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+
+<html xmlns="http://www.w3.org/1999/xhtml" lang="en">
+  <head>
+    <title>
+      Aeroplanes and Dirigibles of War, by Frederick A. Talbot
+    </title>
+    <style type="text/css" xml:space="preserve">
+    
+    body { margin:5%; background:#faebd0; text-align:justify}
+    P { text-indent: 1em; margin-top: .25em; margin-bottom: .25em; }
+    H1,H2,H3,H4,H5,H6 { text-align: center; margin-left: 15%; margin-right: 15%; }
+    hr  { width: 50%; text-align: center;}
+    .foot { margin-left: 20%; margin-right: 20%; text-align: justify; text-indent: -3em; font-size: 90%; }
+    blockquote {font-size: 97%; font-style: italic; margin-left: 10%; margin-right: 10%;}
+    .mynote    {background-color: #DDE; color: #000; padding: .5em; margin-left: 10%; margin-right: 10%; font-family: sans-serif; font-size: 95%;}
+    .toc       { margin-left: 10%; margin-bottom: .75em;}
+    .toc2      { margin-left: 20%;}
+    div.fig    { display:block; margin:0 auto; text-align:center; }
+    div.middle { margin-left: 20%; margin-right: 20%; text-align: justify; }
+    .figleft   {float: left; margin-left: 0%; margin-right: 1%;}
+    .figright  {float: right; margin-right: 0%; margin-left: 1%;}
+    .pagenum   {display:inline; font-size: 70%; font-style:normal;
+               margin: 0; padding: 0; position: absolute; right: 1%;
+               text-align: right;}
+    pre        { font-style: italic; font-size: 90%; margin-left: 10%;}
+    
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+  </head>
+  <body>
+<pre xml:space="preserve">
+
+Project Gutenberg's Aeroplanes and Dirigibles of War, by Frederick A. Talbot
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+
+Title: Aeroplanes and Dirigibles of War
+
+Author: Frederick A. Talbot
+
+Release Date: July 21, 2008 [EBook #793]
+Last Updated: February 7, 2013
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK AEROPLANES AND DIRIGIBLES OF WAR ***
+
+
+
+Produced by an Anonymous Volunteer, and David Widger
+
+
+
+
+
+
+</pre>
+    <p>
+      <br /><br />
+    </p>
+    <h1>
+      AEROPLANES AND DIRIGIBLES OF WAR
+    </h1>
+    <p>
+      <br />
+    </p>
+    <h2>
+      By Frederick A. Talbot
+    </h2>
+    <p>
+      <br /> <br />
+    </p>
+    <hr />
+    <p>
+      <br /> <br />
+    </p>
+    <blockquote>
+      <p class="toc">
+        <big><b>CONTENTS</b></big>
+      </p>
+      <p>
+        <br /> <a href="#link2H_PREF"> PREFACE </a><br /> <br /> <a
+        href="#link2HCH0001"> CHAPTER I. </a>&nbsp;&nbsp;THE INTRODUCTION OF
+        AIRCRAFT INTO MILITARY OPERATIONS <br /><br /> <a href="#link2HCH0002">
+        CHAPTER II. </a>&nbsp;&nbsp;THE MILITARY USES of THE CAPTIVE BALLOON
+        <br /><br /> <a href="#link2HCH0003"> CHAPTER III. </a>&nbsp;&nbsp;GERMANY'S
+        RISE TO MILITARY AIRSHIP SUPREMACY <br /><br /> <a href="#link2HCH0004">
+        CHAPTER IV. </a>&nbsp;&nbsp;AIRSHIPS OF WAR <br /><br /> <a
+        href="#link2HCH0005"> CHAPTER V. </a>&nbsp;&nbsp;GERMANY'S AERIAL
+        DREADNOUGHT FLEET <br /><br /> <a href="#link2HCH0006"> CHAPTER VI. </a>&nbsp;&nbsp;THE
+        MILITARY VALUE OF GERMANY'S AERIAL FLEET <br /><br /> <a
+        href="#link2HCH0007"> CHAPTER VII. </a>&nbsp;&nbsp;AEROPLANES OF WAR
+        <br /><br /> <a href="#link2HCH0008"> CHAPTER VIII. </a>&nbsp;&nbsp;SCOUTING
+        FROM THE SKIES <br /><br /> <a href="#link2HCH0009"> CHAPTER IX. </a>&nbsp;&nbsp;THE
+        AIRMAN AND ARTILLERY <br /><br /> <a href="#link2HCH0010"> CHAPTER X. </a>&nbsp;&nbsp;BOMB-THROWING
+        FROM AIR-CRAFT <br /><br /> <a href="#link2HCH0011"> CHAPTER XI. </a>&nbsp;&nbsp;ARMOURED
+        AEROPLANES <br /><br /> <a href="#link2HCH0012"> CHAPTER XII. </a>&nbsp;&nbsp;BATTLES
+        IN THE AIR <br /><br /> <a href="#link2HCH0013"> CHAPTER XIII. </a>&nbsp;&nbsp;TRICKS
+        AND RUSES TO BAFFLE THE AIRMAN <br /><br /> <a href="#link2HCH0014">
+        CHAPTER XIV. </a>&nbsp;&nbsp;ANTI-AIRCRAFT GUNS. MOBILE WEAPONS. <br /><br />
+        <a href="#link2HCH0015"> CHAPTER XV. </a>&nbsp;&nbsp;ANTI-AIRCRAFT GUNS.
+        IMMOBILE WEAPONS <br /><br /> <a href="#link2HCH0016"> CHAPTER XVI. </a>&nbsp;&nbsp;MINING
+        THE AIR <br /><br /> <a href="#link2HCH0017"> CHAPTER XVII. </a>&nbsp;&nbsp;WIRELESS
+        IN AVIATION <br /><br /> <a href="#link2HCH0018"> CHAPTER XVIII. &nbsp;&nbsp;</a>&nbsp;&nbsp;AIRCRAFT
+        AND NAVAL OPERATIONS <br /><br /> <a href="#link2HCH0019"> CHAPTER XIX.
+        </a>&nbsp;&nbsp;THE NAVIES of THE AIR <br /><br />
+      </p>
+    </blockquote>
+    <p>
+      <br /> <br />
+    </p>
+    <hr />
+    <p>
+      <br /> <br /> <a name="link2H_PREF" id="link2H_PREF">
+      <!--  H2 anchor --> </a>
+    </p>
+    <h2>
+      PREFACE
+    </h2>
+    <p>
+      Ever since the earliest days of the great conquest of the air, first by
+      the dirigible balloon and then by the aeroplane, their use in time of war
+      has been a fruitful theme for discussion. But their arrival was of too
+      recent a date, their many utilities too unexplored to provide anything
+      other than theories, many obviously untenable, others avowedly
+      problematical.
+    </p>
+    <p>
+      Yet the part airships have played in the Greatest War has come as a
+      surprise even to their most convinced advocates. For every expectation
+      shattered, they have shown a more than compensating possibility of
+      usefulness.
+    </p>
+    <p>
+      In this volume an endeavour has been made to record their achievements,
+      under the stern test of trial, as an axiom of war, and to explain, in
+      untechnical language, the many services to which they have been and may be
+      applied.
+    </p>
+    <p>
+      In the preparation of the work I have received assistance from many
+      sources&mdash;British, French, Russian and German&mdash;from official
+      reports and from men who have played a part in the War in the Air. The
+      information concerning German military aircraft has been obtained from
+      Government documents, most of which were placed at my disposal before the
+      outbreak of war.
+    </p>
+    <p>
+      The use of aircraft has changed the whole art and science of warfare. With
+      its disabilities well in hand, with its strength but half revealed, the
+      aerial service has revolutionised strategy and shorn the unexpected attack
+      of half its terrors. The Fourth Arm is now an invaluable part of the
+      complex military machine.
+    </p>
+    <p>
+      F. A. TALBOT. <br /> <br />
+    </p>
+    <hr />
+    <p>
+      <br /> <br /> <a name="link2HCH0001" id="link2HCH0001">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER I. THE INTRODUCTION OF AIRCRAFT INTO MILITARY OPERATIONS
+    </h2>
+    <p>
+      It is a curious circumstance that an invention, which is hailed as being
+      one of the greatest achievements ever recorded in the march of
+      civilisation, should be devoted essentially to the maiming of humanity and
+      the destruction of property. In no other trend of human endeavour is this
+      factor so potently demonstrated as in connection with Man's Conquest of
+      the Air.
