine idling, the
+dive brakes extended, and the gear out with landing flaps down,
+the F&#x2060;-104 and an L over D of less than three to one. I demonstrated
+this simulated X&#x2060;-15 landing scores of times at Edwards.
+Even so, some Cassandras remained, bleating in the wings.</p>
+
+<p>These demonstrations to prove that any experienced pilot
+could land the X&#x2060;-15 were important for a number of reasons,
+the biggest of which we were not then free to discuss. The safe
+<span class="pagenum" id="Page_279">[Pg 279]</span>landing was a vital plank in our case for the <i>advanced</i> X&#x2060;-15. By
+the fall of 1957 we had progressed far with this dream—to the
+point of making drawings and adding up figures. As a matter of
+fact, our preliminary design section had conceived an advanced
+X&#x2060;-15 which, with powerful boosters, such as a cluster of
+Navahos, could be put into <i>orbit</i>. We called this dream craft
+the X&#x2060;-15B, but we were under orders not to discuss it beyond
+the confines of our secret workshop. Stormy was afraid that if
+we did the men in white coats would come after us.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_280">[Pg 280]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_31">CHAPTER 31 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 31</span> <i>Working in a Fish Bowl</i>
+ </h2>
+</div>
+
+
+<p class="noindent">We, among others, had anticipated Sputnik but utterly failed
+to predict its profound impact on the minds of all men. When it
+came, on October 4, 1957, we were astonished by the reaction.
+As the sense of public shame spread throughout the country,
+we—engineers on the most advanced “space” project in the
+United States—were overwhelmed by special misgivings. Maybe
+we should have pushed the X&#x2060;-15B, the orbiting vehicle,
+harder. We debated. Had we been right to lie low, virtually keeping
+it to ourselves? Perhaps a concerted, intelligent presentation
+in Washington would have sold our case, even in those days
+before Sputnik when space was taboo.</p>
+
+<p>This painful speculation did not go on for long. No sooner
+did we feel the impact of Sputnik than a second rocket crashed
+into our camp. This one had North American insignia. It was
+Stormy, urging us to put together a completely detailed proposal
+for an orbiting X&#x2060;-15B <i>right now</i>. Fortunately, the preliminary
+design section had worked out most of the details. Ours
+was mainly a job of assembling various loose pieces of paper
+and bringing the report up to date. Within a few days it was
+ready and Stormy hurried off to Washington.</p>
+
+<p><span class="pagenum" id="Page_281">[Pg 281]</span></p>
+
+<p>The X&#x2060;-15B concept was awe-inspiring even to those of us
+who had thought about it for many months. In the plan Stormy
+took to Washington it was a three-stage monster, tall as a seven-story
+building. The basic booster system, or first two stages, developed
+the staggering total of 1.3 million pounds of thrust. The
+first stage consisted of two giant Navahos, bound together and
+calculated to generate about 830,000 total pounds thrust. The second
+stage was a single Navaho, capable of 415,000 pounds thrust.
+The third and final stage, perched atop the cluster of boosters
+like some massive arrowhead, was the X&#x2060;-15B itself, with a
+slightly more powerful engine than the RMI XLR&#x2060;-99. As a matter
+of fact, the engine we had in mind for the X&#x2060;-15B, a proven, reliable
+chamber, was the North American-built Atlas “sustainer”
+engine, which develops about 75,000 pounds thrust.</p>
+
+<p>The X&#x2060;-15B was a far more sophisticated ship than the craft
+we were then building. It was larger, capable of carrying not
+one pilot, but two. The skin was tougher, to withstand the higher
+post-orbit re-entry heating. The fuel tanks were rearranged and
+larger, to gain added third-stage thrust. But as for the basic
+shape and the systems—controls, both conventional and ballistic,
+pressure suit, instruments, and so on—the two airplanes were
+fundamentally the same. Years of development on the X&#x2060;-15 would
+save much time in perfecting the X&#x2060;-15B.</p>
+
+<p>According to our proposed flight plan, the X&#x2060;-15B would be
+fired from a launching pad in Cape Canaveral, Florida. The
+huge double-Navaho first stage would lift the massive structure
+toward the sky. After about eighty seconds the first stage
+would fall away. Then the second stage would light off and
+boost the shrinking structure higher and faster. When the second
+stage burned out, it too would fall away, leaving the X&#x2060;-15B
+alone in the sky. At that point the X&#x2060;-15B pilot would light off
+the rocket engine and the 30,000-pound ship would soar into
+orbit, 75 miles above the earth and at a speed of 18,000 miles
+an hour.</p>
+
+<p>After three orbits around the earth, the X&#x2060;-15B pilot would
+prepare to return. First he would fire “retro-rockets” to slow
+down the craft and bring it back out of orbit. When the ship
+<span class="pagenum" id="Page_282">[Pg 282]</span>neared the thick atmosphere the pilot or pilots would align the
+ship with the ballistic controls and then make a similar approach
+to that planned for the X&#x2060;-15, a shallow, gradual descent into
+the atmosphere. When the ship had fully re-entered and slowed
+to more or less conventional X&#x2060;-15 speed, the pilot would set up
+for a conventional landing on one of the dry lakes near Edwards.
+This was, in essence, my “commuter” space ship.</p>
+
+<p>We were proud of that proposal and damned happy that we
+were in shape, that we had created a team and the think-how
+to carry it through to completion within a matter of four years,
+the terminal date we set in the proposal. But as we were soon
+to learn, other airframe companies had not been idle. When
+the space taboo was forced aside by Sputnik, hundreds of engineers
+descended on Washington with literally hundreds of
+proposals for every conceivable type of space craft. Stormy returned
+to the plant in a dark mood.</p>
+
+<p>“When I left Washington,” he said, “there were exactly 421
+new proposals before the Pentagon and NACA. There’s talk of
+creating a new ‘space agency,’ and I’m afraid some time is going
+to elapse before they get organized and sort through all those
+proposals. Furthermore, the President has stated publicly that
+he is opposed to having the Air Force and the Navy engage in
+big space projects unless they have some clear military application.
+We’ll have to take that heavy instrumentation load out of
+the X&#x2060;-15B proposal and substitute a weapons system, a bomb,
+reconnaissance cameras, or something like that.”</p>
+
+<p>“Well, that’s certainly no problem,” Feltz said.</p>
+
+<p>“The other thing is, I encountered a lot of resistance to an
+advanced X&#x2060;-15. They still want to see how a plain X&#x2060;-15 will do
+on landing and so on, before they move to any more advanced
+projects. Also, they don’t like the Navaho booster system and
+I’ll have to admit they have a point. The Navaho is proven, but
+the staging <i>is</i> complicated and big. I have a feeling, as far as
+orbiting man is concerned, they will probably want to start with
+something smaller and a little less complex. My guess is that
+whoever is given responsibility for putting man in space will
+probably begin with Don Flickinger’s MIS program.”</p>
+
+<p><span class="pagenum" id="Page_283">[Pg 283]</span></p>
+
+<p>Stormy, as usual, had shrewdly sized up the Washington scene.
+A few months after his informal report to us, Congress did, in
+fact, create a new space agency—the National Aeronautics and
+Space Administration (NASA). NACA formed the nucleus for
+the new agency. Dr. T. Keith Glennan moved in as NASA Administrator,
+and NACA’s former boss, Dr. Hugh L. Dryden,
+remained as Glennan’s deputy. The President gave NASA responsibility
+for almost all non-military space projects. And as
+Stormy had predicted, NASA selected Flickinger’s MIS program
+as a start for putting man in space. MIS became Project Mercury.
+(Late in 1959 Walt Williams moved from Edwards to
+NASA’s Langley Laboratory to help push the Mercury program.)
+NASA awarded the contract to build the orbiting,
+manned Mercury capsule to McDonnell Aircraft Company in St.
+Louis, Missouri. Then NASA selected seven members of the
+armed forces, all of them test pilots, to serve as our first
+spacemen. NASA labeled these seven men Mercury Astronauts.
+Although both the X&#x2060;-15 and Project Mercury came under NASA
+jurisdiction, they were separate, distinct programs. The X&#x2060;-15
+has frequently been confused with Project Mercury, and I have
+often been mistaken for one of the seven Astronauts, but there
+is no connection between the two projects other than a friendly
+rivalry and a complete exchange of information.</p>
+
+<hr class="tb">
+
+<p>Sputnik hit us hard in more ways than one. The press, inquisitive
+by nature and eagerly seeking an answer to Soviet
+space triumphs, turned klieg lights on the X&#x2060;-15 project. Reporters,
+radio and television commentators, and a variety of other
+media descended on us in droves, seriously complicating our
+already difficult task. These endless news reports, stories, and
+feature articles generally exaggerated the X&#x2060;-15 mission. The X&#x2060;-15
+was confused with the X&#x2060;-15B proposal, which had been published
+in a trade journal, or else it was deliberately misrepresented.
+Quite soon our research airplane had the title of “the
+U.&nbsp;S.’s first space ship.”</p>
+
+<p>We were astonished and baffled by this activity, and especially
+concerned when the government removed the secrecy from all but
+<span class="pagenum" id="Page_284">[Pg 284]</span>the most obscure technical details of the X&#x2060;-15. For the first time in
+history an aircraft company found itself building a research airplane
+completely in the open. All details, failures as well as
+successes, were available almost day by day to the nation. It
+was like working in a fish bowl. It made us uncomfortable, not
+to say edgy. It is disconcerting to build an airplane as revolutionary
+as the X&#x2060;-15 with a reporter leaning over one’s
+shoulder.</p>
+
+<p>Believe me, under such circumstances the multifarious demands
+of the modern communications media can be overwhelming.
+I should know. As the X&#x2060;-15’s first test pilot, I was
+naturally singled out for special press treatment. Invitations to
+interviews, to make speeches, to appear on television shows,
+came by the hundreds. There were so many that I could have
+stopped all work on the X&#x2060;-15 itself then and there and devoted
+full-time to fulfilling these requests. In some special cases—those
+I thought would particularly benefit the project—I <i>did</i> make
+time for them. But although I rejected about ninety per cent of
+these invitations and ducked the press whenever possible, I
+was soon glamorously and erroneously tagged “Our First Man
+in Outer Space.”</p>
+
+<p>It is not easy to deal with the press. It is a time-consuming
+and delicate operation. If you grant one man an interview and
+refuse another, the latter becomes angry. In the press, as in the
+aircraft industry and elsewhere, there are many good men but
+there are also many small-minded and bigoted prima donnas.
+For months upon months I walked this tightrope, desperately
+hoping that I would not offend someone who would take out
+his anger on the X&#x2060;-15 project itself, or on Charlie Feltz or
+Stormy. I tried, actually, to steer the reporters to Charlie and
+Stormy, the two men who deserve the real credit for building
+the X&#x2060;-15. But the press was not too interested. They kept returning
+to me, the pilot, kept on giving me undue credit. This
+constant publicity, unsought but unavoidable, considerably
+strained my day-to-day working relationship with the fine X&#x2060;-15
+project team at North American and with our customers, the
+Air Force, the Navy, and NASA.</p>
+
+<p><span class="pagenum" id="Page_285">[Pg 285]</span></p>
+
+<p>To all of the press there was one line I refused to cross: the
+threshold of my home. Each newsman, naturally, wanted to
+interview Alice and our tribe of children, five of them by that
+time. Since my Mach 2 flight in the Skyrocket, I had conscientiously
+shielded my family from the press. There were many reasons
+for this. First and foremost, this attention embarrassed
+Alice and made the children uncomfortable. I was willing to give
+my all for the X&#x2060;-15 and nation, but I saw no compelling reason
+to involve the members of my family against their wishes.
+Another reason was my uncertainty about what effect the
+publicity might have on the children. There was always the
+chance that, seeing their pictures in a newspaper or magazine,
+their young heads might be turned early in life. I wanted to
+avoid this at all costs. My adamant policy in this regard made
+many of the newsmen, especially the photographers, furious.
+Some of these men suspected that I had some mysterious
+ulterior motive. Perish the thought!</p>
+
+<p>Behind the scenes, ironically, my role in the flight test of the
+X&#x2060;-15 was being cast in almost inverse ratio to my press clippings.
+From the outset NACA or, as we now call it, NASA, had deliberately
+seized a firm technical grip on the X&#x2060;-15 flight-test
+program. Unlike most previous rocket-research airplanes, the
+X&#x2060;-15 would not go first to the Air Force for shake-down flights
+and then later to NASA. After contractor demonstration flights
+the ship would go direct from contractor to NASA. The complete
+flight-test program would be laid out by NASA. The Air Force,
+Navy, and NASA would contribute one pilot plus a “back-up”
+pilot for the airplane. But these men would fly under strict
+NASA supervision.</p>
+
+<p>As contractor test pilot I would fly the airplane first. We
+would demonstrate many points, such as engine reliability,
+flight stability under negative G and positive G, Lox top-off and
+launch capability, and safe landings. These flights would be short-legged,
+conducted over or near the Edwards base. I had been
+specifically told that I would have speed and altitude restrictions
+which would keep me well within established records.
+NASA did not want a long delay in contractor demonstrations
+<span class="pagenum" id="Page_286">[Pg 286]</span>just seeking new records. We protested this at first,
+not because North American was interested in establishing
+records, but because some of the restrictions made the demonstration
+points more difficult and dangerous. For example, at
+high speed and altitude we could demonstrate high-speed controllability
+without fear of disaster, but at lower speed and
+altitude it was far more ticklish and less fruitful. Nevertheless,
+NASA had the final say-so, and very early in the game they
+set North American flight limits on the airplane of Mach 2.0
+and 100,000 feet.</p>
+
+<p>Iven Kincheloe, who had earned the name “Mr. Space” in
+four flights of the X&#x2060;-2 before Apt crashed, was selected as the
+Air Force X&#x2060;-15 pilot. A handsome, eager young blond, with
+wavy hair and deep blue eyes, he was the press agent’s dream
+of a test pilot. But Kinch, as we called him, was much more
+than that. He was an engineering test pilot, an educated man,
+dedicated, fearless, and able. During the building of the X&#x2060;-15,
+he was constantly in the plant going over the plans and discussing
+the technical details of the ship. Kinch was obviously a
+winner and we were glad to have him on the X&#x2060;-15 team. His
+back-up on the Air Force team was Major Robert White, a
+graduate of the Edwards test-pilot school and a very able pilot.
+White had never flown a rocket plane—by the time he came along
+they were all either retired or crashed—but he had plenty of experience
+with all of the Air Force’s supersonic fighters and
+bombers.</p>
+
+<p>NASA selected its most senior pilot, Joe Walker, to fly the X&#x2060;-15.
+I knew Walker well. He had worked with me for years at
+NACA, Edwards. He learned to fly rocket planes and the other
+weird vehicles in NACA’s stable, including the X&#x2060;-4, X&#x2060;-5, and the
+underpowered X&#x2060;-3. In his tour of duty at NACA, Edwards,
+Walker had accumulated thirty-one rocket-powered flights in the
+X&#x2060;-1&#x2060;-A (in which he narrowly escaped death when it exploded in
+the mother-plane belly), X&#x2060;-1&#x2060;-B, and the X&#x2060;-1&#x2060;-E. He was well
+qualified for the X&#x2060;-15 assignment.</p>
+
+<p>Since the Navy had contributed a small percentage of the
+X&#x2060;-15 cost, it, too, was entitled to assign a pilot to the flight-test
+program. Lt. Comdr. Forrest (“Pete”) Petersen, a pilot from the
+<span class="pagenum" id="Page_287">[Pg 287]</span>Navy’s Patuxent River Test Station, was selected. Petersen had
+helped wring out most of the new Navy carrier-based fighters,
+such as the F11F, F8U, and F4H. A quiet-spoken man who
+liked to stay out of the limelight—and did—Petersen impressed
+me as a “sleeper,” a man of Colonel Marion Carl’s caliber. I was
+certain that, given the opportunity, Petersen would perform very
+well for the Navy.</p>
+
+<hr class="tb">
+
+<p>In due time the government considered the X&#x2060;-15B proposal
+which we had submitted in the wake of Sputnik and, as Stormy
+had predicted, rejected it. Convinced that our approach was a
+sound follow-on, or parallel program, with NASA’s Project
+Mercury, we kept trying to sell it as a laboratory or weapons
+system. We greatly simplified the booster system, switching
+from Navaho to Martin’s newer and more powerful Titan
+ballistic missile. But NASA had its hands full with Mercury.
+The President was not yet convinced that the Air Force could
+mount a weapons system in space. Communications and early-warning
+satellites were obviously valuable, but there was considerable
+controversy about the efficiency and practicability of
+launching a bomb from space. Pending the President’s final decision,
+the Air Force awarded a long-range study contract to
+Boeing and Martin for an orbital, or sub-orbital, vehicle known
+as DYNA-SOAR.</p>
+
+<p>Meanwhile, our X&#x2060;-15, which was then beginning to take
+shape in the manufacturing division, was regarded with new
+and increasing respect, not only throughout the nation and aircraft
+industry, but also at North American. Our baffling stepchild
+had suddenly ballooned into the nation’s front-running
+vehicle to put man into space. Our project group increased in
+size from 65 to over 250 people. Every division of the plant was
+eager to help us with our problems. Beaming proudly, North
+American erected with pride a huge neon sign over the main
+production buildings proclaiming:</p>
+
+<p class="center p1t p1b">
+HOME OF THE X&#x2060;-15
+</p>
+
+<p>From the very beginning of the X&#x2060;-15 project we worked with
+<span class="pagenum" id="Page_288">[Pg 288]</span>a sense of urgency. Our goal was to build a research aircraft to
+provide data for military combat airplanes in time. Now, having
+seen the psychological impact of Sputnik, we realized that
+a safe flight of the X&#x2060;-15 to the fringes of space would not only
+provide these data but also, as a by-product, bring the nation
+great prestige, especially if we got our man there—and back—before
+the Russians. Frankly, considering the size and advanced
+state of development of the Soviet booster rockets, we believed
+our chances of getting there first were slim indeed. Nevertheless,
+following Sputnik, we of the X&#x2060;-15 group felt we were engaged
+in a kind of private race with the Russian scientists, and we ran
+to win despite the odds.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_289">[Pg 289]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_32">CHAPTER 32 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 32</span> <i>Time for Extraordinary Action</i>
+ </h2>
+</div>
+
+
+<p class="noindent">By January of 1958 the X&#x2060;-15 team had moved into high gear.
+North American’s F&#x2060;-100 contract was running out. The production
+space was absorbed by the jigs and dies for our three “space
+craft.” We had subcontracted about two hundred items on the
+airplane to vendors, but most of the ship was manufactured
+right on the premises.</p>
+
+<p>By then all the engineering drawings—some six thousand
+altogether, and one of them fifty feet long—had been released.
+The never-ending battle to get the most from a part for the least
+weight was reaching a climax. Charlie Feltz had detailed every
+man on our team to keep track of the weight, to make certain the
+total did not climb above our final estimate of 31,000 pounds.
+Since there were more than 10,000 parts on the X&#x2060;-15 weighing a
+pound or more, our weight-watchers were firm and exacting.</p>
+
+<p>Everything about the fabrication of the X&#x2060;-15 was new and
+challenging and therefore, from a technological standpoint, exciting.
+Every day at his command post on the second floor of
+the engineering building, Charlie Feltz faced a hundred new
+problems, each one of them a minor crisis. As I look back on
+those long days and nights, I wonder how he kept his sanity.
+<span class="pagenum" id="Page_290">[Pg 290]</span>We hear much about pressure on Madison Avenue and in the
+city rooms of newspapers at press time, but no one can persuade
+me that it is any greater than that we experienced on the
+X&#x2060;-15 project. Night after night I returned to my home late—punchy,
+almost shell-shocked. Month by month I watched Feltz
+aging, long before his time. But no matter how intense the work,
+or how baffling and seemingly insoluble the crisis, he seldom
+lost his country-boy composure. I believe this fact, more than
+any other, held the team together amicably under the great
+strain and enabled us to achieve our goal.</p>
+
+<p>Most of the technical details of the fabrication of the X&#x2060;-15
+are, sad to say, too involved to relate here. Thus I fear this
+marvelous technological story will never be told in full. But
+there is one understandable detail which I would like to describe.
+This is our pioneering metallurgy with the skin of the X&#x2060;-15,
+Inconel X. In the sense that it was new and untried, it was
+fairly typical of most of the fabulous shopwork on the X&#x2060;-15.</p>
+
+<p>Inconel X, as I have said, is a tough nickel alloy, capable
+of withstanding high temperatures without losing its structural
+integrity. When we launched the X&#x2060;-15 project, Inconel X had
+been proven in a laboratory. But no one had ever built a machine
+of it. There were no handbooks to tell us how to work it.
+For example, only a few people in the nation had ever tried
+to weld Inconel X. The skin of the X&#x2060;-15 had to be welded because
+traditional rivets were not strong and resilient enough to
+stand the temperature beating without leaking. Besides, we
+figured we could save a thousand pounds of weight by eliminating
+rivets.</p>
+
+<p>Consider half of the X&#x2060;-15 wing as typical of the metallurgy
+problem we licked. From fuselage to wingtip, the wing is only
+six feet long. At its peak cross-section the wing is only eight
+inches thick. There are seventeen spars in the wing. At the root
+near the fuselage joint the spar caps are 3/16 of an inch thick.
+At the tip they are a mere 30/1000 thick.</p>
+
+<p>When the X&#x2060;-15 re-entered the heavy atmosphere of the earth,
+we had calculated, the leading edges would be subjected to 1200
+degrees Fahrenheit. They would glow red from the heat. A
+<span class="pagenum" id="Page_291">[Pg 291]</span>few inches aft on the wing, however, the temperature would be
+much lower. Where the temperature is higher, the metal must
+be thicker and heavier to carry the load. But at the same time it
+is foolish to waste weight by overloading at points where the
+temperature is low. Thus we viewed the wing skin in hundreds
+of sections, each capable of withstanding a certain maximum
+temperature, plus a safety margin, and each of different thickness
+to save weight and still carry its share of load.</p>
+
+<p>Inconel X came to us from the manufacturer, International
+Nickel, in sheets 36 inches wide and 140 inches long, rolled and
+milled to normal aircraft specifications. We figured that if the
+total skin of the X&#x2060;-15 were as much as 1/1000 of an inch too
+thick, it would cost us a critical 100 pounds in weight. Thus
+when we received the sheets, we re-milled them in grinders
+down to incredibly low tolerances. Since each different piece
+of the wing skin varied in design thickness from the others, each
+had to be ground separately to those tolerances. (The same was
+true of the fuselage and tail-skin.) It was like making a Stradivarius,
+if not even more delicate.</p>
+
+<p>Once these pieces were completed and the spars set in massive
+jigs, the technicians then set about welding the many parts into
+one solid piece. Ordinary welding is difficult enough: extreme
+care must be taken to see that no “bubbles” form to weaken the
+joints. Welding Inconel X almost drove our men to distraction.
+They worked like artists, experimenting with new strokes and
+mixtures until they were able to produce a true masterpiece of
+craftsmanship. Each of the thousands of joints was X-rayed to
+make certain no bubbles had formed.</p>
+
+<p>The pieces, after welding, were heat-treated like fine steel
+knife-blades. Let me explain that further. When you weld two
+pieces of metal together, each is subject to varying temperatures
+from the welding torch. As the torch moves along, the new area
+heats up while the one just passed cools. Thus there are stresses
+and strains in the molecular structure of the metal undetectable
+to the naked eye. By placing the entire structure in an oven
+after welding and raising the temperature to 1900 degrees we
+were able to cool it uniformly, ironing out the strains. After this
+<span class="pagenum" id="Page_292">[Pg 292]</span>stress-relieving process each piece remained in the oven for
+twenty-four hours at high temperature to heat-treat or “age”
+the metal. Then the joint and the parent metal were stronger
+than originally. After a fine polishing, the hundreds of welds
+were impossible to locate with the human eye. The wing looked
+like one solid piece of smooth metal.</p>
+
+<p>Our metallurgists didn’t learn this new craft overnight; it
+took years. They started out experimentally by building three
+mock fuselages of the X&#x2060;-15 to serve as ground-test beds for the
+rocket engines. One of these was installed at Edwards, the other
+two at the RMI engine factory in New Jersey. This experience
+brought our welders to the artist level, but when it came to
+building the three airplanes, Feltz was even more demanding.
+In fact, as I recall, about seven different wing-skins were built
+for the first airplane before he gave his approval. In the end, I
+think, the experience and knowledge we gained on this new
+frontier alone were worth the entire cost of the X&#x2060;-15 program.
+It was one big reason we believed our case for the advanced
+X&#x2060;-15 was sound. All future space projects will benefit directly or
+indirectly from our work with Inconel X.</p>
+
+<hr class="tb">
+
+<p>The RMI XLR&#x2060;-99 rocket engine was steadily falling behind
+schedule. This fact was no secret. It was well known in the Air
+Force, NASA, and throughout the entire aircraft industry. There
+were many technical locusts plaguing the RMI engineers. One
+of the biggest was the fact that during tests, while burning the
+X&#x2060;-15’s exotic fuel mixture of Lox and ammonia, the rocket-engine
+chamber had a habit of exploding. By February, 1958,
+the XLR&#x2060;-99 engine was exactly one year behind schedule and
+considerably heavier than originally planned.</p>
+
+<p>I believe that under ordinary circumstances our customer
+would simply have ordered us to wait for, or “sweat out” the
+engine. But the X&#x2060;-15 was not being put together under ordinary
+circumstances. She loomed on the horizon as a national symbol
+of our ability, or lack of it, to make good in space. Because of
+this and other factors, insofar as the engine was concerned, it
+<span class="pagenum" id="Page_293">[Pg 293]</span>was time for extraordinary action. But complex rocket engines
+don’t grow on trees. What to do?</p>
+
+<p>Charlie Feltz called for help. Stormy, who was then also busy
+laying out plans for the Air Force F&#x2060;-108 fighter and the B&#x2060;-70
+bomber among other things, took over the X&#x2060;-15 engine crisis
+at full throttle, bringing his authority to bear. He got on the
+telephone to North American’s Rocketdyne Division. Could they
+run some Lox-ammonia tests on a Redstone chamber and see
+what happened? Rocketdyne converted a Redstone chamber and
+successfully conducted the tests. (Rocketdyne engineers even
+made the Redstone chamber throttleable.) We were impressed,
+because these tests were run off in a matter of weeks without
+interfering with Rocketdyne’s major ballistic-missile projects,
+and at no cost to the government.</p>
+
+<p>After the tests Stormy again asked the Air Force to allow us
+to equip the X&#x2060;-15 with a working engine. Again the proposal
+was turned down, for most of the aforementioned reasons.
+But the Rocketdyne demonstrations had a dramatic impact at
+RMI. RMI engineers, beaten at their own complex game by the
+great depth of North American engineering talent, <ins class="corr" title="Transcriber’s Note—Original text: 'turned to on the'" id="tn-293">turned to
+the</ins> XLR&#x2060;-99 engine with new and vigorous enthusiasm. But
+we knew that no matter how hard they worked they couldn’t
+make up much of the lost time. What was the answer?</p>
+
+<p>We debated that question during countless meetings with
+Stormy and Charlie Feltz in the following weeks. Then one day
+our “dreamer,” Bob Carmen, spoke up.</p>
+
+<p>“I’ve been doing a little figuring here. Suppose that instead
+of waiting for the XLR&#x2060;-99 engine we substitute, pending its
+arrival, two X&#x2060;-1-type engines. They could be built in a few
+months, at most.”</p>
+
+<p>I flew out of my chair.</p>
+
+<p>“Boy,” I said, “if you really want to kill off a project, this is
+one way to do it. Start yielding. Start making inferior substitutions.
+Make the airplane more complex. Sure. That’s what
+happened to the X&#x2060;-3, the X&#x2060;-1&#x2060;-A series and the X&#x2060;-2. If we allow
+that to happen to the X&#x2060;-15, we’re going to wind up with nothing
+again.”</p>
+
+<p><span class="pagenum" id="Page_294">[Pg 294]</span></p>
+
+<p>“Now, hold on a minute, Scotty,” Feltz said. “We’re really up
+a tree here. We can’t use a Rocketdyne engine. We have to wait
+for the XLR&#x2060;-99. Maybe Carmen has got a point here. Pending
+the arrival of the big engine, we could be checking out the other
+systems in the airplane.”</p>
+
+<p>“Damn it, Charlie,” I snapped. “I think we’d be making a big
+mistake.”</p>
+
+<p>“Let’s take a look at the performance we might get out of
+the two X&#x2060;-1 engines,” Feltz said, obviously warming to the idea.</p>
+
+<p>“Can we use the same fuel-tank system?” an engineer asked.</p>
+
+<p>“Yes,” Carmen said. “Nothing about the fuel tanks would have
+to be changed. You just change the engine, substituting the eight
+small chambers for the one large one. I think we could fix it
+so that when it arrives the big engine could be installed with
+hardly any delay.”</p>
+
+<p>“What’s the fuel for the X&#x2060;-1 engine?”</p>
+
+<p>“Lox and alcohol. We just put the alcohol in the ammonia
+tanks. No sweat.”</p>
+
+<p>“There’s another advantage, too,” someone else put in. “Those
+engines have a lot of time on them. They ought to be reliable.
+The X&#x2060;-1 engines are not throttleable. But each engine has four
+barrels. That’s a total of eight barrels, all of which can be
+lighted off separately. Thus you can attain just about any speed
+range you want within the limits of the airplane. I mean, it
+would be almost the same as being throttleable.”</p>
+
+<p>“I figure the extreme performance with these two engines at
+about Mach 3.5 and 150,000 feet,” one engineer said. Each X&#x2060;-1
+engine would have a thrust of about 8,000 pounds or a total
+in both chambers of about 16,000 pounds—compared to 57,000
+pounds for the XLR&#x2060;-99. The two X&#x2060;-1 engines together weighed
+more than the single XLR&#x2060;-99 engine.</p>
+
+<p>“Mach 3.5 and 150,000 feet,” Feltz repeated. “That would
+give us enough performance to make a good many demonstrations
+on the airplane. In fact, we could make all the structural
+demonstrations, as well as re-entry, ballistic controls, Lox top-off,
+and so forth. Let’s see what the customer says.”</p>
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter"></div>
+
+<h2 class="hidden">Illustrations II
+ </h2>
+
+
+
+<figure class="figcenter illowp50" id="i_294fp_01a" style="max-width: 50.0em;">
+ <img class="w100" src="images/i_294fp_01a.jpg" alt="X&#x2060;-15 three view specifications. Length, 50 ft; wing span 22 ft, height, 13 feet, wing area 200 sq ft; weight at launching, 31,275 lbs.">
+ <figcaption>
+ <p>X&#x2060;-15 profile.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_01b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_01b.jpg" alt="A diagram showing different parts of the X&#x2060;-15">
+ <figcaption>
+ <p>The X&#x2060;-15 inboard profile. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_02a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_02a.jpg" alt="Five men standing, one holding a model aircraft">
+ <figcaption>
+ <p>Owners, builders, and customers. From left: Harrison Storms, Maj. Gen.
+ Haugen, Ray Rice, Brig. Gen. Cooper, Walt Williams. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_02b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_02b.jpg" alt="A large room full of workers studying diagrams at their desks">
+ <figcaption>
+ <p>Blood, sweat, and tears: Feltz, Robinson, and Benner. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_03a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_03a.jpg" alt="A diagram showing flight trajectory of the X&#x2060;-15 mission and its placement compared with a curved portion of the earh">
+ <figcaption>
+ <p>The X&#x2060;-15 flight mission. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_03b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_03b.jpg" alt="A man standing next to three large piles of reports, the tallest of which is above his waist">
+ <figcaption>
+ <p>The paper weighed more than the
+ airplane. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_04a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_04a.jpg" alt="A pilot mounted in a simulation chair with two men assisting">
+ <figcaption>
+ <p>Ground-testing the X&#x2060;-15 escape system. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_294fp_04b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_04b.jpg" alt="A plane on the ground with a canopy trailing behind it">
+ <figcaption>
+ <p>A rocket test sled of the X&#x2060;-15 escape
+ system begins a run at Edwards. The
+ canopy ejects ... NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_294fp_04c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_04c.jpg" alt="A plane on the ground with a canopy blowing away">
+ <figcaption>
+ <p>... and blows away while the seat
+ with dummy emerges. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_294fp_05a" style="max-width: 43.75em;">
+ <img class="w100" src="images/i_294fp_05a.jpg" alt="A plane with a plume of smoke behind it and a white object emerging">
+ <figcaption>
+ <p>Powered ejection ends ...
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_294fp_05b" style="max-width: 43.75em;">
+ <img class="w100" src="images/i_294fp_05b.jpg" alt="A portion of a plane with an unopened parachute behind it">
+ <figcaption>
+ <p>... and the chute begins to deploy
+ automatically. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_294fp_05c" style="max-width: 43.75em;">
+ <img class="w100" src="images/i_294fp_05c.jpg" alt="The seat falling away from an object attached to a parachute">
+ <figcaption>
+ <p>The dummy separates from the seat ...
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_294fp_05d" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_05d.jpg" alt="An object landing on the ground with an open parachute over it">
+ <figcaption>
+ <p>... for a soft landing on the desert.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_294fp_06a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_06a.jpg" alt="A man in a suit and helmet sitting as two standing men adjust the suit">
+ <figcaption>
+ <p>Farmer’s son tries out early-model experimental
+ Clark pressure suit.
+ NASA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_294fp_06b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_06b.jpg" alt="A man in a suit with his foot on a ladder, standing next to a plane">
+ <figcaption>
+ <p>Bill Bridgeman wearing an early-model
+ Air Force partial-pressure suit.
+ Douglas photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_294fp_06c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_06c.jpg" alt="Statue of a seated man with straps on his shoulders">
+ <figcaption>
+ <p>A rubber tire preserved for posterity.
+ David Clark’s statue of me. Photo by
+ Marvin Richmond.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_294fp_06d" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_06d.jpg" alt="A man putting on a pressure suit with two men assisting">
+ <figcaption>
+ <p>The pressure-suit break-through:
+ link-net material.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_07a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_07a.jpg" alt="A with a helmet on his head and his hands on the helmet base as another man watches">
+ <figcaption>
+ <p>Fitting the helmet.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_07b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_07b.jpg" alt="A man standing in a pressure suit surrounded by floodlights">
+ <figcaption>
+ <p>Posing for publicity.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_08a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_08a.jpg" alt="Image of a curbed metal object saying 'A.M.A.L. Johnsville, Pa.'">
+ <figcaption>
+ <p>The centrifuge gondola
+ at Johnsville.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp25 p10l" id="i_294fp_08b" style="max-width: 30em; display: inline-block;">
+ <img class="w100" src="images/i_294fp_08b.jpg" alt="Pictures of a man's swollen and bloody face">
+
+ <figcaption>
+ <p>Clip from the horror film.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp25" id="i_294fp_08c" style="max-width: 30em; display: inline-block;">
+ <img class="w100" src="images/i_294fp_08c.jpg" alt="Pictures of a man's swollen and bloody face">
+ <figcaption>
+ <p>Clip from the horror film.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp25" id="i_294fp_08d" style="max-width: 30em; display: inline-block;">
+ <img class="w100" src="images/i_294fp_08d.jpg" alt="Pictures of a man's swollen and bloody face">
+ <figcaption>
+ <p>Clip from the horror film.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_09a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_09a.jpg" alt="A man working on a large model">
+ <figcaption>
+ <p>Building the mock-up.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_09b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_09b.jpg" alt="A goupf of men watching another manage controls">
+ <figcaption>
+ <p>A demonstration in the simulator.
+ Kincheloe presses in for a
+ close look; behind him is Joe
+ Walker. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_09c" style="max-width: 48.1875em;">
+ <img class="w100" src="images/i_294fp_09c.jpg" alt="A worker standing in front of a wing lined up vertically near a wall">
+ <figcaption>
+ <p>The Inconel X wing skin was
+ ground to watchmaker’s tolerance.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_10a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_10a.jpg" alt="Picture of five men and women in business attire walking">
+ <figcaption>
+ <p>The hosts and guests for the roll-out party, October 15, 1958. From left:
+ Mr. and Mrs. Dutch Kindelberger, Mrs. Nixon and the Vice President, and
+ Lee Atwood. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_10b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_10b.jpg" alt="Picutre of three men laughing behind a sign saying 'beware of blast'">
+ <figcaption>
+ <p>Crossfield to Nixon: “My job is not nearly so risky as yours, sir.” NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_11a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_11a.jpg" alt="Truck driving at night with a sign saying 'Home of X&#x2060;-15 North American' in the background">
+ <figcaption>
+ <p>First trip: heading for Edwards by truck. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_11b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_11b.jpg" alt="An aircraft hanging in mid-air from a crane with several people surrounding it">
+ <figcaption>
+ <p>The dawn of a new era:
+ arriving at Edwards. NAA
+ photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_12a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_12a.jpg" alt="A man standing at the head of a table with people sitting listening to him and papers in front of them ">
+ <figcaption>
+ <p>Sam Richter briefs the flight-test
+ team. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_12b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_12b.jpg" alt="Two men stading at a blackboard, one with his back to the camera">
+ <figcaption>
+ <p>Q.&nbsp;C. Harvey and I put in our
+ nickel’s worth. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_12c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_12c.jpg" alt="Men sititng togther smoking and talking">
+ <figcaption>
+ <p>Rehash late the night before the
+ flight. Clockwise: the pilot; the
+ B&#x2060;-52 launch-panel operator, Bill
+ Berkowitz; Sam the van man,
+ and test director Q.&nbsp;C. Harvey.
+ Cornell Capa-Magnum photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_13a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_13a.jpg" alt="A group of men with a plane in the background">
+ <figcaption>
+ <p>Later with the crew. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_13b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_13b.jpg" alt="People next to an airplane at night">
+ <figcaption>
+ <p>Still later: the countdown begins at midnight. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_14a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_14a.jpg" alt="Picture of a man from the side with his hand upon his chin">
+ <figcaption>
+ <p>Later yet: flying tomorrow’s
+ flight. Photo by
+ John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_14b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_14b.jpg" alt="A crowd of people with an airplane in the background">
+ <figcaption>
+ <p>A few hours later, the carnival at dawn. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_15a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_15a.jpg" alt="A crew working on a small plane standin on the ground next to a larger plane">
+ <figcaption>
+ <p>Moving the black bird into place ... NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_15b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_15b.jpg" alt="A small plane attached to the underside of a larger one with ladders around it">
+ <figcaption>
+ <p>... and finally in place. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_16a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_16a.jpg" alt="A groups of people surrounding a small plane attached to a larger plane, one on a ladder">
+ <figcaption>
+ <p>Fueling up ... NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_16b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_16b.jpg" alt="People in large protective suits around an airplane, with tubes hanging from it">
+ <figcaption>
+ <p>... and loading peroxide ...
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_16c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_16c.jpg" alt="A man standing on a ladder inspecting a small plane attached to a larger plane">
+ <figcaption>
+ <p>... and battening down
+ the frozen hatches.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_17a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_17a.jpg" alt="Men standing and sitting around a seated man">
+ <figcaption>
+ <p>Inside the van with Capt. Richardson, squatting. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp45" id="i_294fp_17b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_17b.jpg" alt="A man sitting in a protective suit while another man inspects the suit">
+ <figcaption>
+ <p>Twenty minutes later, zipping
+ up the outer layer. Photo
+ by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_18a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_18a.jpg" alt="Men standing near an airplane">
+ <figcaption>
+ <p>Occasionally we wait a little. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp50" id="i_294fp_18b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_18b.jpg" alt="Men gathered around an airplane, some on a ladder">
+ <figcaption>
+ <p>Bon voyage. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_19a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_19a.jpg" alt="Men gathered around a plane, one of them climbing into the cockpit">
+ <figcaption>
+ <p>Getting in the office. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_19b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_19b.jpg" alt="picture of a man in a cockpit and another man alongside holding a helmet">
+ <figcaption>
+ <p>Pete Barker (right) with the
+ pilot’s helmet. Photo by John
+ Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_20a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_20a.jpg" alt="a man with a hand and towel at his eyes">
+ <figcaption>
+ <p>Sometimes we wait again ...
+ Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_20b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_20b.jpg" alt="Close-up of a man with a serious expression on his face, eyes looking down">
+ <figcaption>
+ <p>... and recheck ...
+ Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp40" id="i_294fp_20c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_20c.jpg" alt="Picture of a man similing">
+ <figcaption>
+ <p>... and things begin to work.
+ Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_21a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_21a.jpg" alt="A plane with some people looking underneath the wing">
+ <figcaption>
+ <p>The carnival moves out. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp45" id="i_294fp_21b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_21b.jpg" alt="A person's head in an astronaut's helmet with only the eyes visible">
+ <figcaption>
+ <p>Eyes on the stars.
+ Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_22a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_22a.jpg" alt="A plane taking off with a man standing looking up at it">
+ <figcaption>
+ <p>On the way to the stars. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_22b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_22b.jpg" alt="A plane in the air">
+ <figcaption>
+ <p>Straining for altitude again. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_23a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_23a.jpg" alt="A U.&nbsp;S. Air Force plane in the air with a small plane attached under its wing">
+ <figcaption>
+ <p>The final countdown. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figleft illowp30 p18pl" id="i_294fp_23b" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_23b.jpg" alt="Men sitting at a long table with papers in front of them; a couple of men are standing">
+ <figcaption>
+ <p>Test directors on the ground look
+ over my shoulder. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figright illowp30 p18pr" id="i_294fp_23c" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_23c.jpg" alt="A man sitting in the back of a vehicle with aother couple of passengers near him">
+ <figcaption>
+ <p>Stormy sweats it out in Sam’s van.
+ NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_24a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_24a.jpg" alt="An X&#x2060;-15 plane in the air">
+ <figcaption>
+ <p>Not far from the stars. Courtesy <i>National Geographic Magazine</i>.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_24b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_24b.jpg" alt="A plane in the air with a small plane directly underneath it">
+ <figcaption>
+ <p>Three ... Two ... One. Drop! NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_25a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_25a.jpg" alt="A plane in the air with a smaller plane directly beneath it; the smaller plane is clear of the larger plane and has a large contrail">
+ <figcaption>
+ <p>Firing up. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_25b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_25b.jpg" alt="A small plane with a large contrail flying somewhat dower than a larger plane">
+ <figcaption>
+ <p>All eight going. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_26a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_26a.jpg" alt="A plane in the air with a pronounced contrail">
+ <figcaption>
+ <p>“Burn-out ... jettison.” NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_26b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_26b.jpg" alt="A plane in the air over what seems to be a coastline with a number of small islands">
+ <figcaption>
+ <p>Gliding home. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_27a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_27a.jpg" alt="Two planes in the air, one following the other closely">
+ <figcaption>
+ <p>Picking up the chase. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_27b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_27b.jpg" alt="Three planes in the air with their landing gear visible">
+ <figcaption>
+ <p>Gear down. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_28a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_28a.jpg" alt="A crowd of people watching two planes from a lakeshore; some are standing on cars">
+ <figcaption>
+ <p>Feeling for the lake. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_28b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_28b.jpg" alt="A plane landing">
+ <figcaption>
+ <p>Touchdown. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_29a" style="max-width: 37.5em;">
+ <img class="w100" src="images/i_294fp_29a.jpg" alt="A plane in the air with a bright contrail">
+ <figcaption>
+ <p>Roll-out. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_29b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_29b.jpg" alt="A crowd of people watching a plane in the distance from a lakeshore">
+ <figcaption>
+ <p>Stopping. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_30a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_30a.jpg" alt="A person walking up to a plane on the ground with its cockpit open">
+ <figcaption>
+ <p>Shutting down. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_30b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_30b.jpg" alt="A man walking away from a plane that a couple of men are working on">
+ <figcaption>
+ <p>Back to the drawing board. UPI photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_31a" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_31a.jpg" alt="A picture of the X&#x2060;-15 with the cockpit open and a hose coming from it">
+ <figcaption>
+ <p>The price of progress: X&#x2060;-15 No. 3. NAA photo.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_31b" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_31b.jpg" alt="A man standing in front of several people who are holding out microphones to him">
+ <figcaption>
+ <p>Inevitably, a public accounting. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<figure class="figcenter illowp60" id="i_294fp_32" style="max-width: 56.25em;">
+ <img class="w100" src="images/i_294fp_32.jpg" alt="A man standing next to a plane with the dawn sky in the backgroun">
+ <figcaption>
+ <p>Always another dawn. Photo by John Bryson.</p>
+ </figcaption>
+</figure>
+
+<p><span class="pagenum" id="Page_295">[Pg 295]</span></p>
+
+<p>The substitution of the two smaller X&#x2060;-1-type engines was the
+obvious solution to our dilemma. Actually, the customers had
+already considered exactly the same idea. They approved it at
+once, and Edwards got busy building up a dozen “proven” X&#x2060;-1
+engines from old parts. We planned to put two each in the
+first two X&#x2060;-15s, holding the third X&#x2060;-15 in the factory for the
+first XLR&#x2060;-99 engine and other improvements which flight test
+would generate. The remaining X&#x2060;-1 engines would be used for
+ground tests in the X&#x2060;-15 engine test beds at Edwards and RMI.</p>
+
+<p>A few nights after this decision was firmed up, Stormy, Feltz,
+and I met after work in Charlie’s office at the North American
+plant. I was still grumbling about “interim measures.” I let off
+steam.</p>
+
+<p>“As far as I’m concerned, we’ve botched the whole deal,” I
+growled. “You watch. We’re never going to get that big engine.