+    </p>
+    <p>
+      The dogged struggle against the blind forces of Nature was waged
+      tenaciously and perseveringly for centuries. But the measure of success
+      recorded from time to time was so disappointing as to convey the
+      impression, except in a limited circle, that the problem was impossible of
+      solution. In the meantime wondrous changes had taken place in the methods
+      of transportation by land and sea. The steam and electric railway, steam
+      propulsion of vessels, and mechanical movement along the highroads had
+      been evolved and advanced to a high standard of perfection, to the untold
+      advantage of the community. Consequently it was argued, if only a system
+      of travel along the aerial highways could be established, then all other
+      methods of mechanical transportation would be rendered, if not entirely
+      obsolete, at least antiquated.
+    </p>
+    <p>
+      At last man triumphed over Nature&mdash;at least to such a degree as to
+      inspire the confidence of the world at large, and to bring aerial travel
+      and transportation within range of realisation. But what has been the
+      result? The discovery is not devoted to the interests of peace and
+      economic development, but to extermination and destruction.
+    </p>
+    <p>
+      At the same time this development may be explained. The airship and
+      aeroplane in the present stage of evolution possess no economic value.
+      True, cross-country cruises by airship have been inaugurated, and, up to a
+      point, have proved popularly, if not commercially, successful, while
+      tentative efforts have been made to utilise the aeroplane as a
+      mail-carrier. Still, from the view-point of the community at large aerial
+      travel is as remote as it was centuries ago.
+    </p>
+    <p>
+      It is somewhat interesting to observe how history is repeating itself.
+      When the Montgolfiers succeeded in lifting themselves into the air by
+      means of a vessel inflated with hot air, the new vehicle was hailed not so
+      much as one possessed of commercial possibilities, but as an engine of
+      war! When the indomitable courage and perseverance of Count von Zeppelin
+      in the face of discouraging disasters and flagrant failures, at last
+      commanded the attention of the German Emperor, the latter regarded the
+      Zeppelin craft, not from the interests of peace, but as a military weapon,
+      and the whole of the subsequent efforts of the Imperial admirer were
+      devoted to the perfection of the airship in this one direction.
+    </p>
+    <p>
+      Other nations, when they embarked on an identical line of development,
+      considered the airship from a similar point of view. In fact, outside
+      Germany, there was very little private initiative in this field.
+      Experiments and developments were undertaken by the military or naval, and
+      in some instances by both branches, of the respective Powers. Consequently
+      the aerial craft, whether it be a dirigible airship, or an aeroplane, can
+      only be regarded from the military point of view.
+    </p>
+    <p>
+      Despite the achievements which have been recorded by human endeavour in
+      the field of aerial travel, the balloon per se has by no means been
+      superseded. It still remains an invaluable adjunct to the fighting
+      machine. In Great Britain its value in this direction has never been
+      ignored: of late, indeed, it has rather been developed. The captive
+      balloon is regarded as an indispensable unit to both field and sea
+      operations. This fact was emphasised very strongly in connection with the
+      British naval attacks upon the German forces in Flanders, and it
+      contributed to the discomfiture of the German hordes in a very emphatic
+      manner.
+    </p>
+    <p>
+      The captive balloon may be operated from any spot where facilities exist
+      for anchoring the paying out cable together with winding facilities for
+      the latter. Consequently, if exigencies demand, it maybe operated from the
+      deck of a warship so long as the latter is stationary, or even from an
+      automobile. It is of small cubic capacity, inasmuch as it is only
+      necessary for the bag to contain sufficient gas to lift one or two men to
+      a height of about 500 or 600 feet.
+    </p>
+    <p>
+      When used in the field the balloon is generally inflated at the base, to
+      be towed or carried forward by a squad of men while floating in the air,
+      perhaps at a height of 10 feet. A dozen men will suffice for this duty as
+      a rule, and in calm weather little difficulty is encountered in moving
+      from point to point. This method possesses many advantages. The balloon
+      can be inflated with greater ease at the base, where it is immune from
+      interference by hostile fire. Moreover, the facilities for obtaining the
+      requisite inflating agent&mdash;hydrogen or coal gas&mdash;are more
+      convenient at such a point. If the base be far removed from the spot at
+      which it is desired to operate the balloon, the latter is inflated at a
+      convenient point nearer the requisite position, advantage being taken of
+      the protective covering offered by a copse or other natural obstacle.
+    </p>
+    <p>
+      As is well known, balloons played an important part during the siege of
+      Paris in 1870-1, not only in connection with daring attempts to
+      communicate with the outer world, but in reconnoitring the German
+      positions around the beleaguered city. But this was not the first military
+      application of the aerial vessel; it was used by the French against the
+      Austrians in the battle of Fleurus, and also during the American Civil
+      War. These operations, however, were of a sporadic character; they were
+      not part and parcel of an organised military section.
+    </p>
+    <p>
+      It is not generally known that the British War office virtually pioneered
+      the military use of balloons, and subsequently the methods perfected in
+      Britain became recognised as a kind of "standard" and were adopted
+      generally by the Powers with such modifications as local exigencies seemed
+      to demand.
+    </p>
+    <p>
+      The British military balloon department was inaugurated at Chatham under
+      Captain Templer in 1879. It was devoted essentially to the employment of
+      captive balloons in war, and in 1880 a company of the Royal Engineers was
+      detailed to the care of this work in the field. Six years previously the
+      French military department had adopted the captive balloon under Colonel
+      Laussedat, who was assisted among others by the well-known Captain Renard.
+      Germany was somewhat later in the field; the military value of captive
+      balloons was not appreciated and taken into serious consideration here
+      until 1884. But although British efforts were preceded by the French the
+      latter did not develop the idea upon accepted military lines.
+    </p>
+    <p>
+      The British authorities were confronted with many searching problems. One
+      of the earliest and greatest difficulties encountered was in connection
+      with the gas for inflation. Coal gas was not always readily available, so
+      that hydrogen had to be depended upon for the most part. But then another
+      difficulty arose. This was the manufacture of the requisite gas. Various
+      methods were tested, such as the electrolytic decomposition of water, the
+      decomposition of sulphuric acid by means of iron, the reaction between
+      slaked lime and zinc, and so forth.
+    </p>
+    <p>
+      But the drawbacks to every process, especially upon the field of battle,
+      when operations have to be conducted under extreme difficulties and at
+      high pressure, were speedily recognised. While other nations concentrated
+      their energies upon the simplification of hydrogen-manufacturing apparatus
+      for use upon the battle-field, Great Britain abandoned all such processes
+      in toto. Our military organisation preferred to carry out the production
+      of the necessary gas at a convenient manufacturing centre and to transport
+      it, stored in steel cylinders under pressure, to the actual scene of
+      operations. The method proved a great success, and in this way it was
+      found possible to inflate a military balloon in the short space of 20
+      minutes, whereas, under the conditions of making gas upon the spot, a
+      period of four hours or more was necessary, owing to the fact that the
+      manufacturing process is relatively slow and intricate. The practicability
+      of the British idea and its perfection served to establish the captive
+      balloon as a military unit.
+    </p>
+    <p>
+      The British military ballooning department has always ranked as the
+      foremost of its type among the Powers, although its work has been carried
+      out so unostentatiously that the outside world has gleaned very little
+      information concerning its operations. Captain Templer was an
+      indefatigable worker and he brought the ballooning section to a high
+      degree of efficiency from the military point of view.
+    </p>
+    <p>
+      But the British Government was peculiarly favoured, if such a term may be
+      used. Our little wars in various parts of the world contributed valuable
+      information and experience which was fully turned to account. Captive
+      balloons for reconnoitring purposes were used by the British army for the
+      first time at Suakim in 1885, and the section established its value very
+      convincingly. The French military balloon department gained its first
+      experience in this field in the previous year, a balloon detachment having
+      been dispatched to Tonkin in 1884. In both the Tonkin and Soudan
+      campaigns, invaluable work was accomplished by the balloon sections, with
+      the result that this aerial vehicle has come to be regarded as an
+      indispensable military adjunct. Indeed the activity of the German military
+      ballooning section was directly attributable to the Anglo-French
+      achievements therewith.
+    </p>
+    <p>
+      In this work, however, the British force speedily displayed its
+      superiority and initiative. The use of compressed hydrogen was adopted,
+      and within the course of a few years the other Powers, realising the
+      advantages which the British department had thus obtained, decided to
+      follow its example. The gas is stored in cylinders under a pressure
+      varying from six to ten or more atmospheres; in other words from about 80
+      to 140 or more pounds per square inch. Special military wagons have been
+      designed for the transport of these cylinders, and they are attached to
+      the balloon train.
+    </p>
+    <p>
+      The balloon itself is light, and made of such materials as to reduce the
+      weight thereof to the minimum. The British balloons are probably the
+      smallest used by any of the Powers, but at the same time they are the most
+      expensive. They are made of goldbeater's skin, and range in capacity from
+      7,000 to 10,000 cubic feet, the majority being of the former capacity. The
+      French balloon on the other hand has a capacity exceeding 18,000 cubic
+      feet, although a smaller vessel of 9,000 cubic feet capacity, known as an
+      auxiliary, and carrying a single observer, is used.
+    </p>
+    <p>
+      The Germans, on the other hand, with their Teutonic love of the immense,
+      favour far larger vessels. At the same time the military balloon section
+      of the German Army eclipses that of any other nations is attached to the
+      Intelligence Department, and is under the direct control of the General
+      Staff. Balloon stations are dotted all over the country, including
+      Heligoland and Kiel, while regular sections are attached to the Navy for
+      operating captive balloons from warships. Although the Zeppelin and
+      aeroplane forces have come to the front in Germany, and have relegated the
+      captive balloon somewhat to the limbo of things that were, the latter
+      section has never been disbanded; in fact, during the present campaign it
+      has undergone a somewhat spirited revival.
+    </p>
+    <p>
+      The South African campaign emphasised the value of the British balloon
+      section of the Army, and revealed services to which it was specially
+      adapted, but which had previously more or less been ignored. The British
+      Army possessed indifferent maps of the Orange Free State and the
+      Transvaal. This lamentable deficiency was remedied in great measure by
+      recourse to topographical photographs taken from the captive balloons. The
+      guides thus obtained were found to be of extreme value.
+    </p>
+    <p>
+      During the early stages of the war the hydrogen was shipped in cylinders
+      from the homeland, but subsequently a manufacturing plant of such capacity
+      as to meet all requirements was established in South Africa. The cylinders
+      were charged at this point and dispatched to the scene of action, so that
+      it became unnecessary to transport the commodity from Britain. The captive
+      balloon revealed the impregnability of Spion Kop, enabled Lord Roberts to
+      ascertain the position of the Boer guns at the Battle of Paardeburg, and
+      proved of invaluable assistance to the forces of General White during the
+      siege of Ladysmith.
+    </p>
+    <p>
+      <a name="link2HCH0002" id="link2HCH0002">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER II. THE MILITARY USES of THE CAPTIVE BALLOON
+    </h2>
+    <p>
+      Although the captive balloon is recognised as indispensable in military
+      operations, its uses are somewhat limited. It can be employed only in
+      comparatively still weather. The reason is obvious. It is essential that
+      the balloon should assume a vertical line in relation to its winding plant
+      upon the ground beneath, so that it may attain the maximum elevation
+      possible: in other words, the balloon should be directly above the station
+      below, so that if 100 yards of cable are paid out the aerostat may be 100
+      yards above the ground. If a wind is blowing, the helpless craft is
+      certain to be caught thereby and driven forwards or backwards, so that it
+      assumes an angle to its station. If this become acute the vessel will be
+      tilted, rendering the position of the observers somewhat precarious, and
+      at the same time observing efficiency will be impaired.
+    </p>
+    <p>
+      This point may be appreciated more easily by reference to the accompanying
+      diagram. A represents the ground station and B the position of the captive
+      balloon when sent aloft in calm weather, 300 feet of cable being paid out.
+      A wind arises and blows the vessel forward to the position C. At this
+      point the height of the craft in relation to the ground has been reduced,
+      and the reduction must increase proportionately as the strength of the
+      wind increases and forces the balloon still more towards the ground. At
+      the same time, owing to the tilt given to the car, observation is rendered
+      more difficult and eventually becomes extremely dangerous.
+    </p>
+    <p>
+      A wind, if of appreciable strength, develops another and graver danger.
+      Greater strain will be imposed upon the cable, while if the wind be gusty,
+      there is the risk that the vessel will be torn away from its anchoring
+      rope and possibly lost. Thus it will be seen that the effective
+      utilisation of a captive balloon is completely governed by meteorological
+      conditions, and often it is impossible to use it in weather which
+      exercises but little influence upon dirigibles or aeroplanes.
+    </p>
+    <p>
+      The captive balloon equipment comprises the balloon, together with the
+      observer's basket, the wire-cable whereby it is anchored and controlled,
+      and the winding apparatus. Formerly a steam engine was necessary for the
+      paying in and out of the cable, but nowadays this is accomplished by means
+      of a petrol-driven motor, an oil-engine, or even by the engine of an
+      automobile. The length of cable varies according to the capacity of the
+      balloon and the maximum operating height.
+    </p>
+    <p>
+      The average British balloon is able to lift about 290 or 300 pounds, which
+      may be taken to represent the weight of two observers. On the other hand,
+      the French and German balloons are able to carry four times this weight,
+      with the exception of the French auxiliaries, which are designed to lift
+      one observer only. The balloons of the two latter Powers have also a
+      greater maximum altitude; it is possible to ascend to a height of some
+      2,000 feet in one of these.
+    </p>
+    <p>
+      The observing station is connected with the winding crew below either by a
+      telephone, or some other signalling system, the method practised varying
+      according to circumstances. In turn the winding station is connected with
+      the officer in charge of the artillery, the fire of which the captive
+      balloon is directing. The balloon observer is generally equipped with
+      various instruments, such as telescope, photographic cameras, and so
+      forth, so as to be able, if necessary, to prepare a topographical survey
+      of the country below. By this means the absence of reliable maps may be
+      remedied, or if not regarded, as sufficiently correct they may be checked
+      and counter-checked by the data gained aloft.
+    </p>
+    <p>
+      Seeing that the gas has to be transported in cylinders, which are weighty,
+      it is incumbent that the waste of this commodity should be reduced to the
+      minimum. The balloon cannot be deflated at night and re-inflated in the
+      morning&mdash;it must be maintained in the inflated condition the whole
+      time it is required for operation.
+    </p>
+    <p>
+      There are various methods of consummating this end. One method is to haul
+      in the balloon and to peg it down on all sides, completing the anchorage
+      by the attachment of bags filled with earth to the network. While this
+      process is satisfactory in calm weather, it is impracticable in heavy
+      winds, which are likely to spring up suddenly. Consequently a second
+      method is practised. This is to dig a pit into the ground of sufficient
+      size to receive the balloon. When the latter is hauled in it is lowered
+      into this pit and there pegged down and anchored. Thus it is perfectly
+      safe during the roughest weather, as none of its bulk is exposed above the
+      ground level. Furthermore it is not a conspicuous object for the
+      concentration of hostile fire.
+    </p>
+    <p>
+      In some instances, and where the military department is possessed of an
+      elaborate equipment such as characterises the German army, when
+      reconnaissance is completed and the balloon is to be removed to another
+      point, the gas is pumped back into the cylinders for further use. Such an
+      economical proceeding is pretty and well adapted to manoeuvres, but it is
+      scarcely feasible in actual warfare, for the simple reason that the
+      pumping takes time. Consequently the general procedure, when the balloon
+      has completed its work, is to permit the gas to escape into the air in the
+      usual manner, and to draw a fresh supply of gas from further cylinders
+      when the occasion arises for re-inflation.
+    </p>
+    <p>
+      Although the familiar spherical balloon has proved perfectly adequate for
+      reconnoitring in the British and French armies, the German authorities
+      maintained that it was not satisfactory in anything but calm weather.
+      Accordingly scientific initiative was stimulated with a view to the
+      evolution of a superior vessel. These endeavours culminated in the
+      Parseval-Siegsfeld captive balloon, which has a quaint appearance. It has
+      the form of a bulky cylinder with hemispherical extremities. At one end of
+      the balloon there is a surrounding outer bag, reminiscent of a cancerous
+      growth. The lower end of this is open. This attachment serves the purpose
+      of a ballonet. The wind blowing against the opening, which faces it,
+      charges the ballonet with air. This action, it is claimed, serves to
+      steady the main vessel, somewhat in the manner of the tail of a kite,
+      thereby enabling observations to be made as easily and correctly in rough
+      as in calm weather. The appearance of the balloon while aloft is certainly
+      curious. It appears to be rearing up on end, as if the extremity saddled
+      with the ballonet were weighted.
+    </p>
+    <p>
+      British and French captive balloon authorities are disposed to discount
+      the steadying effect of this attachment, and, indeed, to maintain that it
+      is a distinct disadvantage. It may hold the vessel steadier for the
+      purpose of observation, but at the same time it renders the balloon a
+      steadier target for hostile fire. On the other hand, the swaying of a
+      spherical balloon with the wind materially contributes to its safety. A
+      moving object, particularly when its oscillations are irregular and
+      incalculable, is an extremely difficult object at which to take effective
+      aim.
+    </p>
+    <p>
+      Seeing that even a small captive balloon is of appreciable dimensions&mdash;from
+      25 to 33 feet or more in diameter&mdash;one might consider it an easy
+      object to hit. But experience has proved otherwise. In the first place the
+      colour of the balloon is distinctly protective. The golden or yellowish
+      tinge harmonises well with the daylight, even in gloomy weather, while at
+      night-time it blends excellently with the moonlight. For effective
+      observations a high altitude is undesirable. At a height of 600 feet the
+      horizon is about 28 miles from the observer, as compared with the 3 miles
+      constituting the range of vision from the ground over perfectly flat
+      country. Thus it will be seen that the "spotter" up aloft has the command
+      of a considerable tract.