+The X&#x2060;-15 is going to die on the vine. I’ve seen it happen before.”</p>
+
+<p>“You’re wrong there, Scotty,” Feltz said. “We’ll get the big
+engine sometime. Meanwhile, we’ll get a lot of Mach 3 data
+which will really help the F&#x2060;-108 and the B&#x2060;-70. We’ll prove out
+the X&#x2060;-15 systems and by the time the big engine comes the
+ship itself will be as reliable as an F&#x2060;-100.”</p>
+
+<p>We debated this point for a long while. Stormy was also in
+favor of substituting the smaller engines. “I want to get this
+thing in the air as fast as possible,” he said. “I think that as
+soon as we start flying the X&#x2060;-15 and prove our systems and
+landing and the rest, Washington will be impressed and may
+look with more favor on an advanced X&#x2060;-15 or the X&#x2060;-15B.”</p>
+
+<p>That remark was typical of Stormy. He was always looking
+far down the pike. He had cornered the Air Force combat aircraft
+market with the F&#x2060;-108 and the B&#x2060;-70, but he was stung
+when we lost out on the X&#x2060;-15B. He had not given up—and never
+would.</p>
+
+<p>“Frankly, Scotty,” Charlie Feltz broke in, “this engine thing
+may be a blessing in disguise. I’ll tell you honestly that all
+along I’ve been a little concerned about busting into space all
+at once with a brand-new airplane and a brand-new, untried
+engine. They did it with the X&#x2060;-1, it’s true, and it was a real
+good show. But this is a new dimension we’re getting into.
+<span class="pagenum" id="Page_296">[Pg 296]</span>They were just trying to crack Mach 1. We’re trying to crack
+space, with a new pressure suit, re-entry, new metal, landing—everything
+at once. I’ve got a real good buddy who’s going to
+be flying that airplane for the first time, and I’d just as soon
+have him around for a while.”</p>
+
+<p>Put that way, on a personal basis, there was nothing I could
+say in reply. From that point on, I resigned myself to the engine
+substitution, even though, in a sense, it marred my dream to help
+build and then fly the perfect airplane. In fact, after some weeks,
+I came to believe that even from a pilot’s point of view the engine
+substitution was wise. We could learn to crawl before we entered
+the Olympic hundred-yard dash. I was confident that in time and
+with God’s help we would eventually succeed with the big engine.
+There was too much at stake to allow it to fall by the wayside.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_297">[Pg 297]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_33">CHAPTER 33 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 33</span> <i>Circus Day</i>
+ </h2>
+</div>
+
+
+<p class="noindent">By the fall of 1958 Edwards Air Force Base had matured to the
+world’s foremost flight-test laboratory. It was busy and businesslike.
+Skilled, schooled Air Force test pilots, flying under rigid
+regulations, took off or landed every ten or fifteen minutes or
+so, creating the impression of a modern, tightly-run commercial
+airport. Brigadier General Stanley Holtoner had been replaced
+by another spit-and-polish Air Force commander, Brigadier
+General Marcus Cooper, and he, in turn, by Brigadier General
+John Carpenter. A new crop of Air Force planes came along
+to replace the original Century series. Now the Air Force men
+were in the advance stages of wringing out Republic’s F&#x2060;-105,
+Convair’s F&#x2060;-106, North American’s F&#x2060;-107, and Convair’s B&#x2060;-58
+bomber. Private industry, operating from modern, well-furnished
+office buildings and hangars, was testing the new family of
+commercial jet airplanes, Boeing’s 707, Douglas’s DC&#x2060;-8, and Convair’s
+880.</p>
+
+<p>NASA’s big 400-man plant was idling, preparing for the
+arrival of the X&#x2060;-15. Here, more than any place else, one could
+feel the tremendous impact of the X&#x2060;-15. It was no longer
+just another research airplane. It was a revolutionary jump, a
+<span class="pagenum" id="Page_298">[Pg 298]</span>craft that would make all other airplanes at Edwards, or all
+that had ever seen Edwards, seem insignificant by comparison.
+Paul Bikle, who would replace Walt Williams as NASA’s director
+at Edwards, regarded the coming flights of the X&#x2060;-15 as one
+might look upon the voyages of Columbus or Magellan. Throughout
+the station there was a feeling that history was in the making.</p>
+
+<p>Every micro-second of that coming voyage would be recorded
+in almost incredible detail. From the maximum launch point
+near Salt Lake to Edwards, the Air Force and NASA at a cost
+of over $3 million laid out a series of radar and telemetering
+stations along the X&#x2060;-15’s proposed flight-path. These stations
+would “track” the X&#x2060;-15 and electronically quiz the craft’s instrumentation.
+The X&#x2060;-15 would respond at the rate of several thousand
+data points every second. A battery of electronic machines
+and magnetic tape recorders was installed in a room adjoining
+the NASA tower at Edwards to absorb and correlate these data
+as they were collected. By these new methods one flight of the
+X&#x2060;-15 would provide more data than thirty flights of the old
+X&#x2060;-1 or Skyrocket. If something went wrong and the plane failed
+to return, the recorders would follow the plane to the last second
+of its life. The pilot who followed in the next X&#x2060;-15 would
+then have a broader base of flight knowledge. With the X&#x2060;-15
+nothing was being left to chance. Seat-of-the-pants flight test
+was buried deep in Edwards’ past.</p>
+
+<p>But before these spectacular long-range flights North American
+would first demonstrate the airplane. Until this was accomplished,
+the responsibility for the airplane and the flight-test
+program lay on our shoulders. Our own preparations for these
+first critical flights in the strange bird were not inconsiderable.</p>
+
+<p>Like the other aircraft companies North American manned a
+large and well-organized flight-test establishment at Edwards.
+Our office and hangar space by this time was about twice the
+size of the original NACA High Speed Flight Station which
+Williams had created on the desert. The North American installation
+at Edwards was bossed by Ed Cokely, who had been
+supervising the initial flights of North American airplanes at
+Edwards since before the days of the jets. There were about
+<span class="pagenum" id="Page_299">[Pg 299]</span>one hundred flight-test engineers and maintenance men working
+under Cokely. During 1958 they were de-bugging and flying
+North American’s F&#x2060;-107 fighter and North American’s prototype
+T&#x2060;-39, a small two-engine commercial type jet transport-trainer,
+which we hoped to sell to the Air Force or the Navy
+as a trainer, or to private enterprise as an efficient company
+airplane.</p>
+
+<p>Ed Cokely picked 35-year-old Q.&nbsp;C. Harvey to organize and
+boss our X&#x2060;-15 flight-test group at Edwards. Q.C., a short, energetic
+man with graying crew-cut hair, was an experienced hand.
+He had come to the desert ten years earlier with the McDonnell
+XF&#x2060;-85. Later he worked in flight tests on McDonnell’s F2H
+Banshee and a more advanced version, the F3H. Skip Ziegler
+had recruited Q.C. for the Bell rocket-test flight team in 1951.
+Q.C. had cut his teeth on the Queenie, which blew up and
+nearly killed Joe Cannon, and the X&#x2060;-1&#x2060;-A, in which Yeager and
+Murray made their speed and altitude records. He joined North
+American in 1953 to work in the flight-test group on the last
+model of the F&#x2060;-86, and later the F&#x2060;-100 and the F&#x2060;-107.</p>
+
+<p>Q.C. was a live-wire type who knew better than most the
+importance of the X&#x2060;-15 to North American and to the nation.
+Early in the fall of 1958 he began a series of planning meetings
+with the Air Force and NASA to lay out the North American
+phase of the X&#x2060;-15 flight program. From that point on I divided
+my time between the North American plant in Los Angeles and
+the North American flight-test facility at Edwards. I commuted
+between two desks in my private red, white, and blue single-engine
+Bonanza which the Air Force very kindly permitted me to
+land on the Edwards base. I did not actually consider the Bonanza
+a luxury. Without it I could never have met my ever-growing responsibilities
+in the X&#x2060;-15 project.</p>
+
+<hr class="tb">
+
+<p>The table in the conference room at the Edwards North
+American flight-test facility was twelve feet long. At each place
+there was a pad and pencil for jotting down notes. Q.C. sat at
+the head of the table. The rest of us, Air Force and NASA
+flight-test supervisors, the designated X&#x2060;-15 pilots, the B&#x2060;-52
+<span class="pagenum" id="Page_300">[Pg 300]</span>mother-plane pilots, the “chase” plane pilots, North American’s
+Sam Richter, who would man a communications van out on the
+lake bed, and Bill Berkowitz, who would operate the X&#x2060;-15
+launch panel in the B&#x2060;-52, took places around the table. Another
+dozen-odd men, including the pilot of the emergency helicopter,
+a representative of the security division of Edwards, a medical
+officer, and the leading X&#x2060;-15 mechanics, sat in chairs along the
+wall. There was a blackboard against the far wall behind Q.C.’s
+chair, on which someone had chalked a crude map of the Edwards
+area.</p>
+
+<p>Each of the men in the room was the leader in his particular
+field. Each represented a separate organization with special responsibilities
+during an X&#x2060;-15 flight. Thus for every man in the
+room there were another fifty or one hundred men behind the
+scenes, not counting the radar and optical trackers, the cameramen,
+telemeter operators, and the Lord knows who else. The
+Edwards flight-test operation had become a vast pyramid of
+people supporting one man at the apex, the pilot. Everything
+was planned down to a gnat’s eyelash.</p>
+
+<p>The general outline of North American’s initial X&#x2060;-15 flights
+had long been established. Every detail of it was designed to
+save time, to cut our schedule to the bare bone. We would
+begin with X&#x2060;-15 number one. We would mate her to the B&#x2060;-52,
+take her aloft and check out all ship’s machinery under actual
+“captive” conditions. We would make certain the cabin pressurization,
+pressure suit, instrumentation, radios, shackles, communications,
+oxygen and Lox top-off connections with the B&#x2060;-52,
+and the X&#x2060;-15’s multifarious electrical systems, worked. When
+we were satisfied, then we would take X&#x2060;-15 number one aloft,
+devoid of fuel, and drop it on a powerless glide flight, simulating
+the beginning and conclusion of an actual rocket-test
+flight. Meanwhile, we would keep X&#x2060;-15 number two on the
+ground to check out the fuel tanks and rocket-propulsion system.
+The theory was that any weaknesses which showed up either in
+the air on these captive flights, or on the ground during the
+engine checks, could be quickly remedied simultaneously on
+<span class="pagenum" id="Page_301">[Pg 301]</span>both airplanes, and on the third X&#x2060;-15 which was still in the
+factory awaiting the XLR&#x2060;-99 engine.</p>
+
+<p>“All the North American flights will be conducted locally,”
+Q.C. said, addressing the room. We were reviewing the whole
+plan for the benefit of some new people and some others who
+had no reason to be concerned until then. “Following the captive
+flights and initial glide flight, each launch will be made
+over a predesignated dry lake. The object is to land each time
+on Rogers Dry Lake, alongside the base here.” Q.C. used a
+pointer on the blackboard.</p>
+
+<p>“We will have to have emergency vehicles—an ambulance and
+fire trucks—in readiness at B&#x2060;-52 take-off time. These will line
+up on the Edwards runway during B&#x2060;-52 take-off. Afterwards
+they will shift and take up position on the lake bed along the
+anticipated glide-path and touchdown point of the X&#x2060;-15.
+Sam—” Q.C. looked at Richter—“your van will go to the lake at
+B&#x2060;-52 take-off time. Now, the helicopter will hover at the edge
+of the lake bed on the X&#x2060;-15 approach end. In event of landing
+emergency, it should be able to reach the X&#x2060;-15 within sixty
+seconds or less.” North Americans flight surgeon, Toby Freedman,
+and Air Force flight surgeons would be in the helicopter.</p>
+
+<p>“The personnel in the helicopter should become familiar now
+with emergency procedures for removing the X&#x2060;-15 cockpit canopy
+in case the pilot is unable to open it from the inside. The
+helicopter pilot should, of course, radio immediately a visual
+report on the landing. Sam, you’ll be able to see the landing
+from the van. You report, too.</p>
+
+<p>“The chase-plane missions will be fairly routine. We’ll use
+F&#x2060;-104s. Two airplanes will be assigned to close chase by the
+X&#x2060;-15 at drop and rocket light-off. The third chase, an F&#x2060;-100F,
+will serve as photographic chase and get what pictures he can
+without interfering with the close chase. The only problem I
+see here is that the F&#x2060;-104s will have some trouble hanging in
+the air at launch altitude, slowed to B&#x2060;-52 speed at launch.”</p>
+
+<p>He went on, describing action to be taken in a score of various
+emergencies, including everything from a B&#x2060;-52 engine failure
+on take-off to an outright mid-air explosion of the X&#x2060;-15 at
+<span class="pagenum" id="Page_302">[Pg 302]</span>light-off. Then he distributed a mimeographed “check-off” list
+thirty pages long, which all of us would carry during the flight.
+On each flight we would work our way through that long list,
+moving on to an item only after the previous item had been
+completed. This list represented the combined thinking and
+checking of a hundred people. If we followed it, the danger
+would be reduced to a minimum, or as near minimum as it is
+possible to come with a rocket airplane, and we would learn
+the most for every minute in the air.</p>
+
+<p>“I will take up station in the North American tower,” Q.C.
+went on. “I will have, sitting at a table near my mike, a specialist
+on each system of the X&#x2060;-15. If anything goes wrong on the ship
+prior to launch, I will designate the appropriate engineer to get
+on the mike and talk to Scotty. That way we might be able to fix
+it and avoid an abort. Incidentally, if we do have to abort a flight,
+we will always go right through launch countdown, right down
+to the point of drop, without dropping. This will give us more
+detailed experience and an opportunity to check out systems.
+We will not follow this procedure if the abort is the result of
+an emergency. In that case, we will follow emergency procedures
+for getting the B&#x2060;-52 and the X&#x2060;-15 back on the ground.</p>
+
+<p>“At Scotty’s request we are deliberately restricting the number
+of men authorized to talk on the radio circuit to hold down
+confusion. I will be on the circuit continuously. Sam Richter is
+authorized to come on the air, if necessary. The only others are
+Scotty in the X&#x2060;-15, the B&#x2060;-52 pilot, and of course the chase pilots.
+As far as the ground is concerned, I want everything to be
+funneled through me. In the air Scotty will have the final say-so.
+Any questions?”</p>
+
+<p>There were many questions and this meeting, and a hundred
+others like it, churned on for long hours. As a result never in the
+history of Edwards was there finer co-operation between government
+agency and contractor.</p>
+
+<hr class="tb">
+
+<p>October 15, 1958—one year and eleven days after Sputnik—was
+circus day at the Los Angeles Division of North American.
+X&#x2060;-15 number one was officially “rolled out” of the plant ready,
+or almost ready, to fly. All activity in the plant slowed for this
+<span class="pagenum" id="Page_303">[Pg 303]</span>festive occasion. The chips were swept from the floor. All the
+grandees of North American were on hand. A plane-load of
+aviation reporters flew in from the East to herald the event in
+headlines the nation over. Senators and Congressmen and other
+VIP’s crowded a special grandstand facing the X&#x2060;-15 to hear
+Vice President Richard Nixon, who came to California especially
+for the event, proclaim that the X&#x2060;-15 “recaptured
+the U.&nbsp;S. lead in space.” There were special exhibits of the
+pressure suit and other parts of the X&#x2060;-15. VIP’s tried their hands
+in the X&#x2060;-15 cockpit simulator in the assembly building. Then
+all attended a gala luncheon during which all praised one another
+and the subcontractors. For the X&#x2060;-15 team it was a moving
+occasion.</p>
+
+<p>During the ceremonies, Vice President Nixon said to me: “You
+certainly have a dangerous job.”</p>
+
+<p>I couldn’t repress the reply that popped to mind: “My job is
+not nearly so risky as yours, sir.”</p>
+
+<p>Six years from inception, four years from final approval by
+the old NACA Aerodynamics Subcommittee, three years almost
+to the day the contract was let, and thus right on schedule, the
+X&#x2060;-15 was at last a reality. What’s more, her airframe, thanks to
+Charlie Feltz, was 325 pounds under our design specification.
+Even with the two heavier X&#x2060;-1 rocket chambers and the additional
+load of instrumentation, the airplane was only a hundred
+pounds overweight, a fantastic, unprecedented achievement in
+the aircraft industry. But the cost was great. The X&#x2060;-15 represented
+over 10,000,000 engineering man-hours. In time each
+of the three airplanes cost the government $40 million. In terms
+of weight, each would be worth three times as much as solid
+gold.</p>
+
+<p>While I was posing for photographers alongside the X&#x2060;-15 that
+day, a reporter asked:</p>
+
+<p>“Mr. Crossfield, why is the ship painted black? Most of the
+research airplanes were painted white like ice-boxes, weren’t
+they? I thought white reflected heat and that was what you
+were trying to do—get away from the heat.”</p>
+
+<p>“Well,” I said, “this is a kind of complicated thing. It’s true
+<span class="pagenum" id="Page_304">[Pg 304]</span>that white does reflect heat, solar heat, for instance. But up
+where this ship will be, the sun will be only a tiny, intense beam
+of heat in a vast zero-cold universe. Our main problem is not
+solar heat, but frictional heat, the heat we will run into flying
+through the air—from bumping into molecules of air. The way
+it works out, this black paint will throw away that heat faster
+than white paint. In other words, it radiates the heat from friction
+at a faster rate. Is that clear?”</p>
+
+<p>I’m afraid it wasn’t clear. Our beast, from paint job to final
+mission, was simply too complicated to explain in a word. This
+was frustrating, in a way, because we were proud of what she
+was. But in the press she had been labeled a “space ship,” and
+a space ship she would remain in the public eye, although in
+actuality she was a research tool, deliberately designed to search
+out trouble. In time, I was confident, the X&#x2060;-15’s real mission
+would be grasped.</p>
+
+<p>No matter what she was called, she was a beautiful thing, a
+masterpiece, if you will, and I remained long after the photographers
+departed to drink her in and contemplate the trying
+days I knew lay ahead at Edwards.</p>
+
+<p>Not long after the VIP’s moved on, the circus folded and the
+men towed the X&#x2060;-15 to a flat-bed truck. Then they wrapped
+her in a tarpaulin and drove her to Edwards. Two weeks later
+X&#x2060;-15 number two followed.</p>
+
+<hr class="tb">
+
+<p>On the eve of our flight-test operations, sad to say, we lost
+one member of the X&#x2060;-15 pilot team. Iven Kincheloe was killed
+while flying an F&#x2060;-104. Just after take-off his engine flamed out.
+The F&#x2060;-104 has a downward ejection seat. Too close to the
+ground for escape in that direction, Kinch rolled the F&#x2060;-104 on
+its back, so that he could eject upwards, away from the ground.
+He got out and his chute opened, but it was too late. His loss
+was mourned not only throughout the Air Force, but also at
+North American. Although I, as first pilot, had received from
+the press most of the X&#x2060;-15 “spaceman” build-up, we believed
+that Kinch would be the one to make the maximum-performance
+X&#x2060;-15 missions.</p>
+
+<p><span class="pagenum" id="Page_305">[Pg 305]</span></p>
+
+<p>When Kinch died, his “back-up,” Air Force Major Bob White,
+moved up to take his place. White is a handsome pilot, swarthy,
+with deep, piercing blue eyes. He has a fine wife and children.
+If he lacked rocket-airplane experience, he soon made it up. He
+studied the X&#x2060;-15 intently and checked out in a Clark pressure
+suit.</p>
+
+<p>Following Kinch’s death many people asked me if I were
+not disappointed that I had not been “selected” to make the
+maximum flights of the X&#x2060;-15. Some reporters indignantly complained
+to NASA that it was completely “unjust” to restrict me,
+considering my long experience in rocket airplanes, as against,
+say, Bob White, who had never flown a rocket plane. I would
+like to say here once and for all, and with a fervent hope that
+this will end the matter, yes, I was disappointed. No man with
+my background could have felt anything but disappointment.
+For many reasons I believed I was best qualified to make these
+maximum flights. I would have accepted the assignment eagerly.</p>
+
+<p>But in fairness to NASA, let me say that I went into the X&#x2060;-15
+program with my eyes wide open. From the outset I knew the
+government pilots would be top dog. Walt Williams had predicted
+before I left NACA that I might <i>never</i> fly the X&#x2060;-15.
+When the contract was let, it specifically stated that North
+American demonstrations would be limited in speed and altitude.
+Only a few weeks after I joined the program, as I have said,
+these restrictions were set at Mach 2 and 100,000 feet. That I
+would be “the first man in outer space,” that is to say, that I would
+make the maximum demonstration flights of the X&#x2060;-15, was an
+invention of the press. I repeatedly stressed that this was not the
+case, but the press refused, or couldn’t bring itself, to believe me.
+The Air Force and NASA pilots were ticketed for that role, and
+I simply accepted that fact of life.</p>
+
+<p>To repeat: I knew from the beginning that in all probability
+I would never make the maximum flights of the X&#x2060;-15. But I
+was promised, unequivocally, the <i>first</i> flights of the craft. As I
+suspected, and as it turned out, these flights would provide
+danger and challenge enough. When Kinch died, I hoped these
+restrictions might be lifted. When they were not, I didn’t pout
+<span class="pagenum" id="Page_306">[Pg 306]</span>like Achilles in his tent, as some reporters have implied. A maximum
+flight, a new speed or altitude was not my point. The
+point which concerned me, and one I have never been able to
+get across, is that I would participate in both the building and
+test-flying of the airplane. That was the goal I sought—the closing
+of the circle of my life.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_307">[Pg 307]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_34">CHAPTER 34 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 34</span> <i>A Carnival at Dawn</i>
+ </h2>
+</div>
+
+
+<p class="noindent">My mental alarm clock, a handy, precise instrument which
+seldom failed, woke me at exactly 0500 on the morning of March
+10, 1959. Charlie Feltz was snoring loudly, deep in sleep on the
+other twin bed in our room at the Edwards Bachelor Officers
+Quarters. I prodded Charlie gently and then went into the bathroom
+and drank a glass of water. I drank sparingly: soon I would
+be tightly laced in the X&#x2060;-15 full-pressure suit, which has no provisions
+for answering the call of nature.</p>
+
+<p>At long last the day had come to take the X&#x2060;-15 into the air,
+snugged beneath the right wing of the B&#x2060;-52 mother plane, for her
+first realistic test. The purpose of this preliminary “captive” flight
+was to check out the X&#x2060;-15’s many systems under near-flight conditions
+and to make sure the B&#x2060;-52 could support her external store
+at launch speed of Mach .8 or 530 miles an hour. We would go
+through all the motions of an actual flight—I would operate her
+control systems and flaps, and lower the landing gear—but we
+would not drop the X&#x2060;-15. Our plan was to spend a couple of hours
+circling the Edwards base at 40,000 feet and, if all went well, land
+again with the X&#x2060;-15 still hung on the B&#x2060;-52 wing.</p>
+
+<p><span class="pagenum" id="Page_308">[Pg 308]</span></p>
+
+<p>“Come on, Charlie,” I said, “let’s go find out if we built an
+airplane.”</p>
+
+<p>We dressed in business suits and ties, like anybody preparing
+for a day’s work at the office, and drove to the flight line in one
+of North American’s green station wagons. Take-off was scheduled
+for 0700. Based on my previous experience at Edwards with experimental
+airplanes, I calculated we would be lucky to make
+it by noon or 1400.</p>
+
+<hr class="tb">
+
+<p>We could see the tail of the B&#x2060;-52, five stories tall, from half a
+mile away. The sun, just beginning to rise in the east, cast heavy
+shadows into the Edwards basin. The runway lights were still
+on. Two jet fighters, returning from a pre-dawn flight, taxied in
+the distance, their dazzling landing lights ablaze. Maintenance
+and fuel trucks, painted a garish yellow, sped by. It was freezing
+cold and we kept the windows in the station wagon shut, the
+heater turned up full. We drove past row on row of jet airplanes
+parked and silent.</p>
+
+<p>“You’d think that with all this activity,” I said, “they’d have a
+place open around here for a cup of coffee.”</p>
+
+<p>Feltz didn’t reply. His mind was fixed on the scene which
+paraded across the windshield as I turned into a parking place
+in the “mating area.” There were half a hundred cars parked
+two-deep in a neat row. A team of North American guards
+directed traffic and checked badges.</p>
+
+<p>Most of us, I suppose, have visited fair grounds at dawn to
+watch the carnival pack up and leave town, to stare in awe as the
+tents are torn down and the stakes pulled up, as the trucks back
+and churn in low gear and the carnival hands scurry here and
+there, sleepy but determined. This is what the scene in the
+mating area reminded me of that morning. It was a kind of
+organized pandemonium moving with a sense of urgency.</p>
+
+<p>The big bomber dominated the concrete mating area. It towered
+over everything like some colossal creation on a Cecil B. De Mille
+set, a monster with drooping wings 185 feet long and a bulky
+body over one-half the length of a football field. Mechanics
+swarmed over the B&#x2060;-52, preparing it for flight. I saw a man on
+<span class="pagenum" id="Page_309">[Pg 309]</span>the wing silhouetted against the dull early morning sun, a tiny
+speck on a massive expanse of aluminum. Far up in the cockpit
+the lights shone through the small windows and I could see the
+bobbing heads of the ground crewmen, working through the long
+pre-flight check-list. The story of how a B&#x2060;-52 is made ready for
+flight is a book in itself.</p>
+
+<p>Beneath and around the bomber there were not less than
+twenty-five trucks and carts, and probably a hundred men. A few
+were working on the huge ship. But most were clustered around
+the strange, shark-like store mounted beneath an inverted, streamlined
+pylon on the right wing—the X&#x2060;-15. Just forward of the B&#x2060;-52
+wing leading edge, the X&#x2060;-15 cockpit canopy was cocked up and
+open. Had it been closed, the X&#x2060;-15 might have been some over-sized
+missile, to the untrained eye. Despite the cold and their
+heavy clothing, the men worked feverishly, like mechanics in the
+pits a half hour before the Memorial Day race in Indianapolis.
+They had been working at that pace in the North American
+hangar three shifts around the clock for four months. I wondered
+how any mechanical device could generate so much enthusiasm
+and dedication.</p>
+
+<p>One truck stood apart from all the rest. This was Sam Richter’s
+communications van, which resembled a beat-up, miniature
+school bus, though it was painted the company green. The rear of
+this van was fitted with radio transmitters and receivers, a tape
+recorder, and devices to transcribe data from the battery of weird-looking
+weather instruments and antennae which protruded, like
+a forest of prehistoric trees, from the top of the van. During the
+pre-flight operations in the mating area, Sam’s well-heated van
+served as a kind of headquarters for the engineers and crew foremen.
+Crowded in among the radio gear were a swivel chair and
+seats which had long ago been salvaged from some office.</p>
+
+<p>Feltz and I opened the door on the rear of the van and pushed
+our way inside. Mel Beach, overall ground boss of the X&#x2060;-15 crew,
+was there, as well as Q.&nbsp;C. Harvey, flight-test director, and Si
+Fohl, the chief foreman. They were urgently leafing through a
+clipboard thick with forms.</p>
+
+<p>“Will we be ready for an on-time take-off?” I asked.</p>
+
+<p><span class="pagenum" id="Page_310">[Pg 310]</span></p>
+
+<p>Si answered by rattling off a list of items yet to be fixed which
+spelled at least an hour’s delay. No modern airplane ever takes
+to the air with all its machinery in perfect working order. On a
+B&#x2060;-52, for example, an average of ten per cent of the equipment is
+usually out of commission. On the X&#x2060;-15, more complex than ten
+B&#x2060;-52s put together, the ground crewmen were doing their best
+to shrink the first-flight “carry-over” list to acceptable limits. The
+out-of-commission, or carry-over, items were compiled on the
+clipboard, on pages of special forms. It would be up to me in the
+end to review the list and either “buy” the carry-over items or
+cancel the flight.</p>
+
+<p>I leafed through the forms, noting the many anticipated, minor
+items not working: a valve, a leak, a piece of complicated NASA
+instrumentation not essential for the X&#x2060;-15 flight performance. I
+signed my name at the bottom of the sheets, indicating a “buy”
+on the part of the pilot. After all, the captain of the S.S. <i>United
+States</i> would not refuse to get his vessel under way on a scheduled
+trans-Atlantic voyage because the coffee pot was out of order or
+a water faucet wasn’t working.</p>
+
+<p>I climbed out of the van, slammed the door, and made my
+way into the confusion of crewmen and supervisors crawling
+about the X&#x2060;-15. The ground service carts, linked to the little
+craft by a snarl of heavy cables and hoses, were pushed up
+close. The vast array of dials and gauges on these carts told a
+complete story of what was going on inside: helium-source
+pressures okay, both hydraulic systems okay, number one
+electrical system okay, liquid nitrogen tank-pressure okay.</p>
+
+<p>Squeezed up against the cockpit was a steel-tubing work platform.
+I went up the steps to talk to the three men standing
+there probing into a section just behind the cockpit area. Here
+in this bay lay the most sensitive, and up to then the most
+frustrating, piece of the X&#x2060;-15’s machinery, the Auxiliary Power
+Unit (APU). A series of failures of this equipment had kept
+the X&#x2060;-15 grounded for three months in a row. If it was not working
+properly today, I would have to cancel.</p>
+
+<p>“How’s it going?” I said, addressing “Robby” Robinson, a
+General Electric technical representative. Several G.E. engineers
+<span class="pagenum" id="Page_311">[Pg 311]</span>had come to Edwards over two months ago, when Stormy rang
+the bell after the trouble developed.</p>
+
+<p>“I think we’ve really got it made this time, Scotty,” Robby
+said. “I think we have it licked.” We were a long way from
+completely licking the problem, we knew, but Robby had
+caught the X&#x2060;-15 team spirit. Like the rest of us now, he was a
+determined, indefatigable optimist.</p>
+
+<p>The two APUs in the X&#x2060;-15 separate turbine engines that
+run on concentrated hydrogen peroxide to drive generators and
+pumps which give electrical and hydraulic power for the instrumentation
+and flight controls. There are two separate systems,
+in case one fails. Jets and prop airplanes get their auxiliary
+power from their engines, but since in the X&#x2060;-15 the rocket engine
+runs only a short time, separate powerful sources of energy are
+necessary for the unpowered glide.</p>
+
+<p>This was not a problem unique to the X&#x2060;-15. All the rocket
+airplanes preceding it had some form of auxiliary ship’s power.
+The first craft, the X&#x2060;-1, was equipped with batteries which
+supplied enough juice to operate the simple instruments and
+other electrical devices for about twenty minutes of flight. The
+“muscle” for the controls came from the pilot. But as rocket
+planes became more complex, and the instrumentation load for
+obtaining aeronautical data in flight became heavier, the batteries,
+which are basically heavy and bulky, could not keep pace.
+Thus the engineers shifted to small, immensely powerful
+turbines which, independent of the main rocket-propulsion system,
+whirled electrical generators that in turn supplied the electrical
+power. The same turbine also powered hydraulic pumps
+to supply control “muscles.” The turbines burn hydrogen peroxide,
+a chemical that yields a vast amount of energy and
+doesn’t need air to burn, as does gasoline, for instance. Many
+ballistic missiles have APUs.</p>
+
+<p>The demands for the X&#x2060;-15 APU were far and away the most
+severe ever placed on any manufacturer. What we asked was
+that each unit supply 8,000 watts of continuous electrical power—more
+than enough to supply a modern house with many electrical
+appliances—at all times during the flight and more than 30 horsepower
+<span class="pagenum" id="Page_312">[Pg 312]</span>each for hydraulic controls. To save precious fuel, we asked
+that the hydrogen-peroxide-powered turbine run very efficiently
+and yet be able to assume large changes in load without slowing
+down as demands were put on it. The unit had to operate at
+any altitude under extreme temperature conditions; in effect, it
+had to be capable of operating on the surface of the moon. We
+imposed a weight limit of less than two hundred pounds, including
+turbine, pumps, generator, and full fuel load for thirty
+minutes of flight.</p>
+
+<p>The subcontract for the APU had been let to General Electric
+in 1956 before the first cockpit mock-up. The giant company,
+with decades of experience in building all kinds of engines and
+odd-ball electrical devices, put its top talent on the project.
+All told, hundreds of thousands of engineering man-hours were
+devoted to this one piece of machinery for the X&#x2060;-15. I am
+certain that before the contract was concluded, G.E. must have
+spent millions to make good its promises. The APU design was ingenious
+and delicate, and it met our requirements. This unit,
+or one like it, will pioneer the way for APUs on true space
+craft. North American and its vendors furnished all the maze
+of plumbing, valves, regulators, and tanks for the system. Like
+the APUs, everything worked well in the laboratory tests but,
+as is ever the case, when in the airplane both G.E.’s system
+and ours gave us untold trouble.</p>
+
+<p>Ground “APU runs” during December, 1958, and January
+and February, 1959, followed a grim pattern. After the specialists
+were certain they were ready, I would climb into the X&#x2060;-15
+cockpit at the test stand and run through an “APU start,” testing
+number one APU and number two APU in turn. The two
+small units would come to life, gulping down the potent
+peroxide. As the turbine wheel spun at 50,000 rpm (five feet
+from my head), the generator and pump would begin to pump
+the vital electricity and hydraulics into the X&#x2060;-15’s system. Then
+something would happen. Bearings would overheat and the
+turbine would seize, or even more, valves and regulators would
+fail, leak, or not regulate. Then the mechanics would remove
+the offending part and rebuild it, preparing for another test.
+<span class="pagenum" id="Page_313">[Pg 313]</span>It was absolutely mandatory that these units be made reliable.
+A total APU failure in the air would leave the pilot without
+instruments and hydraulic control power. He would have to bail
+out.</p>
+
+<p>These were sleepless weeks of sheer agony. The APUs and
+their fuel systems were, in effect, pieces of jewelry. Each of
+their hundreds of parts was as carefully and delicately balanced
+as a watch. A piece of lint or some dust would clog microscopic
+apertures and cause the unit to turn sour. Even low-key vibration
+came into play. We noted after much experience that when
+one APU failed with vibration the other unit almost invariably
+broke down a minute or so later, seemingly without cause. Then
+we learned the reason. Both APUs were mounted on the same
+bulkhead. The slight vibration in a failing or seizing APU was
+enough to send a fatal tremor through the bulkhead to the
+other APU. We fixed this by mounting the units on separate
+bulkheads.</p>
+
+<p>When we were deep in APU trouble with no solution in
+sight, Stormy moved in and brought his prestige to bear. One
+conference with General Electric’s top engineers followed another.
+The APU systems were analyzed and re-analyzed, down
+to every single nut and bolt. It was then that the special G.E.
+team joined us in the North American hangar at Edwards and
+worked day and night to bring this pioneering device up to
+snuff. Finally this sensitive, temperamental race horse was broken
+to the bit. Prior to our first scheduled captive flight, both APU
+units had been run without failure almost every day for two
+weeks. But a question remained unanswered: were they ready
+for the sweepstakes? Blake Staub, our systems engineer, had
+practically ruined his health to assure it.</p>
+
+<p>I stared down at the APU in the X&#x2060;-15 bay and listened as
+Staub and Robinson assured me again that the units were
+ready. Well, I thought, who can really tell, but we’re not going
+to launch, so what the hell? I’ll buy it.</p>
+
+<p>I climbed down from the work stand and walked over to
+one of the trucks parked near the B&#x2060;-52. This one was as large
+as a moving van, with colorful Air Force insignia painted on
+<span class="pagenum" id="Page_314">[Pg 314]</span>its side and above them the words “16th Physiological Training
+Flight.” This was the “home” for the X&#x2060;-15 full-pressure suit. As
+I opened the rear door, I could see that it was crowded inside.
+There along the wall were oxygen manifolds and pegs on which
+the various layers of my pressure suit were hung out, like a
+diver’s rig. Several X&#x2060;-15 suit-helmets were fitted into other racks.
+Air Force Captain Ralph Richardson was in charge of the van. His
+assistant was Sergeant Crow. The van was a restricted area;
+supposedly, I was the only one allowed in besides Richardson
+and his men and Pete Barker, North American personal equipment
+specialist.</p>
+
+<p>“Hi, Scotty,” Richardson said as I closed and dogged the
+rear door. “Have a cup of coffee?”</p>
+
+<p>Sergeant Crow handed me a steaming cup which, after my
+tour in the frigid mating area, was welcome.</p>
+
+<p>“You boys really know how to live,” I said, sipping the coffee.
+“This van is like a home. You could drive it anywhere, park and
+live like a king. How about a martini?”</p>
+
+<p>“Well, we try to make our customers comfortable,” Richardson
+said. “But you have to fly first.”</p>
+
+<p>“Are you joking?”</p>
+
+<p>“No, we have all the ingredients right here,” Richardson said,
+sweeping his long arm toward the front of the well-lighted van.</p>
+
+<p>“A great idea,” I said. “Like the old days in England after
+a raid. A shot of whiskey for the de-briefing.”</p>
+
+<p>“Exactly.”</p>
+
+<p>“I’ll buy it.”</p>
+
+<p>Time was ticking away rapidly. Charlie Bock and Jack
+Allavie, the B&#x2060;-52 pilots, had arrived on the scene and reported
+the mother plane ready for flight. Bill Berkowitz, the North
+American launch-panel operator in the B&#x2060;-52, had been up the
+entire night preparing his “office”—from the moment the rocket
+craft was rolled to the mating area and lifted on hydraulic
+jacks into its nest on the B&#x2060;-52 pylon. On the Edwards base a
+hundred other people were moving to stations, in accordance
+with the plans laid during the final flight-briefing the day
+before. At Air Force Fighter Ops the three chase airplanes were
+<span class="pagenum" id="Page_315">[Pg 315]</span>being groomed for take-off. One precautionary delay or another
+had already pushed our take-off time back an hour and
+a half.</p>
+
+<p>With Pete Barker’s help I began to put on the full-pressure
+suit, starting with the first layer, the set of long johns. Twenty-five
+minutes later Pete zipped up the silvery, photogenic outside
+layer. We “plugged” the suit into a special manifold and
+ran several tests to make certain the delicate valves were
+operating properly. The suit pressurized as designed, although
+like the X&#x2060;-15 it was new and untried, and months would elapse
+before it could be considered a standard issue item. By the time
+I left the van, helmet in hand, I was uncomfortably hot and remained
+that way until I got inside the X&#x2060;-15 cockpit and
+plugged in the nitrogen gas source which ventilated the suit.</p>
+
+<p>The area around the B&#x2060;-52 was not so cluttered now. The
+carnival was pulling out. The ground service carts were pushed
+to one side, the cables and hoses were pulled from the X&#x2060;-15.
+All the access panels on the side of the rocket ship were back
+in place and she looked sleek and clean. Now finished with their
+work, the ground crewmen clustered in knots here and there
+beneath the B&#x2060;-52 wing, rubbing their hands to keep warm.
+The X&#x2060;-15 instrument panel was alive and humming with
+electrical power from the B&#x2060;-52. All the gauges were in the green.</p>
+
+<p>Oscar Freeman, North American X&#x2060;-15 Crew Chief, and Pete
+Barker remained on the steel working platform, heads poked
+inside the X&#x2060;-15 cockpit, cinching up my restraint harness and
+offering words of advice. It seemed impossible that we were
+almost ready. But we were. The time had come.</p>
+
+<p>Barker picked up my helmet and lowered it gently over my
+head, clamping it in place. On the left side of the X&#x2060;-15 cockpit
+there was a valve marked: OXYGEN. B&#x2060;-52 SUPPLY. X&#x2060;-15
+SUPPLY. I turned the valve to “B&#x2060;-52 SUPPLY” and breathed
+in deeply. A special seal prevented the nitrogen ventilation gas
+from the body of the suit from seeping into the helmet. I waved
+my black-gloved hand sharply, and Barker slammed the canopy
+shut. The inside of the canopy roof pressed against the top of
+<span class="pagenum" id="Page_316">[Pg 316]</span>my helmet. My vision was now restricted by the narrow, V-shaped,
+left-and-right X&#x2060;-15 windshields.</p>
+
+<p>Fully settled in my tiny flight office, I could speak by radio
+to the B&#x2060;-52 pilot, Charlie Bock, who was about thirty feet away
+in the nose of the mother plane, out of sight.</p>
+
+<p>“Okay, Charlie,” I said. “I’m ready when you are.” I had a
+small portable tape recorder rigged in the X&#x2060;-15 cockpit, to take
+notes in flight.</p>
+
+<p>I watched from my perch forward of the wing, as the B&#x2060;-52
+ground chief, wearing a radio headset, waved his arm in a circle.
+Bock wound up the eight jet engines one by one. When he
+started numbers five and six, the two engines on the pod nearest
+the X&#x2060;-15, I felt a gentle shaking inside the cockpit and was
+conscious of the muffled noise. Then Bock rammed on power,
+and the massive bomber began the long five-mile taxi to the
+main Edwards runway.</p>
+
+<p>As we rumbled down the taxiway, the B&#x2060;-52 wings flexed
+up and down. The X&#x2060;-15 flexed with the wings but the sensation
+was not unpleasant. In fact, as I noted on the tape, it was much
+more comfortable than being inside the bomber itself. A long
+line of emergency trucks sped to pre-plotted positions along the
+runway. Sam Richter’s comic van, trailed by a snake of North
+American ground-maintenance vehicles, struggled to keep up.
+From his command post in the North American tower, Q.&nbsp;C.
+Harvey, surrounded by his team of X&#x2060;-15 experts, came on the
+air. Charlie Feltz and Stormy were riding in Sam’s van. The
+Edwards and NASA towers reported in. Then chase planes
+briefly checked radios. The emergency helicopter took to the air.
+Police on the base at Edwards closed off certain roads.</p>
+
+<p>At the end of the main runway Bock turned the ship and
+lined up for take-off. Sitting ten feet from the concrete surface,
+I noted the many black skid-marks left behind by the tires of
+countless experimental planes which had preceded us, blazing
+the long and turbulent history of aviation. Now, God willing, we
+would begin a new and fabulous chapter in that history.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_317">[Pg 317]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_35">CHAPTER 35 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 35</span> <i>Smoke in the Cockpit</i>
+ </h2>
+</div>
+
+
+<p class="noindent">Until now, I like to think, the story of the X&#x2060;-15 was in essence
+an array of engineering problems without equal or magnitude
+in the history of aviation. I have deliberately tried to tell the
+highlights of that story in coldly objective terms, the way every
+engineering problem should be approached. I have introduced
+only those elements pertinent to a full understanding of the
+flight accounts which follow, and for the purpose of setting the
+X&#x2060;-15 in true historical perspective. Except where it bore directly
+on the history of the project, and therefore in some manner
+influenced our technical judgment significantly, I have restrained
+a natural—I should say at times nearly overwhelming—tendency
+to inject personal attitudes and opinions. Some have
+seeped in, I know, but like the visible portion of an iceberg, they
+only hint at what hangs beneath.</p>
+
+<p>Perhaps it would be well if this account of the X&#x2060;-15 could
+be continued in an unimpassioned vein. But this would be dishonest.
+An objective, well-engineered airplane such as the X&#x2060;-15
+is one thing. But now it is being joined for the ultimate tests
+with a human being. The final outcome, then, is the sum
+product of both, each in one way or in several ways heavily
+<span class="pagenum" id="Page_318">[Pg 318]</span>dependent on the other. To be sure, mechanical failure could
+spell spectacular failure; but equally important is human failure.
+And thus, I am sure, all that came before in my life, and everything
+that <i>was</i> a part of my life during those months at Edwards—my
+thoughts, reactions, goals—becomes important and, for
+the first time, a vital part of the X&#x2060;-15 story.</p>
+
+<p>From the human standpoint alone there were many incalculable
+forces at work, and I have had some difficulty sorting
+them out in my mind and attaching the proper weight to
+each. To begin with, from the pilot’s view the first flights of the
+X&#x2060;-15 turned out to be a fierce challenge. The plane is no toy.
+After it is launched from the B&#x2060;-52, every second of flight involves
+a severe physical and mental exercise wherein one is
+completely oblivious of all earthly influence except the job at
+hand. Added to this flying challenge is another challenge accruing
+through the flow of circumstances. The X&#x2060;-15 has become
+an important symbol of our national scientific ability—or lack
+of it. A simple mistake could severely tarnish the national
+image and grant the Soviets a tangible gain in the cold war. Because
+the X&#x2060;-15 had attained this prominence, North American’s
+prestige as an aircraft company was laid squarely on the block.
+Having developed a deep respect and admiration for the people
+of that company, I assumed a special responsibility. Moreover,
+the success or failure of the X&#x2060;-15 would directly influence the
+decision for or against our much-hoped-for advanced X&#x2060;-15B, the
+vehicle to which we believed man should turn next on his path
+to the stars. Finally, to a great extent the flights of the X&#x2060;-15, we
+knew, would have a decisive impact on the future of all manned
+combat airplanes, which were then beginning to be viewed in
+high councils as less practical as a deterrent than the ballistic
+missile, much to our disagreement.</p>
+
+<p>From a strictly personal side, there is still another factor involved,
+one which may be more important than all the rest.
+Unfortunately, though we try to make it do so, the human mind
+does not move from point to point on well-traveled, fairly
+straight tracks like a commuter train on schedule. So I cannot,
+in all honesty, round out this story as an orderly progression of
+<span class="pagenum" id="Page_319">[Pg 319]</span>personal reaction to our many successes and several near-disasters—to
+form a neat closing of the circle. It wasn’t that way
+at all. As it turned out, a fresh and vital personal analysis was
+born in the cockpit of the X&#x2060;-15. Maybe it was the closing circle
+focused here which brought it to the fore. Maybe, as some people
+are moved to deep thoughts when near the sea, so I was moved
+as I stared into space.</p>
+
+<p>As is often the case in life, where nothing is black and white
+and thus relatively simple like a mechanical problem, I discovered,
+like many before me in dramatic circumstances, that
+to close one circle is only to invite another, even larger and more
+challenging. Or as Ralph Waldo Emerson put it: “Our life is an
+apprenticeship to the truth, that around every circle another can
+be drawn; that there is no end in nature, but every end is a
+beginning; that there is always another dawn risen on mid-noon,
+and under every deep a lower deep opens.”</p>
+
+<p>Ironically, the demanding flying of the X&#x2060;-15, which I had so
+desperately sought and worked so hard for nine years to achieve,
+came as an anticlimax, in a sense. The curve of a new circle was
+beginning to form. After thirty-eight years, most of them dedicated
+to a single purpose, one I had thought ambitious enough,
+my thoughts dissolved into a tumultuous whirlpool of probings
+and questions. The X&#x2060;-15 was not enough. But what was the new
+circle? The search for the answer to that question paralleled my
+flights in the X&#x2060;-15 and seemed, at times, even more demanding.</p>
+
+<p>My daily life was necessarily crowded to the limit with
+preparations for flight, or post-flight de-briefings, endless conferences
+at North American, or NASA, press interviews,
+symposiums and technical gatherings, urgent telephone calls, and
+what else I cannot remember now. It seems strange, indeed, but
+the only place I could find time for reflection and appraisal—time
+to probe the meaning of the new circle—was the X&#x2060;-15 cockpit,
+during the long, lonely hours I sat there, strapped in that tiny
+plane slung beneath the wing of the B&#x2060;-52. Until then, I had
+neither time nor inclination to dwell on my past life. But now I
+knew it was important to understand it in order that I could
+intelligently chart my future.</p>
+
+<p><span class="pagenum" id="Page_320">[Pg 320]</span></p>
+
+<p>There was not much time for reflection on the first flight.
+Everything was too new and strange. We moved from one semi-crisis
+to the next, it seemed.</p>
+
+<p>As we sat, waiting at the end of the long runway while the
+chase planes took off and circled, the clock on the instrument
+panel of the X&#x2060;-15 showed 0955. I made a note on the tape
+recorder: the clock’s second hand was not working. On signal,
+B&#x2060;-52 pilot Charlie Bock cobbed the eight jet engines, standing
+hard on the brake pedal. As the engines wound up to full
+military power, the X&#x2060;-15 trembled and the noise was tremendous.
+Through my radio earphones I heard Bock call a countdown
+for the benefit of the official movie cameramen who would
+record every inch of the take-off:</p>
+
+<p>“Five ... four ... three ... two ... one. BRAKE RELEASE.”</p>
+
+<p>One hundred and thirty tons of aluminum, fuel, Inconel X,
+five men, and the hope of a nation began rolling down the long
+runway. Success or failure of this first take-off was now entirely
+up to Charlie Bock. I was simply a first-class passenger, occupying
+a private compartment out on the wing. Without flaps
+to give added lift to the B&#x2060;-52, the take-off roll would be unusually
+long, the lift-off a ticklish maneuver requiring a delicate pivotal
+movement on the rear landing-gear truck of the B&#x2060;-52, a sudden
+and severe raising of the nose.</p>
+
+<p>The greatest point of concern was the predicted, possibly
+destructive vibration the X&#x2060;-15 external store might impose on
+the B&#x2060;-52. A hundred times in the past, Bock and I had reviewed
+corrective procedures to follow if this should happen. We knew
+it would take 190 knots to get the B&#x2060;-52 and its load into the air.
+We agreed that if severe vibration developed during the
+take-off roll before he reached 170 knots, he would chop the
+B&#x2060;-52 throttles and abort the take-off. But if no vibration set in
+up to 170 knots, he would continue the take-off, climbing out.
+If during the climb at 260 knots the vibration rose to a degree
+that seriously endangered the bomber, we agreed that the X&#x2060;-15
+must be jettisoned without delay. I would have a few seconds
+warning—time enough to start the APUs and shift from B&#x2060;-52
+<span class="pagenum" id="Page_321">[Pg 321]</span>electrical power to X&#x2060;-15 power. Then I would attempt to glide
+the X&#x2060;-15 in dead-stick. We plotted the take-off so that I would
+have a fairly good shot at the lake bed in this event, but we both
+knew that our scheme was pretty marginal—impossible, in fact—below
+15,000 feet. In other words, if cut loose below that altitude,
+it was most unlikely that I could reach the lake bed. I
+would try. If I failed, I could always bail out at the last second.
+The important thing was to separate the X&#x2060;-15 from the mother
+ship. There were four men aboard that airplane. There was one
+in the X&#x2060;-15.</p>
+
+<p>As we rolled, the huge runway distance markers flashed by,
+clocking our path: 14,000 ... 13,000 ... 12,000 ... 8,000. When
+the X&#x2060;-15 air-speed indicator reached 170 knots, I noted only a
+minor vibration. We would continue the take-off. 6,000 ...
+5,000 ... 4,000, and we broke ground. It was smooth and gentle,
+like the take-off of an airliner. The air-speed indicator needle
+crept up to 260 knots. The parched brown desert fell away
+rapidly. The vibration did not increase.</p>
+
+<p>My eyes were fixed now on a small but ominous trickle of
+water slowly filming between the two layers of windshield glass
+in the X&#x2060;-15. It was water which had accumulated in the insulation
+out in the open during the long weeks of ground tests on
+the APUs. Who could have guessed this would happen on the
+dry desert? The nitrogen defogging gas flowing between the
+layers was designed to keep it clear under ordinary flight conditions.
+But I knew it would not be sufficient to check the vapor
+accumulation of three months of exposure to the rain and night
+dampness. Already a faint haze, the first sign of ice, was forming
+on the right panel.</p>
+
+<p>Charlie Bock spoke on the radio:</p>
+
+<p>“We’re at three thousand feet now. I’m going to throttle back
+on number five and six engines.” Slowing these two engines on
+the pod nearest me would reduce the noise and some of the
+vibration on the X&#x2060;-15. Even with two engines idling, the giant
+jet bomber gained altitude rapidly, circling Rogers Dry Lake.</p>
+
+<p>By the time we reached 15,000 feet both windshields of the
+X&#x2060;-15 were solidly iced over, recalling those early days at Edwards
+<span class="pagenum" id="Page_322">[Pg 322]</span>when I faced an iced windshield in the X&#x2060;-1 and the Skyrocket.
+An emergency launch was feasible. But an emergency dead-stick
+landing with iced windshields would be tough, to say the
+least. I might make it, I thought, if I blew the canopy. I made a
+mental note <i>never</i> to go aloft again in the X&#x2060;-15 without a plastic
+windshield scraper. (Later this item was installed on the X&#x2060;-15’s
+instrument panel.)</p>
+
+<p>The three chase planes tucked in close, and our $60 million
+space task force bore skyward. There was not much noise beyond
+a steady hum and some static on the radio circuit. We
+were all—the men in the B&#x2060;-52, I in the X&#x2060;-15, Q.&nbsp;C. Harvey and
+the others on the ground, and the chase pilots nearby—leafing
+our way simultaneously through the thirty-page flight check-list.
+Occasionally Q.C. spoke: “Going to item 39&#x2060;-A.” Or I would say:
+“Item 43 completed, going to item 44.” Charlie Bock put the
+B&#x2060;-52 through several stiff banks and turns to check vibration
+and X&#x2060;-15 mating. I followed these maneuvers on my instrument
+panel. Everything was going better than any of us had dared
+expect.</p>
+
+<p>Then, as on every subsequent flight of the X&#x2060;-15, we prepared
+for a dress rehearsal of an actual air-launch. Since there
+were no rocket propellants aboard on this first trip, we would
+eliminate an engine prime. Except for this one step, it would be
+a realistic “dry run,” which would give us much-needed practice
+for the real thing and an opportunity to test the systems as well.
+Especially the temperamental APUs.</p>
+
+<p>Like the X&#x2060;-15, the Clark full-pressure suit, designed to protect
+the pilot in the event the cockpit pressurization failed, was
+also undergoing its first realistic test. Thus we planned each
+flight to give the suit a chance to show what it could do. The
+cockpit of the X&#x2060;-15 was designed to be pressurized “down” to
+35,000 feet. The suit was designed to go into operation if it
+sensed that the pressure in the cockpit rose “above” 35,000 feet.
+Thus if we left open a connection between the outside air and
+the cockpit and flew above 35,000 feet, the cockpit would fail
+to pressurize and the suit would automatically go into action at
+slightly above 35,000 feet. This connection between the cockpit
+<span class="pagenum" id="Page_323">[Pg 323]</span>and the outside air was called the “ram-air door.” We simply left
+it open on the climb to altitude and during the full-pressure suit
+experiment.</p>
+
+<p>When we passed 30,000 feet both windshields were thick with
+ice. However, I could still see the instrument panel: it was
+brilliantly lighted by two strong thunderstorm flood lamps
+beamed over my shoulders. Every five minutes I turned a switch
+which automatically recorded all the gauge readings within the
+cockpit and at certain key positions throughout the airplane,
+and I reported on the radio circuit: “Data burst.” In addition, I
+kept a running log of gauge readings on my portable tape recorder,
+along with some private, personal observations.</p>
+
+<p>At 35,000 feet, with the ram-air door open, I felt the Clark
+suit pressurize. The link-net material seized me on all parts of
+my body. From that point on my movements were slightly constrained
+and slightly awkward, although not nearly so awkward
+as a deep-sea diver’s.</p>
+
+<p>Satisfied with the test, I strained forward at 38,000 feet to
+grab a lever between my legs, the hardest piece of equipment in
+the cockpit to reach. The lever operated the ram-air door. Grunting
+and puffing, trying to get a good grip on the lever with my
+glove, I finally pulled it shut. As soon as the outside air was
+closed off, the nitrogen gas began to build up inside the cockpit,
+pressurizing it back “down” to 35,000 feet. When the cockpit altitude
+stabilized at 35,000 feet, the pressure suit relaxed its grip
+and once again I could move my arms and legs with ease.</p>
+
+<p>Now still at 38,000 feet we began final preparations for the
+mock launch. Assuming everything else is going well, that is to
+say that the fuel-tank gauges (which we were not concerned with
+on that flight) are in the green, the big step is to make the X&#x2060;-15
+independent of the B&#x2060;-52 with its own electrical and control
+power. It was a crucial moment: the first airborne test of the
+X&#x2060;-15’s heart, the electrical and hydraulic power source, the
+APUs. I flicked a switch to start these units, keeping a close eye
+on various gauges that would tell me if all was well in this department.</p>
+
+<p>When the APU turbines turned up, I could hear a faint
+<span class="pagenum" id="Page_324">[Pg 324]</span>whirring noise inside the X&#x2060;-15 cockpit. So far, so good. The
+turbine bearing temperatures, a critical factor and frequent
+cause of breakdown, were within normal range. Then I turned
+a switch which should have put number one generator on the
+line. It failed. I tried to bring number two generator to life.
+Again no luck. I recycled both, trying to shift from B&#x2060;-52 to X&#x2060;-15
+power source. Hopeless. The APU turbines were turning up, but
+the generators for each were out of commission. With iced windshields,
+if Bock had to cut me loose, I would have to bail out.
+The X&#x2060;-15 would have hydraulic control power essential to flight,
+but no electrical power for instruments essential to “blind” flight.</p>
+
+<p>I cursed to myself, and then on the radio called: “Q.C., I
+can’t get the generators on the line.”</p>
+
+<p>“Okay, Scotty. Lets move on to the next item,” Q.C. replied.</p>
+
+<p>This was a visual check of the X&#x2060;-15 controls—rudder, aileron,
+elevators—and flaps. I horsed on the stick and kicked the rudder
+pedals, following detailed instructions on the check-list. The
+chase-plane pilots reported control response. Good.</p>
+
+<p>Just about then I noticed a thin wisp of smoke curling up
+between my legs. Impossible! I thought. We couldn’t have a
+fire in the cockpit; it was completely sealed off, pressurized with
+inert nitrogen. No fire could possibly burn in that space. The
+only answer was that some wire must have overheated, smoldering
+the insulation. The smoke thickened.</p>
+
+<p>“Q.C.,” I reported. “I’ve got a little smoke in the cockpit.
+Nothing serious. Must be a hot wire some place.”</p>
+
+<p>“Okay, Scotty,” Q.C. responded quietly.</p>
+
+<p>These, I learned later, were anxious moments at Edwards.
+But I was not overly concerned. Except for the APU hydrogen
+peroxide, the X&#x2060;-15 was empty of its usual load of volatile fuels,
+and the chances of a serious fire or catastrophic explosion were
+negligible. Besides, what could I do about it? If it came, it
+came. I had no generators, no vision. If a bad fire developed,
+we’d have to cut loose and I’d bail out. In any case, the plane
+would be lost.</p>
+
+<p>When the smoke in the cockpit became so dense that I could
+<span class="pagenum" id="Page_325">[Pg 325]</span>no longer see the instrument panel nor observe any test intelligently,
+I spoke quietly to Charlie Bock:</p>
+
+<p>“Let’s go home.”</p>
+
+<p>Q.C. broke in:</p>
+
+<p>“On the descent make a test of the X&#x2060;-15 gear.”</p>
+
+<p>“Okay, Q.C.”</p>
+
+<p>At 15,000 feet the chase planes moved in close. I pulled the
+gear handle. The telescoped nose wheel, extended by a ballistic
+charge, snapped into position with a jolt that felt like a swift
+kick in the behind. When the two rear skids popped down satisfactorily,
+chase reported gear okay. Since the gear cannot be
+retracted again, we left it in place as the B&#x2060;-52 lined up on final.
+Automatic movie cameras mounted on the side of the B&#x2060;-52 and
+hand-held cameras in the chase planes recorded all these drills.
+The smoke in the cockpit was pretty thick, and I noticed a new
+and heavy vibration somewhere in the rear of the X&#x2060;-15. What
+was that? It was too late to find out; we were committed.</p>
+
+<p>Landing the B&#x2060;-52 with its external store and no flaps was no
+cinch. But I could see that Bock and Allavie were already practiced
+artists. They brought the giant plane in very nose-high and
+greased in on the rear gear-truck, one hour and ten minutes
+after take-off. Then the nose fell forward heavily and we began
+the roll-out, long, easy, with the X&#x2060;-15 rear skids almost touching
+the runway. If something happened on landing—such as a crash
+and fire—I was in the safest possible place. Sealed inside a
+cockpit designed to withstand 1200 degrees Fahrenheit, I would
+just wait until the men put out the fire and then open my
+canopy. If the heat became unbearable, I could always eject
+right on the ground.</p>
+
+<p>When the B&#x2060;-52 stopped rolling, I opened the X&#x2060;-15 canopy.
+Dense smoke billowed forth, greatly and unnecessarily exciting
+the firemen. They rushed in with trucks and sprayed the rear
+of the X&#x2060;-15 with water. But there was no fire, as such, to put
+out. The smoke was caused when one of the APU generators
+seized in flight and burned up. As we discovered later, the
+generator was a mass of ashes. The fact that the smoke had
+seeped into the cockpit turned out to be a blessing in disguise.
+<span class="pagenum" id="Page_326">[Pg 326]</span>It revealed that under certain circumstances the protection of
+the cockpit was compromised. This was quickly corrected.</p>
+
+<p>Bock taxied the B&#x2060;-52 back to the mating area. The groundmen
+skillfully directed the parking so that the X&#x2060;-15 hung directly
+over her hydraulic lifting jacks used to lower the ship from the
+pylon. They shoved the steel work platform against the nose
+and Mel Beach climbed up and removed my helmet. I wriggled
+out of the cockpit and chatted with Stormy and Charlie Feltz
+for a few moments, trying to puzzle out the smoke in the cockpit,
+and then I walked somewhat wearily over to the 16th
+Physiological Training Flight van.</p>
+
+<p>Inside, to cool off, I quickly removed the top layer of my
+pressure suit, and then washed the perspiration from my face
+and hands. When I turned for a towel, Captain Richardson was
+standing there. He handed me a martini—a real martini, with
+an olive. It was the perfect touch. I wished that our first flight
+in the X&#x2060;-15 had been as perfect.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_327">[Pg 327]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_36">CHAPTER 36 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 36</span> <i>The Reluctant Dragon</i>
+ </h2>
+</div>
+
+
+<p class="noindent">At 0730 on April 1, I climbed into the X&#x2060;-15 cockpit, ready for
+a second “captive” flight. Although we had learned a great deal
+on the first, none of us felt the ship was quite ready for a free
+glide to earth. First, we would make another dry run, to be
+sure. In the intervening two weeks we had made many improvements
+on the X&#x2060;-15. The temperamental APUs had been pulled
+out, rebuilt, and tested in repeated “runs” on the ground. We
+had removed the canopy and baked it in a hot oven for hours
+to purge it of the water trapped in the insulation, and then waterproofed
+it. As a further precaution against windshield icing,
+the nitrogen defogging gas was routinely turned on three hours
+prior to take-off. By Stormy’s edict, we had installed a radio
+intercom between the X&#x2060;-15 and B&#x2060;-52, which would, in theory,
+keep a line of communication open to me, if the single X&#x2060;-15
+radio transmitter conked out at a crucial moment.</p>
+
+<p>As usual, there were some pre-take-off delays. The men
+swarmed about the fuselage of the X&#x2060;-15, pulling wires and making
+last-minute repairs which were checked and rechecked by the
+ground service cart operators. The X&#x2060;-15 panel was alive. I sat
+staring at the lights and gauges looking for signs of trouble. By
+<span class="pagenum" id="Page_328">[Pg 328]</span>that time I had spent at least three hundred hours in that cockpit
+and I could sense a fault or impending crisis almost subconsciously.</p>
+
+<p>At 0812 Oscar Freeman and Pete Barker slammed the X&#x2060;-15
+canopy shut. Charlie Bock and Jack Allavie wheeled the giant
+mother plane to the take-off runway and cobbed the engines. At
+0844 the wheels left the ground and we were airborne for the
+second time. I tested the new intercom (unsatisfactory) and
+droned off the gauge readings, making a “data burst” every five
+minutes. At 25,000 feet altitude the X&#x2060;-15 radio transmitter and receiver,
+perhaps because of the intercom modification, faded drastically.
+But the windshield remained clear. The chase moved in
+close and we droned skyward for a launch rehearsal.</p>
+
+<p>At 25,000 feet altitude, I could faintly hear Q.&nbsp;C. Harvey come
+on the radio circuit: “I guess we’ll have to abort. I can’t hear
+Scotty. His radio is out.”</p>
+
+<p>I already had the transmitter on, but the amplifiers were not
+putting out. Breaking a long-standing personal rule, I shouted as
+loud as I could over the radio mike: “No, Q.C. No. No. Don’t
+abort. No abort.”</p>
+
+<p>“Okay, Scotty,” Q.C. replied. “I can just barely hear you, very
+faint and intermittent.” Determined that a simple radio malfunction
+would not stop the test, I shouted myself hoarse. Then
+Q.C. came up with an ingenious, spur-of-the-moment solution to
+our radio difficulty.</p>
+
+<p>“I can hear your mike loud and clear when you key it, Scotty.
+But I can’t hear your voice. We’ll follow a system here. You key
+your mike in response to my questions. One dick means yes. Two
+clicks mean no. Okay?”</p>
+
+<p>I keyed the mike one click.</p>
+
+<p>Following this system, we worked through the thirty-page
+flight check-list with Q.C. in command on the ground. “Okay,
+Scott,” he would say. “We have completed item 10. Are you ready
+to go to item 11? Repeat, are you ready to go to item 11?” If I
+was satisfied, I responded with one click of the mike. If I did not
+think the ship was ready for the next item, I transmitted two
+clicks. Slowly we accumulated the necessary data, which included
+<span class="pagenum" id="Page_329">[Pg 329]</span>various severe maneuvers of the B&#x2060;-52, a carefully monitored speed
+run to check the X&#x2060;-15’s air-speed indicator, and finally the big
+item, the launch rehearsal. The APUs came on the line and held
+steady, purring like kittens.</p>
+
+<p>Taking advantage of our good luck, we circled Edwards for well
+over an hour and a half. When I noted the coolant for the APU
+bearings was getting dangerously low, I waved my hand at the
+B&#x2060;-52, suggesting we return to base and land. Bill Berkowitz, the
+launch-panel operator, watching the X&#x2060;-15 through a closed-circuit
+television installation, caught the signal and relayed my request by
+radio to the ground. Q.C. came on the line:</p>
+
+<p>“You want to land, Scott. Correct?”</p>
+
+<p>I keyed the mike one dick, and Charlie Bock banked toward
+the Edwards runway. We dropped the X&#x2060;-15 gear for a routine test,
+and shortly thereafter Bock greased on, one hour and forty-four
+minutes after take-off.</p>
+
+<hr class="tb">
+
+<p>Except for the simple radio failure, the X&#x2060;-15 had performed well
+on this flight. But the full-pressure suit had not. The seals were
+leaking, and the valves failing. In fact, in the post-flight report, I
+noted thirteen discrepancies in the suit and asked that the Clark
+company send a team to Edwards without delay to make the necessary
+modifications and adjustments. With all our tests on the
+ground and in the air, we were wearing the suit out. On one of the
+hundreds of ground tests I nearly killed myself.</p>
+
+<p>It happened right in the X&#x2060;-15 cockpit while the canopy was
+open. Decked out in the suit and helmet, I was running a test
+which involved innumerable selections of oxygen supply, on, off,
+on B&#x2060;-52, on X&#x2060;-15, etc. I made an error and got out of sequence. I
+proceeded with the test, breathing not X&#x2060;-15 oxygen as I supposed,
+but the nitrogen gas suit coolant which was leaking into the helmet
+through a crack in a rubber seal. There were several ground
+crewmen working about the X&#x2060;-15, and Pete Barker was bending
+down in the cockpit helping me with the test. Nobody was aware
+of the developing crisis.</p>
+
+<p>Nitrogen gas is an insidious suffocant. Man cannot long survive
+<span class="pagenum" id="Page_330">[Pg 330]</span>breathing only nitrogen. Quite soon I began to feel its effect. The
+instrument panel facing me seemed to be floating away. I gazed
+in wonder at this phenomenon for several seconds, too stupefied to
+realize my predicament, then I drifted off into unconsciousness.
+Barker, working with me on the test, still had no inkling of the
+danger.</p>
+
+<p>By the grace of God I suddenly snapped back into momentary
+consciousness. Bewildered, I sought to escape from my slow suffocation.
+Not knowing what caused the blackout and dizziness, and
+unable to think clearly, I was desperate. I clawed helplessly at the
+fittings of my helmet, and then cast up my arms in one final protest
+and, as I recall it dimly, probably yelled.</p>
+
+<p>Luckily for me, Barker saw me raise my hands and sensed
+trouble. He jerked off the helmet in the nick of time. I feel I owe
+my life to his quick response.</p>
+
+<hr class="tb">
+
+<p>On the evening before an X&#x2060;-15 flight was scheduled, Stormy
+always came up to the desert for a last-minute look-see. He
+checked in at the North American hangar, talked to the X&#x2060;-15
+mechanics, and toured the mating area, where the men were working
+to attach the X&#x2060;-15 to the mother plane and to check out the
+systems. When Stormy was satisfied, the two of us slipped away
+and drove far down the desert to a remote roadside restaurant,
+where we could lay plans during dinner without interruption. On
+April 13, the eve of the third flight, Stormy was restless and quietly
+angry. He was involved in a tight poker game with high stakes.
+Like all the rest of us, he wanted to see the X&#x2060;-15 fly—and the
+sooner the better. But we knew that if we pushed too hard
+and fast and something catastrophic happened, the country would
+suffer a black eye and we and the company would be severely
+criticized. At the same time, if we didn’t show more promise, we
+would be chided for dragging our feet. Thus Stormy—all of us in
+fact—was seeking to strike a balance between fast action and
+sound technical advance. Ridiculously petty items were sabotaging
+us: APU regulators, radio intercom wiring, two-dollar
+valves—horseshoe nails that could conceivably lose us a kingdom.
+Each time we aborted a flight we lost two weeks, the time it
+<span class="pagenum" id="Page_331">[Pg 331]</span>took to “turn around” the X&#x2060;-15 or prepare it for a new trip
+into the air.</p>
+
+<p>Stormy is one of the few men I have met in my life whom
+I sincerely admire. I like his approach to building airplanes. He
+is not only enthusiastic and eloquent in presenting his case for
+this or that airplane, but also he is more technically honest than
+any engineer I have ever known. If something doesn’t work, it
+doesn’t work, and it is discarded. He doesn’t prolong it, building
+an empire of paper-pushers. He knows how to take on a job and
+do it right. And once he begins, he is completely objective and
+ruthless about it.</p>
+
+<p>“We’ll play it like this,” Stormy said. “Tomorrow we’ll go
+through rehearsal. If the APUs look okay, go through another rehearsal.
+If everything seems to be going well, then we’ll drop. But
+wait for the word from me. The final decision to drop, of course,
+is yours.”</p>
+
+<hr class="tb">
+
+<p>Just after dawn the following morning I climbed in the X&#x2060;-15
+cockpit and droned the gauge readings into my portable tape
+recorder: “Liquid nitrogen source 3700. Number one hydraulic
+temperature 18 degrees. Number two hydraulic temperature 5 degrees.
+Number one APU source pressure 3500. Number two APU
+source pressure 3500....” As far as the X&#x2060;-15 was concerned, everything
+was near-normal. Except for a radio line in the helmet,
+which was snagging on the neck seal, the Clark suit was working
+well. It had been completely overhauled in the past ten days by
+Clark’s experts.</p>
+
+<p>After reading the gauges I stared at the instrument panel, waiting
+for the ground crews to seal up. Stormy, wearing a gabardine
+topcoat, was huddled with Q.&nbsp;C. Harvey and Sam Richter next to
+the communications van.</p>
+
+<p>At 0823 Charlie Bock released the B&#x2060;-52 brakes and we rolled
+down the runway to begin the third X&#x2060;-15 flight. When the B&#x2060;-52’s
+wheels lifted off, the three circling chase planes squeezed in close
+and climbed out toward what I hoped would be, by Stormy’s decision,
+our first launch. I was anxious and eager. By then we had
+been grooming the airplane for five months. To gain added X&#x2060;-15
+<span class="pagenum" id="Page_332">[Pg 332]</span>performance, the launch altitude was raised from 38,000 to 45,000
+feet. It took almost an hour to reach peak altitude.</p>
+
+<p>After the usual checks of the pressure suit, the X&#x2060;-15 cabin
+pressurization, and some special B&#x2060;-52 speed-tests and maneuvers
+to feel out the “mating” at that extreme height, we proceeded to
+the first launch rehearsal. Everything worked perfectly—almost.
+Radio communications were good, and the APUs came on the line
+with no trouble, although we expected trouble at higher altitude
+where the temperature is colder. I deliberately opened the ram-air
+door to try to fog the windshield. It remained clear. We simulated
+a drop and closed down. Then Bock wheeled the B&#x2060;-52 through a
+gigantic ten-mile turn high in the sky to repeat the rehearsal. The
+chase planes, hanging in the thin air at reduced speed, struggled
+to keep position. Our path through the sky was marked by seven
+white contrails.</p>
+
+<p>For the second time on that flight we moved in to a launch
+rehearsal. I started the APUs again, anxiously awaiting the key
+words from Stormy on the ground. But Stormy, who was watching
+and listening at Sam Richter’s truck out on the lake bed, didn’t say
+a word on the radio. His intuition told him the time was not ripe.
+With no positive word from him we continued the launch rehearsal
+and at one minute before drop time aborted the flight.
+I was quite disappointed.</p>
+
+<p>As a matter of routine, after launch rehearsal on the descent to
+Edwards, I kept the APUs on, so that the X&#x2060;-15 would have power
+in the unlikely event that an emergency arose and Charlie Bock
+had to cut me loose in a hurry. The APUs were still running as we
+descended through 42,000 feet. At 41,000 feet both APU generators
+suddenly dropped off the line. I recycled number one and
+got it back on, but number two refused to connect. I reported this
+by radio.</p>
+
+<p>A few seconds later I became aware of an ominous, heavy vibration
+somewhere in the after end of the X&#x2060;-15. Something was quite
+wrong. My eyes automatically swept across the gauges; my ears
+tuned to the growing rumbling. Number two APU had failed. I
+was not aware of the full extent of the malfunction then, but I
+knew it was serious. Later we discovered that the unit had seized
+<span class="pagenum" id="Page_333">[Pg 333]</span>and shaken completely off the mounts. This severe wrench also
+disturbed the second APU. I shut both units off, thankful then that
+Stormy’s intuition was working. A minute later I noted a wisp of
+smoke in the cockpit.</p>
+
+<p>This time there was no connection between the APU failure and
+the smoke. A wire in one of the cabin blowers simply overheated
+and caused the insulation to smolder. I was tempted to ignore
+the smoke because nothing strikes fear in the hearts of the ground
+people quite so rapidly and decisively as smoke or fire in a rocket
+airplane. But one of my duties as test pilot was to report <i>every</i>
+routine and non-routine event in the X&#x2060;-15 cockpit. Reluctantly I
+passed the word on the radio circuit and, as expected, there was
+quite a bit of excitement on the ground. But the smoke diminished
+and by the time we reached the ground, an hour and nineteen
+minutes after take-off, it had disappeared altogether.</p>
+
+<p>When we parked in the mating area, the ground mechanics
+opened the doors on the APU access compartment almost immediately.
+Charlie Feltz, Stormy, and I peered in at the shambles of
+metal that had once been two highly refined, critical pieces of X&#x2060;-15
+machinery. The APUs at that point had been under laboratory and
+field test for a whole year, yet they were still obviously a long way
+from being reliable. Sick with disappointment, Stormy hurried off
+to Los Angeles to set in motion words and action that soon solved
+the X&#x2060;-15 APU problem. I don’t know how much money and time
+were spent in the extensive APU rebuilding and testing that followed
+in the next few weeks, but I do know that with one exception
+in the year that followed we had no more APU trouble.</p>
+
+<p>These APU problems, which I probably have dwelt upon at too
+great length, were not confined exclusively to the X&#x2060;-15 rocket
+airplane. Other companies were having much the same kind of
+trouble in ballistic missiles. At Cape Canaveral scores of multi-million-dollar
+birds blew up on the pads or in flight because of
+APU failure. This is one part of the price of progress, of probing
+into the unknown. The big advantage in the X&#x2060;-15 was that we did
+not lose our bird. With a pilot at the controls we were able to
+detect and avert fatal trouble, and save the ship for another flight.
+<span class="pagenum" id="Page_334">[Pg 334]</span>We could bring the broken APUs back to earth in one piece—or
+sometimes in one piece—for engineering analysis. The fixes we
+made, I hope, were passed on to the missiles at Cape Canaveral.
+Thus in one sense the X&#x2060;-15 was already beginning to pay its way
+as a research tool.</p>
+
+<p>After the flight Captain Richardson was waiting in the 16th
+Physiological Training Unit van with the usual martini. It tasted
+weak. I commented on this while squirming out of the pressure
+suit.</p>
+
+<p>“It’s watered down,” Richardson said.</p>
+
+<p>“What?”</p>
+
+<p>“That’s right. If you can’t pull off a full-blown flight, you don’t
+get a full-blown martini.”</p>
+
+<p>Ribbing of this kind was directed toward us from many official
+sources. Our tiger was gaining a reputation for being a Reluctant
+Dragon. This hurt in more ways than I can remember.</p>
+
+<hr class="tb">
+
+<p>21 May, 1959. Thirty-one weeks had flown by since we trucked
+X&#x2060;-15 number one to the Edwards test base. Seventy-two days since
+our first shaky captive flight in the airplane. Forty-one days since
+captive flight number three. NASA and the Air Force were becoming
+increasingly anxious and no longer hiding it. Our saga of
+troubles had stung the X&#x2060;-15 flight-test team badly. Every man felt
+a personal responsibility. Each worked with an intensity and devotion
+that no amount of money could buy, and at last we were
+ready to go into the air once again. This time there was no talk of
+a drop. Our sole objective was to stage a completely successful
+captive test, to prove that all the machinery of the X&#x2060;-15 would
+perform as designed under flight conditions.</p>
+
+<p>On this climactic day, when they placed their mechanical
+stethoscopes to “listen” for signs of trouble in the X&#x2060;-15, the ground
+crews were more meticulous than ever before. They checked every
+system three times over, and then once again. Although I knew
+we couldn’t possibly take off before 0900, I climbed into the X&#x2060;-15
+cockpit, fully rigged in the pressure suit, about 0700. I did this
+mainly for morale-building purposes. I wanted the ground crews
+to know that I had confidence in the airplane and that I was ready—eager—to
+<span class="pagenum" id="Page_335">[Pg 335]</span>get into the air. It was an uncomfortably long wait, yet
+a necessary one, I believed.</p>
+
+<p>It was 0922 by the time Bock and Allavie lifted the B&#x2060;-52 off the
+runway. We were late but the X&#x2060;-15 was tuned to a fine pitch.
+A few minor items cropped up, as usual—a screeching in my radio
+receiver, an insufficient flow of nitrogen coolant in the lower half
+of the pressure suit—but during the familiar launch rehearsal
+the X&#x2060;-15 ran a jeweled watch. We circled Edwards for an hour
+and fifteen minutes, starting and stopping the APUs with no
+difficulty. The APU bearings, cooled by nitrogen gas, held to a
+normal temperature range: about 115 degrees Fahrenheit.</p>
+
+<p>It was clear now that we were over the big hurdle. We would
+have stayed aloft longer that day, but the supply of APU nitrogen
+gas coolant, designed to last only for a normal X&#x2060;-15 flight of about
+half an hour, was dwindling rapidly, and as I have said before
+we preferred to land with APUs operating in case Bock had to cut
+me loose in emergency.</p>
+
+<p>During the gradual descent the APU bearing temperatures
+began to climb. Number one reached 245 degrees; number two
+moved up to 200 degrees. I was not unduly concerned. The
+bearings, G.E. had calculated, could reach 400 degrees without
+seizing. Certainly we could keep below that figure. To decrease
+the drain on the single nitrogen gas supply, I turned off the windshield
+defogging and pressure-suit ventilation. But the diminishing
+supply of nitrogen gas to the APUs was not sufficient. Number
+one crept up to 295 degrees. I watched the gauge closely. If it got
+much hotter, I intended to shut it down and make the descent
+on one APU.</p>
+
+<p>At 15,000 feet number one APU had inched ahead to 350 degrees.
+Since it was approaching a danger point, I reported the fact
+by radio to Q.&nbsp;C. Harvey. After consulting his panel of X&#x2060;-15
+experts, gathered near his mike in the NASA tower, Q.C. responded:</p>
+
+<p>“Scotty. Q.C. We suggest you shut down number one APU if
+the bearing temperature reaches 395 degrees.”</p>
+
+<p>“Okay, Q.C.,” I replied. “That’s what I was going to do. Number
+one bearing temperature is now 376 degrees.”</p>
+
+<p><span class="pagenum" id="Page_336">[Pg 336]</span></p>
+
+<p>My eyes were glued on the number one APU bearing gauge.
+It moved steadily ahead: 376 ... 380 ... 390 ... 395. I reached
+for a switch on the instrument panel and turned it, reporting by
+radio:</p>
+
+<p>“Number one APU 395 degrees. Shut down.”</p>
+
+<p>My eyes remained on the gauge. I expected it to “coast” still
+higher for a moment or so and then drop off rapidly. The gauge
+swung to 400 ... 416 ... 430. Number two APU, which was then
+getting all the nitrogen gas coolant, leveled out at about 200 degrees,
+as expected.</p>
+
+<p>I snapped into my mike:</p>
+
+<p>“Q.C., this damned number one is up to 450.”</p>
+
+<p>“You can expect it to peak a little bit and then fall off, Scotty,”
+Q.C. replied.</p>
+
+<p>“Yeah,” I said. “I know. But it isn’t falling off. It’s now up to
+460 and climbing. Number two is okay, steady at 200 degrees.”</p>
+
+<p>When the temperature of number one APU reached 475 degrees,
+I heard a familiar rumbling in the rear of the X&#x2060;-15. The unit
+had seized and vibrated to a stop. But why? Then in a flash I realized
+I had made a dreadful error. I had not shut down number one
+APU at all. Instead, I had shut down number two.</p>
+
+<p>“Holy smoke,” I muttered on the radio circuit.</p>
+
+<p>My spontaneous comment touched off a tremendous flurry
+of excitement on the ground. Sam Richter came on the radio
+instantly.</p>
+
+<p>“Scotty. Did you say smoke? Repeat. Do you have smoke in
+the cockpit?” (I later learned that Charlie Feltz, who was in Sam’s
+van, and whose ear was not then attuned to airplane radio
+circuits, leaped from his chair and said: “Wha’d he say? Wha’d
+he say?” And thereafter “Wha’d he say?” became a very big joke
+on the X&#x2060;-15 team.)</p>
+
+<p>“No. No. Sorry,” I replied. “No smoke in the cockpit. I just
+goofed. I shut down number two APU by mistake. Number one
+was running all the time. It blew.”</p>
+
+<p>It took only the thinnest imagination to conjure up the disbelieving
+expressions which spread over the faces of the people
+on the ground. After six agonizing months of APU difficulties, we
+<span class="pagenum" id="Page_337">[Pg 337]</span>had finally made a successful airborne demonstration. Then at its
+climax I had stupidly blown an APU because I turned the wrong
+switch. Short of losing the airplane altogether, no mistake I might
+have made in the air that day could have stung our team deeper.
+They could not have been more depressed. I felt like a fool, and
+of course I assumed full responsibility for the blooper.</p>
+
+<p>The APU failure was properly judged pilot error. Since everything,
+including APUs, was considered satisfactory, all hands
+agreed the ship was fit for her next great test, the first glide
+flight to earth.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_338">[Pg 338]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_37">CHAPTER 37 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 37</span> <i>Engulfed in Disappointment</i>
+ </h2>
+</div>
+
+
+<p class="noindent">“Three minutes to drop,” Charlie Bock intoned on the radio
+circuit.</p>
+
+<p>We were turning over Rosamond Dry Lake at 38,000 feet for a
+final run to the launch point, within sight of the Edwards base and
+Rogers Dry Lake, where if all went well we would launch and
+I would dead-stick the X&#x2060;-15. It was June 8, eighteen days since
+our last successful captive flight. We had been airborne thirty-five
+minutes.</p>
+
+<p>I reached up and set the sweep second-hand on the X&#x2060;-15 dashboard
+clock. Then I checked all the gauges. With one exception
+they couldn’t have looked better. The APUs, which had been
+running eight minutes, were holding. APU bearing temperatures
+were a mere 116 degrees, well within safe limits. The nitrogen
+gas coolant supply was ample for both APUs, defogging, suit
+ventilation, and cockpit pressure. I rechecked the altimeter setting
+and listened when Edwards tower called the winds on the lake
+bed: 10 to 12 knots from 240 degrees.</p>
+
+<p>A yellow light near my knee beaconed the single malfunction
+in the X&#x2060;-15’s machinery. It was an indicator on the X&#x2060;-15 Stability
+Augmentation System (SAS), the automatic control damping device,
+<span class="pagenum" id="Page_339">[Pg 339]</span>which in flight would sense an impending violent maneuver
+and take action to forestall it. Most of the new supersonic fighters
+we had tested at Edwards, such as the F&#x2060;-100, were equipped
+with SAS to minimize the possibility of unwanted yaw, pitch, or
+coupling divergence. The X&#x2060;-15 was the first experimental airplane
+to have such a system, and, like most of the gear, it was more
+sophisticated than ordinary versions.</p>
+
+<p>The “pitch mode” of the SAS, which would sense an abrupt
+rising or falling of the nose and automatically move the controls
+to correct for it, was out of commission. On the climb to launch
+altitude, I had quietly reported this fact to Q.&nbsp;C. Harvey. He in
+turn had consulted with the SAS expert, Blake Staub. We tried a
+dozen different tricks, switching electrical circuits, to correct it.
+But the yellow malfunction light remained on steadily.</p>
+
+<p>The decision to “go” or “no go” was entirely up to me. I had
+elected to “go.” For our first low-speed glide test the pitch damper
+was not vital. I had had much experience in dead-sticking airplanes
+without the help of such a device. We simply could not
+cancel another flight. More than a thousand eyes on the Edwards
+base were trained skyward for this milestone in aviation history.
+There were one hundred reporters, photographers, and TV
+cameramen camped along the edge of the lake bed. If we failed
+again, the press would not be so patient and generous this time.
+In brief, we were on the spot. But this was just another time when
+the skill and training of a test pilot could overcome the deficiency
+of a piece of machinery.</p>
+
+<p>I was busy turning switches. I shut off the B&#x2060;-52 power source.
+The X&#x2060;-15 was now operating on its own power generated by the
+APUs. I shifted the oxygen supply to my helmet from B&#x2060;-52 to
+X&#x2060;-15. I armed the ballistic charge in the lower ventral fin, which
+I would jettison close to the ground just before touchdown. I
+started the data instrumentation and cameras, which would
+operate throughout the glide to earth. Finally I flashed a green
+light in Charlie Bock’s cockpit, indicating I was ready to launch.
+I confirmed this fact orally:</p>
+
+<p>“Ready when you are, buddy.”</p>
+
+<p>“One minute to launch,” Bock replied calmly.</p>
+
+<p><span class="pagenum" id="Page_340">[Pg 340]</span></p>
+
+<p>My right hand moved to the sidearm control handle, which I
+had elected to use on this flight in place of the center stick, to
+show there was no question in my mind that it was an improvement.
+I cranked in one degree of nose-up-trim to make certain
+that when Bock cut me loose, the X&#x2060;-15 would not dive too steeply.
+If I launched at higher trim, it was possible the X&#x2060;-15 might hang
+momentarily beneath the wing, bumping against the mating
+pylon or the B&#x2060;-52 engine pods. Chase pilot Bob White, flying just
+off my wingtip, confirmed the trim change by radio.</p>
+
+<p>I waited, my eyes alternating between the gauges and the
+handle of the clock. In the last few seconds, I prayed. My extremely
+sensitive tape recorder picked up the movement of my
+vocal chords, but not the words. I said: “God. Please help me
+make this a good one. Please don’t let me let these people down.”</p>
+
+<p>Bock called a brief countdown, unkeying his mike between
+each number in case I wanted to break in and say “no drop.”</p>
+
+<p>“Three” ... “Two” ... “One” ...</p>
+
+<p>“DROP.”</p>
+
+<p>Inside the streamlined pylon, a hydraulic ram disengaged the
+three heavy shackles from the upper fuselage of the X&#x2060;-15. They
+were so arranged that all released simultaneously, and if one
+failed they all failed. The impact of the release was clearly audible
+in the X&#x2060;-15 cockpit. I heard a loud “kerchunk.”</p>
+
+<p>The X&#x2060;-15 hung in its familiar place beneath the pylon for a
+split second. Then the nose dipped sharply down and to the right
+more rapidly than I anticipated. The B&#x2060;-52, so long my constant
+companion, was gone. The X&#x2060;-15 and I were alone in the air and
+flying at 500 miles an hour. In less than five minutes I would be
+on the ground.</p>
+
+<p>My flight plan called for me to make a huge “S” turn in the sky,
+spiraling down toward Rogers Dry Lake. It was designed to
+provide me with a wide margin for error. Should the glide calculations
+be wrong, I could vary the S turn to correct the error
+and land where I wanted to on the lake. The glide-path was laid
+out over an uninhabited area, so the airplane was no hazard to
+the lives of people on the ground.</p>
+
+<p>There was much to do in the first hundred seconds of flight.