+    </p>
+    <p>
+      Various ways and means of finding the range of a captive balloon have been
+      prepared, and tables innumerable are available for committal to memory,
+      while those weapons especially designed for aerial targets are fitted with
+      excellent range-finders and other instruments. The Germans, with
+      characteristic thoroughness, have devoted considerable attention to this
+      subject, but from the results which they have achieved up to the present
+      this guiding knowledge appears to be more spectacular and impressive than
+      effective.
+    </p>
+    <p>
+      To put a captive balloon out of action one must either riddle the
+      envelope, causing it to leak like a sieve, blow the vessel to pieces, or
+      ignite the highly inflammable gas with which it is inflated. Individual
+      rifle fire will inflict no tangible damage. A bullet, if it finds its
+      billet, will merely pass through the envelope and leave two small
+      punctures. True, these vents will allow the gas to escape, but this action
+      will proceed so slowly as to permit the vessel to remain aloft long enough
+      to enable the observer to complete his work. A lucky rifle volley, or the
+      stream of bullets from a machine gun may riddle the envelope,
+      precipitating a hurried descent, owing to the greater number of
+      perforations through which the gas is able to escape, but as a rule the
+      observer will be able to land safely.
+    </p>
+    <p>
+      Consequently the general practice is to shatter the aerostat, and to this
+      end either shrapnel, high explosive, or incendiary shells will be used.
+      The former must explode quite close to the balloon in order to achieve the
+      desired end, while the incendiary shell must actually strike it, so as to
+      fire the gas. The high explosive shell may explode effectually some feet
+      away from the vessel, inasmuch as in this instance dependence is placed
+      upon the terrific concussion produced by the explosion which, acting upon
+      the fragile fabric of the balloon, brings about a complete collapse of the
+      envelope. If a shrapnel is well placed and explodes immediately above the
+      balloon, the envelope will be torn to shreds and a violent explosion of
+      the gas will be precipitated. But as a matter of fact, it is extremely
+      difficult to place a shrapnel shell so as to consummate this end. The
+      range is not picked up easily, while the timing of the fuse to bring about
+      the explosion of the shell at the critical moment is invariably a complex
+      problem.
+    </p>
+    <p>
+      One favourite method of finding the range of a balloon is shown in the
+      accompanying diagrams. The artillery battery is at B and the captive
+      balloon, C, is anchored at A. On either side of B and at a specified
+      distance, observers O1 and O2 respectively are stationed. First a shell is
+      fired at "long" range, possibly the maximum range of the gun. It bursts at
+      D. As it has burst immediately in the line of sight of B, but with the
+      smoke obscured by the figure of the balloon C, it is obvious to B that the
+      explosion has occurred behind the objective, but at what distance he
+      cannot tell. To O1 and O2, however, it is seen to have burst at a
+      considerable distance behind C though to the former it appears to have
+      burst to the left and to the second observer to the right of the target.
+    </p>
+    <p>
+      Another shell, at "short" range, is now fired, and it bursts at E. The
+      explosion takes place in the line of sight of B, who knows that he has
+      fired short of the balloon because the latter is eclipsed by the smoke.
+      But the two observers see that it is very short, and here again the
+      explosion appears to O1 to have occurred to the right of the target, while
+      to O2 it has evidently burst to the left of the aerostat, as revealed by
+      the relation of the position of the balloon to the bursting of the shell
+      shown in Fig. 3.
+    </p>
+    <p>
+      A third round is fired, and the shell explodes at F. In this instance the
+      explosion takes place below the balloon. Both the observers and the
+      artillery man concur in their deductions upon the point at which the shell
+      burst. But the shell must explode above the balloon, and accordingly a
+      fourth round is discharged and the shell bursts at G.
+    </p>
+    <p>
+      This appears to be above the balloon, inasmuch as the lines of sight of
+      the two observers and B converge at this point. But whether the explosion
+      occurs immediately above the vessel as is desired, it is impossible to say
+      definitely, because it may explode too far behind to be effective.
+      Consequently, if this shell should prove abortive, the practice is to
+      decrease the range gradually with each succeeding round until the
+      explosion occurs at the critical point, when, of course, the balloon is
+      destroyed. An interesting idea of the difficulty of picking up the range
+      of a captive balloon may be gathered from the fact that some ten minutes
+      are required to complete the operation.
+    </p>
+    <p>
+      But success is due more to luck than judgment. In the foregoing
+      explanation it is premised that the aerial vessel remains stationary,
+      which is an extremely unlikely contingency. While those upon the ground
+      are striving to pick up the range, the observer is equally active in his
+      efforts to baffle his opponents. The observer follows each successive,
+      round with keen interest, and when the shells appear to be bursting at
+      uncomfortably close quarters naturally he intimates to his colleagues
+      below that he desires his position to be changed, either by ascending to a
+      higher point or descending. In fact, he may be content to come to the
+      ground. Nor must the fact be overlooked that while the enemy is trying to
+      place the observer hors de combat, he is revealing the position of his
+      artillery, and the observer is equally industrious in picking up the range
+      of the hostile guns for the benefit of his friends below.
+    </p>
+    <p>
+      When the captive balloon is aloft in a wind the chances of the enemy
+      picking up the range thereof are extremely slender, as it is continually
+      swinging to and fro. While there is always the possibility of a shell
+      bursting at such a lucky moment as to demolish the aerial target, it is
+      generally conceded to be impossible to induce a shell to burst within 100
+      yards of a balloon, no matter how skilfully the hostile battery may be
+      operated.
+    </p>
+    <p>
+      The value of the captive balloon has been demonstrated very strikingly
+      throughout the attack upon the entrenched German positions in Flanders.
+      Owing to the undulating character of the dunes the "spotters" upon the
+      British monitors and battle ships are unable to obtain a sweeping view of
+      the country. Accordingly captive balloons are sent aloft in some cases
+      from the deck of the monitors, and in others from a suitable point upon
+      the beach itself. The aerial observer from his point of vantage is able to
+      pick up the positions of the German forces and artillery with ease and to
+      communicate the data thus gained to the British vessels, although
+      subjected to heavy and continuous hostile fire. The difficulty of hitting
+      a captive balloon has been graphically emphasised, inasmuch as the German
+      artillerists have failed to bring down a solitary balloon. On the other
+      hand the observer in the air is able to signal the results of each salvo
+      fired from the British battleships as they manoeuvre at full speed up and
+      down the coastline, while he keeps the fire of the monitors concentrated
+      upon the German positions until the latter have been rendered untenable or
+      demolished. The accuracy of the British gun-fire has astonished even the
+      Germans, but it has been directly attributable to the rangefinder perched
+      in the car of the captive balloon and his rapid transmission of
+      information to the vessels below.
+    </p>
+    <p>
+      The enthusiastic supporters of aerial navigation maintained that the
+      dirigible and the aeroplane would supersede the captive balloon
+      completely. But as a matter of fact the present conflict has established
+      the value of this factor more firmly than ever. There is not the slightest
+      possibility that the captive balloon sections of the belligerents will be
+      disbanded, especially those which have the fruits of experience to guide
+      them. The airship and the aeroplane have accomplished wonders, but despite
+      their achievements the captive balloon has fully substantiated its value
+      as a military unit in its particular field of operations.
+    </p>
+    <p>
+      <a name="link2HCH0003" id="link2HCH0003">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER III. GERMANY'S RISE TO MILITARY AIRSHIP SUPREMACY
+    </h2>
+    <p>
+      Two incidents in the history of aviation stand out with exceptional
+      prominence. The one is the evolution of the Zeppelin airship&mdash;a story
+      teeming with romance and affording striking and illuminating glimpses of
+      dogged perseverance, grim determination in the face of repeated disasters,
+      and the blind courageous faith of the inventor in the creation of his own
+      brain. The second is the remarkable growth of Germany's military airship
+      organisation, which has been so rapid and complete as to enable her to
+      assume supremacy in this field, and that within the short span of a single
+      decade.
+    </p>
+    <p>
+      The Zeppelin has always aroused the world's attention, although this
+      interest has fluctuated. Regarded at first as a wonderful achievement of
+      genius, afterwards as a freak, then as the ready butt for universal
+      ridicule, and finally with awe, if not with absolute terror&mdash;such in
+      brief is the history of this craft of the air.
+    </p>
+    <p>
+      Count von Zeppelin can scarcely be regarded as an ordinary man. He took up
+      the subject of flight at an age which the majority of individuals regard
+      as the opportune moment for retirement from activity, and, knowing nothing
+      about mechanical engineering, he concentrated his energies upon the study
+      of this science to enable him to master the difficulties of a mechanical
+      character incidental to the realisation of his grand idea. His energy and
+      indomitable perseverance are equalled by his ardent patriotism, because,
+      although the Fatherland discounted his idea when other Powers were ready
+      to consider it, and indeed made him tempting offers for the acquisition of
+      his handiwork, he stoutly declined all such solicitations, declaring that
+      his invention, if such it may be termed, was for his own country and none
+      other.
+    </p>
+    <p>
+      Count von Zeppelin developed his line of study and thought for one reason
+      only. As an old campaigner and a student of military affairs he realised
+      the shortcomings of the existing methods of scouting and reconnoitring. He
+      appreciated more than any other man of the day perhaps, that if the
+      commander-in-chief of an army were provided with facilities for gazing
+      down upon the scene of operations, and were able to take advantage of all
+      the information accruing to the man above who sees all, he would hold a
+      superior position, and be able to dispose his forces and to arrange his
+      plan of campaign to the most decisive advantage. In other words, Zeppelin
+      conceived and developed his airship for one field of application and that
+      alone-military operations. Although it has achieved certain successes in
+      other directions these have been subsidiary to the primary intention, and
+      have merely served to emphasise its military value.
+    </p>
+    <p>
+      Von Zeppelin was handicapped in his line of thought and investigation from
+      the very first. He dreamed big things upon a big scale. The colossal
+      always makes a peculiar and irresistible appeal to the Teutonic nature. So
+      he contemplated the perfection of a big dirigible, eclipsing in every
+      respect anything ever attempted or likely to be attempted by rival
+      countries. Unfortunately, the realisation of the "colossal" entails an
+      equally colossal financial reserve, and the creator of this form of
+      airship for years suffered from financial cramp in its worst
+      manifestation. Probably it was to the benefit of the world at large that
+      Fortune played him such sorry tricks. It retarded the growth of German
+      ambitions in one direction very effectively.
+    </p>
+    <p>
+      As is well known Zeppelin evolved what may be termed an individual line of
+      thought in connection with his airship activities. He adopted what is
+      known as the indeformable airship: that is to say the rigid, as opposed to
+      the semi-rigid and flexible craft. As a result of patient experiment and
+      continued researches he came to the conclusion that a huge outer envelope
+      taking the form of a polygonal cylinder with hemispherical ends,
+      constructed upon substantial lines with a metallic skeleton encased within
+      an impermeable skin, and charged with a number of smaller balloon-shaped
+      vessels containing the lifting agent&mdash;hydrogen gas&mdash;would fulfil
+      his requirements to the greatest advantage. Model after model was built
+      upon these lines. Each was subjected to searching tests with the
+      invariable result attending such work with models. Some fulfilled the
+      expectations of the inventor, others resolutely declined to illustrate his
+      reasonings in any direction.
+    </p>
+    <p>
+      The inevitable happened. When a promising model was completed finally the
+      inventor learned to his sorrow what every inventor realises in time. His
+      fortune and the resources of others had been poured down the sink of
+      experiment. To carry the idea from the model to the practical stage
+      required more money, and it was not forthcoming. The inventor sought to
+      enlist the practical sympathy of his country, only to learn that in
+      Germany, as in other lands, the axiom concerning the prophet, honour, and
+      country prevails. No exuberant inventor received such a cold douche from a
+      Government as did Count Zeppelin from the Prussian authorities. For two
+      years further work was brought practically to a standstill: nothing could
+      be done unless the sinews of war were forthcoming. His friends, who had
+      assisted him financially with his models, now concluded that their aid had
+      been misplaced.
+    </p>
+    <p>
+      The inventor, though disappointed, was by no means cast down. He clung
+      tenaciously to his pet scheme and to such effect that in 1896 a German
+      Engineering Society advanced him some funds to continue his researches.
+      This support sufficed to keep things going for another two years, during
+      which time a full-sized vessel was built. The grand idea began to
+      crystallise rapidly, with the result that when a public company was formed
+      in 1898, sufficient funds were rendered available to enable the first
+      craft to be constructed. It aroused considerable attention, as well it
+      might, seeing that it eclipsed anything which had previously been
+      attempted in connection with dirigibles. It was no less than 420 feet in
+      length, by 38 feet in diameter, and was fitted with two cars, each of
+      which carried a sixteen horse-power motor driving independent propellers
+      rigidly attached to the body of the vessel. The propellers were both
+      vertical and horizontal, for the purpose of driving the ship in the two
+      planes&mdash;vertical and horizontal respectively.
+    </p>
+    <p>
+      The vessel was of great scientific interest, owing to the ingenuity of its
+      design and construction. The metallic skeleton was built up from aluminium
+      and over this was stretched the fabric of the envelope, care being
+      observed to reduce skin friction, as well as to achieve impermeability.
+      But it was the internal arrangement of the gas-lifting balloons which
+      provoked the greatest concern. The hull was divided into compartments,
+      each complete in itself, and each containing a small balloon inflated with
+      hydrogen. It was sub-division as practised in connection with vessels
+      ploughing the water applied to aerial craft, the purpose being somewhat
+      the same. As a ship of the seas will keep afloat so long as a certain
+      number of its subdivisions remain watertight, so would the Zeppelin keep
+      aloft if a certain number of the gas compartments retained their charges
+      of hydrogen. There were no fewer than seventeen of these gas-balloons
+      arranged in a single line within the envelope. Beneath the hull and
+      extending the full length of the latter was a passage which not only
+      served as a corridor for communication between the cars, but also to
+      receive a weight attached to a cable worked by a winch. By the movement of
+      this weight the bow or stem of the vessel could be tilted to assist ascent
+      and descent.
+    </p>
+    <p>
+      The construction of the vessel subsequently proved to be the easiest and
+      most straightforward part of the whole undertaking. There were other and
+      more serious problems to be solved. How would such a monster craft come to
+      earth? How could she be manipulated upon the ground? How could she be
+      docked? Upon these three points previous experience was silent. One German
+      inventor who likewise had dreamed big things, and had carried them into
+      execution, paid for his temerity and ambitions with his life, while his
+      craft was reduced to a mass of twisted and torn metal. Under these
+      circumstances Count Zeppelin decided to carry out his flights over the
+      waters of the Bodensee and to house his craft within a floating dock. In
+      this manner two uncertain factors might be effectively subjugated.
+    </p>
+    <p>
+      Another problem had been ingeniously overcome. The outer envelope
+      presented an immense surface to the atmosphere, while temperature was
+      certain to play an uncertain part in the behaviour of the craft. The
+      question was to reduce to the minimum the radiation of heat and cold to
+      the bags containing the gas. This end was achieved by leaving a slight air
+      space between the inflated gas balloons and the inner surface of the hull.
+    </p>
+    <p>
+      The first ascent was made on July 2nd, 1900, but was disappointing,
+      several breakdowns of the mechanism occurring while the vessel was in
+      mid-air, which rendered it unmanageable, although a short flight was made
+      which sufficed to show that an independent speed of 13 feet per second
+      could be attained. The vessel descended and was made fast in her dock, the
+      descent being effected safely, while manoeuvring into dock was successful.
+      At least three points about which the inventor had been in doubt appeared
+      to be solved&mdash;his airship could be driven through the air and could
+      be steered; it could be brought to earth safely; and it could be docked.
+    </p>
+    <p>
+      The repairs to the mechanism were carried out and on October 17th and 21st
+      of the same year further flights were made. By this time certain
+      influential Teuton aeronautical experts who had previously ridiculed
+      Zeppelin's idea had made a perfect volte-face. They became staunch
+      admirers of the system, while other meteorological savants participated in
+      the trials for the express purpose of ascertaining just what the ship
+      could do. As a result of elaborate trigonometrical calculations it was
+      ascertained that the airship attained an independent speed of 30 feet per
+      second, which exceeded anything previously achieved. The craft proved to
+      be perfectly manageable in the air, and answered her helm, thus complying
+      with the terms of dirigibility. The creator was flushed with his triumph,
+      but at the same time was doomed to experience misfortune. In its descent
+      the airship came to "earth" with such a shock that it was extensively
+      damaged. The cost of repairing the vessel was so heavy that the company
+      declined to shoulder the liability, and as the Count was unable to defray
+      the expense the wreck was abandoned.