+<span class="pagenum" id="Page_341">[Pg 341]</span>First I had to get the “feel” of the airplane, to make certain it
+was trimmed out for the landing just as any pilot trims an airplane
+after take-off or in flight as passengers move about or when
+dwindling fuel shifts the center of gravity. Then I had to pull
+the nose up, with and without flaps, to feel out the stall characteristics,
+so that I would know how she might behave at
+touchdown speeds. Her characteristics had been calculated on
+machines, and of course I had “flown” the simulator a thousand
+times or more, both at North American and in the Navy’s Johnsville
+centrifuge. I had also made many low L over D landings
+in the F&#x2060;-100 and F&#x2060;-104, with engine idling, wheels down, and
+dive brakes extended. But these amounted, all in all, only to an
+approximation of the real thing.</p>
+
+<p>The real thing, as it developed immediately, wasn’t such a
+challenge. Our engineering was sound. The X&#x2060;-15 is not the easiest
+airplane in the world to fly, but she responded as we expected.
+Sensitive in roll because of her shape, sensitive in pitch because
+of the damper failure, but even as a heavy glider spirited to the
+touch of control, responsive, and high-strung. Not designed to
+mush around at low speeds, she still handled like a champion.</p>
+
+<p>Falling down and to the right, I moved the sidearm control
+gently to bring the X&#x2060;-15 to level flight. The response was remarkable.
+The plane porpoised through a huge oscillation, hanging
+on its side. I again moved the control arm gently. At 36,000
+feet, after a drop of 1,400 feet, the tiger leveled out and the nose
+held steady.</p>
+
+<p>I put the plane in a shallow dive. Having lost the momentum
+of the launch, it slowed from 500 to 400 to 300 miles an hour.
+When I pulled the nose up, the speed dropped even lower. I performed
+these maneuvers with extreme care, tentatively, so as not
+to offend her lest she bite back as so many others have and
+become unmanageable. The three chase planes were having no
+difficulty in keeping up at my ever-decreasing speed and altitude,
+and they hung in close. The radio circuit was dead silent. Except
+for the roar of the ventilation blowers, there was a tomb-like
+silence in the cockpit.</p>
+
+<p>Now at about 30,000 feet and three minutes from touchdown,
+<span class="pagenum" id="Page_342">[Pg 342]</span>I simulated a landing. I pushed the nose down sharply until my
+speed had picked up to 300 miles an hour. I lowered the flaps.
+The nose rose slightly, but the ship did not buffet as it did when
+we lowered the flaps while mated to the B&#x2060;-52. Satisfied, I raised
+the flaps and put the ship into a steep descending turn, aiming
+for the broad lake bed. My altimeter unwound dizzily: from
+24,000 to 13,000 feet in less than forty seconds.</p>
+
+<p>I knew that the men on the ground—Stormy, Feltz, Q.C., Sam,
+and the others—were holding their breath, waiting in nearly
+indescribable anguish for some word. My mind was too busy trying
+to learn about this ship, planning for the touchdown, now
+less than a hundred seconds away, to think of some way to put
+them at ease, tell them we had a winner, and still not stick my
+now proud and cocky neck out. What came out was this: “I’d
+like to try a roll,” the words Yeager had uttered on his first X&#x2060;-1
+flight.</p>
+
+<p>Passing over the Edwards skeet range at about 6,000 feet, I
+touched off the ballistic charge which blew off the ventral fin.
+It fell away as predicted, and a small parachute deployed, lowering
+it gently to the ground. Chase pilot White reported: “Ventral
+away.” The desert was coming up fast. At 600 feet altitude I flared
+out.</p>
+
+<p>I lined up for my approach, sighting along the three black
+strips painted on the desert dry lake. Then, for the first time, I
+noticed a peculiar distortion caused by the fact that I was looking
+through three panes of glass: the helmet visor and the double-layer
+X&#x2060;-15 windshield. I knew the black lines on the lake bed
+were parallel. From my position in the cockpit they now seemed
+to spread out in a large V. It was not a serious matter, but one
+I had to adjust to quickly. The distortion might affect my depth
+perception and cause a rough touchdown.</p>
+
+<p>In the next second without warning the nose of the X&#x2060;-15 pitched
+up sharply. It was a maneuver that had not been predicted by
+the computers, an uncharted area which the X&#x2060;-15 was designed
+to explore. I was frankly caught off guard. Quickly I applied corrective
+elevator control.</p>
+
+<p>The nose came down sharply. But instead of leveling out, it
+<span class="pagenum" id="Page_343">[Pg 343]</span>tucked down. I applied reverse control. The nose came up but
+much too far. Now the nose was rising and falling like the bow
+of a skiff in a heavy sea. Although I was putting in maximum
+control I could not subdue the motions. The X&#x2060;-15 was porpoising
+wildly, sinking toward the desert at 200 miles an hour. I would
+have to land at the bottom of an oscillation, timed perfectly;
+otherwise, I knew, I would break the bird. I lowered the flaps
+and gear.</p>
+
+<p>My mind was almost completely absorbed in the tremendous
+task of saving the X&#x2060;-15, of getting it on the ground in one piece.
+But I could not push back a terrible thought that was forming.
+<i>Something was dreadfully wrong. We had pulled a tremendous
+goof. The X&#x2060;-15 in spite of all our sweat and study, our attempt at
+perfection, had become completely unstable.</i> Somewhere along the
+line we or one of our machines had made an unbelievable miscalculation.
+Four years of work, ten million engineering man-hours,
+120 million dollars, and our machine from a stability
+standpoint was less satisfactory than the man-killing X&#x2060;-2.</p>
+
+<p>My speed dropped below 200 miles an hour. In the middle of a
+wild oscillation I tried to grind the two rear skids into the lake
+bed. But apparently the windshield confused me. I missed the
+ground by a good four feet, pumping in more control as the nose
+started to rise again. For minimum strain on the tail skids and
+nose wheel we had calculated ideal X&#x2060;-15 landing speed to be
+210 miles an hour. I was already down to 170 miles an hour. The
+X&#x2060;-15 would soon not fly at all and would fall toward the ground
+like a brick. In my mind’s eye I could see the final picture: a big
+ball of Inconel X.</p>
+
+<p>Now I was half a mile beyond my intended touchdown point
+and drifting off to the right toward a rough spot on the lake.
+Instinctively I pumped in a little left rudder control to get back
+on the marked landing strip. With the next dip I had one last
+chance and flared again to ease the descent. At that moment the
+rear skids caught on the desert floor and the nose slammed over,
+cushioned by the nose wheel. The X&#x2060;-15 skidded 5,000 feet across
+the lake, throwing up an enormous rooster-tail of dust. The
+emergency helicopter swooshed down and landed alongside the
+<span class="pagenum" id="Page_344">[Pg 344]</span>ship. A long caravan of emergency trucks roared out from the
+sidelines. I sat in the cockpit, canopy still closed, engulfed in
+disappointment.</p>
+
+<hr class="tb">
+
+<p>“Stormy,” I said, “something is radically wrong.” Stormy had
+driven out to the airplane and snatched me away before the
+press arrived. We were tearing across the lake at seventy miles
+an hour in a company car headed for Captain Richardson’s van.
+I had given Stormy a quick run-down on the landing.</p>
+
+<p>“That airplane <i>can’t</i> be unstable,” Stormy said.</p>
+
+<p>He was right, of course. I had jumped to the wrong conclusion.
+Others did too, blaming the instability on the sidearm control.
+But these critics were wrong. In the days following we carefully
+analyzed the recorded data and found out what really happened.</p>
+
+<p>The control system in the X&#x2060;-15 is quite similar to the power
+steering in a car. The pilot makes a control motion, but hydraulic
+pressure supplies the “muscle,” does the work, and moves the
+control surface, just as the power boost in the car turns the wheels.
+This hydraulic pressure operates the flight controls and the flaps.</p>
+
+<p>Given limitless space and weight, it is no problem to design a
+hydraulic system which can perform almost any job on the airplane,
+and if necessary, all jobs simultaneously. However, the
+hydraulic pump in the X&#x2060;-15, like all the other equipment, was a
+carefully calculated compromise from the weight standpoint. It
+was not limitless in power. It could not do everything at once;
+nor did it do one assigned task fast enough.</p>
+
+<p>One result was that when the pilot pumped in a motion on the
+stick, the control surfaces were slow in responding. Years earlier
+I had run up a warning flag in this area; in fact, I had <i>demanded</i>
+a faster control response. However, since it is pretty hard before
+flight test for a pilot to support his opinions against simulators
+and calculations, and because my demands meant more weight,
+we had settled on low-control response, thinking we could live
+with it. This had almost done us in.</p>
+
+<p>When the X&#x2060;-15 nose pitched on landing, I had instantly applied
+corrective control. The hydraulic “muscle,” then also working to
+lower the flaps, fell behind and then overshot trying to catch up.
+<span class="pagenum" id="Page_345">[Pg 345]</span>As a result, the controls were doing one thing and I another. In
+an effort to regain control of the porpoising airplane, I pumped
+in full up-and-down control, in effect chasing back and forth from
+one extreme to the other, and by great luck or possibly intuition,
+struck some kind of crude balance, bringing the ship safely to
+earth. Had our bird been an unmanned missile, I’m certain it
+would have been destroyed. But for future operations we knew
+the pilot couldn’t live with that slow control response: the X&#x2060;-15
+landing was difficult enough. The pilot <i>had</i> to have absolute and
+positive control of the airplane.</p>
+
+<p>By the simple expedient of adjusting a valve, to borrow power,
+in effect, from other places in the ship, we increased the control
+rate upward to more like my original request. Thereafter, we
+never again experienced the porpoising motion, either in the air
+or at touchdown, with center and sidearm control.</p>
+
+<p>X&#x2060;-15 number one, which had been used on these five pioneering
+flights, was pulled out of action so that the engineers could make
+many minor fixes that were long overdue. We then turned to X&#x2060;-15
+number two, the airplane designated for the first rocket-powered
+flights.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_346">[Pg 346]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_38">CHAPTER 38 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 38</span> “<i>She Blew Sky High</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">X&#x2060;-15 number two, identical in appearance with X&#x2060;-15 number
+one, was anchored to the concrete ramp in the engine-test area.
+Her fuel tanks were brimming. In the big forward tank there
+were four tons of liquid oxygen, so cold that a thick coating of
+ice had formed on the outside fuselage and all the machinery in
+the vicinity of the tank had chilled. In the after tank there were
+five tons of a mixture of water and alcohol or, as we called it,
+“Walc,” a very volatile liquid. Altogether, then, nine tons of
+liquid energy, the fantastic stuff that would propel the X&#x2060;-15
+through the air faster than man had ever flown.</p>
+
+<p>Wearing street clothes, I climbed into the cockpit to begin
+the practice engine test, a simulated launch and engine run just
+as it would take place in the air. The men who had fueled the
+X&#x2060;-15 moved back their big tank trucks. The specialists on the
+propulsion system grouped at a distance and talked to me by
+radio from Sam’s van. Q.&nbsp;C. Harvey manned his post in the
+North American tower two miles away.</p>
+
+<p>I quickly ran through the familiar pre-launch routine: APU
+start, shift to X&#x2060;-15 power, and so on. Now for the first time I
+added to this routine the involved rocket-engine start procedure.</p>
+
+<p><span class="pagenum" id="Page_347">[Pg 347]</span></p>
+
+<p>First I turned a switch which touched off a flow of nitrogen
+gas through all the fuel lines. This was a safety measure to purge
+fuel which might ignite prematurely in the lines and cause an
+explosion. Next I pressurized the big Lox and Walc tanks with
+helium gas to force the fuel through the lines aft to the rocket-engine
+pumps.</p>
+
+<p>The helium is stored in a cylindrical tank surrounded by the
+Lox tank. We purposely put it there to keep it as cold as possible.
+By cooling the helium we can store almost three times as much
+in the same size cylinder, or cut down on the size of the cylinder
+and save weight. The regulator valve which adjusts the gas flow
+from helium tank to the fuel and Lox tanks is a fantastically
+sensitive device which operates at a temperature of minus 300
+degrees Fahrenheit. The pressure inside the helium tank is 3,600
+pounds per square inch; the regulator reduces this to a mere fifty
+pounds per square inch, which is all we need to get the fuel
+moving aft. The regulator had already caused a lot of trouble.
+It would cause much more in the future.</p>
+
+<p>The X&#x2060;-15 is designed to land empty of fuel. If something goes
+wrong—if the engine should fail to start—it is absolutely necessary
+to get rid of the nine tons of fuel weight. Like other rocket airplanes,
+the X&#x2060;-15 is equipped with a fuel jettison system. This is
+carefully arranged so that both tanks exhaust fuel at about the
+same rate. If one tank emptied too far ahead of the other, it
+would throw the X&#x2060;-15 out of balance and possibly into a flight
+attitude from which the pilot could not recover. There is a control
+mounted in the cockpit to adjust the flow-rate for each tank.
+Before the launch, before lighting off the engine, we always
+check the jettison system to make sure it is not clogged or frozen
+shut. (Every time I jettisoned the Walc, I could not help feeling
+a twinge. I was throwing away 6,000 fifths of pure vodka that
+some unimaginative temperate had contaminated to prevent useful
+consumption other than in rocket engines.)</p>
+
+<p>At launch altitude of 38,000 feet, where the air temperature is
+about minus 60 degrees Fahrenheit, the rocket engine and pumps
+are very cold just prior to launch. If we ignite the engine cold
+there is danger of erratic and rough starts or malfunction. Thus
+<span class="pagenum" id="Page_348">[Pg 348]</span>just prior to launch, the pilot must turn a switch which allows a
+trickle of hydrogen peroxide to flow through the engine pump gas
+generator, warming it up or, as we say, “pre-heating.” Thirty
+seconds or so before launch the pilot “primes” the engine with
+a burst of Lox and fuel. The prime is dumped overboard so it can
+be checked visually by the chase pilots. The purpose of the prime
+is to make certain the fuel and Lox lines are full—right up to the
+rocket-engine fuel pump which sucks the fuel from the tanks and
+forces it into the burning chamber at a tremendous rate.</p>
+
+<p>Now on the ground as I went through these procedures, the
+outside observers reported: “Prime looks good.”</p>
+
+<p>Simulating a drop from the mother plane, I then ran my hand
+across eight toggle switches on the left side of the X&#x2060;-15 cockpit,
+igniting each of the eight barrels of the rocket engine. They roared
+to life with a noise that could be heard for twenty miles across
+the desert.</p>
+
+<p>A long blast of rocket exhaust—flame, fire, and smoke—spewed
+from the rear of the X&#x2060;-15. The little ship strained against its
+ground moorings. One barrel of the engine ignited improperly
+and, as designed, automatically shut down. The other seven blazed
+on, gulping the fuel at the rate of two and a half tons a minute.
+Then after 250 seconds, fuel exhausted, the seven barrels “blew
+out” or stopped, making a “pop-pop-pop-pop-pop” sound. The
+ground crew moved in to check the results.</p>
+
+<hr class="tb">
+
+<p>The ground tests on the X&#x2060;-15 rocket engines, supposedly reliable
+X&#x2060;-1 types with a great backlog of experience, revealed
+many surprising weaknesses and faults. It might have been a case
+of familiarity breeding contempt. Or perhaps the experts who had
+originally designed and wrung out these engines had moved on
+to other fields, leaving behind personnel lacking their genius.
+There were many difficulties too in the X&#x2060;-15’s infinitely complicated
+tankage and fuel plumbing system.</p>
+
+<p>The regulator valve on the Lox tank is one good example. That
+extremely sensitive piece of equipment was tested in the laboratory
+at least ten thousand times. Yet when we put it in the airplane,
+<span class="pagenum" id="Page_349">[Pg 349]</span>it failed again and again. Each time it failed, the ground
+crews had to tear into the airplane to get inside and replace it.</p>
+
+<p>The tale of woe with this single valve would make a book in
+itself. Charlie Feltz, Bud Benner, and John Gibb, his assistant,
+stayed up around the clock many nights, almost hand-building
+and testing new regulators. Then, like some priceless set of jewels,
+these were carried to Edwards by hand and installed in the airplane—only
+to fail again at the crucial moment. Before long,
+Stormy entered the picture. He and the engineers redesigned the
+valve a dozen times. I don’t think any valve in the history of the
+world received so much high-level probing, so much laboratory
+testing, so much money and engineering man-hours. This single
+item had to be perfect. A failure could cause a catastrophe in the
+air and wash out the whole X&#x2060;-15 program.</p>
+
+<p>Slowly—all too slowly for my money—our complex bird was
+gaining in reliability, inching ahead toward the pay-off point.
+Her story was accumulating in tens of thousands of pieces of
+paper—reports, work change-orders, engineering analyses, written
+by hundreds of people. Our ground crews, feeling their way with
+this strange tiger and her dangerous fluids, grew in maturity and
+experience. Where once they resembled a platoon of raw recruits,
+they now worked with carrier-deck efficiency and enthusiasm.</p>
+
+<p>But men are fallible. They can’t think of everything. Somewhere
+an obscure mistake was made, and the consequences were nearly
+disastrous.</p>
+
+<p>After a ground engine run one day, I hurried to my Bonanza
+and flew back to the plant in Los Angeles. When I landed, one
+of the company guards came up to me and said:</p>
+
+<p>“Is it a total loss?”</p>
+
+<p>“Is what a total loss?” I asked.</p>
+
+<p>“The X&#x2060;-15. Didn’t you hear? She blew sky high.”</p>
+
+<p>I raced for a telephone and put through a call to Q.&nbsp;C. Harvey,
+my mind spinning with anxiety and apprehension. Q.C. got on the
+phone and rattled off the awful story.</p>
+
+<p>After I had left, the ground crew began grooming the X&#x2060;-15 for
+her next test. Part of this routine called for purging the hydrogen-peroxide
+lines of all residual liquid. This was usually accomplished
+<span class="pagenum" id="Page_350">[Pg 350]</span>by connecting a nitrogen gas hose to a fitting on the
+outside of the X&#x2060;-15 and blowing gas through the plumbing.
+Despite careful procedures and great caution the hose used for
+this had a residue of oil, doubtless left there a long time back
+when it was tested in some remote factory. When the mechanic
+applied gas pressure to the hose, the film of oil was forced into
+the X&#x2060;-15 hydrogen-peroxide lines. When these two hostile chemicals
+met, a violent explosion was set off. Fire raced through the
+engine bay of the airplane.</p>
+
+<p>The firemen at Edwards rushed to the X&#x2060;-15. By then the ship
+was an inferno of flame and white smoke, reminiscent of the
+Queenie explosion. They put out the fire, but not before it inflicted
+severe damage in the engine bay. The fire gutted the rear
+end of the airplane. When the peroxide blew, one of the X&#x2060;-15
+crewmen was badly burned. If he had been standing two feet
+closer, he would probably have been killed.</p>
+
+<p>It took weeks to repair the airplane.</p>
+
+<hr class="tb">
+
+<p>24 July, 1959. Forty-six days since my first glide flight in the
+X&#x2060;-15. The fire damage in X&#x2060;-15 number two had been repaired.
+The rocket engine had been tested on the ground several more
+times. The Lox tank helium regulator had been redesigned
+and replaced almost daily. Now we were nearing the second
+big milestone: a powered flight.</p>
+
+<p>But before this could take place there were many more
+pieces to fit into our technological puzzle. X&#x2060;-15 number two
+had not yet been aloft. No X&#x2060;-15 had yet been aloft with fuel
+on board.</p>
+
+<p>Uppermost on the list of items to check was the B&#x2060;-52 Lox
+top-off system. As previously related, unstable Lox “boils” away
+at a fast rate at high altitude. As much as 600 pounds an hour
+of the X&#x2060;-15’s four tons of Lox evaporates through the tank
+vents. This loss could throw the ship seriously out of balance at
+launch time. A Lox loss also reduces the rocket-engine running
+time.</p>
+
+<p>The B&#x2060;-52 Lox top-off system is a highly sophisticated piece of
+machinery, far advanced over anything installed previously in
+<span class="pagenum" id="Page_351">[Pg 351]</span>mother planes at Edwards. A complicated pressure system moves
+the Lox from two huge storage tanks in the B&#x2060;-52 belly, through
+pipes in the B&#x2060;-52 wing, down into the X&#x2060;-15 mating pylon, and
+then into the X&#x2060;-15 Lox tank itself. A probe in the X&#x2060;-15 Lox
+tank “senses” when the Lox supply drops and automatically relays
+this “word” to the B&#x2060;-52 storage tank pumping system. Then
+the B&#x2060;-52 Lox valves go into action, refilling the X&#x2060;-15 Lox tank.
+In theory, this system is supposed to keep the X&#x2060;-15 brimming
+with Lox all during the climb and the flight to launch point.
+The system had been checked on the ground and in flight
+many times, although never with an X&#x2060;-15 mounted on the B&#x2060;-52
+pylon in flight.</p>
+
+<p>I boarded the X&#x2060;-15 at 0830. The ship with its load of Lox
+was like some massive deep-freeze. I noticed, for example, that
+the temperature of the hydraulic oil in the control system was
+minus 80 degrees Fahrenheit. We had anticipated that. We
+would have to watch this carefully. If it completely froze in
+flight, it would be impossible to operate the X&#x2060;-15 control system.
+I droned off the gauge readings into my tape recorder. Then I
+received news from the ground crew that there would be a
+two-hour “hold” in take-off. Some seal, sensitive to the intense
+cold, had failed at the last minute.</p>
+
+<p>The take-off delay seemed interminable. When at last the
+ground crews finished repairing the faulty piece of X&#x2060;-15 equipment,
+a baffling new problem arose. In the repair process the
+mechanics had removed an access door on the ship, a piece
+of the fuselage skin. The X&#x2060;-15, influenced by its freezing load
+of Lox, had shrunk considerably in size. The access door, lying
+in the hot desert sun, had expanded to its normal size. Now
+it wouldn’t fit back in its original place. We couldn’t go up
+without it. What to do? Five hundred people wondered.</p>
+
+<p>It was one of the X&#x2060;-15 crewmen, Joe Jingle, who provided an
+ingenious solution. He hurriedly soaked the access door in a
+bucket of liquid nitrogen until it shrank enough to fit back in
+place. As I watched this operation from the cockpit—Joe’s
+gloves were too thin for the intense cold and I knew he was
+<span class="pagenum" id="Page_352">[Pg 352]</span>suffering—I was filled with admiration. Our team was becoming
+truly professional.</p>
+
+<p>Charlie Bock poised the B&#x2060;-52 and its precious load at the
+end of the runway. We were now much heavier. The Lox in
+the B&#x2060;-52 storage tanks and the fuel and Lox in the X&#x2060;-15 had
+upped the B&#x2060;-52 gross take-off weight by almost twenty tons,
+including the extra B&#x2060;-52 jet fuel required to operate the heavier
+airplane. The X&#x2060;-15 alone weighed 32,215 pounds, or about the
+same as a heavily loaded DC&#x2060;-3. Bock cobbed the engines. It
+was a long run. We broke ground at 11,500 feet.</p>
+
+<p>The X&#x2060;-15 and its jewel-like machinery underwent an amazing
+kaleidoscope of temperature ranges. On the ground the little
+ship was intensely cold. Now as we flew through the hot desert
+air, it began to warm up. The hydraulic temperature zoomed
+from minus 80 degrees to plus two degrees Fahrenheit. Then
+as we climbed in the thinner, colder air, the temperatures fell
+again to well below zero. I kept an almost continuous log of
+these temperatures. It was important to know just how the X&#x2060;-15
+responded. If we overlooked the possibility of a frozen valve, it
+could result in serious trouble and more delay.</p>
+
+<p>Bill Berkowitz in the B&#x2060;-52 reported by radio: “The Lox top-off
+system is erratic.” Bill was watching a panel of gauges and
+lights in the B&#x2060;-52 which continuously kept tab on the stream
+of Lox flowing from the B&#x2060;-52 to the X&#x2060;-15 tank. The lights had
+signaled a malfunction. Bill shifted from one B&#x2060;-52 Lox storage
+tank to the other. But it was no use.</p>
+
+<p>“I have no indications here of a top-off,” I reported.</p>
+
+<p>Something had gone haywire in that sophisticated, vital piece
+of machinery. I would have to stay on guard. The X&#x2060;-15 Lox
+was boiling away rapidly, imbalancing the airplane. If we had
+an emergency launch—always a possibility—I would have my
+hands full. The system was intensely cold, it was mechanical,
+it was electrical, it was new, Murphy’s Law prevailed: “If it
+can fail, it will.” (Murphy’s Law, the enigma of designers, is in
+engineering lore akin to the natural laws referred to by Robert
+Louis Stevenson when he speaks of a piece of dropped toast
+which always falls buttered side down, and of assuring sunshine
+<span class="pagenum" id="Page_353">[Pg 353]</span>by wearing a raincoat.) We never really got used to this
+tarnish on our most hopeful engineering.</p>
+
+<p>There followed a half hour of diligent test and search for the
+trouble. The top-off system was clearly on the blink. Berkowitz
+tried to prove top-off by looking through the closed-circuit television
+set beamed on the X&#x2060;-15. But we were not in a TV
+studio. The expensive set was not discriminating enough to tell
+him what was happening at the overboard spill on top of the
+X&#x2060;-15 fuselage. We later got around the inadequacy of the TV
+circuit by installing a hemispherical window in the side of the
+B&#x2060;-52 so Bill could look with his own eyes.</p>
+
+<p>Following this, we turned to other drills in the sky. As usual,
+we proceeded to a launch rehearsal, this time including the
+rocket-engine pre-start routine. I pressurized the X&#x2060;-15 fuel and
+Lox tanks and for once—or so it seemed—the helium regulator
+performed as designed, or as redesigned. At one minute before
+“Launch” I shut down the propulsion system. Then to see how
+long it would take to get rid of the X&#x2060;-15 propellants at altitude,
+I jettisoned the six hundred pounds of hydrogen peroxide, four
+tons of Lox, and five tons of Walc. The peroxide streamed
+away in 140 seconds. The Lox and Walc tanks, jettisoned
+simultaneously, ran dry in 110 seconds, leaving a long white
+contrail across the deep blue sky. The jettison times were exactly
+right. If the X&#x2060;-15 pilot encountered trouble after launch
+he would be mighty busy, but we knew he could dispose of
+nine tons of fuel before the ship touched down dead-stick on
+the lake.</p>
+
+<p>With the exception of the B&#x2060;-52 Lox top-off failure, we considered
+the flight a whopping success. The X&#x2060;-15 had weathered
+its temperature extremes without difficulty. The pressure suit,
+the APUs, operated for the first time in <i>this</i> airplane at altitude,
+the engine-start rehearsal and other checks were entirely satisfactory.
+The fact that the helium tank regulator worked was a
+reward for Gibb’s sleepless nights. In short, once the Lox top-off
+system had been debugged, the bird was ready for powered
+flight.</p>
+
+<p>In spite of these setbacks, inevitable in a craft so advanced
+<span class="pagenum" id="Page_354">[Pg 354]</span>as the X&#x2060;-15, we were on schedule. Four years before this—in the
+early fall of 1955—North American promised delivery of a
+debugged X&#x2060;-15 airplane to NASA by August of 1959. Even including
+a thousand or more changes from the original concept,
+including a major shift of mother ship, and a switch to
+the interim engine, we believed then that we would meet this
+schedule. We would get off one powered flight to make some
+of our demonstrations and then turn an X&#x2060;-15 over to NASA.
+The agency was eager, although it seemed to me that the line
+of volunteer X&#x2060;-15 pilots was beginning to thin out considerably.
+Bob White and Joe Walker and their “back-ups” were still in
+there pitching, flying chase on most of our flights. However,
+we noted there was no great rush of new applicants.</p>
+
+<hr class="tb">
+
+<p>We failed to meet our four-year-old X&#x2060;-15 schedule. August,
+1959, came and went without a successful powered-flight demonstration
+and we were not able to deliver an airplane to NASA.
+It took much time to repair the balky B&#x2060;-52 Lox top-off system
+and to install an emergency by-pass in case it failed again. The
+little ship itself suddenly developed a hundred minor leaks and
+pains, each requiring thousands of agonizing man-hours to
+rectify. The weeks ticked by at an alarming rate. Finally
+on September 4 the X&#x2060;-15 was mated, fueled, and ready. If all
+went well on the flight I would drop and fire off the rocket
+engine.</p>
+
+<p>Because our tight schedule had “slipped” by a week, we prepared
+for this climactic flight with a growing sense of urgency.
+All hands worked and talked as though they were Marines on
+the verge of invading a beach-head. On the night before the
+flight I stayed up late in the BOQ memorizing the flight plan.
+We wanted to collect data readings at about forty different
+combinations of speed, altitude, and angle of attack during the
+flight. After I fell away from the B&#x2060;-52, there wouldn’t be time
+to consult the flight plan.</p>
+
+<p>I arrived at Captain Richardson’s van at 0540, put on the
+pressure suit, and checked its systems. By 0625 I was strapped
+in the X&#x2060;-15 cockpit. At 0717 the B&#x2060;-52 took off, climbing slowly
+<span class="pagenum" id="Page_355">[Pg 355]</span>to launch altitude. I kept a sharp eye on the gauges, although
+I was blinded somewhat by the early morning sun, and droned
+the numbers into my portable tape recorder. The B&#x2060;-52 Lox
+top-off system performed adequately. As we approached this
+dramatic moment in X&#x2060;-15 history, we joshed on the radio.</p>
+
+<p>“Say,” Charlie Bock called out, “looks like they have a heavy
+overcast down in Los Angeles. Scotty, you want to make an instrument
+approach in the bird into Los Angeles International
+Airport?”</p>
+
+<p>“I don’t have a glide-path indicator in here,” I said.</p>
+
+<p>“You might create something of a new noise problem with
+that engine. Everybody would move away from the airport,”
+Bock said.</p>
+
+<p>We climbed to launch point.</p>
+
+<p>“Seven minutes to drop,” Charlie Bock said. We had reached
+38,000 feet, heading southwest, to make a final turn over Randsburg.
+Then we would aim for Mojave, swing over Lancaster,
+and if all went well launch over Rosamond Dry Lake. I was
+busy flicking switches in the X&#x2060;-15 cockpit. I made a note on the
+tape recorder: “The black gloves may look fine with the silver
+suit, but they have to go. They soak up the bright high-altitude
+sunlight and they’re uncomfortably warm.”</p>
+
+<p>Q.&nbsp;C. Harvey wanted to make certain the Lox top-off was complete.
+He broke in from the ground: “Hold at seven minutes.”</p>
+
+<p>We waited, boring holes in the sky, while Bill Berkowitz
+checked to see if the top-off was successful. When he reported
+it was, Q.C. “released” us and we proceeded toward the final
+countdown.</p>
+
+<p>“Five minutes,” Bock announced.</p>
+
+<p>“I’m going to pressurize the Walc and Lox tanks NOW,” I
+said. I emphasized “now” so that we could get the precise time
+of the operation. When I spoke the word I moved the lever that
+set in motion the worrisome Lox tank regulator. Helium gas
+rushed into the large X&#x2060;-15 tanks. I watched the gauges as they
+swept from zero to 50 pounds per square inch in ten seconds.
+The Lox tank pressure continued up. Then I heard a strange,
+loud clank in the rear of the X&#x2060;-15.</p>
+
+<p><span class="pagenum" id="Page_356">[Pg 356]</span></p>
+
+<p>“Oops,” I said on the radio. “What was that?”</p>
+
+<p>The clank came from a safety relief valve on the Lox tank.
+Too much helium gas had rushed into the tank, the pressure was
+too high, and it tripped. The helium regulator had failed again.
+I swept my eyes back to the gauges. The Lox tank read 65
+pounds per square inch.</p>
+
+<p>I double-checked with the chase pilots: “Is the Lox venting
+overboard?” There was clearly no possibility of a powered flight
+that day, but I wanted to make certain the safety vent was
+operating properly. If not, the mounting helium pressure could
+cause the thin X&#x2060;-15 tanks to burst. At 38,000 feet, that could
+be a real mess.</p>
+
+<p>“Affirmative,” chase reported. “Safety vent operating.”</p>
+
+<p>By then I was sure it was operating properly. The vent, in
+fact, was flapping rhythmically, in time with the gauges, which
+fluctuated as the gas pressure built up in the tanks to limits,
+tripped the safety vent, and then fell off again.</p>
+
+<p>“I’m dead,” I reported on the radio. “Regulator is running
+away. Relief vent cycling. Letting out the over-pressure.”</p>
+
+<p>“Abort,” Q.C. responded. I could imagine his disappointment.
+I know because I felt it too. We would have to try again.</p>
+
+<p>We jettisoned the unused fuel—its cost, about $1,000, was a
+mere drop in the bucket—and returned to base. That night, as
+I recall it, we spent several very uncomfortable hours in Stormy’s
+office. For the next three nights Charlie Feltz, Bud Benner, and
+John Gibb slept not at all. They spread their time between the
+Manufacturing Division and the Testing Laboratory, hand-carrying
+the handbuilt helium regulators.</p>
+
+<hr class="tb">
+
+<p>There was a new and urgent reason for reaching X&#x2060;-15 flight
+perfection at the earliest possible date. Almost casually the U.&nbsp;S.
+had drifted to a major turning point in its history of aviation and
+national defense. Guided missiles were pushing the manned combat
+aircraft to the side. The missile zealots in their eagerness to
+obtain funds had convinced the powers that be in Washington
+that the manned aircraft was an obsolete concept. Anti-aircraft
+missiles, such as the Nike and Bomarc, could do the job of the
+<span class="pagenum" id="Page_357">[Pg 357]</span>manned fighter in defending the nation against air attack, they
+claimed. Surface-to-surface ballistic missiles, such as Atlas, Titan,
+and Polaris, could replace the manned combat aircraft for the
+retaliatory mission.</p>
+
+<p>All of us, of course, believed in missiles. Few could deny that
+they would ultimately become a dominant weapon in the deterrent
+force. But we believed this day was still a long way off and,
+moreover, that there would always be a place for the manned
+combat aircraft. Manned airplanes are flexible. They can be
+moved about or dispersed quite simply, or shifted in flight from
+one target to the next, or assigned to several targets. If there is
+an alert, they can be launched and, more important, recalled, if
+it should all turn out to be a mistake. Airplanes can approach
+the enemy’s borders from a wide range of points on the compass
+at a variety of altitudes, vastly confusing the enemy radar warning
+and interception system. The simple fact of having manned
+combat airplanes in our inventory forces the enemy to take tremendously
+expensive countermeasures to prepare a defense
+against them. Manned aircraft are fundamentally more reliable
+mechanically than missiles, and they can be repaired without
+total loss if something goes wrong. (This we had demonstrated
+again and again in the X&#x2060;-15.) By building military airplanes we
+keep the art of aviation alive in this country and enable the
+nation to compete and prepare for the fantastic future already
+being revealed on the technical horizon.</p>
+
+<p>In the industry we had noticed the drift a long time ago. I
+first picked it up in 1954 during the meeting of the old NACA
+Aerodynamics Subcommittee when the X&#x2060;-15 was under discussion.
+Since then, the number of Air Force planes on order and
+types under development shrank rapidly. As I have related, by
+the time we began the X&#x2060;-15 flight-test program there were only
+<i>two</i> advanced combat Air Force airplanes on the drawing
+boards: the F&#x2060;-108 fighter and the B&#x2060;-70 bomber, both North
+American designs. In the summer of 1959 as we approached the
+climax of the X&#x2060;-15 flight program, we received the stunning news
+that one of these planes, the F&#x2060;-108, had been canceled outright.
+In the field of Air Force manned combat airplanes for the future
+<span class="pagenum" id="Page_358">[Pg 358]</span>this left only the B&#x2060;-70, and from what we could ascertain it too
+was in jeopardy.</p>
+
+<p>These fateful decisions were made—over the protests of the
+Air Force and NASA—by men temporarily on loan to the government
+from fields other than aviation. The decisions were
+made in comfortable Washington offices far removed from
+the reality of Cape Canaveral and Edwards and failing helium-regulator
+valves. That fall we hoped that a successful flight of
+the X&#x2060;-15 might dramatize the validity of the manned-aircraft
+concept and bring about a reconsideration of these decisions.
+All my life I had staked my all to foster and further the concept
+of manned airplanes. Now, with the X&#x2060;-15, we had our last
+chance to make intelligence prevail and I intended to help, even
+if it killed me.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_359">[Pg 359]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_39">CHAPTER 39 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 39</span> <i>The Old Pro</i>
+ </h2>
+</div>
+
+
+<p class="noindent">On the morning of September 17 the weather at Edwards
+was as blustery as it usually is in the rainy season in December.
+There was a heavy cloud layer hovering near the edge of the
+base. The winds on the lake bed were gusting to twenty and
+twenty-five miles an hour. But as I have said, landings are my
+strong point. Crosswinds have never kept me on the ground.
+On that day I don’t think anything could have kept me on the
+ground. “Let’s go,” I said to Stormy and Charlie Feltz.</p>
+
+<p>And we did.</p>
+
+<p>Bock lifted the B&#x2060;-52 off the runway at precisely 0730. Major
+Bob White, Joe Walker, and Al White, the North American X&#x2060;-15
+back-up pilot, flew chase. Of the forty critical gauges on the X&#x2060;-15
+panel, only one was out of line. The nitrogen gas supply for the
+equipment that cooled the electronics gear was sagging. When
+I called the gauge readings to Q.C., I deliberately skipped this
+one. After four years I knew intimately the requirements of each
+system. I had three limiting figures in mind: the specification
+figure, which was conservative; our agreed-upon “no go” realistic
+figure, less conservative, and one which Harvey must cancel
+on; and then I had my own absolute minimum that I knew would
+<span class="pagenum" id="Page_360">[Pg 360]</span>not endanger the X&#x2060;-15 (after all, the final decision is the pilot’s).
+Today we were going to <i>fly</i>.</p>
+
+<p>At 0756 Bill Berkowitz switched on the Lox top-off. This time
+it did not fail. We moved into a launch rehearsal.</p>
+
+<p>Q.&nbsp;C. Harvey spoke from the ground: “Okay—let’s go ahead.”</p>
+
+<p>“We’re in good shape,” I said. We were—all but the coolant
+nitrogen. Charlie Bock called the ten-minute warning. Q.C. reported
+the cloud front holding stationary. The lake bed was
+clear.</p>
+
+<hr class="tb">
+
+<p>Watching the creeping rate on the nitrogen pressure, I made
+up my mind we could be committed without hazard. I made last-minute
+preparations to fly, zipping through the lengthy check-list
+fixed to my knee-pad. At six minutes to launch I started the APUs.
+At five minutes to launch I released the pressure to the main
+tanks. The helium regulator worked beautifully. At four minutes
+to launch I checked the jettison system. I started the fuel-line
+purge and opened the main fuel shut-off valves. The pre-heat
+lights came on green.</p>
+
+<p>Suddenly I heard a familiar—and ominous—clanking. The Lox
+tank safety vent had popped. I thought, here we go again. I
+sang out on the radio: “Hold the phone.” Too much pressure had
+built up in the Lox tank. I held my breath momentarily, watching
+the Lox tank-pressure gauge. It dropped off slowly and the
+vent reset properly. The Lox tank regulator had a slow leak. I
+timed the pressure cycles and decided it was acceptable.</p>
+
+<p>“Okay,” I said. Bock resumed the countdown.</p>
+
+<p>At the one-minute warning we shut off power and oxygen from
+the B&#x2060;-52 and the X&#x2060;-15 was in effect “on its own.” I turned on
+the rocket-engine master switch and started the prime of fuel
+and Lox through the engines. Then I rolled the automatic photorecorders,
+which would keep a concise record of all events in
+the X&#x2060;-15. Finally I flashed the green launch-light for the second
+time on Bock’s panel.</p>
+
+<p>“Ready to go,” I said.</p>
+
+<p>Bock called the brief countdown: “Three ... Two ... One ... DROP!”</p>
+
+<p><span class="pagenum" id="Page_361">[Pg 361]</span></p>
+
+<p>For the second time in eight flights I fell away from the B&#x2060;-52
+pylon into open sky. My left hand felt the toggle switches which
+would light two barrels of the lower motor. I flicked them as
+soon as I heard the “kerchunk” of the shackles releasing the
+X&#x2060;-15. In less than five seconds my hand moved to the other six
+toggles, and before I had dropped 2,000 feet I was able to
+report: “Got eight of ’em going.”</p>
+
+<p>On the earlier rocket planes we felt a push, like a gentle kick
+in the rump when we lit the rockets. We would feel a much
+greater push when the 57,000-pound thrust XLR&#x2060;-99 engine was
+installed. With the smaller X&#x2060;-1-type engines, the heavy X&#x2060;-15
+responded rather slowly. The effect is somewhat like opening
+the throttle on a jet airplane.</p>
+
+<p>I fell to about 33,000 feet before the rocket took hold and
+began pushing the X&#x2060;-15. I reported: “Going uphill at 33,000.”
+I added: “Looks good across the board.” It <i>was</i> good—even
+the helium pressure, which was still within my absolute limit.</p>
+
+<p>Since the X&#x2060;-15 has no compass and I cannot see the horizon
+during the steep climb, I had to rely on Bock during the first
+few seconds for a steer. He reported I was to his right. The
+F&#x2060;-104 chase planes were now flying wide open. I soon left them
+in a cloud of vaporish white rocket exhaust.</p>
+
+<p>Pushed by the eight flaming barrels the X&#x2060;-15 suddenly became
+a tiny thing of immense power and speed darting across the deep
+blue desert sky. Had it not been for my exhaust trail the observers
+on the ground could not have followed my course except
+by radar. More at ease now after a successful light-off, I directed
+my attention to these questions: Did we have a stable airplane?
+Was it dangerous or difficult to fly? Were the controls now
+adequate?</p>
+
+<p>It was apparent almost instantly that we had built a beautiful
+airplane. Her nose held straight and firm without the yaw and
+pitch common to most high-performance planes. As I blasted
+toward the heavens I alternated between sidearm control and
+the center stick, pumping in tentative control motions to feel
+her out. She remained sound and stable. Because she is long
+and slim and has stubby wings, she was extremely sensitive
+<span class="pagenum" id="Page_362">[Pg 362]</span>when I rolled her. But this we had anticipated and it was no
+surprise. The plane eased through the speed of sound imperceptibly
+with little or none of the usual buffet-and-control disturbance.</p>
+
+<p>As I was nearing 50,000 feet I was startled to hear a loud
+buzzing. What could it be? My first thought was that an APU
+unit was vibrating. But a glance at the gauges indicated they
+were running perfectly. It was not until later that I discovered
+the source of the noise. The cockpit of the X&#x2060;-15 is so small that
+when I lean forward to reach some of the controls my helmet
+wedges in the V-shaped canopy glass. The noise I heard was
+caused by the normal, healthy vibration of the X&#x2060;-15 machinery.
+My helmet, which is a kind of sound chamber, magnified this
+vibration manifold. I called this noise on the radio to my subsequent
+regret. All the vibration experts in the country have had
+a field day trying to solve this one. It would never have been
+noticed had not my helmet touched.</p>
+
+<p>Two minutes after launch I reached 50,000 feet and pushed
+over in level flight. Then I dropped the nose slightly for a speed
+run, meanwhile maneuvering the ship through a series of turns
+and rolls, conscious of the deep rumbling noise of the rocket and
+a great rush of wind on the fuselage. It was obvious the black
+bird was in her element at supersonic speeds. She responded
+beautifully. I stared in fascination at the Mach meter which
+climbed quickly from 1.5 Mach to 1.8 Mach and then effortlessly
+to my top speed for this flight of 2.3 Mach or about 1,500
+miles an hour. Then, because I was under orders not to take the
+X&#x2060;-15 wide open, I shut off three of the rocket barrels. As I slowed
+down, I recalled the agony at Edwards many years before when
+we had worked for months pushing, calculating, polishing, and
+who knows what else to achieve Mach 2 in the Skyrocket. Now
+with the X&#x2060;-15 we had reached that speed in three minutes on
+our first powered flight and I had to throttle back.</p>
+
+<p>About four minutes (230 seconds, to be precise) after launch,
+the fuel tanks ran dry and the engines shut down. I got set for
+the fast dead-stick landing. As I swung into a turn to line up
+with the lake, the X&#x2060;-15’s wedge-shaped tail bit the air and the
+<span class="pagenum" id="Page_363">[Pg 363]</span>nose turned sharply, causing me to comment on the radio: “Very
+powerful rudders on this little baby.”</p>
+
+<p>My altitude was dropping off rapidly. But now, with a total
+of nine or ten minutes flight time in the ship, including the first
+glide flight, I had complete confidence in her. I had probed her
+weaknesses and strengths and knew what would please her or
+make her angry. Routinely I called for a re-check of the winds
+on the lake bed. A comical exchange, no doubt arising from the
+tension on the ground, followed.</p>
+
+<p>Sam Richter, parked on the lake in his van, consulted the readings
+from his anemometer and reported the winds as “four
+knots.”</p>
+
+<p>At the same moment Edwards tower reported the winds as
+“eighteen knots.”</p>
+
+<p>“Repeat, please,” I said. The lake was growing larger by the
+second. I could see Sam’s van, parked in the row of emergency
+vehicles. A crosswind of four knots was no problem. But a crosswind
+of eighteen knots required sharp attention at touchdown.</p>
+
+<p>Sam came back: “Four, repeat four, knots.”</p>
+
+<p>Edwards tower broke in: “Eighteen, repeat eighteen, knots.”</p>
+
+<p>Then on the radio circuit Sam and the Edwards tower lapsed
+into a debate about the winds. To relieve the mounting tension,
+I broke in: “Sambo, why don’t you stick your head out of the
+van and see how bad the winds are?”</p>
+
+<p>Sam stuck by his four-knot figure. Since he was stationed nearest
+the landing strip, though still several miles away, I accepted
+his estimate and lined up on the north-south runway, disregarding
+crosswinds. By now my chase pilots, Bob White and Joe
+Walker, had found me and were glued to my wingtips.</p>
+
+<p>The winds at Edwards are often very variable and Edwards
+tower, it turned out, had correctly estimated them for my
+landing area. They were very strong from the west. When this
+fact was established, I was advised to shift to the east-west runway.
+But it was too late. The X&#x2060;-15, “gliding like a brick,” was
+already too close to the ground. The men, concerned mainly for
+my personal safety, were still cluttering up the air with their
+debate. I cut them off sharply:</p>
+
+<p><span class="pagenum" id="Page_364">[Pg 364]</span></p>
+
+<p>“I’m committed. Let the chase have the radio.”</p>
+
+<p>During the turn on base leg I droned the readings on the
+panel gauges. I read off the APU bearing temperature as a disastrous
+1700 degrees instead of 170, which is normal. Hearing
+this on the ground, Charlie Feltz nearly fell dead. He shouted
+at Sam: “Wha’d he say? Wha’d he say?” I quickly reassured him.</p>
+
+<p>My speed fell off to 250 miles an hour when I crossed the
+edge of the lake bed and I blew off the ventral fin. Just at that
+moment I thought I heard chase Bob White report his plane
+had run into the fin. This would have been catastrophic.</p>
+
+<p>I was concerned. With only a few seconds remaining before
+the X&#x2060;-15 would touch down on the lake, I spoke into the radio:
+“You fouled the tail?”</p>
+
+<p>“No,” White replied. “The chute fouled. It failed to open.”
+It was a minor matter. Anyway, the chute did open a split second
+later. White dutifully reported this fact with the additional comment,
+“Isn’t that nice?”</p>
+
+<p>I was now beginning to feel the strong crosswind. To compensate,
+I aimed the X&#x2060;-15 cross the marked lake-bed runway.
+My hope was that I would drift over between the black lines
+by touchdown. I commented on the radio: “That’s a pretty good
+crosswind.”</p>
+
+<p>Chase White, who was “talking” me down, said: “Very nice.”
+As a matter of fact, the ship was flying smoothly. There was no
+sign of the violent porpoising I had experienced on the first
+glide flight. I held the nose high and seconds before touchdown,
+at 200 miles an hour, dropped the rear steel skids and nose
+wheel and flipped the flap switch.</p>
+
+<p>Exactly ten minutes from launch by the X&#x2060;-15 clock the skids
+dug into the hard-packed surface and almost instantly the nose
+fell heavily, cushioned by the nose wheel. White repeated:
+“Very nice.” As we skidded along throwing up dust, I joked:
+“What do you expect from the old pro, Daddy-O?”</p>
+
+<p>This comment was typical of the radio repartee of fighter
+pilots, who by nature will admit to no limitations whatever.
+With God’s help I had accomplished my mission as I was sure
+I would; the X&#x2060;-15 and I had not failed our friends, associates
+<span class="pagenum" id="Page_365">[Pg 365]</span>or, if you will, the nation. It was a great pleasure to confirm
+this triumph to myself. Involuntarily I voiced my feelings on
+the radio.</p>
+
+<p>At that moment I became aware of a new danger looming in my
+path. The crosswind was stronger than I thought and the ship
+did not drift over onto the marked runway as I expected. I
+touched down outside the right boundary line and skidded at
+150 miles an hour directly toward a deep drainage ditch about
+a mile ahead. If I coasted into that ditch, I knew that I could
+very well wipe out the X&#x2060;-15’s landing gear or possibly damage
+the plane more seriously. The old pro, now feeling sheepish,
+pushed hard on the rudder pedal, hit the speed brakes, and
+dropped the elevators full down, desperately trying to steer the
+plane to the left and stop it all at once, to avoid another F&#x2060;-100
+through the hangar wall. I snapped into the radio: “Hollered
+too soon, didn’t I? I’m going to coast into that ditch.” I thought:
+that’s the way it will always be at Edwards—hero one minute,
+bum the next.</p>
+
+<p>As it turned out, I was only fifty feet off the marks and fortunately
+stopped a hundred yards short of the ditch.</p>
+
+<p>After reporting with relief to Q.&nbsp;C. Harvey, who could no
+longer see the X&#x2060;-15, that everything was okay, I tried to open
+the canopy, but the release was stuck fast. While waiting for the
+ground crews to arrive and let me out, I proceeded with
+the post-flight chores, shutting down various systems and taking
+final readings. The decision on the coolant gas had been right
+and all systems looked good.</p>
+
+<p>Unknown to me, a new and far more serious crisis was developing
+in the X&#x2060;-15. A pump casing had ruptured. Alcohol was
+flowing into the after engine bay and a furious though not yet
+visible fire had broken out. We later calculated that it started
+just after I blew the ventral, when I was still fifty feet in the air.</p>
+
+<p>Sam Richter and Charlie Feltz arrived with the fire trucks,
+official observers, and ground-support equipment. The crewmen
+opened the canopy from the outside and removed my helmet. I
+climbed out into the stiff desert breeze to meet half a dozen
+outstretched hands.</p>
+
+<p><span class="pagenum" id="Page_366">[Pg 366]</span></p>
+
+<p>Our mutual admiration society was in full flower when Sam
+spotted the fire. Dismayed, we all ran to look. Sam waved the
+fire trucks toward the tail section. The firemen unreeled the
+hoses and showered the tail section with fog. There was still a
+considerable quantity of alcohol on board. The X&#x2060;-15 at that
+moment was like a bomb with a lighted fuse. We chased the
+official observers back while the firemen, with no display of
+concern for their personal safety, put out the fire.</p>
+
+<p>When I got a close look at the rear of the plane I realized
+again for the millionth time over the past twenty years that
+airplanes are not for the impatient. We would have to retrench
+and try again and again. The fire had burned through a large
+area, melting aluminum tubing, fuel lines, valves, and other
+machinery. Before the X&#x2060;-15 could fly again I knew we would have
+to rebuild the damaged section completely, and it would take
+time.</p>
+
+<p>The fire was one more delay. The plane was built for the
+specific purpose of ferreting out such weaknesses. Our job was
+to correct these weaknesses one by one until an irreducible
+minimum remained, so that we could then move ahead. The
+X&#x2060;-15 was earning her way showing us how to advance. There
+was a little matter, however, for which we could all be thankful;
+if the alcohol fire had broken out one minute earlier, it is quite
+likely that the X&#x2060;-15 and the pro at the controls would have
+been blown to oblivion.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_367">[Pg 367]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_40">CHAPTER 40 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 40</span> <i>Bad News with the Good</i>
+ </h2>
+</div>
+
+
+<p class="noindent">“Coming up on 40,000 feet.”</p>
+
+<p>Jack Allavie in the B&#x2060;-52 called our altitude. It was about fifteen
+minutes before launch, October 10, twenty-three days after
+the first powered flight and the fire, my ninth trip up in the
+X&#x2060;-15. The rear of the ship had been rebuilt in record time;
+some additional fixes had been made on the airplane while it
+was torn down. A new hydrogen peroxide tank had been installed.</p>
+
+<p>There were two new faces in the B&#x2060;-52 crew. Charlie Bock
+was off to Fort Worth, Texas, to help conduct experimental flight
+tests on Convair’s B&#x2060;-58 Hustler bomber, then undergoing its
+final shake-down. The B&#x2060;-52 co-pilot, Jack Allavie, moved over
+to the left-hand seat. Fitz Fulton, a long-time Edwards mother-plane
+and chase pilot, got the right-hand seat. This was Fulton’s
+third tour at Edwards. He had launched Yeager, Everest, Murray,
+Crossfield, Kincheloe, and Mel Apt, among others.</p>
+
+<p>The North American launch-panel operator in the B&#x2060;-52, Bill
+Berkowitz, bowed out of the flight-test program. One reason
+was that he was not able to get adequate life insurance to protect
+his wife and growing family. My old friend and cohort from
+<span class="pagenum" id="Page_368">[Pg 368]</span>NACA Skyrocket days, Jack Moise, the lad who was sprayed by
+hydrogen peroxide on the day of my record Mach 2 flight in
+1953, took Bill’s place.</p>
+
+<p>I admired Moise. He was a go-getter, a short man with a
+swarthy complexion and a cool, even disposition in the air.
+As an NACA hand, Moise pulled Joe Walker out of the burning
+X&#x2060;-1&#x2060;-A at 30,000 feet just before they threw it away. For this he
+was given a citation praising his courage, and a near-absolute
+guarantee that he would never be fired from the government,
+no matter what turn his life might take. But he decided to
+forego this big chunk of security to join the X&#x2060;-15 team. We were
+glad to have him. With Moise and Fulton in the B&#x2060;-52 it was
+like Old Home Week.</p>
+
+<p>Moise was then struggling with the B&#x2060;-52 Lox top-off panel.
+“I can’t pressurize the B&#x2060;-52 Lox tank,” he reported. “Something
+is wrong.”</p>
+
+<p>Murphy’s Law? Not again, I thought, not on Moise’s and
+Fulton’s first flight.</p>
+
+<p>“I’ve tried the emergency by-pass,” Moise reported. “Tank
+pressure will not rise.” The critical Lox had stopped flowing to
+the X&#x2060;-15 tank, unbalancing the airplane. There was nothing
+Moise could do. We were finished.</p>
+
+<p>“Abort,” Q.C. announced with stark finality.</p>
+
+<hr class="tb">
+
+<p>It was October 14, my tenth flight in the X&#x2060;-15, my fifteenth hour
+airborne in my nest beneath the B&#x2060;-52 wing. After the Lox top-off
+failure the ground crews had prepared the ship for flight in the
+amazingly brief time of four days. We were ready.</p>
+
+<p>When we passed 35,000 feet, the X&#x2060;-15 ram-air door open, the
+full-pressure suit came into play, holding the flesh of my body in
+a glove-like grip. At 41,000 feet I strained forward to close the
+ram-air door so that the cabin pressure would build to its normal
+level of 35,000 feet and relieve the pressure in the suit.</p>
+
+<p>When I closed the ram-air door the nitrogen gas, as designed,
+built up in the cockpit at a rapid rate. The cockpit “altitude”
+dropped to 35,000 feet and the pressure suit relaxed. Allavie and
+Fulton steered the mother plane toward launch point. My eyes
+<span class="pagenum" id="Page_369">[Pg 369]</span>swept back and forth across the instrument panel, routinely
+checking gauges. I noted then that the cockpit altitude was falling
+rapidly. It was down to 30,000 feet. Something was wrong. There
+was a regulator in the cockpit which was supposed to allow the
+flowing nitrogen gas to escape, maintaining a constant 35,000-foot
+altitude in the cockpit.</p>
+
+<p>I kept my eye fixed on the cockpit pressure gauge. As the
+nitrogen built up inside the cockpit, the altitude dropped to
+29,000, then to 25,000 and below. We were courting possible
+disaster. As the cabin altitude dropped toward an earth-like level,
+it became far more dense than the thin air outside the plane at
+41,000 feet. If the difference became too great, I knew that the
+dense gas inside, seeking to equalize the pressure to the thin air
+outside, would cause the cockpit to explode for the same reason
+that an over-inflated rubber balloon pops. I opened the ram-air
+door to relieve the pressure.</p>
+
+<p>“Delay the countdown,” I radioed, asking Jack Allavie to
+circle the B&#x2060;-52. Then I added: “Hey, Q.C., I’ve got something
+bothering me. The cabin goes from 41,000 down through 20,000
+and I don’t dare let it go any further because it’ll bust it. There’s
+too big a pressure difference here.”</p>
+
+<p>Q.C. consulted his team of experts and relayed some technical
+suggestions. I recycled the pressurization and asked Allavie to
+make another turn.</p>
+
+<p>“Oh, boy!” I radioed. “That thing pressurizes like mad. I don’t
+dare let it go below 20,000 feet, do I? Let’s think about this a
+minute.” I was very much concerned. A cockpit explosion of the
+X&#x2060;-15 could inflict irreparable damage on the X&#x2060;-15 and her pilot
+and very probably drastically damage the mother plane. I recycled
+the system, again to no avail. I knew then, once again, we
+were finished. I had planned to fly the ship to 60,000 or 70,000
+feet. With the cabin pressure on the blink this was out of the
+question.</p>
+
+<p>“Abort,” I radioed.</p>
+
+<p>Later on the ground we discovered that somehow moisture
+had accumulated in the cabin regulator and frozen it shut. One
+more pre-flight item to check was added to the growing list.</p>
+
+<p><span class="pagenum" id="Page_370">[Pg 370]</span></p>
+
+<hr class="tb">
+
+<p>“One minute to drop,” Jack Allavie intoned.</p>
+
+<p>“X&#x2060;-15 oxygen ON,” I said. Then: “Data burst.”</p>
+
+<p>It was October 17. The X&#x2060;-15 ground crew had shattered its
+own record: it had made the ship ready for flight in three days.
+It was a beautiful fall day in the desert. The sky was deep blue
+and clear. Far to the north of us a few feathers of wispy cirrus
+reached toward the heavens. In the X&#x2060;-15 cockpit all gauges were
+in the green.</p>
+
+<p>“40 seconds.”</p>
+
+<p>“Engine master switch ON.”</p>
+
+<p>“Both primes coming on NOW.”</p>
+
+<p>“Five. Four. Three. Two. One.”</p>
+
+<p>“DROP.”</p>
+
+<p>“Kerchunk.” And for the third time the X&#x2060;-15 fell away from the
+B&#x2060;-52. My left hand was resting on two of the rocket-barrel
+switches. As soon as I heard the shackles rattle, I flicked the
+switches. Then my hand moved rapidly to the other six. Within
+five seconds all eight barrels were running wide open.</p>
+
+<p>An amber light flashed on near my knee. It was the roll
+damper, the automatic device which would help stabilize in roll,
+help to prevent severe, unexpected, or violent roll. It was out. No
+matter. I would simply be careful in roll control.</p>
+
+<p>“Roll damper out,” I said.</p>
+
+<p>The ship felt a little sluggish. I missed the powerful punch
+of the Skyrocket.</p>
+
+<p>“Going uphill.”</p>
+
+<p>I moved the sidearm control ever so slightly with my right
+hand. The nose came up gently. The altimeter and Mach meter
+climbed. Following an item on the flight plan, I then pulled the
+nose up steeply until the plane shuddered in protest. It was a
+check of the “buffet” point. I repeated this maneuver twice.</p>
+
+<p>“Buffet at Mach .8,” I said.</p>
+
+<p>“Going uphill. Supersonic.”</p>
+
+<p>The X&#x2060;-15 Mach meter approached Mach 1.6 and locked there.
+One minute had gone by.</p>
+
+<p>The recovery maneuver caused my check-list, mounted in
+<span class="pagenum" id="Page_371">[Pg 371]</span>spiral rings on a pad on my knee, to flip ahead several pages.
+I knew the list by heart. But I always tried to follow each page,
+just to be doubly sure.</p>
+
+<p>“I’ve lost my place,” I said. I flipped back through the pages.
+“Never mind. Found it again.”</p>
+
+<p>“Going through 40,000 feet.”</p>
+
+<p>The roll damper was still out. Now I would see how much I
+needed that roll damper. I moved the sidearm control. The right
+wing flipped up sharply. I reversed the control. The right wing
+dropped and the left came up swiftly. With a little more control
+I could whip the ship horizontally through the air like a spinning
+bullet. In level flight I balanced on a knife-edge.</p>
+
+<p>“It’s very sensitive to roll,” I radioed.</p>
+
+<p>“Pulling to a 1.8 G turn. Yaw.” I kicked the nose to one side in
+an attempt to define the ship’s sideslip characteristics.</p>
+
+<p>“Pushing over at 55,000.” I leveled the nose. The pages of my
+spiral notebook flipped again.</p>
+
+<p>“Lost my place again.”</p>
+
+<p>“What’s that?” It was Q.C. I could almost hear Charlie Feltz
+muttering: “Wha’d he say? Wha’d he say?”</p>
+
+<p>“Never mind,” I said.</p>
+
+<p>I banked and dived. The G meter registered two. Then I
+deliberately sideslipped. I leveled out. The Mach meter climbed
+steadily: 1.6, 2.0, 2.4, or about 1,600 miles an hour. I had edged
+over my 2.0 restriction for a few seconds.</p>
+
+<p>Only three other men had flown that fast. Yeager had, and he
+almost died in the try. Pete Everest had. Mel Apt had gone to
+Mach 3. But he died in the X&#x2060;-2. The temptation to forge ahead
+and smash Apt’s record, which I could easily do in the X&#x2060;-15, was
+very great. The plane was running like a dream. All I had to do
+was let the rocket engines burn a little longer, build up a little
+more speed and then.... Crossfield, the first man to fly at twice
+the speed of sound and the first man to fly at three times the
+speed of sound ... and live. But no, that was reserved for someone
+else, for Joe Walker and Bob White or, if they died, their
+back-ups. I was an engineering test pilot. It was necessary that I
+adhere to plan in the air. If I deviated from plan, violated the
+<span class="pagenum" id="Page_372">[Pg 372]</span>discipline, then my value as an engineering test pilot was zero.
+Dependability, perfection, these are the prerequisites of the test
+pilot. Too many airplanes and pilots have paid for violating the
+intelligence of planning. The X&#x2060;-15 would not.</p>
+
+<p>I shut down several of the rocket barrels. I pulled the nose up
+and climbed quickly to 67,000 feet, my maximum planned altitude
+for the flight. Then as the remaining rocket barrels burned
+out, I nosed the X&#x2060;-15 into a steep, supersonic dive to check her
+stability going downhill at Mach 1.5 without rocket power.</p>
+
+<p>“Burnout,” I said.</p>
+
+<p>At 50,000 feet I leveled out and my speed abruptly fell off to
+subsonic. It was time to begin thinking about the landing. At
+that moment my eye caught a blur flashing across my nose, dead
+ahead. It was NASA chase pilot Joe Walker in an F&#x2060;-104, joining
+up fast to escort me back to the lake bed. He was close.</p>
+
+<p>“There goes my chase—right across my bow!” I called on the
+radio.</p>
+
+<p>“About eight per cent fuel remaining. Going to jettison.” I
+pushed the lever and a long trail of white vapor flowed into the
+sky in my wake.</p>
+
+<p>“260 knots. 30,000.”</p>
+
+<p>“I’m going to land a little long this time,” I said.</p>
+
+<p>I laid out my approach for the dry-lake landing strip, reporting
+my choice of direction by radio to the chase. At 8,000 feet, I
+turned on my final leg and for the third time got set to put the
+X&#x2060;-15 on the ground.</p>
+
+<p>Just then I thought I saw an airplane on the lake near the
+spot I had picked to land. I snapped in the radio: “There’s an
+airplane down on the lake.” I was committed. There could be no
+further maneuvers. At the X&#x2060;-15’s glide speed on final, 280 miles
+an hour, I would touch down in twenty seconds.</p>
+
+<p>The “airplane” turned out to be the emergency helicopter
+which hovers near the landing area. It was almost directly below
+me when I dropped the ventral fin. I radioed: “Hope that helicopter
+doesn’t get hit.”</p>
+
+<p>Luckily it didn’t. As I pulled the X&#x2060;-15 nose high, feeling for
+the ground, chase White reported: “You’re looking good, buddy.”</p>
+
+<p><span class="pagenum" id="Page_373">[Pg 373]</span></p>
+
+<p>The flaps were slow in extending. I landed with 28 degrees
+of flaps instead of 40, which made the touchdown a little faster
+than usual. Even so, I judged it the best X&#x2060;-15 landing I had
+made. As was his custom, Q.C. radioed:</p>
+
+<p>“Everything all right?”</p>
+
+<p>For once everything <i>was</i> all right. No fire, no porpoising near
+the ground, no other major malfunctions. It was judged a near-perfect
+flight from a mechanical standpoint.</p>
+
+<p>“No sweat,” I replied.</p>
+
+<p>I called the gauges and opened the ram-air door to relieve the
+cockpit of nitrogen gas pressure so that I could open the canopy
+without undue strain. The ground crews arrived. The men lifted
+the X&#x2060;-15 onto its special trailer and towed it back to the North
+American hangar. Captain Richardson met me in his support van
+with a full-blown martini.</p>
+
+<hr class="tb">
+
+<p>Not many days after that flight I received a startling piece of
+news. I had been promoted, or more precisely I had been granted
+a clearly defined slot in North American. No longer just a consultant
+for the X&#x2060;-15 and its demonstration pilot out on a limb, I
+was made Chief Engineering Test Pilot of the division, working
+directly for George Mellinger, long-time manager of North America’s
+Engineering Flight Test. Here was one more handhold to
+insure the building of airplanes so that a pilot can fly them.
+Slowly but surely the trend that started in 1942 with the deaths
+of Eddie Allen and Jimmy Taylor, of airplane design growing
+foreign to pilots’ needs, was reversing. It now takes legions of
+engineers to build an airplane, and then in hindsight there is a
+pitifully slow and expensive stewing by the test pilot to make
+the fruit of this endeavor palatable.</p>
+
+<p>In my life, it seems, bad news usually comes with the good.
+Shortly after my promotion, or assignment, we received the stunning
+word that the B&#x2060;-70, the last of the Air Force future combat
+airplanes, had been severely cut back. According to the Air
+Force, North American would build only one prototype, a gutless
+shell with no armament or weapons system. All the major subcontracts
+were canceled. North American would make the complete
+<span class="pagenum" id="Page_374">[Pg 374]</span>airplane on much the same pattern by which we had built
+the experimental X&#x2060;-15. In the aircraft trade this “cutback” was
+interpreted as stage-setting for complete cancellation of the project
+in the following Air Force budget. The cut left North American
+without any airplanes in production except a few twin-jet
+executive-type T&#x2060;-39s. The last of the advanced manned airplanes
+was all but gone.</p>
+
+<p>The news left me bewildered. Now at last I was on the point
+of achieving my dream of being an engineering test pilot in a
+position to do some substantial good. But there would be no airplanes
+to fly. We were all dismayed at this incredible break in
+history. We were almost finished de-bugging the X&#x2060;-15. But there
+would be no airplanes to benefit from the data we collected in the
+flights. The dire prediction of one of my fellow pilots at NACA
+years before—that the X&#x2060;-15 would be the last of the manned
+aircraft—seemed to be coming true. We were not opening a new
+era in aviation at all. We were closing one. Unless....</p>
+
+<hr class="tb">
+
+<p>The briefing room was crowded with Air Force and NASA
+brass. Stormy was holding forth with his limitless energy, in his
+persuasive, articulate, prophetic way. On the blackboard behind
+him was a drawing of Saturn, the giant booster rocket under
+development by Wernher von Braun and his team of ex-German
+rocket experts at the Army’s Ballistic Missile Agency in Huntsville,
+Alabama. Perched atop Saturn, a cluster of eight Jupiter
+rocket engines generating a staggering 1.5 million pounds of
+thrust, was an ICBM-type second stage, and on top of that a
+familiar shape, the X&#x2060;-15.</p>
+
+<p>“We figure the X&#x2060;-15, carrying two pilots on a maximum shot,
+could be put into orbit hundreds of miles above the earth. Or
+with a scientific or military payload of thousands of pounds, not
+including the weight of two X&#x2060;-15 pilots, the ship could be put
+into a lower orbit. The target date is, say, three or four years. By
+then our current X&#x2060;-15 will have accumulated more than one
+hundred powered flights. The ICBMs should be fully operational.
+Saturn itself will have been fired many times. We believe
+this is the logical, thoughtful, and economic approach to manned
+<span class="pagenum" id="Page_375">[Pg 375]</span>space travel. Many improvements to the X&#x2060;-15 will be required, of
+course, but we will begin from a firm foundation of experience.
+Many of the present X&#x2060;-15 systems are adaptable for true space
+flight. We will have amassed considerable flight-test experience,
+which is not acquired overnight, as you know quite well. We
+have an active flight-test team in being today.”</p>
+
+<p>Much later I asked Stormy: “What do you think?”</p>
+
+<p>“I don’t know, Scotty. NASA is pretty much absorbed with
+the Project Mercury capsule approach. The Air Force is reluctant
+to move because of the ill-defined lines of authority and maybe
+because the X&#x2060;-15 is NASA-inspired and NASA-controlled, and
+you know the President’s directives in this area. The Air Force, I
+think, will probably award study contracts for specific kinds of
+orbiting vehicles yet to be invented. We’ll keep trying. But I
+think politically our idea is neither fish nor fowl and because of
+that—certainly not for technical reasons—we may be left out in
+the cold.”</p>
+
+<p>“We can’t let this thing just wither and die right on the verge
+of success,” I said. “Too much has gone into it, too much can
+come out of it.”</p>
+
+<p>“But it’s hard to get a point like that across, Scotty. People are
+too busy. Too many committees. Too many phone calls. Too many
+investigations. Too many specialists in details are growing up,
+building empires around special theories, turning their backs
+on the hard facts of operations.”</p>
+
+<p>“Well, maybe I’ll write a book and try to get all this across,”
+I said.</p>
+
+<p>“Go ahead,” Stormy said. “But I’ll tell you <i>that’s</i> a big job in
+itself.”</p>
+
+<p>And, as usual, Stormy was right.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_376">[Pg 376]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_41">CHAPTER 41 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 41</span> “<i>You Have a Fire!</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">Five days after the second successful powered flight we were
+airborne again. On this flight we deliberately loitered at altitude
+over Edwards to simulate the long trip to the X&#x2060;-15’s ultimate
+launch point over Utah. We spent the time on several launch
+rehearsals. Then we moved into the real thing, ticking off the
+items on the check-list with the precision of long practice.</p>
+
+<p>“One minute to launch,” Jack Allavie called.</p>
+
+<p>The X&#x2060;-15 was humming to perfection. The APUs were churning
+out electricity and hydraulic power. My left hand reached for
+the valve to shift my oxygen supply from B&#x2060;-52 to X&#x2060;-15. I flicked
+my wrist, but nothing happened. The valve was jammed.</p>
+
+<p>Involuntarily I made some unintelligible comment on the radio.</p>
+
+<p>Q.&nbsp;C. Harvey came back instantly: “What’s the matter, Scott?”</p>
+
+<p>“I can’t switch over the oxygen. I’ve got to hold. Hold the
+countdown.”</p>
+
+<p>Seldom in my flying career had I been so thoroughly disgusted.
+That an elaborate, expensive flight might be canceled
+by the seizing of a fifty-cent valve seemed just too much. I
+worked it back and forth to try to loosen it.</p>
+
+<p>“This one’s got me stumped, Q.C.,” I said, trying to think of
+<span class="pagenum" id="Page_377">[Pg 377]</span>some way to free it. With both hands I tried to turn it by main
+strength and ripped a seam in my left glove from the pressure.
+Using my knee-pad as a lever, I tried to crack it free by hitting
+the pad with the heel of my hand. My tape recorder picked up the
+thud of this futile pounding. The gloves I was wearing on that
+flight were made of an experimental material, since discarded.
+When I tore them, I had to give up. We could not fly the X&#x2060;-15
+without full-pressure suit protection.</p>
+
+<p>“Q.C.,” I grumbled, “I’m afraid we’re dead.”</p>
+
+<p>A few minutes later the windshield frosted over, a trouble we
+had not experienced since the first captive flight. It was solid
+ice. No amount of scrubbing with my ripped gloves, no amount
+of defogging heat would remove it. If the oxygen valve had
+worked and we had launched, I would have found myself in
+serious trouble indeed, strapped in the X&#x2060;-15 flying blind. I
+wondered: Is Someone looking after us?</p>
+
+<hr class="tb">
+
+<p>In late October the capricious desert weather led us a merry
+chase. The rainy season, unpredictable but usually falling in
+December, came early. Black clouds towered out of the Edwards
+basin. Scattered showers pelted the parched dry lakes, dampening
+and slicking the surface. We waited, hoping until the last moment,
+before canceling each flight. Much of the time the X&#x2060;-15 was
+kept mated to the B&#x2060;-52. With December’s heavy showers, which
+could close the lake for several months, drawing ever closer,
+many of us were anxious, on the eve of continued success, to
+keep the team in training.</p>
+
+<p>While chasing the weather during the last week in October,
+a situation arose that was obviously ridiculous, yet one that
+could not be completely ignored. Security informed us they
+had received a tip that Wernher von Braun and I would be
+assassinated on October 29. Some people wanted to cancel the
+flight scheduled for the next day. I objected. To protect our
+bird, however, we doubled the guard on the B&#x2060;-52 and the
+X&#x2060;-15. The North American Security Force offered me a bodyguard
+which I declined. I was worried only that some maniac
+might harm Alice and the children. On the afternoon of October
+<span class="pagenum" id="Page_378">[Pg 378]</span>28 I flew down to Los Angeles and spent that evening and the
+next at my home in the community of Westchester, bordering
+the Los Angeles International Airport.</p>
+
+<p>October 29 passed with no assassination attempt and we heard
+nothing more about the “plot.” Weather again forced a cancellation
+of the flight that day and on October 30.</p>
+
+<p>On Saturday, October 31—Hallowe’en—the weather was marginal
+but we scheduled a flight. The meteorologists doubted
+that it would clear for at least twenty-four hours. But we have
+all long since learned that meteorology, like psychology, in aviation
+is a loosely organized superstition and that it is foolhardy
+to schedule flights according to weather predictions, especially in
+the desert. Stormy and I flew from Los Angeles to Edwards in my
+Bonanza and toured the area, intently observing the cloud formations.
+A warm-weather front was moving in from the east, a rare
+occurrence on the desert. It was indeed a marginal situation. I
+felt it was worth a gamble and after our survey Stormy agreed.
+If nothing else, even a captive flight would be useful and would
+not waste the efforts and spirits of our ground crew; they had
+worked almost continuously for two weeks keeping the X&#x2060;-15
+primed.</p>
+
+<p>We took off late—0940—and by the time we reached launch
+altitude the freak easterly front had closed Cuddeback Lake
+emergency landing strip. This was our intended launch point.
+We pressed on. Nearby Rosamond Lake was still clear. I radioed
+Q.&nbsp;C. Harvey.</p>
+
+<p>“I recommend we go as quickly as possible into a launch and
+that I make a subsonic local flight.” My thought was that as
+long as we had come this far, a slow flight of the X&#x2060;-15 was better
+than no flight at all and we needed the data.</p>
+
+<p>There were murmurs of protest on the radio. But I voted to
+continue. I was not being foolhardy. It’s just that I have an
+inherent fear of “cancelitis,” an insidious disease which, as we
+have seen, has afflicted many experimental airplane programs.
+When it sets in, the program loses its sense of urgency, and
+apathy seeps clear through the ranks from pilot to mechanic.
+We could not afford to let this happen.</p>
+
+<p><span class="pagenum" id="Page_379">[Pg 379]</span></p>
+
+<p>When the ground command post agreed to my idea for a slow-speed
+flight, I radioed Q.C. again: “Now I want you to do something
+for me. Keep an eye on that front. If it gets one bit farther
+west, I’ve got to cancel this flight.”</p>
+
+<p>We began the launch procedure with all hands keeping a sharp
+eye on the front. A few moments before launch the ground
+station detected a rapid cloud advance. I radioed chase Al White:</p>
+
+<p>“Al, do you think you could see the west edge of the lake
+from about 15,000 feet downwind?” In other words, I was asking
+if it would be possible for me to see to land the X&#x2060;-15.</p>
+
+<p>“Scotty, I can just barely see the lake through the edge of the
+clouds.” When I heard Al’s reply I knew we were finished. The
+front had moved in.</p>
+
+<p>Sam Richter came on the radio: “We strongly recommend we
+cancel this flight.” Sam knew I would read “we” as “Stormy,”
+who never used the radio. It was clear that he was anxious. A
+strong recommendation from Stormy was, of course, an order.
+“Okay,” I replied glumly, even though I certainly agreed.</p>
+
+<p>We shifted to a launch-rehearsal procedure. Just before the
+simulated drop I radioed for the wind speed and direction on
+the lake, an ironic gesture. Some people on the ground thought
+I might still be seriously considering an actual drop. Q.C.
+quickly came on and said:</p>
+
+<p>“No launch, of course, Scotty.”</p>
+
+<p>After the rehearsal I radioed again in a voice heavy with
+irony: “Beautiful launch.”</p>
+
+<p>We jettisoned fuel and Lox and landed. Three hours later,
+as if nature were deliberately mocking us, defying us to penetrate
+the secrets of space, the lake bed was unpredictably clear.
+By then it was too late for a second try.</p>
+
+<hr class="tb">
+
+<p>So far we had conducted most of the X&#x2060;-15 flights—circular
+patterns—within about twenty miles of the Edwards base. Now
+as we advanced in our flight-test program, we planned to drop
+the ship farther out, to enable me to fly in a straight line and
+subject the X&#x2060;-15 to high-speed and high-altitude maneuvers to
+define her safe-flying limits. We selected the new, more distant
+<span class="pagenum" id="Page_380">[Pg 380]</span>launch points so that a flight would always begin over one of the
+dry lakes. If the engine failed or some other malfunction occurred,
+I could land. If it performed as expected, I could fly
+back to Edwards on my own steam and land on Rogers.</p>
+
+<p>Two launching points that appealed to us were Cuddeback and
+Three Sisters Dry Lakes, about seventy miles from Edwards as the
+crow, or rather the X&#x2060;-15, flies. But our plan to launch over these
+lakes was complicated by the rapidly changing and generally
+deteriorating desert weather. Rain dampened Cuddeback and
+Three Sisters. Some “experts” said that an emergency landing on
+these lakes would be like landing in a marsh.</p>
+
+<p>Everyone who has ever flown at Edwards has his own unscientific
+and usually inaccurate method for testing the “dampness”
+and strength of the dry-lake beds. One system is to poke a
+rod in the sand. I flew up to Cuddeback in a light plane to make
+my own test. It was damp but adequate, and since I would land
+there only in an emergency and I really did not anticipate an
+emergency, I proposed the longer-range launch at Cuddeback,
+rather than continue to idle around Edwards and delay the
+program.</p>
+
+<p>Roy Ferren, North American’s Chief Flight Test Engineer, was
+against launching over Cuddeback. He argued for more experience
+with launches closer in, over Bouquet Canyon Reservoir, say,
+which was within glide distance of Lake Rosamond, then in better
+shape than Cuddeback. Ferren made a good case and I conceded
+he had a point. In light of the near-disaster that followed, it was
+probably fortunate for both me and the X&#x2060;-15 program that he
+prevailed.</p>
+
+<p>There was nothing in the take-off and pre-launch routine that
+day, November 5, to indicate a new and formidable crisis was in
+the making. The X&#x2060;-15 and B&#x2060;-52 were tight as ticks: no valves or
+regulators were leaking, the nitrogen pressure, APUs, Lox top-off
+system, pressure suit—everything—all perfectly tuned, so much so
+that I reported by radio:</p>
+
+<p>“Take out the X&#x2060;-15 handbook, Q.C. See what the instrument-panel
+gauges should read. That’s what I’ve got.”</p>
+
+<p>We bore down on the Bouquet Canyon Reservoir launch point
+<span class="pagenum" id="Page_381">[Pg 381]</span>at Mach 0.82 and 45,000 feet. After thirteen flights in the X&#x2060;-15, including
+the launches, I worked almost routinely in the cockpit.
+I turned on the rocket-engine master switch, shifted to X&#x2060;-15 oxygen,
+and finally flashed the green launch-light in Jack Allavie’s
+cockpit in the B&#x2060;-52. I was hoping that day, if all went well, to inch
+the X&#x2060;-15’s speed to Mach 2.6 or about 1700 miles an hour, and to
+fly to 80,000 feet. At higher speed it was easier and safer to make
+our demonstration points and because of this neither NASA nor
+the Air Force seemed intent on enforcing the Mach 2.0 speed restriction
+on North American.</p>
+
+<p>“DROP.”</p>
+
+<p>For the fourth time I heard the familiar “kerchunk.” The X&#x2060;-15
+fell away in free flight. Striving for a fast light-off I leveled the
+ship with my right hand and flicked the rocket switches with my
+left. I lighted number two and number four barrels on the lower
+motor first. Then I flicked number two and number four barrels
+on the upper motor. Then number three and number one on the
+upper. When I threw the toggle on number three and number one
+of the lower motor, the last two barrels, I felt a tremendous
+jar. The whole airplane shook violently, an explosion that seemed
+to be right behind me. My first thought was that the APU had
+blown again.</p>
+
+<p>The ship was picking up speed. My eye swept to the APU
+gauges. They were in the green. The APU had not failed. I was
+puzzled. Then I noticed that the pump for the lower rocket motor
+was overspeeding and shutting down, indicating a malfunction. An
+amber warning light flashed on in the cockpit. The flight was done
+before it began. I shut off the four switches for the lower motor.</p>
+
+<p>About five seconds had ticked by. At that instant chase pilot
+Bob White, who was flying his F&#x2060;-104 close by the tail of the X&#x2060;-15,
+snapped on the radio: “Looks like you had an explosion in the
+rocket motor.” Almost simultaneously a fire-warning light flashed
+on my instrument panel.</p>
+
+<p>For a rocket-plane pilot this is a pure and simple moment of
+truth. In the past, four rocket planes had exploded and caught fire:
+the X&#x2060;-1&#x2060;-A, X&#x2060;-1&#x2060;-D, X&#x2060;-2, and “Queenie.” Each was demolished. Two
+choices lay open: to pull the ejection-seat handle and bail out, or
+<span class="pagenum" id="Page_382">[Pg 382]</span>to ride the ship out and try to save her. The thought of a bail out
+never occurred to me. I’m paid to bring airplanes back, not throw
+them away. My course was set when I first stepped in the airplane.</p>
+
+<p>Working swiftly to minimize the chance that the fire might
+spread, and to prevent the ship from flying beyond reach of Rosamond
+Dry Lake, I shut down the rocket engines and closed the
+fuel lines. All the while I held the ship in level flight.</p>
+
+<p>Chase White, his voice rising with concern, said: “You have a
+<i>fire</i>!” From his position in the F&#x2060;-104 he could see the flames
+streaming from the rear of the X&#x2060;-15.</p>
+
+<p>I had completed the shut-down and was thinking ahead to the
+emergency jettison when Bob White, now very worried for me,
+radioed:</p>
+
+<p>“You have a fire! <i>Please</i> shut down.”</p>
+
+<p>With no thrust to maintain her air speed, the X&#x2060;-15 was sinking
+rapidly. I glanced at the altimeter: 32,000 feet. In two minutes I
+would be on the ground. I spoke on the radio:</p>
+
+<p>“Going to jettison NOW.”</p>
+
+<p>The heavy stream of Lox and Walc and hydrogen peroxide
+trailed through the sky behind me. The fire-warning light flickered
+out. I radioed White:</p>
+
+<p>“Bob, I’m going to put down on Rosamond. Please let me know
+when we have reached the center of the lake.” I was thankful then
+that Roy Ferren had vetoed the Cuddeback launch. It might have
+been a mess.</p>
+
+<p>“Jettison looks good,” White reported. “I don’t see any sign of
+the fire now.”</p>
+
+<p>“Where’d it come from? Could you see?” I asked.</p>
+
+<p>“I think it was the lower engine.”</p>
+
+<p>“Thank you,” I said. That fact tied in with the overspeed and
+shutting down of the lower pump. In my mind I envisioned
+the complex plumbing system, trying to guess what might have
+happened. How long would it take to fix it? How much more delay
+would these supposedly reliable engines, with so much time on
+them, cause us?</p>
+
+<p>The jettison was completed in 114 seconds. There was still a
+little fuel left in the tanks. The powerful suction of the rocket
+<span class="pagenum" id="Page_383">[Pg 383]</span>engine usually burns them bone dry. In the less efficient jettison
+it is not possible to get all the fuel out. The X&#x2060;-15, I knew, would
+come in more than a thousand pounds heavier than the previous
+three landings. My thoughts turned to the landing gear. We had
+been planning to beef it up following this flight, to give us an
+added margin of safety. However, I was confident that the gear
+would hold.</p>
+
+<p>Chase White radioed: “We’re almost to the east edge of the
+lake now.”</p>
+
+<p>I was surprised. We should have been approaching the lake from
+the south. In another fifty seconds I would be touching down.</p>
+
+<p>“Almost <i>where</i>?”</p>
+
+<p>“Pardon me. Almost to the <i>edge</i> of the lake.”</p>
+
+<p>“Thank you.” I could tell from White’s radio transmissions and
+from others, that the entire X&#x2060;-15 flight-test group was frozen in
+tension. Every man was aware of the potential danger of fire in
+a rocket plane. Many of them no doubt expected to see an explosion
+smear across the sky at any second. To put them at ease, as
+I turned on downwind I cracked on the radio:</p>
+
+<p>“Sorry. I’m going to miss getting the data coming in here.”</p>
+
+<p>Chase White chanted my decreasing altitude on the radio:
+“8,000 ... 7,000 ... 6,000 ... 5,000....” I blew the ventral fin and
+got set for the approach, holding the X&#x2060;-15 nose high. I keyed my
+radio mike so that I could no longer receive radio transmissions
+which might be distracting. I lowered the tail skids and nose
+wheel, pulled the flaps, and felt for the lake bed.</p>
+
+<p>The skids dug in gently. The nose slammed down hard and the
+ship plowed across the desert floor, slowing down much faster
+than usual. Then she came to a complete stop within 1500 feet
+instead of the usual 5000 feet. Something was wrong; the skids
+failed, I was sure. Not knowing the cause of the trouble and with
+the fire still very much in my thoughts, I remained buttoned up
+in the fireproof cockpit. My radio was dead. I sat alone, waiting
+in silence.</p>
+
+<p>The emergency helicopter reached the X&#x2060;-15 first. I saw North
+American’s flight surgeon, Toby Freedman, and Brian Lauffer
+jump out of the chopper and run toward the ship. A good sign, I
+<span class="pagenum" id="Page_384">[Pg 384]</span>thought. She wasn’t on fire. I opened the canopy and removed my
+helmet.</p>
+
+<p>Toby was the first to speak. “The plane’s busted in two,” he said.</p>
+
+<p>“What?” I asked. I couldn’t believe it. Quickly I scrambled out
+of the cockpit. What I saw almost broke my heart. The fuselage
+had buckled immediately aft of the cockpit, two hundred and
+thirty inches back from the nose. Her belly had dragged in the
+sand, causing the abrupt deceleration on the lake. The rocket
+chambers which had exploded at launch were a shambles.</p>
+
+<p>When Stormy and Sam Richter first heard the report of fire on
+the radio, they jumped into a light plane at Edwards and flew
+immediately to Rosamond Lake, landing alongside the broken
+bird. They ran up, staring in disbelief. A minute later the fire
+trucks arrived. One of the firemen, an old friend who had probably
+met me on the lake in his truck a hundred and fifty times, cried
+quietly as he sprayed the broken plane with water. I felt like
+crying myself. At first look it seemed to all of us that that obstinate
+filly would never break to bit and was mocking our efforts in the
+grand plan for space flight.</p>
+
+<p>I flew back to Edwards in the light plane. There was not much
+talk. I changed out of the pressure suit into street clothes. Toby
+Freedman examined me briefly for the record. Then we all flew
+back to the airplane again. By then the wreckers were there and,
+sad to say, some newspaper photographers. It was silly, but when
+they took their pictures I smiled. It was a vain attempt to laugh
+away our anguish, to tell anybody who might care that we were
+not defeated—not by a long shot. And the truth of the matter was,
+we weren’t. Our course was set on the stars.</p>
+
+<hr class="tb">
+
+<p>In the investigation immediately following the accident, the
+explosion was laid to an engine-ignition failure. This was a relief.