+    </p>
+    <p>
+      Although a certain meed of success had been achieved the outlook seemed
+      very black for the inventor. No one had any faith in his idea. He made
+      imploring appeals for further money, embarked upon lecturing campaigns,
+      wrote aviation articles for the Press, and canvassed possible supporters
+      in the effort to raise funds for his next enterprise. Two years passed,
+      but the fruits of the propaganda were meagre. It was at this juncture,
+      when everything appeared to be impossible, that Count Zeppelin discovered
+      his greatest friend. The German Emperor, with an eye ever fixed upon new
+      developments, had followed Zeppelin's uphill struggle, and at last, in
+      1902, came to his aid by writing a letter which ran:&mdash;
+    </p>
+    <p>
+      "Since your varied flights have been reported to me it is a great pleasure
+      to me to express my acknowledgment of your patience and your labours, and
+      the endurance with which you have pressed on through manifold hindrances
+      till success was near. The advantages of your system have given your ship
+      the greatest attainable speed and dirigibility, and the important results
+      you have obtained have produced an epoch-making step forward in the
+      construction of airships and leave laid down a valuable basis for future
+      experiments."
+    </p>
+    <p>
+      This Imperial appreciation of what had been accomplished proved to be the
+      turning point in the inventor's fortunes. It stimulated financial support,
+      and the second airship was taken in hand. But misfortune still pursued
+      him. Accidents were of almost daily occurrence. Defects were revealed here
+      and weaknesses somewhere else. So soon as one trouble was overcome another
+      made itself manifest. The result was that the whole of the money collected
+      by his hard work was expended before the ship could take to the air. A
+      further crash and blasting of cherished hopes appeared imminent, but at
+      this moment another Royal personage came to the inventor's aid.
+    </p>
+    <p>
+      The King of Wurtemberg took a personal interest in his subject's uphill
+      struggle, and the Wurtemberg Government granted him the proceeds of a
+      lottery. With this money, and with what he succeeded in raising by hook
+      and by crook, and by mortgaging his remaining property, a round L20,000
+      was obtained. With this capital a third ship was taken in hand, and in
+      1905 it was launched. It was a distinct improvement upon its predecessors.
+      The airship was 414 feet in length by 38 feet in diameter, was equipped
+      with 17 gas balloons having an aggregate capacity of 367,000 cubic feet of
+      hydrogen, was equipped with two 85 horse-power motors driving four
+      propellers, and displaced 9 tons. All the imperfections incidental to the
+      previous craft had been eliminated, while the ship followed improved lines
+      in its mechanical and structural details.
+    </p>
+    <p>
+      The trials with this vessel commenced on November 30th, 1905, but ill-luck
+      had not been eluded. The airship was moored upon a raft which was to be
+      towed out into the lake to enable the dirigible to ascend. But something
+      went wrong with the arrangements. A strong wind caught the ungainly
+      airship, she dipped her nose into the water, and as the motor was set
+      going she was driven deeper into the lake, the vessel only being saved by
+      hurried deflation.
+    </p>
+    <p>
+      Six weeks were occupied in repairs, but another ascent was made on January
+      17th, 1906. The trials were fairly satisfactory, but inconclusive. One of
+      the motors went wrong, and the longitudinal stability was found to be
+      indifferent. The vessel was brought down, and was to be anchored, but the
+      Fates ruled otherwise. A strong wind caught her during the night and she
+      was speedily reduced to indistinguishable scrap.
+    </p>
+    <p>
+      Despite catastrophe the inventor wrestled gamely with his project. The
+      lessons taught by one disaster were taken to heart, and arrangements to
+      prevent the recurrence thereof incorporated in the succeeding craft.
+      Unfortunately, however, as soon as one defect was remedied another
+      asserted itself. It was this persistent revelation of the unexpected which
+      caused another period of indifference towards his invention. Probably
+      nothing more would have been heard of the Zeppelin after this last
+      accident had it not been for the intervention of the Prussian Government
+      at the direct instigation of the Kaiser, who had now taken Count Zeppelin
+      under his wing. A State lottery was inaugurated, the proceeds of which
+      were handed over to the indefatigable inventor, together with an assurance
+      that if he could keep aloft 24 hours without coming to earth in the
+      meantime, and could cover 450 miles within this period, the Government
+      would repay the whole of the money he had lavished upon his idea, and
+      liquidate all the debts he had incurred in connection therewith.
+    </p>
+    <p>
+      Another craft was built, larger than its predecessors, and equipped with
+      two motors developing 170 horse-power. Upon completion it was submitted to
+      several preliminary flights, which were so eminently successful that the
+      inventor decided to make a trial trip under conditions closely analogous
+      to those imposed for the Government test. On June 20th, 1908, at 8:26 a.m.
+      the craft ascended and remained aloft for 12 hours, during which time it
+      made an encouraging circular tour. Flushed with this success, the Count
+      considered that the official award was within reach, and that all his
+      previous disasters and misfortunes were on the eve of redemption.
+    </p>
+    <p>
+      The crucial test was essayed on August 5th, 1908. Accompanied by twelve
+      observers the vessel ascended and travelled without incident for eight
+      hours. Then a slight mishap demanded attention, but was speedily repaired,
+      and was ignored officially as being too trivial to influence the main
+      issue. Victory appeared within measurable distance: the arduous toil of
+      many patient years was about to be rewarded. The airship was within sight
+      of home when it had to descend owing to the development of another motor
+      fault. But as it approached the ground, Nature, as if infuriated at the
+      conquest, rose up in rebellion. A sudden squall struck the unwieldy
+      monster. Within a few moments it became unmanageable, and through some
+      inscrutable cause, it caught fire, with the result that within a few
+      moments it was reduced to a tangled mass of metallic framework.
+    </p>
+    <p>
+      It was a catastrophe that would have completely vanquished many an
+      inventor, but the Count was saved the gall of defeat. His flight, which
+      was remarkable, inasmuch as he had covered 380 miles within 24 hours,
+      including two unavoidable descents, struck the Teuton imagination. The
+      seeds so carefully planted by the "Most High of Prussia" now bore fruit.
+      The German nation sympathised with the indomitable inventor, appreciated
+      his genius, and promptly poured forth a stream of subscriptions to enable
+      him to build another vessel. The intimation that other Powers had
+      approached the Count for the acquisition of his idea became known far and
+      wide, together with the circumstance that he had unequivocally refused all
+      offers. He was striving for the Fatherland, and his unselfish patriotism
+      appealed to one and all. Such an attitude deserved hearty national
+      appreciation, and the members of the great German public emptied their
+      pockets to such a degree that within a few weeks a sum of L300,000 or
+      $1,500,000 was voluntarily subscribed.
+    </p>
+    <p>
+      All financial embarrassments and distresses were now completely removed
+      from the Count's mind. He could forge ahead untrammelled by anxiety and
+      worry. Another Zeppelin was built and it created a world's record. It
+      remained aloft for 38 hours, during which time it covered 690 miles, and,
+      although it came to grief upon alighting, by colliding with a tree, the
+      final incident passed unnoticed. Germany was in advance of the world. It
+      had an airship which could go anywhere, irrespective of climatic
+      conditions, and in true Teuton perspective the craft was viewed from the
+      military standpoint. Here was a means of obtaining the mastery of the air:
+      a formidable engine of invasion and aerial attack had been perfected.
+      Consequently the Grand Idea must be supported with unbounded enthusiasm.
+      The Count was hailed by his august master as "The greatest German of the
+      twentieth century," and in this appreciation the populace wholeheartedly
+      concurred. Whether such a panegyric from such an auspicious quarter is
+      praise indeed or the equivalent of complete condemnation, history alone
+      will be able to judge, but when one reflects, at this moment, upon the
+      achievements of this aircraft during the present conflagration, the
+      unprejudiced will be rather inclined to hazard the opinion that Imperial
+      Teuton praise is a synonym for damnation.
+    </p>
+    <p>
+      Although the Zeppelin was accepted as a perfect machine it has never been
+      possible to disperse the atmosphere of disaster with which it has been
+      enveloped from the first. Vessel after vessel has gone up in smoke and
+      flame: few craft of this type have enjoyed more than an evanescent
+      existence; and each successive catastrophe has proved more terrible than
+      its predecessor. But the Teutonic nation has been induced to pin its whole
+      faith on this airship, notwithstanding that the more levelheaded engineers
+      of other countries have always maintained the craft to be a "mechanical
+      monstrosity" condemned from its design and principles of construction to
+      disaster. Unshaken by this adverse criticism, Germany rests assured that
+      by means of its Zeppelins it will achieve that universal supremacy which
+      it is convinced is its Destiny.
+    </p>
+    <p>
+      This blind child-like faith has been responsible for the establishment and
+      development of the Zeppelin factories. At Friedrichshafen the facilities
+      are adequate to produce two of these vessels per month, while another
+      factory of a similar capacity has been established at Berlin.
+      Unfortunately such big craft demand large docks to accommodate them, and
+      in turn a large structure of this character constitutes an easy mark for
+      hostile attack, as the raiding airmen of the Allies have proved very
+      convincingly.
+    </p>
+    <p>
+      But the Zeppelin must not be under-rated. Magnificent performances have
+      been recorded by these vessels, such as the round 1,000 miles' trip in
+      1909, and several other equally brilliant feats since that date. It is
+      quite true that each astounding achievement has been attended by an
+      equally stupendous accident, but that is accepted as a mere incidental
+      detail by the faithful Teutonic nation. Many vivid prophecies of the
+      forthcoming flights by Zeppelin have been uttered, and it is quite
+      probable that more than one will be fulfilled, but success will be
+      attributable rather to accident than design.
+    </p>
+    <p>
+      Although the Zeppelin is the main stake of the German people in matters
+      pertaining to aerial conquest, other types of airships have not been
+      ignored, as related in another chapter. They have been fostered upon a
+      smaller but equally effective scale. The semi-rigid Parseval and Gross
+      craft have met with whole-hearted support, since they have established
+      their value as vessels of the air, which is tantamount to the acceptance
+      of their military value.
+    </p>
+    <p>
+      The Parseval is pronounced by experts to be the finest expression of
+      aeronautical engineering so far as Teuton effort is concerned. Certainly
+      it has placed many notable flights to its credit. The Gross airship is an
+      equally serviceable craft, its lines of design and construction closely
+      following those of the early French supple airships. There are several
+      other craft which have become more or less recognised by the German nation
+      as substantial units of war, such as the Ruthemberg, Siemens-Schukert, and
+      so forth, all of which have proved their serviceability more or less
+      conclusively. But in the somewhat constricted Teuton mind the Zeppelin and
+      the Zeppelin only represents the ultima Thule of aerial navigation and the
+      means for asserting the universal character of Pan-Germanism as well as
+      "Kultur."
+    </p>
+    <p>
+      <a name="link2HCH0004" id="link2HCH0004">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER IV. AIRSHIPS OF WAR
+    </h2>
+    <p>
+      So much has been said and written concerning the Zeppelin airship,
+      particularly in its military aspect, that all other developments in this
+      field have sunk into insignificance so far as the general public is
+      concerned. The Zeppelin dirigible has come to be generally regarded as the
+      one and only form of practical lighter-than-air type of aircraft.
+      Moreover, the name has been driven home with such effect that it is
+      regarded as the generic term for all German airships.
+    </p>
+    <p>
+      These are grievous fallacies. The Zeppelin is merely one of a variety of
+      types, even in Germany, although at the moment it probably ranks as the
+      solitary survivor of the rigid system of construction. At one time, owing
+      to the earnestness with which the advantages of this form of design were
+      discussed, and in view of the fact that the Zeppelin certainly appeared to
+      triumph when all other designs failed, Great Britain was tempted to
+      embrace the rigid form of construction. The building of an immense vessel
+      of this class was actively supported and it was aptly christened the
+      "May-fly." Opponents of the movement tempered their emphatic condemnatory
+      criticism so far as to remark that it MAY FLY, but as events proved it
+      never did. The colossal craft broke its back before it ever ventured into
+      the air, and this solitary experience proving so disastrous, the rigid
+      form of construction was abandoned once and for all. The venture was not
+      in vain; it brought home to the British authorities more convincingly than
+      anything else that the Zeppelin was a mechanical monstrosity. The French
+      never even contemplated the construction of such a craft at that time,
+      estimating it at its true value, and the British failure certainly served
+      to support French antagonism to the idea. Subsequently, however, an
+      attempt at rigid construction was made in France with the "Spiess"
+      airship, mainly as a concession to public clamour.
+    </p>
+    <p>
+      Even in Germany itself the defects of the Zeppelin were recognised and a
+      decided effort to eliminate them was made by Professor Schutte in
+      co-operation with a manufacturer of Mannheim named Lanz. The joint product
+      of their ambitions, the Schutte-Lanz, is declared to be superior to the
+      Zeppelin, but so far it has failed to justify any of the claims of its
+      designers. This vessel, which also favours the colossal, is likewise of
+      the rigid type, but realising the inherent dangers accruing from the
+      employment of metal for the framework, its constructors have used wood,
+      reinforced and strengthened where necessary by metallic angle-iron,
+      plates, and bracing; this utilisation of metal is, however, carried out
+      very sparingly. The first vessel of this class was a huge failure, while
+      subsequent craft have not proved much more successful.
+    </p>
+    <p>
+      In fact, one of the largest German airships ever designed, L4, is, or
+      rather was, a Schutte-Lanz, with a capacity of 918,000 cubic feet, but
+      over 6,000 pounds lighter than a Zeppelin of almost similar dimensions. I
+      say "was" since L4 is no more. The pride of its creators evinced a
+      stronger preference for Davy Jones' Locker than its designed realm. Yet
+      several craft of this type have been built and have been mistaken for
+      Zeppelins owing to the similarity of the broad principles of design and
+      their huge dimensions. In one vital respect they are decidedly inferior to
+      their contemporary&mdash;they are not so speedy.
+    </p>
+    <p>
+      The most successful of the German lighter-than-air machines are those
+      known respectively as the semi rigid and non-rigid types, the best
+      examples of which are the Gross and Parseval craft. Virtually they are
+      Teutonic editions of the successful French craft of identical design by
+      which they were anticipated. The Lebaudy is possibly the most famous of
+      the French efforts in this direction. The gas-bag has an asymmetrical
+      shape, and is pointed at both ends, although the prow is blunter or
+      rounder than the stem. The gas-bag comprises a single chamber for the
+      inflating agent, the distended shape of the envelope being sustained by
+      means of an air-ballonet. By varying the contents of the latter through
+      the agency of a pump the tension of the gas in the lifting envelope can be
+      maintained, and the shape of the inflated balloon preserved under all
+      conditions.
+    </p>
+    <p>
+      Beneath the gas-bag is a long strengthened girder, and from this in turn
+      the car is suspended. It is the introduction of this rigid girder which is
+      responsible for the descriptive generic term of "semi-rigid." On the other
+      hand the "non-rigid" type may be roughly described as a pisciform balloon
+      fitted with propelling machinery, inasmuch as the car containing the
+      driving machinery is suspended from the balloon in the manner of the car
+      in the ordinary drifting vessel. So far as the French effort is concerned
+      the Bayard-Clement type is the best example of the non-rigid system; it is
+      represented in Germany by the Parseval class.
+    </p>
+    <p>
+      The Gross airship has been definitely adopted as a military machine by the
+      German authorities, and figures in the "M" class. The "M-IV" completed in
+      1913 is the largest of this type, and differs from its prototypes in that
+      it carries two cars, each fitted with motors, whereas the earlier machines
+      were equipped with a single gondola after the French pattern. This vessel
+      measures 320 feet in length, has a maximum diameter of 44 1/2 feet,
+      displaces 13 tons, and is fitted with motors developing 450 horse-power,
+      which is sufficient to give it a speed of 47 miles per hour. This vessel
+      represents a huge advance upon its predecessors of this design, inasmuch
+      as the latter were about 245 feet in length by 36 1/4 feet in diameter,
+      and displaced only six tons, while the single car was provided with a
+      motor developing only 150 horse-power, the speed being 28 miles per hour.
+      Thus it will be seen that a huge development has suddenly taken place, a
+      result due no doubt to the co-operation of the well-known engineer
+      Basenach. The "M-IV" is essentially an experiment and great secrecy has
+      been maintained in regard to the trials which have been carried out
+      therewith, the authorities merely vouchsafing the fact that the airship
+      has proved completely successful in every respect; conclusive testimony of
+      this is offered by the inclusion of the vessel in the active aerial fleet
+      of Germany.
+    </p>
+    <p>
+      But it is the Parseval which is regarded as the finest type of airship
+      flying the German flag. This vessel is the product of slow evolution, for
+      it is admitted to be a power-driven balloon. Even the broad lines of the
+      latter are preserved, the shape being that of a cylinder with rounded
+      ends. It is the direct outcome of the "Drachen-Balloon," perfected by
+      Parseval and Siegsfeld, the captive balloon which is an indispensable part
+      of the German military equipment.
+    </p>
+    <p>
+      The complete success of the suspension system in this captive balloon
+      prompted Parseval to continue his researches and experiments in regard to
+      the application of power to the vessel, so as to induce it to move
+      independently of the wind. The suspension system and the car are the
+      outstanding features of the craft. It is non-rigid in the strictest
+      interpretation of the term, although, owing to the incorporation of the
+      steadying hollow "mattress" (as it is called by its inventor), the
+      strength of the suspension system, and the substantial character of the
+      car, it conveys an impression of great solidity. The thinnest rope, both
+      manilla and steel, in the suspension system is as thick as a man's finger,
+      while the car, measuring 30 feet in length by 6 feet in width, carried out
+      in wood, is a striking example of the maximum of strength with the minimum
+      of weight, being as steady and as solid as a boat's deck. The propellers
+      are collapsible, although in the latest craft of this class they are
+      semi-rigid.