+At least it was no fundamental weakness in our pioneering airplane,
+no design fault. It was simply a piece of bad luck that could
+have happened at any time to any rocket airplane, regardless of
+meticulous grooming. In retrospect, there was nothing we could
+have done about it. But now we would plug this weakness and
+hope there were no more like it hidden away.</p>
+
+<p><span class="pagenum" id="Page_385">[Pg 385]</span></p>
+
+<p>That flight proved one thing: the X&#x2060;-15 is a tough bird. When
+we trucked X&#x2060;-15 number two to the plant in Los Angeles for
+a close factory look at her, she was not so badly damaged. The
+rocket engine had to be completely replaced and the shattered
+engine bay rebuilt. We put a patch—called a doubler plate—inside
+the fuselage where she had cracked, and in thirty days, after a lot
+of additional work, she was better than ever. This was an airplane
+repair record, in any man’s league. Meanwhile, we rolled out X&#x2060;-15
+number one, which I had not flown since the first glide test. Since
+then we had been making her ready for a powered trip into the
+sky before the rains closed the lakes. We were ready for flight
+with X&#x2060;-15 number one in the week following the near-disaster
+with ship number two.</p>
+
+<p>But there was an unanswered question gnawing at us. Why
+did the fuselage buckle? My touchdown had not been hard. The
+plane, with off-breed engines, NASA instrumentation, and excess
+fuel, weighed an additional several thousand pounds. But
+none of these factors added up to a broken fuselage, unless we
+had goofed terribly in the structure of the ship, something no one
+could believe. We postponed flight operations to conduct an agonizing
+reappraisal, checking and rechecking the data, probing,
+thinking, talking.</p>
+
+<p>It was Charlie Feltz, with his wonderfully intuitive engineering
+sense, who came up with an answer that turned out to be correct.
+He believed there was something happening in the nose-wheel
+shock absorber which denied the airplane the “cushion” it required.
+Thus, he said, the strut was unduly rigid at touchdown
+and that was why it broke. The laboratory engineers confirmed his
+theory in a hundred tests of the nose wheel in the factory. The
+defect was caused by the rapid extension of the telescoped nose
+gear. The gear came down so fast that the oil in the shock absorber
+foamed or turned to vapor which has no shock-absorbing
+value. Unknowingly, up to then we had in effect been landing the
+ship with little or no nose-wheel shock absorber at all. It was just
+pure luck that the ship hadn’t broken before.</p>
+
+<p>We corrected the defect. To be doubly sure, Charlie asked me
+to lower the gear a little bit sooner to give the oil time to “settle
+<span class="pagenum" id="Page_386">[Pg 386]</span>down.” But really, I think, his request was to save wear and tear
+on his own frazzled nerves while watching the landings.</p>
+
+<hr class="tb">
+
+<p>X&#x2060;-15 number one had been ready for days. But now the rainy
+season had set in at Edwards, delaying all flights indefinitely. The
+first week of December passed and then the second. The rain
+thinned out; the lake beds dried. On December 16, forty-one days
+after the fire and explosion, we scheduled our fifteenth flight. My
+intent was to make a simple, brief powered flight—the first in that
+airplane. Then we would turn the craft over to NASA, approximately
+three and a half months behind schedule.</p>
+
+<p>It was cold in the desert. The ground crews were bundled in
+heavy jackets. Stormy, Sam Richter, and I huddled in Sam’s van,
+while I read through the carry-over list. One piece of navigating
+equipment, installed for the deep-space probes, was out. But this
+would in no way affect our demonstration flight.</p>
+
+<p>After I put on my pressure suit I sprinted from the van to the
+X&#x2060;-15 boarding ladder, a vain attempt to instill some life and enthusiasm
+in our operation. The morale of the X&#x2060;-15 ground crew
+was sagging. A rumor had gotten around that our participation
+in the flight program was short-lived. A lot of Monday-morning
+experts could do it better. Our highly professional team, they
+thought, would soon be disbanded. Many of the men would be
+looking for other jobs.</p>
+
+<p>We were airborne by 0830, climbing for altitude, intending to
+launch over Rosamond. On take-off my radio went out. The others
+could hear me key the mike, but not my voice. Routinely Q.&nbsp;C.
+Harvey shifted to the mike-clicking system to run through the
+countdown. One click from me meant yes; two clicks meant no.
+While we had this tenuous but effective communications link, there
+was no need to cancel. It was a beautifully clear day. We pulled
+thick white contrails at altitude. At 0931 we reached 40,000 feet.</p>
+
+<p>Q.C. said: “If all okay, Scott, give me one click.”</p>
+
+<p>I keyed the mike one click.</p>
+
+<p>Double-checking, Q.C. radioed: “Scott, if you wish to go ahead
+and launch without communications, please give me one click.”</p>
+
+<p>I keyed the mike one click.</p>
+
+<p><span class="pagenum" id="Page_387">[Pg 387]</span></p>
+
+<p>Again rechecking, Q.C. said: “Do you desire to cancel the
+launch?”</p>
+
+<p>I keyed the mike two clicks. It’s not possible, of course, but I
+tried to transmit a feeling of urgency with those electronic clicks.
+They were hard, firm clicks, at least. Why did I need a transmitter?
+Its main purpose was to keep people on the ground from
+getting lonesome.</p>
+
+<p>Approaching the launch point I prepared the rocket engine for
+its first flight. Four minutes from launch time I turned the valve
+to pressurize the main fuel tanks, eyes glued to the gauge. The
+gauge indicated a rapid rise and then a sudden fall of pressure in
+the tanks. The helium regulator was erratic again. I pressed hard
+for a launch: we had a job to do and would get it done, if permitted.</p>
+
+<p>Two minutes before launch the fuel-tank pressure began to
+climb slowly. Hope!</p>
+
+<p>Q.C. said: “Scott, we understand you still want to launch. If
+this is correct, give me one click.”</p>
+
+<p>I keyed the mike once, firmly.</p>
+
+<p>“One minute to launch.”</p>
+
+<p>I tested the flaps and controls. Chase reported they were operating
+satisfactorily. I was ready to go. The tank pressure was hanging
+within limits, though barely—it would need watching. But at
+the last second the tank pressure again began to sag. If I launched,
+I would endanger the ship.</p>
+
+<p>Q.C. came on the radio for a final check: “Scott. Reaffirm that
+it is okay to launch. If so, give me one click.”</p>
+
+<p>With the greatest reluctance I keyed the mike twice.</p>
+
+<p>“You do <i>not</i> want to launch, is that correct?”</p>
+
+<p>I keyed the mike once. Then I saw a face in the new hemispherical
+window of the B&#x2060;-52. I drew my index finger under my
+throat indicating we were finished. We jettisoned and returned to
+base. The Monday morning quarterbacks sharply criticized us for
+attempting to launch without a transmitter. The same quarterbacks
+had declared a year earlier that only one transmitter was
+necessary, and even this one was not essential to the X&#x2060;-15 pilot’s
+mission.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_388">[Pg 388]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_42">CHAPTER 42 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 42</span> <i>Minor Miracles</i>
+ </h2>
+</div>
+
+
+<p class="noindent">The year 1959 was a shake-down ride for the X&#x2060;-15. In her first
+year at Edwards the ship was carried aloft fifteen times. Two of
+these trips were planned captive flights with no intent to launch.
+The other thirteen were serious attempts to fly. On nine of these
+thirteen trips some part of the X&#x2060;-15 failed and the attempt was
+called off. Of the remaining four trips one was the first glide test.
+The other three were rocket-powered flights. Of the three rocket-powered
+flights only one was completely successful. The other two
+began or ended in serious emergencies, traceable to the “proven”
+X&#x2060;-1-type rocket engine. Moreover, a fire on the ground during a
+routine grooming gutted the engine of one airplane. One X&#x2060;-15
+cracked and split open on landing.</p>
+
+<p>These failures, heartbreaking as they are, are common to all new
+high-performance airplanes. In the case of the X&#x2060;-15 we, as old
+hands, had long since learned to live with them. They laid the
+foundation for a razzle-dazzle success story which immediately
+followed in 1960. The X&#x2060;-15 suddenly came out of the mire, flexed
+her wings, and took off with a speed and reliability that startled
+even us. We more than doubled her flight-test rate and at the same
+time almost eliminated all aborts. From January to late May—less
+<span class="pagenum" id="Page_389">[Pg 389]</span>than six months—the X&#x2060;-15 was carried aloft sixteen times. Of these
+sixteen tries only three were canceled. The remaining thirteen
+flights were rocket-powered runs, with only minor technical difficulties
+or none at all. On one of these flights our bird flew faster
+than any other plane in history.</p>
+
+<p>For a little while, though, in early 1960 it looked as if we
+would never get off the ground. Both number one and number
+two X&#x2060;-15s had been repaired. New and stronger landing gear was
+installed. The birds were tuned to perfection, as were the two B&#x2060;-52
+mother planes. But heavy rains flooded the Edwards dry lakes.
+For a time we believed the lakes might be closed for several
+months. Impatient to roll, we investigated the possibility of
+launching at a distant lake near Tonopah, Nevada. For some
+reason this lake seemed immune to the capricious desert weather.
+It was dry as a bone. We moved some of the X&#x2060;-15 ground crew
+and communications team to Tonopah. When the rain at Edwards
+fell off and the lakes began to dry, we canceled the Tonopah emergency
+plan.</p>
+
+<p>On our first flight in 1960—January 23—we took off very late in
+the afternoon, having been delayed several hours by an airplane
+which crashed and tied up the main runway. I was riding X&#x2060;-15
+number one, which I had yet to fly under power. The launch—at
+45,000 feet—was rough. I rolled hard right and then left and was
+slow lighting the engine. But once I got it going, the ship took off
+like a jack rabbit, pushed along by a hundred-mile-an-hour tailwind.
+The airplane felt cranky and ill at ease. I kept a tight grip
+on both control sticks to hold her steady. Even so, she flew like the
+wind. Tracing a huge circle of rocket exhaust over the Edwards
+base, I performed some special maneuvers laid out in the flight
+plan. She pushed up to Mach 2.6—1700 miles an hour—and the
+chase lost me completely. Only Everest and Apt had flown faster
+and we were reigning even with low-powered engines.</p>
+
+<p>I was exhilarated. Seventy-nine days had passed since my last
+previous X&#x2060;-15 powered flight. The ground crews felt happy, too,
+I knew, because the strict radio-circuit discipline was observed by
+no one. I keyed my mike in flight and <i>sang</i>: “Back in the saddle
+again!” Letting down on final, I radioed Q.&nbsp;C. Harvey and asked
+<span class="pagenum" id="Page_390">[Pg 390]</span>him if he’d like me to drive the X&#x2060;-15 up on the NASA ramp. When
+he replied, “Sure,” someone else cut in on the circuit and said:
+“You’d better get someone to open the hangar door!” A friendly
+needler, recalling my near-disaster with the F&#x2060;-100, cracked: “Yes,
+at both ends.” The landing was the best I’d ever made. I came in
+at 220 miles an hour with a 7½ degree nose-up angle. Because of
+the delays, I had spent eight hours in the pressure suit. In more
+ways than one, it was a relief to shuck it.</p>
+
+<p>Only the unusual, uneasy feel of the airplane marred the flight,
+and not even this dampened our customer’s eagerness to take
+possession of the airplane. On investigation we found that the problem
+was caused by a minor maladjustment of the SAS system. This
+was quickly fixed, and at NASA’s request after this single powered
+flight we formally turned X&#x2060;-15 number one over to the customer—lagging
+five months on a five-year-old schedule. Captain Richardson
+forgot my martini that day, but NASA director Paul Bikle
+made up for it. At the post-flight briefing he presented me with
+a fifth of Old Taylor. Everybody was quite happy. The time had
+come to put the black bird to work.</p>
+
+<p>The North American flight-test team then turned its complete
+attention to X&#x2060;-15 number two, the plane I had cracked on the
+November 5 landing. Under our contract terms we had to perform
+a series of required demonstration points with the airplane. We
+would show that the ship was capable of withstanding heavy
+G forces in a turn, pull-up or roll. I would dive the ship from
+extreme altitude to prove that it would recover satisfactorily. We
+would test the ballistic control system, the jet nozzles on the nose
+and wing which would be used later to steer the ship in airless
+space.</p>
+
+<p>Our first attempt with X&#x2060;-15 number two on February 4 was a
+dismal failure, perhaps attributable to “hangar fever.” The plane
+had not been in the air for ninety-one days. Everything seemed to
+go wrong. The cabin would not pressurize. My radio went out.
+An APU failed for the first time in almost a year. The Walc tank-pressure
+sagged. Even the jettison was feeble. We landed—the X&#x2060;-15
+in its nest under the B&#x2060;-52 wing—with a great deal of the Lox,
+Walc, and hydrogen peroxide still on board.</p>
+
+<p><span class="pagenum" id="Page_391">[Pg 391]</span></p>
+
+<p>After one week of intense fixing we got back into the air again
+on February 11. We loitered at altitude, simulating the long ride
+to the ultimate Utah launch point. The countdown revealed no
+malfunctions and, as still another test, I launched myself from the
+B&#x2060;-52. The eight barrels of the engine blazed and I zoomed easily
+to 90,000 feet, almost eighteen miles into the sky. I leveled out,
+rockets still blazing, to about 2.5 Mach. At burnout I pushed the
+ship into a very steep powerless dive, simulating a re-entry from
+space to earth. On Murray’s 1954 altitude flight, the X&#x2060;-1&#x2060;-A had
+tumbled wildly at this crucial point, but the X&#x2060;-15 held stable. In
+the dive my speed held at Mach 2.0, or 1320 miles an hour. At
+that speed the desert floor comes up mighty fast. It took me only
+twenty seconds to dive from 90,000 to 55,000 feet—almost seven
+miles. The ship was a little slow in the dive recovery. Although I
+pumped in full “up” stabilizer, she did not pull out until I reached
+about 50,000 feet.</p>
+
+<p>Following the dive recovery I made several highly technical
+demonstration points. Then because I was curious I popped the
+dive brakes at Mach .9. The effect was startling, like hitting a
+brick wall. Inadvertently I said “Wow!” over the radio. This set
+off Charlie Feltz: “Wha’d he say? Wha’d he say?” On the landing
+not many seconds later I caused a little more excitement. I had
+forgotten to arm the ballistic charge in the ventral fin. When I
+pushed the switch to blow the ventral at 6,000 feet on final, nothing
+happened. We all had visions of “the world’s fastest plow”
+digging a furrow in the lake bed. I quickly noted my oversight,
+armed the charge, and blew the fin before touchdown. On downwind
+leg before landing, the oxygen regulator failed and it became
+extremely difficult to breathe. By the time the ship stopped
+I was not able to suck any oxygen at all. But this was no great
+emergency. I simply opened the ram-air door and the visor on my
+helmet. This flight was considered a whopping success.</p>
+
+<p>We were rolling hard now, and it is difficult to recall the high
+points of the individual flights. On February 17 the upper rocket
+engine unaccountably shut down halfway through the run and I
+finished the demonstration on one engine. We lost a little ground.
+But on the March 17 flight I doubled the number of in-flight data
+<span class="pagenum" id="Page_392">[Pg 392]</span>points and regained what we had lost. The ship flew beautifully,
+so well that I exclaimed on the radio: “The <i>best</i> airplane I ever
+flew.” On the landing I felt so happy that I did a side-slip to lose
+a little excess altitude. This well-known maneuver is not recommended
+in modern high-performance airplanes, especially in one
+like the X&#x2060;-15, but it indicated our complete confidence in the
+black bird.</p>
+
+<p>Our ground turn-around time was now amazingly brief. In fact
+on the very next day, March 18, the crew had the airplane ready
+again for flight. About ten seconds before I was to cut myself loose
+(by then self-launching was adopted as standard procedure in the
+North American operation), my chase pilot, Al White—bless him—noticed
+a faint trickle of alcohol pouring out of a drain from the
+engine bay. He called out, and I instantly canceled the drop.
+Alcohol spilling in the engine bay spelled real potential trouble.
+If I had dropped and lighted off the engine, it would probably
+have exploded. The alcohol leak was traced to a cracked fitting in
+the maze of engine plumbing.</p>
+
+<p>On March 25, sixty-two days after we turned X&#x2060;-15 number one
+over to NASA, test pilot Joe Walker made his first flight. This time
+the old pro, feeling oddly misplaced, flew in a chase plane. Joe
+took his time for his first launch. The B&#x2060;-52 made several circles
+while Joe held the countdown. But then he cut away cleanly for
+a brief run. During the long delay my chase plane ran low on fuel
+and I had to return to base. So I missed seeing another man land
+the X&#x2060;-15 for the first time. Walker danced a jig on the lake bed
+to show his elation.</p>
+
+<p>In the next fifty-five days Walker and Air Force pilot Bob White
+made five additional powered flights in X&#x2060;-15 number one. This
+was an average of about one flight every ten days, a sustained
+turn-around time that beat most previous NASA records, except
+those we had established with the Skyrocket in the old days. Bob
+White experienced little difficulty in his first rocket-powered flight.
+He did a beautiful job, in my opinion. On his third flight, May 19,
+he zoomed to an altitude of 107,000 feet. Later, on August 12,
+he reached 136,500 feet.</p>
+
+<p>Walker made additional flights. On his third, May 12, he
+<span class="pagenum" id="Page_393">[Pg 393]</span>left all the rocket barrels on for the entire flight and added half
+a Mach number to the highest speed I had achieved in the plane.
+He reached almost the limit with the small engines, Mach 3.2,
+or about 2,110 miles an hour, a world’s speed record. Later, on
+August 4, he flew the ship Mach 3.3, 2,196 miles an hour, breaking
+his own record.</p>
+
+<p>X&#x2060;-15 number one was performing like the champion she was
+bred to be. Walker’s speed run was made on X&#x2060;-15 number one’s
+seventh consecutive powered flight with no intervening aborts. No
+experimental airplane in history—for that matter, very few conventional
+airplanes—have operated so well so soon after delivery from
+the manufacturer. This pleased us greatly and almost compensated
+for the year of frustration we had been through.</p>
+
+<p>On March 29, four days after Joe Walker’s first flight, I took
+X&#x2060;-15 number two into the air again for additional demonstrations.
+Most of these are too complicated to describe in detail. In essence
+I subjected the ship to severe strain in a variety of positions and
+angles of attack to prove that she would hold together in flight
+even under extraordinary circumstances. One of these maneuvers
+was an abrupt pull-up which put about six G’s on the ship. The
+newspapers made a lot of this flight—the fact that by pulling six G’s
+I weighed six times my normal weight, or almost half a ton—but
+a six-G maneuver is routine for a fighter pilot. Two days later, on
+March 31, I repeated these maneuvers and performed others.</p>
+
+<p>During April we delayed our flight program temporarily to install
+and ground-test the ballistic control system. In principle, the
+little hydrogen-peroxide jets are quite simple. However, the installation
+is complicated. Both the jets and the APUs use the same
+source of hydrogen peroxide. Thus it was necessary to establish a
+careful balance between the two—meaning more regulator valves
+and other devices which leak. Ultimately this installation and test
+spun into another around-the-clock routine, with Stormy prodding
+us to the limit. By May 5 we were ready.</p>
+
+<p>All the difficulties we feared, plus a few more, took place—just
+like the early days. At fifteen minutes to drop I operated the
+ballistic-control-system lever with my left hand. When I pushed
+the lever to the “up” and “down” positions, the hydrogen peroxide
+<span class="pagenum" id="Page_394">[Pg 394]</span>squirted through the jets in the nose. The system was not designed
+for operation at low altitude while the X&#x2060;-15 is cold. Thus when
+the undecomposed peroxide from the nose jets sprayed back and
+struck the windshield, a thick coating of ice was formed. I was
+sealed in blind. No amount of defogging gas helped. During the
+launch rehearsal an APU turned erratic and shut itself off. We
+had not yet achieved the necessary delicate balance in combining
+all the systems. This abortive flight touched off another night-and-day
+work regime that went on for about three weeks. We were
+ready again on May 26.</p>
+
+<p>We took off on schedule. Jack Allavie was flying in the left seat
+of the B&#x2060;-52. Fitz Fulton, who had made most of the drops in
+1960 as co-pilot, was replaced by Charlie Bock, back for his first
+mother-plane flight in seven months. I was in a flippant, cocky
+mood. It was my twenty-fifth flight in the X&#x2060;-15. I had never added
+the figures but I suppose by then I had spent some forty hours in
+the air under the B&#x2060;-52 wing.</p>
+
+<p>I had some additional equipment in the X&#x2060;-15 cockpit that day,
+a so-called “physiological package,” the type that will be sent aloft
+with the Project Mercury Astronauts when and if they orbit the
+earth. I was wired like a chimpanzee, with devices to measure
+my skin temperature, rate of breathing, heartbeat, blood pressure—everything
+but a “rectal probe,” for reference temperature, and
+<i>that</i> I refused to buy. All these devices telemetered a constant flow
+of physiological data to a group of aero-medical officers on the
+ground. I consider this information rather personal, and it
+seemed an indignity to have it broadcast so freely. Besides, I question
+its usefulness. The roots of capability are in a man’s spirit—a
+difficult measurement to get.</p>
+
+<p>So while we loitered at altitude waiting to launch, I cooked up
+a plot to tease the aero-medical officers. For a period of about
+thirty seconds I breathed at a heavy rate and wriggled violently
+in the cockpit, driving their gauges almost to the limit, I’m sure.
+Then I sat rigid—almost yogi-like—and held my breath for a full
+minute, during which time the gauges should have sagged to zero.
+In theory, I was dead. The aero-medical officers flashed no warning,
+<span class="pagenum" id="Page_395">[Pg 395]</span>a subtle proof that their faith lies in the man, not the equipment.
+A fine point can be made here.</p>
+
+<p>A second trick occurred to me. I knew from long experience in
+altitude chambers with aero-medical devices that if I flexed my
+muscles violently for a few moments it would drive my EKG
+(heartwave trace) right through the ceiling. I planned to do this
+and then to pull the plug on the “physiological package” telemetering.
+The reading on their gauges would be a rapid heart
+acceleration and then a total, mysterious blank. I changed my
+mind about this at the last minute because I was afraid I might
+give Charlie Feltz real heart failure.</p>
+
+<p>The launch—my eleventh in the X&#x2060;-15—was beautiful. For the
+tenth time my left hand flicked across the rocket-barrel toggles.
+My right hand gripped the sidearm control, which I intended to
+use throughout the flight and on the landing. I had not used this
+control on landing since the first glide flight. During the early
+stages I was concerned that if anything dire happened on landing,
+it would probably be blamed on that very fine, but new and
+controversial, piece of equipment.</p>
+
+<p>The X&#x2060;-15 zoomed toward the heavens, all eight barrels going
+wide open. At 42,000 feet I kicked the rudder and the ship yawed
+severely—another demonstration maneuver. I recovered easily and
+roared about the sky, turning, twisting, rolling, and spinning like
+a bullet, subjecting the plane to unusually heavy strains. My
+speed climbed up to Mach 2.7, considerably beyond my Mach 2.0
+restriction. I had let the rocket engines burn a little longer because
+I needed the extra power to reach the lake bed. Also the
+demonstration points were safer to make at higher speed.</p>
+
+<p>After engine burnout I coasted silently toward the desert lake,
+testing the ballistic control system. I squirted the hydrogen peroxide
+through the nose jets, calling “nose up” and “nose down”
+on the radio. This was simply a test to see whether the system
+functioned properly. In the thick atmosphere at 50,000 feet, where
+I began the test, the weak nozzles have no effect whatsoever on
+the X&#x2060;-15 flight attitude. The North American altitude restriction
+was still in force. Thus I could not make the test above 100,000
+feet where a gentle squirt from the jets would considerably
+<span class="pagenum" id="Page_396">[Pg 396]</span>change the airplane attitude. We had corrected the cause of the
+liquid bath, and the windshield did not ice over.</p>
+
+<p>I chose a runway and for the eleventh time brought the ship
+in for a landing. I used the sidearm control all the way. It is a
+little more sensitive than the center-control stick, but with practice
+I believe pilots will find it superior to the old-fashioned
+“ax-handle” control. The X&#x2060;-15 touched down smoothly, concluding
+the last flight with the two smaller engines. It was time to take
+her to the “barn” for the big-engine conversion.</p>
+
+<p>With the conclusion of that flight, the box score on both airplanes
+was a total of thirty-one flights. A little over half of these—sixteen,
+to be precise—were made under rocket power, and one was
+the first glide test. These were completed five years almost to the
+day from the time Hugh Elkin and his Advanced Design group
+at North American first submitted the X&#x2060;-15 conception. This time
+was about one year less than it took to design, build, and fly the
+Skyrocket, the most successful, after the X&#x2060;-1, of the early era of
+rocket airplanes. It was about two years less than the time it
+usually takes to design and build a modern jet fighter such as
+the F&#x2060;-100. It was about three or four years less than the time it
+took to build the hangar-loving X&#x2060;-3. It was five years less time
+than it took to build and fly the jinxed X&#x2060;-2 in which Everest,
+Kincheloe, and Apt set their world speed and altitude records.
+Considering that the X&#x2060;-15 is not only the most advanced aircraft
+ever conceived by man, but also a ship designed to fly into the
+fringes of space, I do not believe it is immodest to claim that we
+had pulled off a minor miracle. We did this in spite of the false
+starts, frustrations, and malfunctions, those events that naturally
+cling to the memory and upon which I have probably dwelt
+too long in this account.</p>
+
+<hr class="tb">
+
+<p>About this time a second minor miracle took place in Washington,
+D.&nbsp;C. The Congress and the new Secretary of Defense,
+Thomas S. Gates, took another look at the gutted B&#x2060;-70 bomber
+program. Gates announced publicly that he was ready to “reconsider”
+the craft as a weapons system. Then the Congress voted
+$285 million to restore about half the original program. There
+<span class="pagenum" id="Page_397">[Pg 397]</span>was, of course, no <i>direct</i> connection between this turnabout and
+the success of the X&#x2060;-15 flight-test program. But perhaps in some
+indirect way the fact that the X&#x2060;-15 had flown like a champion at
+Mach 3—the B&#x2060;-70 cruising speed—and routinely to the B&#x2060;-70 cruising
+altitude of 70,000 feet, influenced some people to think twice.
+The restoration of the B&#x2060;-70 now made each flight of the X&#x2060;-15
+more meaningful. The data we collected from the X&#x2060;-15 would be
+used to advantage on the B&#x2060;-70.</p>
+
+<p>Actually, I believe, the decision to restore the B&#x2060;-70 was inevitable.
+The United States simply could not abandon the manned
+aircraft altogether and survive as the pillar of freedom in the
+West. Now that wisdom prevailed, we hoped that the powers
+that be would take a careful look at the total manned-aircraft
+spectrum. Our current fleet of Air Force planes is approaching
+obsolescence. As yet there is still no advanced fighter aircraft in
+the works. In fact, as we look into the future, the B&#x2060;-70, which may
+be ready to fly a few years from now, stands very much alone, a
+single piece of hardware. Between the current, aging Air Force
+fleet and the B&#x2060;-70, amazingly enough, there is only one craft in
+existence, the X&#x2060;-15, and only one Air Force pilot, Bob White, who
+has ever flown it. Our United States Air Force should have a
+thousand rocket pilots. By contrast, the Soviet Union has never
+stopped building airplanes. Each year they turn up with ever-faster
+fighters and bombers, as well as a force of missiles. By
+default, the United States arrived at a point of imbalance that
+would be ludicrous if it were not so potentially dangerous. The
+U.&nbsp;S. <i>must</i> produce manned aircraft to match the Soviet Union.
+Missiles alone are not enough.</p>
+
+<p>As I have said before, bad news usually comes with the good.
+The B&#x2060;-70 was restored but our efforts to persuade high circles in
+Washington that we should capitalize on the X&#x2060;-15 concept and
+the vast experience of our construction and flight-test teams for
+the exploration of space fell on deaf ears. Within NASA the
+<ins class="corr" title="Transcriber’s Note—Original text: 'Project Mecury capsule'" id="tn-397">Project Mercury capsule</ins> dominated. Within the Air Force there
+was still justifiably much uncertainty about the use of a space
+craft for a military mission, and the effort in that service was
+restricted largely to paper studies. Firmly believing that in the
+<span class="pagenum" id="Page_398">[Pg 398]</span>conquest of space the nation would ultimately swing to an X&#x2060;-15
+concept—a craft that could go into space and then return to earth
+to land with dignity—we pressed on, proposing a two-seater version
+of the X&#x2060;-15, a trainer to check out large numbers of Air Force
+pilots. We urged manned concepts in the belief that to rely
+solely on automatic concepts presupposes a mathematical certitude
+not found in war, peace, or the quests of men. We made few
+converts.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_399">[Pg 399]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_43">CHAPTER 43 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 43</span> “<i>The Real Significance</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">The big single-barrel XLR&#x2060;-99 rocket engine designed to blast
+the X&#x2060;-15 on its ultimate mission to the fringes of space arrived
+in California in April, 1960, about a year and a half behind
+schedule. It was shipped to Edwards and bolted to the ground-test
+stand. During May the North American and Reaction Motors
+engineers ran the engine in a series of exhaustive tests. It was
+a sight to see: that small barrel spewing smoke and flame, thrust
+almost four times as great as the combined thrusts of the two
+smaller X&#x2060;-1-type engines then powering the X&#x2060;-15. The rocket-engine
+noise boomed across the desert for thirty miles.</p>
+
+<p>In late May the first big engine was installed in X&#x2060;-15 number
+three, the ship we had specifically reserved for this first engine.
+And in early June X&#x2060;-15 number two, after my ninth and final
+powered flight in that craft, was torn down and the two smaller
+engines removed in preparation for the arrival of the second
+big engine. Meanwhile, we got set to ground-test the big engine
+which was installed in number three.</p>
+
+<p>The ground tests of this engine, which has as much power as
+an Army Redstone missile and almost three times the power
+of the Navy’s Vanguard missile, were elaborate for Edwards
+<span class="pagenum" id="Page_400">[Pg 400]</span>(though stark compared to the blank-check missile operations).
+We had made some improvements on the ground-test stand.
+The engineers had built special steel clamps to hold the X&#x2060;-15
+to the concrete apron. They had installed underground concrete
+observation bunkers, which looked like Maginot-Line pillboxes.
+The telemetry engineers rigged elaborate equipment to
+transmit a record of everything happening in the X&#x2060;-15 during
+the engine run to a master console in the NASA administration
+building. For this big moment in the history of our craft,
+nothing would be left to chance.</p>
+
+<p>Late in the afternoon of June 8 I arrived at the ground-test
+area wearing street clothes. X&#x2060;-15 number three, with her powerful
+new engine, was clamped in place on the stand. She was
+brimming with Lox and new fuel for the big engine—ammonia,
+more powerful or “exotic” than the Walc used in the two smaller
+engines. A thick coating of ice had formed on the fuselage around
+the Lox tank. Wispy Lox vapor trailed off into the afternoon
+sky. A snarl of electrical power connections—the umbilical cords—ran
+from a hole in the concrete to the ship’s side tunnels.</p>
+
+<p>Harry Gallanes, North American’s power-plant test boss, greeted
+me: “Looks like we’re all set, Scotty.” He and his crews had been
+working without let-up since dawn. They had pretty much kept
+to this dawn-to-dusk (sometimes later) schedule since the day
+the big engine arrived, another manifestation of that curious
+enthusiasm for things mechanical which seemed to infect all
+members of the flight-test team.</p>
+
+<p>I climbed into the cockpit and donned a Scott Airpack breathing
+device similar to the unit skin divers wear underwater. It
+would supply my oxygen, pumped into the airplane from an
+external connection. The simple airpack was more comfortable
+and far less bother than the X&#x2060;-15 full-pressure suit, which I did
+not need on the ground. I closed the canopy and turned on
+the nitrogen gas flow, to cool the electronic equipment in the
+cockpit and to build up a pressure which would block out possible
+ammonia fumes or other toxicants, should something go
+wrong during the engine run.</p>
+
+<p>On this ground test—my second in this airplane—we intended
+<span class="pagenum" id="Page_401">[Pg 401]</span>to simulate all the events of a real drop from the mother plane
+with rocket-engine light-off. If all went well, we hoped to make
+an actual flight a month later, perhaps sooner. Harry Gallanes and
+his men retired to the bunkers. Gallanes manned the radio
+circuit as test director. Q.&nbsp;C. Harvey took up his post in the
+forward bunker. Soon we were well through the countdown.
+At six minutes to “drop” I turned on the APUs. X&#x2060;-15 number
+three was completely on her own. It was time for the big test.</p>
+
+<p>A siren whined a warning. The mechanics, protectively dressed
+in hooded clothing, evacuated to the bunkers. They had been
+hanging around checking for leaks or other possible malfunctions
+until the last moment. A group of fire trucks, parked about two
+hundred yards away, were ready to rush to the rescue, if needed.
+Otherwise there was no sign of life. Alone in the cockpit I checked
+the gauges. As we approached the time for engine light-off,
+three movie cameras, mounted outside and aimed at the rear
+of the X&#x2060;-15, began to roll. Inside the cockpit I turned on the
+data recorders.</p>
+
+<p>I called each step of the engine-start procedure on the radio,
+pausing briefly after each item on the check-list.</p>
+
+<p>“Master switch coming on NOW.”</p>
+
+<p>“Prime.”</p>
+
+<p>“Pre-cool.”</p>
+
+<p>“Pump idle.”</p>
+
+<p>“Igniter idle.”</p>
+
+<p>I then moved the main engine throttle from its stowed position
+to the engine-start position. The engine is designed to
+light-off at half-thrust. When I moved the throttle, in effect opening
+the main fuel and Lox lines, the engine cracked to life with
+a tremendous roar. The ship vibrated powerfully in her steel
+mounts. The engine ran smoothly as designed. Slowly I opened
+the throttle to full power. The noise was terrific.</p>
+
+<p>The North American X&#x2060;-15 Mach 2.0 speed and 100,000-foot
+altitude restrictions are still technically in force. If I allowed
+the big barrel to run full-bore in flight, I would quickly exceed
+those limits by a great margin and perhaps go hurtling off to
+the fringes of space. Thus for my big-engine “demonstration”
+<span class="pagenum" id="Page_402">[Pg 402]</span>flights we had worked out a system whereby in the air I would
+shut down the engine periodically and restart it after the speed
+and altitude fell off. Now simulating my actual flight plan, I pulled
+the throttle back and shut down the engine. As prescribed, I
+waited fifteen seconds and then restarted the engine at fifty
+per cent thrust.</p>
+
+<p>Rocket engines are equipped with special engine safety devices.
+If these devices “sense” anything abnormal in burning or
+engine operation, they automatically shut the engine off and
+“safety” all the electrical circuits. Evidently after my restart one
+such device “sensed” a vibration. Almost immediately after I
+moved the throttle to half-thrust, the engine shut down automatically.
+There was no sign of trouble in the cockpit, so I
+prepared to restart the engine once again.</p>
+
+<p>To restart the engine after an automatic shut-down, the pilot
+must push a special switch which “unsafeties” the engine, or
+in effect resets all the circuits the automatic device has closed
+down. If these can be reset, the engine is again ready for start.
+Beginning the restart procedure, I put the throttle in the stowed
+position and pressed the reset switch.</p>
+
+<p>It was like pushing the plunger on a dynamite detonator. X&#x2060;-15
+number three blew up with incredible force. The rear section
+of the airplane, from the trailing edge of the wing aft, was instantaneously
+demolished. The front section of the airplane,
+including the cockpit and the pilot, hurtled twenty feet across
+the concrete ramp at indescribable speed, the shortest and fastest
+rocket ride in history, subjecting me to an acceleration force of
+maybe fifty G’s. Fortunately, my head was reclining in the
+headrest on the seat; otherwise my neck might have been
+broken.</p>
+
+<p>Nine hundred gallons of ammonia and sixty gallons of hydrogen
+peroxide, a total of 16,000 pounds of powerful liquid, had
+ignited simultaneously. I knew, of course, that there had been a
+tremendous explosion, but I had no way of knowing precisely
+what happened. All I could think of was the possibility of a
+second explosion that might hurl my part of the airplane halfway
+across Edwards and through the main hangar and workshop.
+<span class="pagenum" id="Page_403">[Pg 403]</span>In the cockpit I moved swiftly to do what I could to prevent
+this. I turned off the APUs and all external power supply and
+shifted from external oxygen to X&#x2060;-15 oxygen supply. Then I
+braced my feet on the instrument panel and put my arms across
+my face, waiting. There was no panic, no fear. I was concerned
+primarily for the safety of the other people—those outside—and
+I thanked God that He had given us the time to install the concrete
+pillbox bunkers, which were being used tonight for only
+the second time.</p>
+
+<p>Half a minute later I watched a mass of red approaching the
+X&#x2060;-15. It was the fire truck. Its hoses pumped a great spray of
+water over the ship, smothering the fire still raging in the
+shattered rear section. A few seconds later I saw Art Semone
+and another mechanic hunched outside the cockpit. They were
+trying to pull the canopy handle to let me out. At that point I
+would have preferred to remain inside the cockpit, one of the
+safest places in the world in the event of fire. But I could see
+that no amount of hand-signaling would dissuade Semone, and
+rather than expose him to possible danger I helped open the
+canopy and leaped out.</p>
+
+<p>Semone must have thought I was injured. When I jumped from
+the cockpit, he caught me in mid-air and tried to carry me out
+of the smoke and flames. I whopped him on the shoulder to let
+him know I was all right and then we all ran quickly to a spot
+about a hundred feet distant and I checked the bunkers. Everyone,
+it seemed, had survived, and for this I was very grateful.
+As it turned out, no one, including me, was even slightly injured.
+I had someone relay that fact to Alice as soon as possible,
+knowing the news would be on the radio before the fire was out.</p>
+
+<hr class="tb">
+
+<p>The documentation of that explosion, like everything else about
+the X&#x2060;-15, was first-rate. In fact it was probably one of the best
+documented airplane accidents in history. Immediately afterwards,
+Q.C. gathered all of us in a room, and there we recalled
+in detail all that we could remember while it was still fresh in
+our minds. These eye-witness accounts, added to the miles of
+telemetry data and the film strips from the three movie cameras,
+<span class="pagenum" id="Page_404">[Pg 404]</span>would enable us to establish the cause of the explosion very
+quickly. It was not the fault of the engine. A sequence of
+coincidences, again hidden in the mysteries of Murphy’s Law,
+had trapped us. We moved rapidly to avert any possibility of a
+recurrence in X&#x2060;-15 number two, meanwhile accelerating our
+efforts to install the big engine in that ship. NASA prudently
+grounded X&#x2060;-15 number one until we could do everything possible
+to make sure a similar disaster could not happen.</p>
+
+<p>The fate of number three was quickly decided. She would
+be rebuilt. Some parts—nose, cockpit, wings—might be salvaged.
+This was obviously a major task requiring more time and money.
+The destruction of this airplane is simply part of the price man
+must pay for progress. Measured against the loss of fifty or so
+Atlas, Titan, and Polaris missiles at Cape Canaveral, each costing
+more than a single X&#x2060;-15, it was a drop in the bucket, although a
+painful one because it temporarily reduced our complete air fleet
+by thirty-three and one-third per cent.</p>
+
+<p>Inevitably the newsmen got on my trail. When they called, I
+was ready with the wisecrack I knew they wanted. “The only
+casualty,” I said, “was the crease in my trousers. The firemen got
+them wet when they sprayed the airplane with water.” Too
+late I realized how this might be interpreted.</p>
+
+<p>“Are you sure it was the firemen?” the reporter asked.</p>
+
+<p>“Yeah, I’m sure,” I said. I pictured the headline:</p>
+
+<p class="center p1t p1b">
+SPACE SHIP EXPLODES; PILOT WETS PANTS
+</p>
+
+<p>“Mr. Crossfield,” the reporter went on. “What is the real
+significance of all this?”</p>
+
+<p>“The <i>real</i> significance?” I asked. “Have you got about ten or
+fifteen hours, maybe?”</p>
+
+<p>“No,” he said. “I’ve got about two minutes to meet a deadline.
+Just tell me what’s going to happen now? Where does this leave
+the program?”</p>
+
+<p>“We’re not sure yet. There will naturally be some investigations.
+In all probability we’ll accelerate putting the big engine
+in X&#x2060;-15 number two. A little later we’ll put the big engine in
+NASA’s X&#x2060;-15 number one.”</p>
+
+<p><span class="pagenum" id="Page_405">[Pg 405]</span></p>
+
+<p>“Does this affect your role in the program? Will you still go
+ahead and make a demonstration flight with the big engine?”</p>
+
+<p>“I don’t know,” I said. “I was only supposed to make one or
+two low-speed demonstration flights with the big engine and then
+that was the end of my participation in the project. Bob White
+and Joe Walker would take it from there. They might change
+that now. I have no reason to believe there will be any change.
+There could be. I might not make the big-engine demonstration
+flights. I honestly don’t know. It’s all very indefinite.”</p>
+
+<p>“Well, thanks. Some day I’d like to talk to you about the real
+significance. But not now.”</p>
+
+<p>It was always the same: hurry, impatience, no time for thoughtful
+reflection. Move on quickly to the next story, the next pilot,
+or missile, or space vehicle, for a bigger and better headline.</p>
+
+<p>“Okay,” I said. “I’ll be seeing you.”</p>
+
+<hr class="tb">
+
+<p>The real significance of the X&#x2060;-15, I hope, has come through
+in the foregoing pages. It is not just another airplane, another
+headline. It is another of man’s restless attempts at perfection,
+and in the aviation world the greatest ever mounted. The X&#x2060;-15
+sprang from a deep pool of aeronautical knowledge, the end
+product of fifty years, and more, of probing this frontier. It was
+created and built at tremendous cost in terms of money and
+sweat by some of the most skilled engineers in the free world.
+As always, we did not achieve our dream of perfection. Only
+God, I believe, can create the perfect. But in reaching out, we
+provided some water for man’s never-ending thirst. We learned
+a great deal. We had set man on his path toward the stars.</p>
+
+<p>Some day, I believe, he will get there. Not so quickly as one
+might think from reading the newspapers. The speed of this
+massive scientific effort is like that of the convoy, geared to the
+pace of the slowest vessel. Thus this daring adventure is regulated
+not so much by grandiose plans emanating from the increasing
+layers of scientific administrators in Washington as by the
+simple function of a valve, an APU unit, or a radio plug. Our
+tale of adversity with the X&#x2060;-15 is not unique; rather, it is typical
+of our age. Similar stories, many with fewer points of success,
+<span class="pagenum" id="Page_406">[Pg 406]</span>were taking place at the same time in our nation with Atlas,
+Polaris, Titan, Mercury, Minuteman, a dozen others I cannot
+recall. Some day, too, perhaps these stories will be written.</p>
+
+<p>In time, our splendid engineers will de-bug the big X&#x2060;-15
+engine. I may or may not be allowed to make one or two low-speed
+flights. Then in the months ahead, depending on the speed
+of the scientific convoy, Bob White or Joe Walker or perhaps
+someone else will begin the first, tentative “space” flights in the
+X&#x2060;-15. They will launch over the designated point in Utah, light
+off the powerful rocket barrel, and roar heavenward. With God’s
+help they may reach a speed of 4,000 miles an hour and an altitude
+of perhaps 100 miles. I hope that many, many pilots will
+have the opportunity to make these pioneering voyages into space.</p>
+
+<p>Ultimately our work, and the work of the tens of thousands of
+other engineers in this nation, will be merged to form a more
+advanced space machine. The bottom of this machine might
+not look like an Atlas or Saturn. The top might not look like an
+X&#x2060;-15. But the complete vehicle will be the sum product of all
+the work of all the engineers in this country. This machine will
+not rise effortlessly and gracefully from the earth on the first
+day. Dedicated people such as Charlie Feltz and Harrison
+Storms must first expend limitless sweat and tears. The machine
+may crash and explode. So might the second and third, perhaps
+the fourth and fifth. Congressional committees will investigate,
+and new layers of scientific administrators will grow atop the
+old in Washington. But the engineers will prevail in spite of them.</p>
+
+<p>Some day this machine will rise from the face of the earth.
+It will take man into an orbital path about the earth. It will enable
+him to build a space station. From there he will shove off
+to the moon. Then he will go to the nearest planets in our solar
+system. A hundred years from now, if we have not destroyed our
+own planet in an ideological war, man may enter the solar
+system of the nearby stars. He will go there because he must.
+He is curious and intelligent. He is seeking answers—about himself,
+his universe, and his God. Because man is a creature of God
+and the instrument of God, he will not be denied. There will
+always be another dawn.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_407">[Pg 407]</span></p>
+
+
+
+ <p class="left fs125 p4b noindent letter-sp1 word-sp" id="CHAPTER_44">CHAPTER 44 ►</p>
+ <h2 class="nobreak p2b fsans">
+ <span class="hidden">CHAPTER 44</span> “<i>Prophecies of the Next Age</i>”
+ </h2>
+</div>
+
+
+<p class="noindent">The explosion of X&#x2060;-15 number three had a curious impact on
+me personally. For the first time in my flying career I was
+foggy-minded. I could not recall immediately exactly what
+happened, although in aerial emergencies in the past my mind
+always ticked on, recording even the most obscure gauge readings.
+Locked in the room with Q.C. and the others during the
+post-accident investigation, it took me fully ten minutes of
+thoughtful reconstruction to lay out the exact sequence of events
+that took place in the X&#x2060;-15 cockpit.</p>
+
+<p>Flying home from Edwards late that night, I found my
+thoughts taking another unusual turn. Although I seldom think
+about death, my mind recreated in vivid detail the one death
+that stands out in my mind more than all others, that of my
+father.</p>
+
+<p>He died on October 21, 1954, during the time I was flying for
+NACA at Edwards, six weeks or so after I drove the F&#x2060;-100
+through the hangar wall. He had sold the farm at last, for a
+handsome profit, and moved to the California desert to be near
+his children and grandchildren. He dreamed of touring the United
+States in a trailer in the evening of his life. But it was too late.
+<span class="pagenum" id="Page_408">[Pg 408]</span>The more than nineteen years of hard physical labor on the farm
+drained his body of strength. After examining my father, one
+doctor told me: “He is the most worn-out man of sixty-three
+that I have ever seen.”</p>
+
+<p>Soon he fell quite ill. My mother was just recovering from a
+stroke, and we brought in a nurse to help out. Toward the end, I
+spent almost every night in his house, sleeping on a cot next to
+his bed. I was there primarily out of love, to do what I could for
+him. But there was another reason. I was curious to see whether
+in his final hours this unwavering, iron-willed man would reveal
+any weakness. If I saw the slightest hint, I would find a way to
+head it off, or at least obscure it from him. For sixteen years
+or more I had been searching for a break in his strength. I never
+found it. I didn’t really expect him to ask for quarter now.</p>
+
+<p>When I saw him on the morning of the 21st, I felt that he
+would not last the day. I was scheduled for a Skyrocket flight
+that morning and was on the verge of putting through a call to
+Walt Williams to cancel it when my father called for me.</p>
+
+<p>“What were you supposed to be doing today?” he asked. “Why
+haven’t you gone to work?”</p>
+
+<p>“Oh, nothing,” I said. “Just a routine flight. I can cancel it
+with no problem.”</p>
+
+<p>“I want you to go ahead and do your job.” His voice was low
+but firm. His request was a command. There was no hint of
+quarter.</p>
+
+<p>“Okay. But will you wait for me?” We both knew what I
+meant.</p>
+
+<p>“Yes.”</p>
+
+<p>I drove to the field and made the flight. My father waited,
+as he promised. As I soon learned from a telephone call, he died
+at the exact moment the Skyrocket’s wheels touched down on
+the lake at the conclusion of my flight. He died quietly and
+bravely, without a single compromise on his conscience. That he
+found what he sought in the next life I have no doubt, for he
+was an honorable man and a Christian.</p>
+
+<p>Returning home that night after the X&#x2060;-15 explosion, the real
+significance of my own life, which I had pondered for so many
+<span class="pagenum" id="Page_409">[Pg 409]</span>months at Edwards, came to me as though crystallized by the
+accident. My own life, in a different setting in time and circumstance,
+was an imitation of my father’s, a striving toward unattainable
+perfection. As nature had sealed Bill Young’s eyes
+and then mysteriously opened his ears to sounds beyond the
+experience of other men, so nature wounded me in childhood
+and then mysteriously endowed me with a special spirit that
+put fear beyond my experience and spurred me to improve everything
+that crossed my path. Who can presume to know why?
+Nature and God are one. If there is an imperfection, it is not
+there by accident. Perhaps He intended that by my example the
+wounds of others lacking in this special spirit might be healed.
+I honestly cannot believe that my being present at the birth
+and growth of the X&#x2060;-15 was an accident. This blending of man
+and machine in a common cause must be a part of <i>His</i> grand
+design.</p>
+
+<p>My father may have fallen short of his goal. I have fallen short
+of my goal, probably I always shall. It may be that only ignorant
+men reach goals. The important thing, I think, as with the X&#x2060;-15,
+is the striving itself. Each of us who strives toward the unattainable
+contributes to man’s ever-growing reservoir of knowledge
+and fact. Each drop, however small, is vital for those who
+follow behind us. Without it man must inevitably atrophy. Thus,
+as Emerson says, “Men walk as prophecies of the next age.”</p>
+
+<p>I realized that night that my new circle, the meaning of which
+I had so intensively probed during the long months at Edwards,
+was boundless. It was, in a few words, more of the same on a
+grander scale. The details were not important. The ultimate end
+was not a fixed slot, which I imagined in my youth to be the
+satisfying end, a life devoted not to the specific but to the infinite,
+to the collection of a few drops for that vast and wonderful pool.
+A small contribution which would ease my children’s way, or
+perhaps in time open men’s eyes to a part of the grand mystery.</p>
+
+<hr class="tb">
+
+<p>It was quite late when I pulled into our driveway in Westchester.
+I strode briskly to the front door and entered quietly.
+<span class="pagenum" id="Page_410">[Pg 410]</span>The children were asleep. I mixed a drink and Alice and I
+relaxed in the living room.</p>
+
+<p>“Well, you look all right to me,” she said.</p>
+
+<p>“There’s nothing wrong with me.”</p>
+
+<p>“So what’s next?” It was many years since she had put that
+question to me.</p>
+
+<p>“I don’t know.” A thousand thoughts flashed through my mind.
+A thousand imperfections, a thousand horizons, a thousand
+Mount Everests, the story of man since time began. I was in a
+strange mood.</p>
+
+<p>“Well,” Alice said, “they say life begins at forty. You’ve
+got a full year and a half to make up your mind.”</p>
+
+<p>“You know what I’ve been thinking,” I said absently. “This
+house is getting pretty crowded with five lads. Maybe we ought
+to add a new wing. Then there’s another thing I’d like to do.
+Maybe we could build a little summerhouse out in the back yard—you
+know, one of those lattice-work things—with a tower, or
+cupola, on top. If we built one tall enough, we could see over the
+shrubbery and the fence. We could sit up there and watch
+the airplanes taking off and landing at the airport. We could see
+the sky and the horizon unobscured.”</p>
+
+<p>The tower is not yet begun. But that is a new story, another
+dawn.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum" id="Page_411">[Pg 411]</span></p>
+
+
+ <h2 class="nobreak left fsans p1b" id="Chronology">
+ <i>Chronology</i>
+ </h2>
+</div>
+
+
+
+<table class="autotable wd100">
+<tr>
+<th class="tdl"><span class="phalfl">DATE</span></th>
+<th class="tdl"><span class="p1l">PLANE</span></th>
+<th class="tdl"><span class="p1l">PILOT</span></th>
+<th class="tdl"><span class="p5l">COMMENT</span></th>
+</tr>
+
+<tr>
+<td class="tdl"><i>1946</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl">Sept.</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl">NACA contingent arrives at Edwards</td>
+</tr>
+
+<tr>
+<td class="tdl">Oct.</td>
+<td class="tdl">X&#x2060;-1</td>
+<td class="tdl">Goodlin</td>
+<td class="tdl">First powered flight</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1947</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">Mar.</td>
+<td class="tdl">D&#x2060;-558&#x2060;-I</td>
+<td class="tdl">May</td>
+<td class="tdl">First flight</td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl">D&#x2060;-558&#x2060;-I</td>
+<td class="tdl">Caldwell</td>
+<td class="tdl">640.7 mph</td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl">D&#x2060;-558&#x2060;-I</td>
+<td class="tdl">Carl</td>
+<td class="tdl">651 mph</td>
+</tr>
+<tr>
+<td class="tdl">Oct.</td>
+<td class="tdl">X&#x2060;-1</td>
+<td class="tdl">Yeager</td>
+<td class="tdl">Mach 1.0</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1948</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">Feb.</td>
+<td class="tdl">D&#x2060;-558&#x2060;-II</td>
+<td class="tdl">Martin</td>
+<td class="tdl">First flight; Ground take-off</td>
+</tr>
+<tr>
+<td class="tdl">Mar.</td>
+<td class="tdl">X&#x2060;-1</td>
+<td class="tdl">Hoover</td>
+<td class="tdl">First civilian; Mach 1.0</td>
+</tr>
+<tr>
+<td class="tdl">Sept.</td>
+<td class="tdl">XF&#x2060;-92A</td>
+<td class="tdl">Yeager</td>
+<td class="tdl">First flight</td>
+</tr>
+<tr>
+<td class="tdl">Dec.</td>
+<td class="tdl">X&#x2060;-4</td>
+<td class="tdl">Tucker</td>
+<td class="tdl">First flight</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1949</i><br></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl">X&#x2060;-1</td>
+<td class="tdl">Everest</td>
+<td class="tdl">73,000 ft.</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1950</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">June</td>
+<td class="tdl">D&#x2060;-558&#x2060;-II</td>
+<td class="tdl">Bridgeman</td>
+<td class="tdl">First air-launch</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1951</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">June</td>
+<td class="tdl">X&#x2060;-5</td>
+<td class="tdl">Ziegler</td>
+<td class="tdl">First flight</td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl">D&#x2060;-558&#x2060;-II</td>
+<td class="tdl">Bridgeman</td>
+<td class="tdl">79,000 ft.; Mach 1.89</td>
+</tr>
+<tr>
+<td class="tdl">Nov.</td>
+<td class="tdl">X&#x2060;-1 (#3)</td>
+<td class="tdl">Cannon</td>
+<td class="tdl">Blew up—destroyed</td>
+</tr>
+<tr>
+<td class="tdl">Fall</td>
+<td class="tdl">X&#x2060;-1&#x2060;-D</td>
+<td class="tdl">Everest</td>
+<td class="tdl">Blew up—mother plane</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1952</i><br></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">June</td>
+<td class="tdl">X&#x2060;-2 (#1)</td>
+<td class="tdl">Ziegler</td>
+<td class="tdl">Ballast—at Edwards; Glide</td>
+</tr>
+<tr>
+<td class="tdl">Oct.</td>
+<td class="tdl">X&#x2060;-3</td>
+<td class="tdl">Bridgeman</td>
+<td class="tdl">First flight</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1953</i><span class="pagenum" id="Page_412">[Pg 412]</span></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">Feb.</td>
+<td class="tdl">X&#x2060;-1&#x2060;-A</td>
+<td class="tdl">Ziegler</td>
+<td class="tdl">First powered flight</td>
+</tr>
+<tr>
+<td class="tdl">May</td>
+<td class="tdl">X&#x2060;-2 (#2)</td>
+<td class="tdl">Ziegler</td>
+<td class="tdl">Captive—Buffalo; Blew up—Ziegler killed</td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl"><span class="p1r">D&#x2060;-558&#x2060;-II</span></td>
+<td class="tdl">Carl</td>
+<td class="tdl">83,235 ft.</td>
+</tr>
+<tr>
+<td class="tdl">Oct.</td>
+<td class="tdl">XF&#x2060;-92A</td>
+<td class="tdl"><span class="p1r">Crossfield</span></td>
+<td class="tdl">Wheel collapsed; Plane retired</td>
+</tr>
+<tr>
+<td class="tdl">Nov.</td>
+<td class="tdl">D&#x2060;-558&#x2060;-II</td>
+<td class="tdl">Crossfield</td>
+<td class="tdl">Mach 2.0</td>
+</tr>
+<tr>
+<td class="tdl">Dec.</td>
+<td class="tdl">X&#x2060;-1&#x2060;-A</td>
+<td class="tdl">Yeager</td>
+<td class="tdl">Mach 2.5; Tumble</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1954</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">Apr.</td>
+<td class="tdl">(X&#x2060;-15)</td>
+<td class="tdl"></td>
+<td class="tdl">NACA Summary Report; Plane born</td>
+</tr>
+<tr>
+<td class="tdl">June</td>
+<td class="tdl">X&#x2060;-1&#x2060;-A</td>
+<td class="tdl">Murray</td>
+<td class="tdl">90,000 ft.; Tumble</td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl">X&#x2060;-2 (#1)</td>
+<td class="tdl">Everest</td>
+<td class="tdl">First glide flight; Ballast; Damaged</td>
+</tr>
+<tr>
+<td class="tdl">Oct.</td>
+<td class="tdl">(X&#x2060;-15)</td>
+<td class="tdl"></td>
+<td class="tdl">Recommended by NACA</td>
+</tr>
+<tr>
+<td class="tdl">Oct.</td>
+<td class="tdl">X&#x2060;-1&#x2060;-B</td>
+<td class="tdl">Murray</td>
+<td class="tdl">First flight</td>
+</tr>
+<tr>
+<td class="tdl">Dec.</td>
+<td class="tdl">(X&#x2060;-15)</td>
+<td class="tdl"></td>
+<td class="tdl">Competition announced</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1955</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl">X&#x2060;-1&#x2060;-A</td>
+<td class="tdl">Walker</td>
+<td class="tdl">Fire—jettison plane</td>
+</tr>
+<tr>
+<td class="tdl">Nov.</td>
+<td class="tdl">X&#x2060;-2</td>
+<td class="tdl">Everest</td>
+<td class="tdl">First powered flight</td>
+</tr>
+<tr>
+<td class="tdl">Dec.</td>
+<td class="tdl">X&#x2060;-1&#x2060;-E</td>
+<td class="tdl">Walker</td>
+<td class="tdl">First powered flight</td>
+</tr>
+<tr>
+<td class="tdl">Dec.</td>
+<td class="tdl">(X&#x2060;-15)</td>
+<td class="tdl"></td>
+<td class="tdl">Contract awarded to North American</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1956</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">May</td>
+<td class="tdl">X&#x2060;-2 (#2)</td>
+<td class="tdl">Kincheloe</td>
+<td class="tdl">First flight</td>
+</tr>
+<tr>
+<td class="tdl">July</td>
+<td class="tdl">X&#x2060;-2</td>
+<td class="tdl">Everest</td>
+<td class="tdl">Mach 2.93</td>
+</tr>
+<tr>
+<td class="tdl">Sept.</td>
+<td class="tdl">X&#x2060;-2</td>
+<td class="tdl">Kincheloe</td>
+<td class="tdl">126,200 ft.</td>
+</tr>
+<tr>
+<td class="tdl">Sept.</td>
+<td class="tdl">X&#x2060;-2</td>
+<td class="tdl">Apt</td>
+<td class="tdl">First flight 2,094 mph; Crashed—killed</td>
+</tr>
+<tr>
+<td class="tdl">Dec.</td>
+<td class="tdl">(X&#x2060;-15)</td>
+<td class="tdl"></td>
+<td class="tdl">Mock-up complete</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1958</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">July</td>
+<td class="tdl">F&#x2060;-104</td>
+<td class="tdl">Kincheloe</td>
+<td class="tdl">Killed</td>
+</tr>
+<tr>
+<td class="tdl">Oct.</td>
+<td class="tdl">(X&#x2060;-15 #1)</td>
+<td class="tdl"></td>
+<td class="tdl">Completed, shipped to Edwards</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1959</i><span class="pagenum" id="Page_413">[Pg 413]</span></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">Mar.</td>
+<td class="tdl">X&#x2060;-15 #1</td>
+<td class="tdl">Crossfield</td>
+<td class="tdl">First captive flight</td>
+</tr>
+<tr>
+<td class="tdl">June</td>
+<td class="tdl">X&#x2060;-15 #1</td>
+<td class="tdl">Crossfield</td>
+<td class="tdl">First glide flight</td>
+</tr>
+<tr>
+<td class="tdl">Sept.</td>
+<td class="tdl">X&#x2060;-15 #2</td>
+<td class="tdl">Crossfield</td>
+<td class="tdl">First powered flight</td>
+</tr>
+
+<tr>
+<td class="tdl">&nbsp;</td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+
+<tr>
+<td class="tdl"><i>1960</i></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+<td class="tdl"></td>
+</tr>
+<tr>
+<td class="tdl">Feb.</td>
+<td class="tdl">(X&#x2060;-15 #1)</td>
+<td class="tdl"></td>
+<td class="tdl">Delivered to Air Force and NASA</td>
+</tr>
+<tr>
+<td class="tdl">June</td>
+<td class="tdl">X&#x2060;-15 #3</td>
+<td class="tdl">Crossfield</td>
+<td class="tdl">Explosion during XLR&#x2060;-99 engine ground test</td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl">X&#x2060;-15 #1</td>
+<td class="tdl">Walker</td>
+<td class="tdl">2,196 mph</td>
+</tr>
+<tr>
+<td class="tdl">Aug.</td>
+<td class="tdl">X&#x2060;-15 #1</td>
+<td class="tdl">White</td>
+<td class="tdl">136,500 ft.</td>
+</tr>
+</table>
+
+
+
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter">
+
+<p><span class="pagenum"><a id="Page_414"></a><a id="Page_415"></a>[Pg 415]</span></p>
+
+
+ <h2 class="nobreak fsans center p2b" id="Index">
+ <i>Index</i>
+ </h2>
+</div>
+
+
+<ul class="index">
+ <li class="ifrst">Aase, Carl, <a href="#Page_72">72</a>, <a href="#Page_79">79</a></li>
+
+ <li class="indx">aero-space medicine, <a href="#Page_187">187</a></li>
+
+ <li class="indx">aircraft:</li>
+ <li class="isub1">B&#x2060;-17, <a href="#Page_107">107</a></li>
+ <li class="isub1">B&#x2060;-25, <a href="#Page_206">206</a></li>
+ <li class="isub1">B&#x2060;-29, <a href="#Page_48">48-50</a>, <a href="#Page_125">125</a>, <a href="#Page_127">127</a>, <a href="#Page_147">147</a>, <a href="#Page_171">171</a>, <a href="#Page_176">176</a>,
+ <a href="#Page_201">201</a>, <a href="#Page_203">203</a></li>
+ <li class="isub1">B&#x2060;-36, <a href="#Page_222">222</a>, <a href="#Page_264">264</a></li>
+ <li class="isub1">B&#x2060;-45, <a href="#Page_30">30</a></li>
+ <li class="isub1">B&#x2060;-47, <a href="#Page_20">20</a>, <a href="#Page_25">25</a>, <a href="#Page_216">216</a></li>
+ <li class="isub1">B&#x2060;-50, <a href="#Page_146">146</a>, <a href="#Page_147">147</a>, <a href="#Page_151">151</a>, <a href="#Page_152">152</a></li>
+ <li class="isub1">B&#x2060;-52, <a href="#Page_264">264-265</a>, <a href="#Page_299">299</a>, <a href="#Page_301">301</a>, <a href="#Page_310">310</a>, <a href="#Page_316">316</a>, <a href="#Page_322">322</a>,
+ <a href="#Page_331">331</a>, <a href="#Page_335">335</a>, <a href="#Page_352">352</a>, <a href="#Page_358">358</a>, <a href="#Page_377">377</a>, <a href="#Page_392">392</a></li>
+ <li class="isub1">B&#x2060;-58, <a href="#Page_215">215</a>, <a href="#Page_367">367</a></li>
+ <li class="isub1">B&#x2060;-70, <a href="#Page_293">293</a>, <a href="#Page_295">295</a>, <a href="#Page_357">357</a>, <a href="#Page_373">373</a>, <a href="#Page_397">397</a></li>
+ <li class="isub1">“Banshee” (McDonnell’s F2H), <a href="#Page_25">25</a>, <a href="#Page_299">299</a></li>
+ <li class="isub1">Boeing’s Clipper, <a href="#Page_76">76</a></li>
+ <li class="isub1">Boeing’s 707, <a href="#Page_20">20</a></li>
+ <li class="isub1">British Comet Jet airliner, <a href="#Page_235">235</a></li>
+ <li class="isub1">C&#x2060;-3 Cub, <a href="#Page_66">66</a></li>
+ <li class="isub1">Convair’s 880, <a href="#Page_297">297</a></li>
+ <li class="isub1">Curtiss Robin, <a href="#Page_74">74</a></li>
+ <li class="isub1">DC&#x2060;-6, <a href="#Page_139">139</a></li>
+ <li class="isub1">DC&#x2060;-8, <a href="#Page_297">297</a></li>
+ <li class="isub1">DeHavilland Swallows, <a href="#Page_33">33</a></li>
+ <li class="isub1">Douglas D&#x2060;-558&#x2060;-II “Skyrocket,” <a href="#Page_34">34</a>, <a href="#Page_46">46</a>, <a href="#Page_135">135</a>, <a href="#Page_139">139</a>, <a href="#Page_145">145</a>,
+ <a href="#Page_149">149</a>, <a href="#Page_157">157</a>, <a href="#Page_158">158</a>, <a href="#Page_171">171</a>, <a href="#Page_177">177</a>, <a href="#Page_198">198</a>,
+ <a href="#Page_212">212</a>, <a href="#Page_216">216</a>, <a href="#Page_223">223</a>, <a href="#Page_231">231</a>, <a href="#Page_241">241</a>, <a href="#Page_285">285</a></li>
+ <li class="isub1">Douglas D&#x2060;-558, “Skystreak,” <a href="#Page_47">47</a></li>
+ <li class="isub1">Douglas D&#x2060;-558&#x2060;-I “Skystreak,” <a href="#Page_33">33</a>, <a href="#Page_39">39</a>, <a href="#Page_47">47</a>, <a href="#Page_135">135</a>, <a href="#Page_159">159</a>,
+ <a href="#Page_216">216</a></li>
+ <li class="isub1">Eagle Rock, <a href="#Page_64">64</a>, <a href="#Page_66">66</a></li>
+ <li class="isub1">F4H, <a href="#Page_287">287</a></li>
+ <li class="isub1">F4U, <a href="#Page_109">109</a>, <a href="#Page_110">110</a>, <a href="#Page_111">111</a></li>
+ <li class="isub1">F6F, <a href="#Page_104">104</a>, <a href="#Page_109">109</a></li>
+ <li class="isub1">F8U, <a href="#Page_287">287</a></li>
+ <li class="isub1">F9F, <a href="#Page_216">216</a></li>
+ <li class="isub1">F11F, <a href="#Page_287">287</a></li>
+ <li class="isub1">F&#x2060;-80, <a href="#Page_25">25</a></li>
+ <li class="isub1">F&#x2060;-84, <a href="#Page_25">25</a>, <a href="#Page_39">39</a></li>
+ <li class="isub1">F&#x2060;-84&#x2060;-F, <a href="#Page_193">193</a>, <a href="#Page_195">195</a>, <a href="#Page_216">216</a></li>
+ <li class="isub1">F&#x2060;-86, <a href="#Page_25">25</a>, <a href="#Page_193">193-194</a>, <a href="#Page_206">206</a>, <a href="#Page_216">216</a>, <a href="#Page_220">220</a>, <a href="#Page_233">233</a>,
+ <a href="#Page_299">299</a></li>
+ <li class="isub1">F&#x2060;-100, <a href="#Page_45">45</a>, <a href="#Page_186">186</a>, <a href="#Page_194">194-198</a>, <a href="#Page_206">206</a>, <a href="#Page_221">221</a>, <a href="#Page_231">231</a>,
+ <a href="#Page_289">289</a>, <a href="#Page_299">299</a>, <a href="#Page_341">341</a></li>
+ <li class="isub1">F&#x2060;-101, <a href="#Page_45">45</a>, <a href="#Page_186">186</a></li>
+ <li class="isub1">F&#x2060;-102, <a href="#Page_45">45</a>, <a href="#Page_167">167</a>, <a href="#Page_193">193</a>, <a href="#Page_216">216</a></li>
+ <li class="isub1">F&#x2060;-104, <a href="#Page_45">45</a>, <a href="#Page_185">185</a>, <a href="#Page_278">278</a>, <a href="#Page_300">300</a>, <a href="#Page_304">304</a>, <a href="#Page_341">341</a>,
+ <a href="#Page_372">372</a>, <a href="#Page_381">381</a></li>
+ <li class="isub1">F&#x2060;-105, <a href="#Page_186">186</a>, <a href="#Page_215">215</a>, <a href="#Page_297">297</a></li>
+ <li class="isub1">F&#x2060;-106, <a href="#Page_167">167</a>, <a href="#Page_297">297</a></li>
+ <li class="isub1">F&#x2060;-107, <a href="#Page_215">215</a>, <a href="#Page_297">297</a>, <a href="#Page_299">299</a></li>
+ <li class="isub1">F&#x2060;-108, <a href="#Page_206">206</a>, <a href="#Page_293">293</a>, <a href="#Page_295">295</a>, <a href="#Page_357">357</a></li>
+ <li class="isub1">“Glamorous Glennis,” <a href="#Page_31">31</a>, <a href="#Page_127">127</a>, <a href="#Page_145">145</a></li>
+ <li class="isub1">Hiller Helicopter, <a href="#Page_216">216</a></li>
+ <li class="isub1">Howard “Ike,” “Mike,” and “Pete,” <a href="#Page_65">65</a></li>
+ <li class="isub1">Howard “Mr. Mulligan,” <a href="#Page_65">65</a>, <a href="#Page_75">75</a></li>
+ <li class="isub1">Lancaster (British), <a href="#Page_70">70</a></li>
+ <li class="isub1">N3N (“Yellow Peril”), <a href="#Page_90">90</a></li>
+ <li class="isub1">P&#x2060;-51, <a href="#Page_206">206</a>, <a href="#Page_241">241</a></li>
+ <li class="isub1">R&#x2060;-4&#x2060;-D, <a href="#Page_107">107</a></li>
+ <li class="isub1">T&#x2060;-39, <a href="#Page_299">299</a>, <a href="#Page_374">374</a></li>
+ <li class="isub1">Travelair “Mystery Ship,” <a href="#Page_65">65</a>, <a href="#Page_66">66</a></li>
+ <li class="isub1">U&#x2060;-2, <a href="#Page_275">275</a></li>
+ <li class="isub1"><span class="pagenum" id="Page_416">[Pg 416]</span>Weddell-Williams “Special,” <a href="#Page_65">65</a></li>
+ <li class="isub1">X&#x2060;-1, <a href="#Page_21">21-23</a>, <a href="#Page_26">26</a>, <a href="#Page_28">28</a>, <a href="#Page_31">31</a>, <a href="#Page_33">33</a>, <a href="#Page_47">47-58</a>,
+ <a href="#Page_119">119</a>, <a href="#Page_125">125</a>, <a href="#Page_126">126</a>, <a href="#Page_128">128</a>, <a href="#Page_135">135</a>, <a href="#Page_137">137</a>,
+ <a href="#Page_139">139</a>, <a href="#Page_158">158</a>, <a href="#Page_198">198</a>, <a href="#Page_223">223</a>, <a href="#Page_228">228</a>, <a href="#Page_237">237</a>,
+ <a href="#Page_293">293</a>, <a href="#Page_311">311</a></li>
+ <li class="isub1">X&#x2060;-1&#x2060;-A, <a href="#Page_137">137</a>, <a href="#Page_138">138</a>, <a href="#Page_145">145</a>, <a href="#Page_159">159</a>, <a href="#Page_162">162</a>, <a href="#Page_180">180</a>,
+ <a href="#Page_184">184</a>, <a href="#Page_200">200-205</a>, <a href="#Page_238">238</a>, <a href="#Page_286">286</a>, <a href="#Page_293">293</a>, <a href="#Page_299">299</a>,
+ <a href="#Page_368">368</a>, <a href="#Page_381">381</a>, <a href="#Page_391">391</a></li>
+ <li class="isub1">X&#x2060;-1&#x2060;-B, <a href="#Page_137">137</a>, <a href="#Page_145">145</a>, <a href="#Page_148">148</a>, <a href="#Page_185">185</a>, <a href="#Page_201">201</a>, <a href="#Page_204">204</a>,
+ <a href="#Page_212">212</a>, <a href="#Page_224">224</a>, <a href="#Page_286">286</a></li>
+ <li class="isub1">X&#x2060;-1&#x2060;-C, <a href="#Page_137">137</a>, <a href="#Page_145">145</a></li>
+ <li class="isub1">X&#x2060;-1&#x2060;-D, <a href="#Page_137">137</a>, <a href="#Page_145">145</a>, <a href="#Page_146">146</a>, <a href="#Page_159">159</a>, <a href="#Page_201">201</a>,
+ <a href="#Page_381">381</a></li>
+ <li class="isub1">X&#x2060;-1&#x2060;-E, <a href="#Page_185">185</a>, <a href="#Page_204">204</a>, <a href="#Page_208">208</a>, <a href="#Page_211">211</a>, <a href="#Page_286">286</a></li>
+ <li class="isub1">X&#x2060;-1-3 (“Queenie”), <a href="#Page_145">145</a>, <a href="#Page_147">147</a>, <a href="#Page_148">148</a>, <a href="#Page_201">201</a>, <a href="#Page_350">350</a>,
+ <a href="#Page_381">381</a></li>
+ <li class="isub1">X&#x2060;-2, <a href="#Page_34">34-35</a>, <a href="#Page_135">135</a>, <a href="#Page_137">137</a>, <a href="#Page_139">139</a>, <a href="#Page_149">149</a>, <a href="#Page_150">150-153</a>,
+ <a href="#Page_157">157</a>, <a href="#Page_165">165</a>, <a href="#Page_185">185</a>, <a href="#Page_201">201-207</a>, <a href="#Page_228">228</a>, <a href="#Page_231">231</a>,
+ <a href="#Page_238">238</a>, <a href="#Page_247">247</a>, <a href="#Page_275">275</a>, <a href="#Page_286">286</a>, <a href="#Page_293">293</a>, <a href="#Page_343">343</a>,
+ <a href="#Page_371">371</a>, <a href="#Page_381">381</a>, <a href="#Page_396">396</a></li>
+ <li class="isub1">X&#x2060;-3, <a href="#Page_34">34</a>, <a href="#Page_141">141</a>, <a href="#Page_148">148-149</a>, <a href="#Page_152">152</a>, <a href="#Page_165">165</a>, <a href="#Page_198">198</a>,
+ <a href="#Page_286">286</a>, <a href="#Page_293">293</a>, <a href="#Page_396">396</a></li>
+ <li class="isub1">X&#x2060;-4, <a href="#Page_32">32-33</a>, <a href="#Page_38">38-44</a>, <a href="#Page_47">47</a>, <a href="#Page_135">135</a>, <a href="#Page_158">158</a>, <a href="#Page_198">198</a>,
+ <a href="#Page_278">278</a>, <a href="#Page_286">286</a></li>
+ <li class="isub1">X&#x2060;-5, <a href="#Page_34">34</a>, <a href="#Page_154">154-155</a>, <a href="#Page_158">158</a>, <a href="#Page_198">198</a>, <a href="#Page_216">216</a>,
+ <a href="#Page_286">286</a></li>
+ <li class="isub1">X&#x2060;-15, <a href="#Page_35">35</a>, <a href="#Page_49">49</a>, <a href="#Page_158">158</a>, <a href="#Page_165">165</a>, <a href="#Page_186">186</a>, <a href="#Page_187">187-189</a>,
+ <a href="#Page_204">204</a>, <a href="#Page_207">207-208</a>, <a href="#Page_212">212</a>, <a href="#Page_216">216</a>, <a href="#Page_220">220</a>, <a href="#Page_222">222</a>,
+ <a href="#Page_227">227</a>, <a href="#Page_231">231</a>, <a href="#Page_245">245</a>, <a href="#Page_249">249</a>, <a href="#Page_251">251</a>, <a href="#Page_264">264</a>,
+ <a href="#Page_268">268</a>, <a href="#Page_272">272</a>, <a href="#Page_277">277</a>, <a href="#Page_282">282</a>, <a href="#Page_286">286</a>, <a href="#Page_290">290</a>,
+ <a href="#Page_295">295</a>, <a href="#Page_299">299</a>, <a href="#Page_300">300</a>, <a href="#Page_304">304</a>, <a href="#Page_310">310</a>, <a href="#Page_322">322</a>,
+ <a href="#Page_325">325</a>, <a href="#Page_338">338</a>, <a href="#Page_343">343</a>, <a href="#Page_358">358</a>, <a href="#Page_377">377</a>, <a href="#Page_389">389</a>,
+ <a href="#Page_392">392</a>, <a href="#Page_401">401</a>, <a href="#Page_405">405</a>, <a href="#Page_409">409</a></li>
+ <li class="isub1">X&#x2060;-15 Number 2, <a href="#Page_346">346</a>, <a href="#Page_350">350</a></li>
+ <li class="isub1">X&#x2060;-15 Number 3, <a href="#Page_407">407</a></li>
+ <li class="isub1">X&#x2060;-15B, <a href="#Page_279">279</a>, <a href="#Page_280">280-283</a>, <a href="#Page_287">287</a>, <a href="#Page_295">295</a>, <a href="#Page_318">318</a></li>
+ <li class="isub1">XF&#x2060;-85, <a href="#Page_299">299</a></li>
+ <li class="isub1">XF&#x2060;-92A, <a href="#Page_148">148</a>, <a href="#Page_165">165</a>, <a href="#Page_167">167</a>, <a href="#Page_193">193</a>, <a href="#Page_216">216</a>,
+ <a href="#Page_278">278</a></li>
+ <li class="isub1">YF&#x2060;-84, <a href="#Page_216">216</a>, <a href="#Page_276">276</a></li>
+
+ <li class="indx">Allavie, Capt John E. (“Jack”), <a href="#Page_266">266</a>, <a href="#Page_314">314</a>, <a href="#Page_325">325</a>, <a href="#Page_328">328</a>, <a href="#Page_335">335</a>,
+ <a href="#Page_367">367</a> ff., <a href="#Page_371">371</a>, <a href="#Page_376">376</a>, <a href="#Page_394">394</a></li>
+
+ <li class="indx">Allen, Edward (“Eddie”), <a href="#Page_23">23</a>, <a href="#Page_27">27</a>, <a href="#Page_76">76</a>, <a href="#Page_373">373</a></li>
+
+ <li class="indx">Ames, NACA laboratory, <a href="#Page_26">26</a>, <a href="#Page_29">29</a>, <a href="#Page_35">35</a>, <a href="#Page_156">156</a></li>
+
+ <li class="indx">Ankenbruk, Herman O., <a href="#Page_174">174</a>, <a href="#Page_175">175</a>, <a href="#Page_177">177</a></li>
+
+ <li class="indx">Apt, Capt. Milburn (“Mel”), <a href="#Page_213">213-214</a>, <a href="#Page_215">215-216</a>, <a href="#Page_247">247</a>, <a href="#Page_270">270</a>, <a href="#Page_367">367</a>,
+ <a href="#Page_389">389</a>, <a href="#Page_396">396</a></li>
+
+ <li class="indx">Army’s Ballistic Missile Agency, Huntsville, Ala., <a href="#Page_374">374</a></li>
+
+ <li class="indx">Atwood, J. Lee, <a href="#Page_209">209-212</a></li>
+
+ <li class="indx">auxiliary power unit (APU), <a href="#Page_310">310-312</a></li>
+
+
+ <li class="ifrst">Babb, Harold, <a href="#Page_60">60</a></li>
+
+ <li class="indx">Baker, Joel R. (“Bob”), Jr., <a href="#Page_210">210</a></li>
+
+ <li class="indx">ballistic-missile nose, <a href="#Page_224">224</a></li>
+
+ <li class="indx">Barker, Peter R. (“Pete”), <a href="#Page_314">314</a>, <a href="#Page_315">315</a>, <a href="#Page_328">328</a> ff.</li>
+
+ <li class="indx">Barnes, Francis Lowe (“Pancho”), <a href="#Page_29">29</a>, <a href="#Page_40">40</a>, <a href="#Page_65">65</a>, <a href="#Page_215">215</a></li>
+
+ <li class="indx">Beach, Melvin L. (“Mel”), <a href="#Page_309">309</a>, <a href="#Page_326">326</a></li>
+
+ <li class="indx">Beal, Arthur, <a href="#Page_78">78</a>, <a href="#Page_81">81</a>, <a href="#Page_84">84</a></li>
+
+ <li class="indx">Bell (aircraft company), <a href="#Page_21">21-23</a>, <a href="#Page_31">31</a>, <a href="#Page_34">34</a>, <a href="#Page_127">127</a>, <a href="#Page_137">137</a>,
+ <a href="#Page_146">146</a>, <a href="#Page_149">149</a>, <a href="#Page_153">153</a>, <a href="#Page_201">201</a>, <a href="#Page_204">204</a></li>
+
+ <li class="indx">Benner, Roland R. (“Bud”), <a href="#Page_226">226</a>, <a href="#Page_349">349</a>, <a href="#Page_356">356</a></li>
+
+ <li class="indx">Berkowitz, Harry W. (“Bill”), <a href="#Page_300">300</a>, <a href="#Page_314">314</a>, <a href="#Page_352">352</a>, <a href="#Page_359">359</a>, <a href="#Page_360">360</a>,
+ <a href="#Page_367">367</a></li>
+
+ <li class="indx">Bikle, Paul, <a href="#Page_298">298</a>, <a href="#Page_390">390</a></li>
+
+ <li class="indx">Blossom, Mrs. (author’s sixth grade teacher), <a href="#Page_72">72</a></li>
+
+ <li class="indx">Bock, Capt. Charles, <a href="#Page_266">266</a>, <a href="#Page_314">314</a>, <a href="#Page_315">315</a>, <a href="#Page_316">316</a>, <a href="#Page_320">320</a>
+ ff., <a href="#Page_328">328</a>, <a href="#Page_329">329</a>, <a href="#Page_331">331</a> ff., <a href="#Page_338">338</a>, <a href="#Page_339">339</a>, <a href="#Page_340">340</a>,
+ <a href="#Page_352">352</a>, <a href="#Page_355">355</a>, <a href="#Page_360">360</a>, <a href="#Page_361">361</a>, <a href="#Page_367">367</a>, <a href="#Page_394">394</a></li>
+
+ <li class="indx">Boeing (aircraft company), <a href="#Page_20">20-21</a>, <a href="#Page_82">82</a>, <a href="#Page_85">85</a>, <a href="#Page_88">88</a>, <a href="#Page_287">287</a></li>
+
+ <li class="indx">Bonney, Walter, <a href="#Page_169">169</a>, <a href="#Page_170">170</a>, <a href="#Page_178">178</a></li>
+
+ <li class="indx">Boyd, Col. Albert, <a href="#Page_31">31</a>, <a href="#Page_40">40</a>, <a href="#Page_41">41</a>, <a href="#Page_146">146</a>, <a href="#Page_165">165</a>,
+ <a href="#Page_190">190</a></li>
+
+ <li class="indx">Braun, Wernher von, <a href="#Page_374">374</a>, <a href="#Page_377">377</a></li>
+
+ <li class="indx"><span class="pagenum" id="Page_417">[Pg 417]</span>Bridgeman, William B. (“Bill”), <a href="#Page_34">34</a>, <a href="#Page_46">46</a>, <a href="#Page_48">48-49</a>,
+ <a href="#Page_52">52</a>, <a href="#Page_139">139</a>, <a href="#Page_148">148</a>, <a href="#Page_159">159</a>, <a href="#Page_210">210</a>, <a href="#Page_216">216</a>,
+ <a href="#Page_238">238</a></li>
+
+ <li class="indx">Brown, Claude (brother-in-law), <a href="#Page_36">36</a></li>
+
+ <li class="indx">Brown, Clinton, <a href="#Page_163">163</a></li>
+
+ <li class="indx">Brown, Elena Ruth (“Babe”)—sister, <a href="#Page_36">36</a>, <a href="#Page_62">62</a>, <a href="#Page_78">78</a>, <a href="#Page_102">102</a></li>
+
+ <li class="indx">Brown, Louise, <a href="#Page_56">56</a></li>
+
+ <li class="indx">Bryan, John C. (“Jack”), <a href="#Page_210">210</a></li>
+
+ <li class="indx">Buchanan, G.&nbsp;A., <a href="#Page_84">84</a>, <a href="#Page_85">85</a></li>
+
+ <li class="indx">Butchart, Stanley P. (“Stan”), <a href="#Page_175">175</a>, <a href="#Page_176">176</a>, <a href="#Page_193">193</a>, <a href="#Page_200">200</a> ff.</li>
+
+ <li class="indx">Butler, Capt. Francis M., <a href="#Page_190">190</a></li>
+
+
+ <li class="ifrst">Caldwell, Comdr. Turner F., Jr., <a href="#Page_47">47</a></li>
+
+ <li class="indx">Canary, John O. (“Jack”), <a href="#Page_221">221</a></li>
+
+ <li class="indx">Cannon, Joseph A. (“Joe”), <a href="#Page_147">147</a>, <a href="#Page_148">148</a>, <a href="#Page_299">299</a></li>
+
+ <li class="indx">“captive” fuel tests, <a href="#Page_152">152</a></li>
+
+ <li class="indx">Carl, Maj. Marion, <a href="#Page_47">47</a>, <a href="#Page_159">159</a>, <a href="#Page_216">216</a>, <a href="#Page_241">241</a>, <a href="#Page_287">287</a></li>
+
+ <li class="indx">Carmen, L. Robert, <a href="#Page_35">35</a>, <a href="#Page_142">142</a>, <a href="#Page_157">157</a>, <a href="#Page_226">226</a>, <a href="#Page_293">293-294</a></li>
+
+ <li class="indx">Carpenter, Brig. Gen. John W., <a href="#Page_297">297</a></li>
+
+ <li class="indx">Century Series supersonic fighters, <a href="#Page_45">45</a>, <a href="#Page_136">136</a>, <a href="#Page_185">185</a></li>
+
+ <li class="indx">Champine, Robert S. (“Bob”), <a href="#Page_30">30</a>, <a href="#Page_128">128</a></li>
+
+ <li class="indx">Civilian Pilot Training (CPT), <a href="#Page_84">84</a></li>
+
+ <li class="indx">Clark, Dr. David M., <a href="#Page_239">239-240</a>, <a href="#Page_242">242</a>, <a href="#Page_243">243</a>, <a href="#Page_253">253</a> ff.</li>
+
+ <li class="indx">Clark, Mrs. (author’s first grade teacher), <a href="#Page_72">72</a></li>
+
+ <li class="indx">Clousing, Laurence, <a href="#Page_27">27</a></li>
+
+ <li class="indx">Cokely, E. R. (“Ed”), <a href="#Page_298">298-299</a></li>
+
+ <li class="indx">Colvin, Lou, <a href="#Page_111">111</a>, <a href="#Page_112">112</a></li>
+
+ <li class="indx">commercial jet airliner (U.&nbsp;S.), <i>see</i> Boeing 707</li>
+
+ <li class="indx">Cooper, Brig. Gen. Marcus, <a href="#Page_297">297</a></li>
+
+ <li class="indx">cosmic radiation, <a href="#Page_164">164</a>, <a href="#Page_187">187</a></li>
+
+ <li class="indx">Crossfield’s family:</li>
+ <li class="isub1">Albert Scott (father), <a href="#Page_56">56</a>, <a href="#Page_407">407</a>;</li>
+ <li class="isub1">Alice (wife), <a href="#Page_22">22</a>, <a href="#Page_28">28-29</a>, <a href="#Page_37">37</a>, <a href="#Page_96">96</a>, <a href="#Page_102">102</a>, <a href="#Page_120">120</a>,
+ <a href="#Page_285">285</a>;</li>
+ <li class="isub1">Amasa Scott (grandfather), <a href="#Page_56">56</a>;</li>
+ <li class="isub1">Becky (daughter), <a href="#Page_37">37</a>, <a href="#Page_121">121</a>;</li>
+ <li class="isub1">Lucia (mother), <a href="#Page_55">55</a>;</li>
+ <li class="isub1">Mary Ann (sister), <a href="#Page_62">62</a>, <a href="#Page_80">80</a>;</li>
+ <li class="isub1">Tommy (son), <a href="#Page_37">37</a></li>
+ <li class="isub1"><i>See also</i> Elena Ruth Brown</li>
+
+ <li class="indx">Crow, Sgt. Herbert G., <a href="#Page_314">314</a></li>
+
+
+ <li class="ifrst">Doolittle, James H. (“Jimmy”), <a href="#Page_23">23</a>, <a href="#Page_76">76</a>, <a href="#Page_152">152</a>, <a href="#Page_186">186</a></li>
+
+ <li class="indx">Douglas (aircraft company), <a href="#Page_34">34</a>, <a href="#Page_186">186</a>, <a href="#Page_204">204</a></li>
+
+ <li class="indx">Drake, Hubert M., <a href="#Page_35">35</a>, <a href="#Page_142">142</a>, <a href="#Page_157">157</a>, <a href="#Page_226">226</a></li>
+
+ <li class="indx">Drakeford, Sir Arthur, <a href="#Page_57">57</a></li>
+
+ <li class="indx">Drakeford, Peter A., <a href="#Page_57">57</a></li>
+
+ <li class="indx">Drakeford, Ruth, <a href="#Page_57">57</a></li>
+
+ <li class="indx">“Dry lakes,” <a href="#Page_42">42</a>, <a href="#Page_44">44</a>, <a href="#Page_282">282</a>;</li>
+ <li class="isub1">Cuddeback Dry Lake, <a href="#Page_42">42</a>, <a href="#Page_380">380</a>;</li>
+ <li class="isub1">Harper Dry Lake, <a href="#Page_43">43</a>;</li>
+ <li class="isub1">Rogers Dry Lake, <a href="#Page_42">42</a>, <a href="#Page_52">52</a>, <a href="#Page_129">129</a>, <a href="#Page_151">151</a>, <a href="#Page_223">223</a>,
+ <a href="#Page_301">301</a>, <a href="#Page_321">321</a>, <a href="#Page_340">340</a>;</li>
+ <li class="isub1">Rosamond Dry Lake, <a href="#Page_43">43</a>, <a href="#Page_338">338</a>, <a href="#Page_355">355</a>, <a href="#Page_380">380</a>;</li>
+ <li class="isub1">Three Sisters Dry Lakes, <a href="#Page_43">43</a>, <a href="#Page_380">380</a></li>
+
+ <li class="indx">Dryden, Dr. Hugh, <a href="#Page_152">152</a>, <a href="#Page_153">153</a>, <a href="#Page_159">159</a>, <a href="#Page_161">161</a>, <a href="#Page_168">168</a>,
+ <a href="#Page_179">179</a>, <a href="#Page_188">188</a>, <a href="#Page_206">206</a>, <a href="#Page_283">283</a></li>
+
+ <li class="indx">Durrup, Lt. Paul, <a href="#Page_237">237</a>, <a href="#Page_238">238</a></li>
+
+ <li class="indx">Dwyer, Bessie, <a href="#Page_57">57</a></li>
+
+ <li class="indx">Dwyer, Thomas Aloysius, <a href="#Page_54">54</a></li>
+
+ <li class="indx">Dwyer, Thomas Aloysius, Jr., <a href="#Page_55">55</a></li>
+
+
+ <li class="ifrst">Earhart, Amelia, <a href="#Page_65">65</a></li>
+
+ <li class="indx">Edwards (desert test center), Calif., <a href="#Page_28">28</a></li>
+
+ <li class="indx">ejection seat, <a href="#Page_230">230</a>, <a href="#Page_233">233</a>, <a href="#Page_259">259</a>, <a href="#Page_260">260</a></li>
+
+ <li class="indx">Elkin, Hugh, <a href="#Page_222">222</a>, <a href="#Page_396">396</a></li>
+
+ <li class="indx">Emerson, Ralph Waldo, <a href="#Page_319">319</a>, <a href="#Page_409">409</a></li>
+
+ <li class="indx">“escape capsule,” <a href="#Page_230">230-232</a></li>
+
+ <li class="indx">Everest, Maj. Frank K. (“Pete”), <a href="#Page_31">31</a>, <a href="#Page_32">32</a>, <a href="#Page_40">40</a>, <a href="#Page_42">42-43</a>, <a href="#Page_127">127</a>,
+ <a href="#Page_146">146</a>, <a href="#Page_147">147</a>, <a href="#Page_165">165</a>, <a href="#Page_180">180</a>, <a href="#Page_184">184</a>, <a href="#Page_190">190</a>,
+ <a href="#Page_201">201</a>, <a href="#Page_204">204</a>, <a href="#Page_207">207</a>, <a href="#Page_210">210</a>, <a href="#Page_213">213</a>, <a href="#Page_214">214</a>,
+ <a href="#Page_216">216</a>, <a href="#Page_237">237-238</a>, <a href="#Page_367">367</a>, <a href="#Page_371">371</a>, <a href="#Page_389">389</a>, <a href="#Page_396">396</a></li>
+
+ <li class="indx">Everest, Frank K., <i>The Fastest Man Alive</i>, <a href="#Page_146">146</a></li>
+
+ <li class="indx">“extra-atmospheric” flight, <a href="#Page_164">164</a></li>
+
+
+ <li class="ifrst"><span class="pagenum" id="Page_418">[Pg 418]</span>Feltz, Charles, <a href="#Page_220">220-222</a>, <a href="#Page_225">225</a>, <a href="#Page_226">226</a>
+ ff., <a href="#Page_244">244</a>, <a href="#Page_251">251</a>, <a href="#Page_260">260</a>, <a href="#Page_261">261</a>, <a href="#Page_262">262</a> ff., <a href="#Page_267">267-270</a>,
+ <a href="#Page_275">275</a> ff., <a href="#Page_284">284</a>, <a href="#Page_289">289</a>, <a href="#Page_290">290</a>, <a href="#Page_292">292</a> ff., <a href="#Page_303">303</a>,
+ <a href="#Page_307">307</a> ff., <a href="#Page_316">316</a>, <a href="#Page_326">326</a>, <a href="#Page_333">333</a>, <a href="#Page_336">336</a>, <a href="#Page_342">342</a>,
+ <a href="#Page_349">349</a>, <a href="#Page_356">356</a>, <a href="#Page_359">359</a>, <a href="#Page_364">364</a>, <a href="#Page_365">365</a>, <a href="#Page_371">371</a>,
+ <a href="#Page_385">385</a>, <a href="#Page_391">391</a>, <a href="#Page_395">395</a>, <a href="#Page_406">406</a></li>
+
+ <li class="indx">Ferren, Roy, <a href="#Page_380">380</a>, <a href="#Page_382">382</a></li>
+
+ <li class="indx">Finch, Thomas, <a href="#Page_154">154</a></li>
+
+ <li class="indx">Flagg, John, <a href="#Page_255">255</a>, <a href="#Page_256">256</a>, <a href="#Page_257">257</a></li>
+
+ <li class="indx">Flateboe, Comdr. William, <a href="#Page_111">111</a>, <a href="#Page_112">112</a></li>
+
+ <li class="indx">Flickinger, Brig. Gen. Don, <a href="#Page_258">258</a>, <a href="#Page_267">267</a>, <a href="#Page_268">268</a>, <a href="#Page_277">277</a>, <a href="#Page_282">282</a>,
+ <a href="#Page_283">283</a></li>
+
+ <li class="indx">Fohl, Simon S. (“Si”), <a href="#Page_309">309-310</a></li>
+
+ <li class="indx">“forced eating” methods, <a href="#Page_277">277</a></li>
+
+ <li class="indx">Freedman, Toby, <a href="#Page_301">301</a>, <a href="#Page_383">383-384</a></li>
+
+ <li class="indx">Freeman, Oscar, <a href="#Page_315">315</a>, <a href="#Page_328">328</a></li>
+
+ <li class="indx">Fulton, Fitzhugh, <a href="#Page_49">49</a>, <a href="#Page_51">51-52</a>, <a href="#Page_367">367</a>, <a href="#Page_368">368</a>, <a href="#Page_394">394</a></li>
+
+
+ <li class="ifrst">Gahl, Capt. Edward C., <a href="#Page_266">266</a></li>
+
+ <li class="indx">Gallanes, Harry, <a href="#Page_400">400-401</a></li>
+
+ <li class="indx">Gates, Thomas S., Secretary of Defense, <a href="#Page_396">396</a></li>
+
+ <li class="indx">Gibb, John, <a href="#Page_349">349</a>, <a href="#Page_353">353</a>, <a href="#Page_356">356</a></li>
+
+ <li class="indx">Givens, Capt. Vergil C., <a href="#Page_176">176</a></li>
+
+ <li class="indx">Glennan, Dr. T. Keith, <a href="#Page_283">283</a></li>
+
+ <li class="indx">Goodlin, Chalmers (“Slick”), <a href="#Page_21">21</a>, <a href="#Page_23">23</a>, <a href="#Page_30">30</a></li>
+
+ <li class="indx">Goodrich Tire and Rubber Company, <a href="#Page_237">237</a></li>
+
+ <li class="indx">Gravity, positive (positive G), <a href="#Page_129">129</a></li>
+
+ <li class="indx">Gregorious, Capt. John, <a href="#Page_190">190</a></li>
+
+ <li class="indx">Griffith, John, <a href="#Page_28">28</a>, <a href="#Page_29">29</a>, <a href="#Page_31">31</a>, <a href="#Page_39">39</a>, <a href="#Page_126">126</a></li>
+
+ <li class="indx">Grumman (aircraft company), <a href="#Page_76">76</a></li>
+
+
+ <li class="ifrst">Harper, John, <a href="#Page_30">30</a></li>
+
+ <li class="indx">Harvey, Quinton C. (“Q.C.”), <a href="#Page_147">147</a>, <a href="#Page_299">299</a> ff., <a href="#Page_308">308</a>, <a href="#Page_316">316</a>, <a href="#Page_322">322</a>,
+ <a href="#Page_324">324</a>, <a href="#Page_328">328-329</a>, <a href="#Page_335">335-336</a>, <a href="#Page_339">339</a>, <a href="#Page_342">342</a>, <a href="#Page_346">346</a>,
+ <a href="#Page_349">349</a>, <a href="#Page_355">355</a>, <a href="#Page_356">356</a>, <a href="#Page_359">359</a>, <a href="#Page_360">360</a>, <a href="#Page_365">365</a>,
+ <a href="#Page_368">368</a>, <a href="#Page_371">371</a>, <a href="#Page_373">373</a>, <a href="#Page_376">376</a> ff., <a href="#Page_386">386</a>, <a href="#Page_389">389</a>,
+ <a href="#Page_401">401</a>, <a href="#Page_403">403</a>, <a href="#Page_407">407</a></li>
+
+ <li class="indx">Helsell, William A. (“Bill”), <a href="#Page_111">111</a>, <a href="#Page_112">112</a>, <a href="#Page_113">113</a>, <a href="#Page_115">115</a>, <a href="#Page_116">116</a>,
+ <a href="#Page_117">117</a></li>
+
+ <li class="indx">Henry, Dr. James P., <a href="#Page_237">237</a></li>
+
+ <li class="indx">High Speed Flight Station, NACA, Edwards, <a href="#Page_30">30</a>, <a href="#Page_191">191</a>, <a href="#Page_298">298</a></li>
+
+ <li class="indx">Hoffmann, “Bogie,” <a href="#Page_94">94</a></li>
+
+ <li class="indx">Holguin, Paula, <a href="#Page_55">55</a></li>
+
+ <li class="indx"><ins class="corr" title="Transcriber’s Note—Original text: 'Holtner, Gen. Stanley'" id="tn-418">Holtoner, Gen. Stanley</ins>, <a href="#Page_190">190</a>, <a href="#Page_297">297</a></li>
+
+ <li class="indx">Hoover, Herbert R., <a href="#Page_30">30</a>, <a href="#Page_31">31</a></li>
+
+ <li class="indx">Hoover, Robert A. (“Bob”), <a href="#Page_196">196</a></li>
+
+ <li class="indx">Howard, Ben O. (“Benny”), <a href="#Page_65">65</a>, <a href="#Page_75">75</a></li>
+
+ <li class="indx">Humphries, Mrs. (author’s fourth grade teacher), <a href="#Page_72">72</a></li>
+
+
+ <li class="ifrst">Inconel X, <a href="#Page_224">224</a>, <a href="#Page_229">229</a>, <a href="#Page_262">262</a>, <a href="#Page_290">290</a>, <a href="#Page_320">320</a>,
+ <a href="#Page_343">343</a></li>
+
+ <li class="indx">International Harvester Company, <a href="#Page_245">245</a></li>
+
+ <li class="indx">International Geophysical Year, <a href="#Page_267">267</a></li>
+
+ <li class="indx">International Livestock Show, Chicago, <a href="#Page_78">78</a></li>
+
+
+ <li class="ifrst">Jansen, George, <a href="#Page_48">48</a>, <a href="#Page_50">50</a>, <a href="#Page_140">140</a></li>
+
+ <li class="indx">JATO, <a href="#Page_47">47-48</a>, <a href="#Page_139">139</a></li>
+
+ <li class="indx">Jingle, Joe, <a href="#Page_351">351</a></li>
+
+ <li class="indx">Johnson, Louis, Secretary of Defense, <a href="#Page_45">45</a></li>
+
+ <li class="indx">Johnson, Col. Richard, <a href="#Page_40">40</a></li>
+
+ <li class="indx">Johnston, E. W. (“Bill”), <a href="#Page_248">248</a></li>
+
+ <li class="indx">Johnsville Centrifuge, <a href="#Page_271">271-272</a></li>
+
+ <li class="indx">Jones, Harold, <a href="#Page_81">81</a></li>
+
+ <li class="indx">Jones, Walter P., <a href="#Page_126">126</a></li>
+
+
+ <li class="ifrst">Kincheloe, Iven, <a href="#Page_213">213-214</a>, <a href="#Page_216">216</a>, <a href="#Page_286">286</a>, <a href="#Page_304">304-305</a>, <a href="#Page_367">367</a>,
+ <a href="#Page_396">396</a></li>
+
+ <li class="indx">Kindelberger, J. H. (“Dutch”), <a href="#Page_210">210</a></li>
+
+ <li class="indx">Kingsville Naval Air Station, <a href="#Page_93">93</a></li>
+
+ <li class="indx">Kirsten, Professor Frank K., <a href="#Page_19">19</a></li>
+
+ <li class="indx">Kotcher, Ezra, <a href="#Page_26">26</a>, <a href="#Page_158">158</a></li>
+
+ <li class="indx">Konrad, John, <a href="#Page_49">49</a>, <a href="#Page_52">52</a></li>
+
+ <li class="indx">Korean War, <a href="#Page_25">25</a>, <a href="#Page_45">45</a></li>
+
+
+ <li class="ifrst">Laird, Norman, <a href="#Page_66">66</a></li>
+
+ <li class="indx"><span class="pagenum" id="Page_419">[Pg 419]</span>Lamb, Comdr. William, <a href="#Page_104">104</a>, <a href="#Page_105">105</a></li>
+
+ <li class="indx">Langley, NACA laboratory, <a href="#Page_26">26</a>, <a href="#Page_30">30</a>, <a href="#Page_32">32</a>, <a href="#Page_157">157</a>, <a href="#Page_283">283</a></li>
+
+ <li class="indx">Lathrop, Neil T., <a href="#Page_190">190</a></li>
+
+ <li class="indx">Lauffer, Brian, <a href="#Page_383">383</a></li>
+
+ <li class="indx">Lawrence Sperry Award, <a href="#Page_210">210</a></li>
+
+ <li class="indx">Layne, Eddie, <a href="#Page_46">46</a></li>
+
+ <li class="indx">LeBlonde (French mfg. company), <a href="#Page_79">79</a></li>
+
+ <li class="indx">Le May, Gen. Curtis, <a href="#Page_266">266</a></li>
+
+ <li class="indx">Le Vier, Anthony W. (“Tony”), <a href="#Page_186">186</a></li>
+
+ <li class="indx">Lewshon, William T., <a href="#Page_152">152</a></li>
+
+ <li class="indx">Lienesch, Charles (“Carl”), <a href="#Page_64">64</a>, <a href="#Page_66">66</a>, <a href="#Page_76">76</a>, <a href="#Page_80">80</a></li>
+
+ <li class="indx">Lilly, Howard C., <a href="#Page_30">30</a>, <a href="#Page_33">33</a>, <a href="#Page_47">47</a></li>
+
+ <li class="indx">Lindbergh, Charles A., <a href="#Page_21">21</a>, <a href="#Page_24">24</a>, <a href="#Page_75">75</a></li>
+
+ <li class="indx">Lox (liquid oxygen), <a href="#Page_160">160</a>, <a href="#Page_172">172</a>, <a href="#Page_201">201</a></li>
+
+ <li class="indx">Lunn, Rose E., <a href="#Page_265">265</a></li>
+
+
+ <li class="ifrst"><ins class="corr" title="Transcriber’s Note—Original text: 'Mach number, 15'" id="tn-419a">Mach number, <a href="#Page_16">16</a></ins>, <a href="#Page_33">33-34</a>, <a href="#Page_39">39</a>, <a href="#Page_48">48</a>, <a href="#Page_129">129</a>, <a href="#Page_137">137</a>,
+ <a href="#Page_143">143</a>, <a href="#Page_158">158</a>, <a href="#Page_171">171-172</a>, <a href="#Page_177">177-178</a>, <a href="#Page_183">183</a>, <a href="#Page_186">186</a>,
+ <a href="#Page_247">247</a>, <a href="#Page_269">269</a>, <a href="#Page_362">362</a>, <a href="#Page_371">371</a>, <a href="#Page_391">391</a>, <a href="#Page_395">395</a></li>
+
+ <li class="indx">Marshall, Gen. George C., <a href="#Page_45">45</a></li>
+
+ <li class="indx">Martin, Ernest (“Ernie”), <a href="#Page_242">242</a></li>
+
+ <li class="indx">Martin, John, <a href="#Page_48">48</a></li>
+
+ <li class="indx">May, Gene, <a href="#Page_33">33</a>, <a href="#Page_34">34</a>, <a href="#Page_48">48</a></li>
+
+ <li class="indx">McDonnell (aircraft company), <a href="#Page_20">20</a>, <a href="#Page_283">283</a></li>
+
+ <li class="indx">McKay, John B. (“Jack”), <a href="#Page_193">193</a>, <a href="#Page_201">201-202</a>, <a href="#Page_224">224</a></li>
+
+ <li class="indx">McNulty, Vaughn, <a href="#Page_66">66</a></li>
+
+ <li class="indx">Meade, Mrs. (author’s second grade teacher), <a href="#Page_72">72</a></li>
+
+ <li class="indx">Mellinger, George, <a href="#Page_373">373</a></li>
+
+ <li class="indx">Mercury Astronauts, <a href="#Page_243">243</a>, <a href="#Page_283">283</a></li>
+
+ <li class="indx">MIS (Man in Space) program, <a href="#Page_267">267</a>, <a href="#Page_268">268</a>, <a href="#Page_277">277</a>, <a href="#Page_282">282</a></li>
+
+ <li class="indx">missiles:</li>
+ <li class="isub1">Bomarc, <a href="#Page_356">356</a>;</li>
+ <li class="isub1">medium- and long-range (Thor, Jupiter, Atlas, Titan), <a href="#Page_27">27</a>, <a href="#Page_156">156</a>, <a href="#Page_187">187</a>, <a href="#Page_206">206</a>,
+ <a href="#Page_228">228</a>, <a href="#Page_269">269</a>;</li>
+ <li class="isub1">Nike, <a href="#Page_356">356</a>;</li>
+ <li class="isub1">Navaho, <a href="#Page_268">268-269</a>, <a href="#Page_279">279</a>, <a href="#Page_281">281</a>;</li>
+ <li class="isub1">Redstone, <a href="#Page_157">157</a>, <a href="#Page_399">399</a>;</li>
+ <li class="isub1">Regulus, <a href="#Page_215">215</a>;</li>
+ <li class="isub1">surface-to-surface (Atlas, Titan, Polaris), <a href="#Page_357">357</a>, <a href="#Page_404">404</a>;</li>
+ <li class="isub1">Vanguard, <a href="#Page_399">399</a>;</li>
+ <li class="isub1">V&#x2060;-2, <a href="#Page_156">156</a></li>
+
+ <li class="indx">Moise, John W. (“Jack”), <a href="#Page_173">173</a>, <a href="#Page_368">368</a></li>
+
+ <li class="indx">Murphy’s Law, <a href="#Page_352">352</a>, <a href="#Page_368">368</a>, <a href="#Page_404">404</a></li>
+
+ <li class="indx">Murray, Maj. Arthur (“Kit”), <a href="#Page_181">181</a>, <a href="#Page_182">182</a>, <a href="#Page_184">184</a>, <a href="#Page_201">201</a>, <a href="#Page_202">202-203</a>,
+ <a href="#Page_207">207</a>, <a href="#Page_216">216</a>, <a href="#Page_241">241</a>, <a href="#Page_299">299</a>, <a href="#Page_367">367</a>, <a href="#Page_391">391</a></li>
+
+
+ <li class="ifrst">NACA High Speed Flight Station, <a href="#Page_30">30</a>, <a href="#Page_191">191</a>, <a href="#Page_298">298</a></li>
+
+ <li class="indx">NACA testing laboratories:</li>
+ <li class="isub1">Ames, Calif. (Moffett Field, <ins class="corr" title="Transcriber’s Note—Original text: 'near San'" id="tn-419">near San Francisco), <a href="#Page_26">26</a></ins>;</li>
+ <li class="isub1">Lewis, Cleveland, Ohio, <a href="#Page_26">26</a>;</li>
+ <li class="isub1">Langley, Hampton, Va., <a href="#Page_26">26</a>, <a href="#Page_30">30</a>, <a href="#Page_32">32</a>, <a href="#Page_157">157</a>, <a href="#Page_283">283</a></li>
+
+ <li class="indx">National Advisory Committee for Aeronautics (NACA), <a href="#Page_26">26-28</a>, <a href="#Page_30">30-33</a>, <a href="#Page_38">38</a>, <a href="#Page_40">40</a>,
+ <a href="#Page_45">45</a>, <a href="#Page_65">65</a>, <a href="#Page_136">136</a>, <a href="#Page_141">141</a>, <a href="#Page_152">152</a></li>
+
+ <li class="indx">National Aeronautics and Space Administration (NASA), <a href="#Page_283">283</a>, <a href="#Page_287">287</a></li>
+
+ <li class="indx">Nautilus submarine, <a href="#Page_269">269</a></li>
+
+ <li class="indx">Naval Air Test Center, Patuxent River, Maryland, <a href="#Page_105">105</a>, <a href="#Page_159">159</a></li>
+
+ <li class="indx">Naval Air Training Center, Corpus Christi, Texas, <a href="#Page_91">91</a></li>
+
+ <li class="indx">Naval Air Training Center, Jacksonville, Florida, <a href="#Page_99">99</a></li>
+
+ <li class="indx">Navy Aero-medical Acceleration Laboratory, Johnsville, Pa., <a href="#Page_272">272</a></li>
+
+ <li class="indx">Newman, James (“Jim”), <a href="#Page_172">172</a>, <a href="#Page_176">176</a></li>
+
+ <li class="indx">Nixon, Richard M., <a href="#Page_303">303</a></li>
+
+ <li class="indx">North American Aviation, Inc., <a href="#Page_204">204</a>, <a href="#Page_209">209</a>, <a href="#Page_247">247</a>, <a href="#Page_268">268</a>, <a href="#Page_312">312</a>,
+ <a href="#Page_318">318</a>, <a href="#Page_334">334</a></li>
+
+ <li class="indx">Northrop, John K. (“Jack”), <a href="#Page_40">40</a></li>
+
+ <li class="indx">“Nose Wheel Club,” <a href="#Page_132">132</a></li>
+
+
+ <li class="ifrst">O’Sullivan, William J., <a href="#Page_163">163</a></li>
+
+ <li class="indx">Owl, George A., Jr., <a href="#Page_221">221</a>, <a href="#Page_229">229</a></li>
+
+
+ <li class="ifrst">Paymiller, Mrs. (author’s fifth-grade teacher), <a href="#Page_63">63</a>, <a href="#Page_72">72</a></li>
+
+ <li class="indx">Payne, Richard E. (“Dick”), <a href="#Page_128">128</a></li>
+
+ <li class="indx"><span class="pagenum" id="Page_420">[Pg 420]</span>Pearl Harbor, <a href="#Page_86">86</a>, <a href="#Page_93">93</a>, <a href="#Page_247">247</a></li>
+
+ <li class="indx">Perkins, Oliver R. (“Perk”), <a href="#Page_167">167</a>, <a href="#Page_168">168</a></li>
+
+ <li class="indx">Petersen, Lt. Comdr. Forrest S., (“Pete”), <a href="#Page_287">287</a></li>
+
+ <li class="indx">“Phase Two” airplanes, <a href="#Page_47">47</a></li>
+
+ <li class="indx">Popson, Maj. Raymond A., <a href="#Page_155">155</a>, <a href="#Page_190">190</a></li>
+
+ <li class="indx">Post, Wiley, <a href="#Page_237">237</a></li>
+
+ <li class="indx"><i>Press-Telegram</i>, newspaper of Long Beach, Calif., <a href="#Page_66">66</a></li>
+
+ <li class="indx">pressure suit and equipment, <a href="#Page_236">236-239</a>, <a href="#Page_240">240-242</a>, <a href="#Page_253">253</a>, <a href="#Page_258">258</a></li>
+
+ <li class="indx">“pressurized” cabin, <a href="#Page_235">235</a></li>
+
+ <li class="indx">Project Mercury, <a href="#Page_158">158</a>, <a href="#Page_283">283</a>, <a href="#Page_287">287</a></li>
+
+ <li class="indx">Puckett, Elvin V., <a href="#Page_84">84</a></li>
+
+
+ <li class="ifrst">radiation disease, <a href="#Page_274">274</a></li>
+
+ <li class="indx">Reaction Motors, Inc., <a href="#Page_223">223</a></li>
+
+ <li class="indx">Reed, Elden, <a href="#Page_78">78</a>, <a href="#Page_81">81</a>, <a href="#Page_84">84</a></li>
+
+ <li class="indx">Republic (aircraft corporation), <a href="#Page_204">204</a>, <a href="#Page_205">205</a></li>
+
+ <li class="indx">reserve squadron VF&#x2060;-74, <a href="#Page_109">109</a>, <a href="#Page_113">113-114</a>, <a href="#Page_118">118</a></li>
+
+ <li class="indx">Rice, Ray, <a href="#Page_212">212</a>, <a href="#Page_246">246</a></li>
+
+ <li class="indx">Richardson, Capt. Ralph N., <a href="#Page_314">314</a>, <a href="#Page_326">326</a>, <a href="#Page_334">334</a>, <a href="#Page_344">344</a>, <a href="#Page_373">373</a>,
+ <a href="#Page_390">390</a></li>
+
+ <li class="indx">Richter, Donald M. (“Sam”), <a href="#Page_300">300</a>, <a href="#Page_301">301</a>, <a href="#Page_309">309</a>, <a href="#Page_316">316</a>, <a href="#Page_331">331</a>,
+ <a href="#Page_342">342</a>, <a href="#Page_363">363</a>, <a href="#Page_364">364</a>, <a href="#Page_365">365</a>, <a href="#Page_366">366</a>, <a href="#Page_379">379</a>,
+ <a href="#Page_384">384</a>, <a href="#Page_386">386-387</a></li>
+
+ <li class="indx">Ridley, Capt. Jackie L. (“Jack”), <a href="#Page_31">31</a>, <a href="#Page_127">127</a>, <a href="#Page_130">130</a>, <a href="#Page_146">146</a>, <a href="#Page_181">181</a>,
+ <a href="#Page_190">190</a></li>
+
+ <li class="indx">Robinson, Raun, <a href="#Page_226">226</a></li>
+
+ <li class="indx">Robinson, Russell E. (“Robby”), <a href="#Page_310">310-311</a>, <a href="#Page_313">313</a></li>
+
+ <li class="indx">rocket engines, <a href="#Page_46">46</a></li>
+
+ <li class="indx">rocket engine XLR&#x2060;-99, <a href="#Page_223">223</a>, <a href="#Page_227">227</a>, <a href="#Page_233">233</a>, <a href="#Page_251">251</a>, <a href="#Page_281">281</a>,
+ <a href="#Page_292">292-294</a>, <a href="#Page_301">301</a>, <a href="#Page_361">361</a>, <a href="#Page_399">399</a></li>
+
+ <li class="indx">Roosevelt, Theodore, <a href="#Page_259">259</a></li>
+
+ <li class="indx">Rowan, Dr. E.&nbsp;J., <a href="#Page_63">63</a></li>
+
+ <li class="indx">Russell, Jack, <a href="#Page_160">160</a></li>
+
+
+ <li class="ifrst">Sand Point Naval Air Station, Seattle, Wash., <a href="#Page_88">88</a></li>
+
+ <li class="indx">Satellites:</li>
+ <li class="isub1">Dyna-Soar, <a href="#Page_287">287</a>;</li>
+ <li class="isub1">Sputnik, <a href="#Page_270">270</a>, <a href="#Page_280">280-283</a>, <a href="#Page_288">288</a>, <a href="#Page_302">302</a></li>
+
+ <li class="indx">Scott, Gen. Winfield, <a href="#Page_56">56</a></li>
+
+ <li class="indx">Seeger, Oscar, <a href="#Page_119">119</a>, <a href="#Page_123">123</a></li>
+
+ <li class="indx">Sellers, Capt. Wilbur (“Pete”), <a href="#Page_125">125</a>, <a href="#Page_127">127</a>, <a href="#Page_190">190</a></li>
+
+ <li class="indx">“Semi-empirical Method of Obtaining Static and Dynamic Aerodynamic Parameters of Swept-back Wings Analyzed on a Basis of Plan Form,”—Crossfield’s master’s thesis, <a href="#Page_122">122</a></li>
+
+ <li class="indx">Semone, Arthur (“Art”), <a href="#Page_403">403</a></li>
+
+ <li class="indx">Sigma Xi, <a href="#Page_121">121</a></li>
+
+ <li class="indx">Simons, Maj. David, <a href="#Page_275">275</a></li>
+
+ <li class="indx">Smith, boot ensign, <a href="#Page_104">104</a></li>
+
+ <li class="indx">Smith, George, <a href="#Page_230">230-231</a></li>
+
+ <li class="indx">Smithsonian Institution, <a href="#Page_31">31</a></li>
+
+ <li class="indx">sonic barrier, <a href="#Page_23">23</a>, <a href="#Page_28">28</a>, <a href="#Page_30">30</a>, <a href="#Page_31">31</a>, <a href="#Page_47">47</a></li>
+
+ <li class="indx">Soucek, Rear Adm. Apollo, <a href="#Page_168">168</a></li>
+
+ <li class="indx">Soule, Hartley, <a href="#Page_26">26</a></li>
+
+ <li class="indx">“space suit,” <a href="#Page_242">242</a></li>
+
+ <li class="indx">Sparks, Ralph (“Sparky”), <a href="#Page_38">38</a>, <a href="#Page_40">40</a></li>
+
+ <li class="indx"><ins class="corr" title="Transcriber’s Note—Original text: 'speed of sound, 15'" id="tn-420">speed of sound, <a href="#Page_16">16</a></ins>, <a href="#Page_21">21</a>, <a href="#Page_26">26</a></li>
+
+ <li class="indx">stability augmentation system (SAS), <a href="#Page_193">193</a>, <a href="#Page_339">339</a></li>
+
+ <li class="indx">Stack, John, <a href="#Page_26">26</a>, <a href="#Page_157">157</a></li>
+
+ <li class="indx">Stanley, Robert, <a href="#Page_127">127</a>, <a href="#Page_137">137</a>, <a href="#Page_152">152</a></li>
+
+ <li class="indx">Stapp, Col. John Paul, <a href="#Page_259">259</a></li>
+
+ <li class="indx">Staub, Blake, <a href="#Page_313">313</a>, <a href="#Page_339">339</a></li>
+
+ <li class="indx">Storms, Harrison (“Stormy”), <a href="#Page_205">205</a>, <a href="#Page_246">246-250</a>, <a href="#Page_252">252</a>, <a href="#Page_262">262</a>, <a href="#Page_267">267-270</a>,
+ <a href="#Page_280">280</a> ff., <a href="#Page_293">293</a>, <a href="#Page_311">311</a>, <a href="#Page_316">316</a>, <a href="#Page_326">326</a>, <a href="#Page_327">327</a>,
+ <a href="#Page_330">330</a> ff., <a href="#Page_342">342</a>, <a href="#Page_344">344</a>, <a href="#Page_349">349</a>, <a href="#Page_356">356</a>, <a href="#Page_359">359</a>,
+ <a href="#Page_374">374</a>, <a href="#Page_375">375</a>, <a href="#Page_378">378</a>, <a href="#Page_384">384</a>, <a href="#Page_386">386</a>, <a href="#Page_393">393</a>,
+ <a href="#Page_406">406</a></li>
+
+ <li class="indx">Strategic Air Command, <a href="#Page_20">20</a>, <a href="#Page_21">21</a></li>
+
+ <li class="indx">“supersonic yaw,” <a href="#Page_142">142</a>, <a href="#Page_160">160</a></li>
+
+
+ <li class="ifrst">Taft, William Howard, <a href="#Page_57">57</a></li>
+
+ <li class="indx">“tail chase,” <a href="#Page_95">95</a></li>
+
+ <li class="indx">Tau Beta Pi, <a href="#Page_121">121</a></li>
+
+ <li class="indx">Taylor, James, <a href="#Page_76">76</a>, <a href="#Page_373">373</a></li>
+
+ <li class="indx">Thach, Capt. John (“Jimmy”), <a href="#Page_94">94</a></li>
+
+ <li class="indx"><span class="pagenum" id="Page_421">[Pg 421]</span>Thomas, Mrs. (author’s third grade teacher), <a href="#Page_72">72</a></li>
+
+ <li class="indx">Thompson, Capt. Allen W., <a href="#Page_190">190</a></li>
+
+ <li class="indx">Tucker, Charles E., <a href="#Page_40">40</a></li>
+
+ <li class="indx">Turner, Roscoe, <a href="#Page_65">65</a></li>
+
+ <li class="indx">twenty-mule teams, <a href="#Page_29">29</a></li>
+
+ <li class="indx">Tymczyszyn, Joseph J., <a href="#Page_20">20</a>, <a href="#Page_21">21</a>, <a href="#Page_121">121</a></li>
+
+
+ <li class="ifrst">Union Oil Refinery, Wilmington, Calif., <a href="#Page_58">58</a>, <a href="#Page_76">76</a></li>
+
+ <li class="indx">University of Nebraska, <a href="#Page_81">81</a></li>
+
+ <li class="indx">University of Washington, <a href="#Page_19">19</a>, <a href="#Page_20">20</a>, <a href="#Page_80">80-81</a>, <a href="#Page_111">111</a>, <a href="#Page_119">119</a></li>
+
+
+ <li class="ifrst">Van Allen radiation belt, <a href="#Page_275">275</a></li>
+
+ <li class="indx">Vensel, Joseph R. (“Joe”), <a href="#Page_30">30</a>, <a href="#Page_31">31</a>, <a href="#Page_39">39</a>, <a href="#Page_44">44</a>, <a href="#Page_126">126</a>,
+ <a href="#Page_153">153</a>, <a href="#Page_193">193</a>, <a href="#Page_198">198</a>, <a href="#Page_202">202</a>, <a href="#Page_203">203</a></li>
+
+
+ <li class="ifrst">Walker, Joseph A. (“Joe”), <a href="#Page_126">126</a>, <a href="#Page_149">149</a>, <a href="#Page_154">154</a>, <a href="#Page_193">193</a>, <a href="#Page_200">200</a>,
+ <a href="#Page_202">202</a>, <a href="#Page_286">286</a>, <a href="#Page_354">354</a>, <a href="#Page_359">359</a>, <a href="#Page_363">363</a>, <a href="#Page_368">368</a>,
+ <a href="#Page_371">371</a>, <a href="#Page_372">372</a>, <a href="#Page_392">392-393</a>, <a href="#Page_405">405</a>, <a href="#Page_406">406</a></li>
+
+ <li class="indx">Walko, Frank, <a href="#Page_152">152</a></li>
+
+ <li class="indx">Wallin, Mrs. (author’s kindergarten teacher), <a href="#Page_72">72</a></li>
+
+ <li class="indx">Wedell, James (“Jimmy”), <a href="#Page_65">65</a></li>
+
+ <li class="indx">weightlessness (zero G), <a href="#Page_129">129</a>, <a href="#Page_164">164</a>, <a href="#Page_187">187</a>, <a href="#Page_276">276</a></li>
+
+ <li class="indx">Welch, George, <a href="#Page_194">194</a></li>
+
+ <li class="indx">Weldon, Lt. Comdr. Harry, <a href="#Page_238">238</a>, <a href="#Page_239">239</a>, <a href="#Page_241">241</a></li>
+
+ <li class="indx">White, Maj. Robert, <a href="#Page_286">286</a>, <a href="#Page_305">305</a>, <a href="#Page_340">340</a>, <a href="#Page_354">354</a>, <a href="#Page_359">359</a>,
+ <a href="#Page_364">364</a>, <a href="#Page_371">371</a>, <a href="#Page_381">381-383</a>, <a href="#Page_392">392</a>, <a href="#Page_397">397</a>, <a href="#Page_405">405</a>,
+ <a href="#Page_406">406</a></li>
+
+ <li class="indx">Williams, Esther, <a href="#Page_179">179</a></li>
+
+ <li class="indx">Williams, Walter C. (“Walt”), <a href="#Page_28">28</a>, <a href="#Page_30">30-31</a>, <a href="#Page_38">38-39</a>, <a href="#Page_44">44</a>, <a href="#Page_52">52</a>,
+ <a href="#Page_126">126</a>, <a href="#Page_138">138</a>, <a href="#Page_149">149</a>, <a href="#Page_153">153</a>, <a href="#Page_162">162</a>, <a href="#Page_169">169</a>,
+ <a href="#Page_178">178</a>, <a href="#Page_199">199</a>, <a href="#Page_206">206-208</a>, <a href="#Page_213">213</a>, <a href="#Page_250">250</a>, <a href="#Page_251">251</a>,
+ <a href="#Page_298">298</a>, <a href="#Page_305">305</a>, <a href="#Page_408">408</a></li>
+
+ <li class="indx">Wilrich, Louise, <a href="#Page_78">78</a>, <a href="#Page_81">81</a>, <a href="#Page_84">84</a></li>
+
+ <li class="indx">Wilson, Charles E., Secretary of Defense, <a href="#Page_270">270</a></li>
+
+ <li class="indx">Wilson, Woodrow, <a href="#Page_26">26</a></li>
+
+ <li class="indx">wind-tunnel tests and data, <a href="#Page_20">20</a>, <a href="#Page_33">33</a>, <a href="#Page_120">120</a>, <a href="#Page_163">163</a>, <a href="#Page_186">186</a>,
+ <a href="#Page_211">211</a>, <a href="#Page_231">231</a>, <a href="#Page_248">248</a></li>
+
+ <li class="indx">wings:</li>
+ <li class="isub1">cantilever, <a href="#Page_19">19</a>, <a href="#Page_20">20</a>;</li>
+ <li class="isub1">delta, <a href="#Page_32">32</a>;</li>
+ <li class="isub1">straight, <a href="#Page_32">32</a>;</li>
+ <li class="isub1">swept, <a href="#Page_32">32</a></li>
+
+ <li class="indx">Wolfe, Maj. Joseph E., <a href="#Page_190">190</a></li>
+
+ <li class="indx">Woods, Robert, <a href="#Page_26">26</a>, <a href="#Page_156">156</a>, <a href="#Page_157">157</a>, <a href="#Page_158">158</a></li>
+
+
+ <li class="ifrst">Yeager, Capt. Charles (“Chuck”), <a href="#Page_23">23</a>, <a href="#Page_28">28</a>, <a href="#Page_32">32</a>, <a href="#Page_40">40-41</a>, <a href="#Page_47">47</a>,
+ <a href="#Page_104">104</a>, <a href="#Page_125">125</a>, <a href="#Page_138">138</a>, <a href="#Page_149">149</a>, <a href="#Page_159">159</a>, <a href="#Page_162">162</a>,
+ <a href="#Page_165">165</a>, <a href="#Page_180">180</a>, <a href="#Page_181">181</a>, <a href="#Page_198">198</a>, <a href="#Page_201">201</a>, <a href="#Page_207">207</a>,
+ <a href="#Page_210">210</a>, <a href="#Page_215">215</a>, <a href="#Page_216">216</a>, <a href="#Page_221">221</a>, <a href="#Page_276">276</a>, <a href="#Page_299">299</a>,
+ <a href="#Page_342">342</a>, <a href="#Page_367">367</a>, <a href="#Page_371">371</a></li>
+
+ <li class="indx">York, Sergeant, <a href="#Page_104">104</a></li>
+
+ <li class="indx">Young, William (“Bill”), <a href="#Page_78">78</a>, <a href="#Page_81">81</a>, <a href="#Page_84">84</a>, <a href="#Page_409">409</a></li>
+
+
+ <li class="ifrst">Ziegler, Jean L. (“Skip”), <a href="#Page_146">146</a>, <a href="#Page_149">149</a>, <a href="#Page_151">151-152</a>, <a href="#Page_204">204</a>, <a href="#Page_299">299</a></li>
+
+ <li class="indx">Zimmerman, Charles H., <a href="#Page_163">163</a></li>
+</ul>
+<hr class="chap x-ebookmaker-drop">
+<div class="chapter"> </div>
+
+<figure class="figleft1 illowe3 p5l" id="colophonb" style="max-width: 10em;">
+ <img class="w100 nofloat" src="images/colophonb.jpg" alt="Colophon">
+</figure>
+
+<p class="clear">
+ <i>This book was set in</i></p>
+<p><i>Futura and Caledonia types by</i></p>
+ <p> <i>Harry Sweetman Typesetting Corp.</i></p>
+ <p> <i>It was printed and bound at</i></p>
+ <p> <i>the press of The World Publishing Company.</i></p>
+<p> <i>Typography and design are by Larry Kamp.</i>
+</p>
+
+
+<hr class="chap x-ebookmaker-drop"> <div class="chapter"> </div>
+<div class="transnote">
+ <h2 class="nobreak center fnormal fs100" id="Transcribers_Notes">
+ Transcriber’s Notes</h2>
+<p>
+ Obvious typographical errors and punctuation errors have been silently
+ corrected after careful comparison with other occurrences within the
+ text and consultation of external sources. Some hyphens in words have
+ been silently removed and some silently added when a predominant
+ preference was found in the original book. Except for those changes
+ noted below, original spellings in the text and inconsistent
+ usage have been retained.</p>
+
+
+<blockquote>
+<p class="noindent">
+ Page <a href="#tn-173">173</a>: “high-pressure propellents” replaced by “high-pressure propellants”.</p>
+ <p class="noindent">
+ Page <a href="#tn-229">229</a>: “add considerable” replaced by “add considerably”.</p>
+ <p class="noindent">
+ Page <a href="#tn-258">258</a>: “look of horrow” replaced by “look of horror”.</p>
+ <p class="noindent">
+ Page <a href="#tn-293">293</a>: “turned to on the” replaced by “turned to the”.</p>
+ <p class="noindent">
+ Page <a href="#tn-397">397</a>: “Project Mecury capsule” replaced by “Project Mercury capsule”.</p>
+ <p class="noindent">
+ Page <a href="#tn-418">418</a>: “Holtner, Gen. Stanley” replaced by “Holtoner, Gen. Stanley”.</p>
+ <p class="noindent">
+Page <a href="#tn-419a">419</a>: “Mach number, 15” replaced by “Mach number, 16”.</p>
+ <p class="noindent">
+Page <a href="#tn-419">419</a>: “near San” replaced by “near San Francisco), 26”.</p>
+ <p class="noindent">
+Page <a href="#tn-420">420</a>: “speed of sound, 15” replaced by “speed of sound, 16”.</p>
+</blockquote>
+
+<p>Three consecutive <a href="#i_294fp_08b">pictures</a> in the second photo insert shared the same caption (“Clips
+from the horror film. NAA photos.”) in the original text. The caption “Clip
+from the horror film. NAA photo.” has been added to all three pictures for clarity.</p>
+
+<p>New original cover art included with this eBook is granted to the
+public domain.</p>
+</div>
+<div style='text-align:center'>*** END OF THE PROJECT GUTENBERG EBOOK 78431 ***</div>
+</body>
+</html>
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+This book, including all associated images, markup, improvements,
+metadata, and any other content or labor, has been confirmed to be
+in the PUBLIC DOMAIN IN THE UNITED STATES.
+
+Procedures for determining public domain status are described in
+the "Copyright How-To" at https://www.gutenberg.org.
+
+No investigation has been made concerning possible copyrights in
+jurisdictions other than the United States. Anyone seeking to utilize
+this eBook outside of the United States should confirm copyright
+status under the laws that apply to them.
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+Project Gutenberg (https://www.gutenberg.org) public repository for eBook #78431
+(https://www.gutenberg.org/ebooks/78431)