+    </p>
+    <p>
+      The mechanical equipment is also interesting. There are two propellers,
+      and two motors, each nominally driving one propeller. But should one motor
+      break down, or motives of economy, such as husbanding of fuel, render it
+      advisable to run upon one engine, then the two propellers may be driven by
+      either of the motors.
+    </p>
+    <p>
+      The inventor has perfected an ingenious, simple, and highly efficient
+      coupling device to attain this end, but to ensure that the propeller
+      output is of the maximum efficiency in relation to the engine, the pitch
+      of the propellers may be altered and even reversed while the engine is
+      running. When one motor only is being used, the pitch is lowered until the
+      propellers revolve at the speed which they would attain if both engines
+      were in operation. This adjustment of the propeller pitch to the most
+      economical engine revolutions is a distinctive characteristic, and
+      contributes to the efficiency and reliability of the Parseval dirigible to
+      a very pronounced degree.
+    </p>
+    <p>
+      Steering in the vertical plane is also carried out upon distinctive lines.
+      There are no planes for vertical steering, but movement is accomplished by
+      tilting the craft and thus driving the gas from one end of the balloon to
+      the other. This is effected by the manipulation of the air-ballonets, one
+      of which is placed at the prow and stem of the gas bag respectively. If it
+      is desired to descend the gas is driven from the forward to the after end
+      of the envelope, merely by inflating the bow ballonet with air by means of
+      a pump placed in the car. If ascent is required, the after-ballonet is
+      inflated, thereby driving the gas to the forward end of the balloon, the
+      buoyancy of which is thus increased. The outstanding feature of the
+      "Drachen-Balloon" is incorporated in the airship. This is the automatic
+      operation of the safety valve on the gas-bag directly by the air
+      ballonets. If these ballonets empty owing to the pressure of the gas
+      within the envelope, a rope system disposed within the balloon and
+      connecting the ballonets and the gas-valve at the top is stretched taut,
+      thereby opening the gas-valve. In this manner the gas-pressure becomes
+      reduced until the ballonets are enabled to exercise their intended
+      function. This is a safety precaution of inestimable value.
+    </p>
+    <p>
+      The Parseval is probably the easiest dirigible to handle, inasmuch as it
+      involves no more skill or knowledge than that required for an ordinary
+      free balloon. Its movements in the vertical plane are not dissimilar to
+      those of the aeroplane, inasmuch as ascent and descent are normally
+      conducted in a "screwing" manner, the only exception being of course in
+      abrupt descent caused by the ripping of the emergency-valve. On one
+      occasion, it is stated, one of the latest machines of this type, when
+      conducting experimental flights, absolutely refused to descend, producing
+      infinite amusement both among the crowd and those on board.
+    </p>
+    <p>
+      The development of the Parseval is directly attributable to the influence
+      and intimate interest of the Kaiser, and undoubtedly this represents the
+      wisest step he ever made in the realm of aeronautics. It certainly has
+      enabled the German military machine to become possessed of a significant
+      fleet of what may be described as a really efficient and reliable type of
+      dirigible. The exact number of military Parsevals in commission is
+      unknown, but there are several classes thereof, in the nature of aerial
+      cruisers and vedettes.
+    </p>
+    <p>
+      The largest and most powerful class are those known as the B type,
+      measuring about 240 feet in length by 40 feet maximum diameter, of 223,000
+      cubic feet capacity, and fitted with two motorsand two propellers. This
+      vessel carries about 10 passengers, can climb to a maximum height of
+      approximately 8,500 feet, and is capable of remaining in the air for
+      twenty hours upon a single fuel charge. While this is the largest and most
+      serviceable type of Parseval designed for military duties, there is
+      another, the A class, 200 feet in length with accommodation for six
+      passengers in addition to the crew of three, which is capable of attaining
+      a maximum altitude of 6,700 feet, and has an endurance capacity of 15
+      hours. This class also is fitted with twin propellers and motors. In
+      addition there are the C and E classes, carrying from four to eight
+      passengers, while the vedettes are represented by the D and F classes,
+      which have a maximum altitude of 2,000 feet and can remain aloft for only
+      five hours upon a single fuel charge. These smaller vessels, however, have
+      the advantage of requiring only one or two men to handle them. The present
+      military Parseval dirigible is made in one of these five standardised
+      classes, experience having established their efficiency for the specified
+      military services for which they are built. In point of speed they compare
+      favourably with the latest types of Zeppelin, the speeds of the larger
+      types ranging from 32 to 48 miles per hour with a motor effort of 360 to
+      400 horse-power.
+    </p>
+    <p>
+      So far as the French airships of war are concerned, the fleet is somewhat
+      heterogeneous, although the non-rigid type prevails. The French aerial
+      navy is represented by the Bayard-Clement, Astra, Zodiac, and the
+      Government-built machines. Although the rigid type never has met with
+      favour in France, there is yet a solitary example of this system of
+      construction&mdash;the Spiess, which is 460 feet in length by 47 feet in
+      diameter and has a displacement of 20 tons. The semi-rigid craft are
+      represented by the Lebaudy type, the largest of which measures 293 feet in
+      length by 51 feet in diameter, and has a displacement of 10 tons.
+    </p>
+    <p>
+      One may feel disposed to wonder why the French should be apparently
+      backward in this form of aerial craft, but this may be explained by the
+      fact that the era of experiment had not been concluded at the time war was
+      declared, with the result that it has been somewhat difficult to determine
+      which type would meet the military requirements of the country to the best
+      advantage. Moreover, the French military authorities evinced a certain
+      disposition to relegate the dirigible to a minor position, convinced that
+      it had been superseded by the heavier-than-air machine. Taken on the
+      whole, the French airship fleet is inferior to the German in point of
+      speed, if not numerically, but this deficiency is more than
+      counterbalanced by the skill and ability of the men manning their craft,
+      who certainly are superior to their contemporaries in Germany, combined
+      with the proved character of such craft as are in service.
+    </p>
+    <p>
+      The same criticism may be said to apply to Great Britain. That country was
+      backward in matters pertaining to the airship, because its experiments
+      were carried out spasmodically while dependence was reposed somewhat too
+      much upon foreign effort. The British airships are small and of low speed
+      comparatively speaking. Here again it was the advance of the aeroplane
+      which was responsible for the manifestation of a somewhat indifferent if
+      not lethargic feeling towards the airship. Undoubtedly the experiments
+      carried out in Great Britain were somewhat disappointing. The one and only
+      attempt to out-Zeppelin the Zeppelin resulted in disaster to the craft
+      before she took to the air, while the smaller craft carried out upon far
+      less ambitious lines were not inspiritingly successful. Latterly the
+      non-rigid system has been embraced exclusively, the craft being virtually
+      mechanically driven balloons. They have proved efficient and reliable so
+      far as they go, but it is the personal element in this instance also which
+      has contributed so materially to any successes achieved with them.
+    </p>
+    <p>
+      But although Great Britain and France apparently lagged behind the
+      Germans, appreciable enterprise was manifested in another direction. The
+      airship was not absolutely abandoned: vigilance was maintained for a
+      superior type of craft. It was an instance of weighing the advantages
+      against the disadvantages of the existing types and then evolving for a
+      design which should possess the former without any of the latter. This end
+      appears to be achieved with the Astra type of dirigible, the story of the
+      development of which offers an interesting chapter in the annals of
+      aeronautics.
+    </p>
+    <p>
+      In all lighter-than-air machines the resistance to the air offered by the
+      suspension ropes is considerable, and the reduction of this resistance has
+      proved one of the most perplexing problems in the evolution of the
+      dirigible. The air is broken up in such a manner by the ropes that it is
+      converted into a brake or drag with the inevitable result that the speed
+      undergoes a severe diminution. A full-rigged airship such as the Parseval,
+      for instance, may present a picturesque appearance, but it is severely
+      unscientific, inasmuch as if it were possible to eliminateor to reduce the
+      air-resistance offered by the ropes, the speed efficiency might be raised
+      by some sixty per cent and that without any augmentation of the propelling
+      effort. As a matter of fact Zeppelin solved this vexatious problem
+      unconsciously. In his monster craft the resistance to the air is reduced
+      to a remarkable degree, which explains why these vessels, despite all
+      their other defects are able to show such a turn of speed.
+    </p>
+    <p>
+      It was this feature of the Zeppelin which induced Great Britain to build
+      the May-fly and which likewise induced the French Government to stimulate
+      dirigible design and construction among native manufacturers, at the same
+      time, however, insisting that such craft should be equal at least in speed
+      to the Zeppelins. The response to this invitation was the Spiess, which
+      with its speed of 45 miles per hour ranked, until 1914, as one of the
+      fastest dirigibles in the French service.
+    </p>
+    <p>
+      In the meantime a Spanish engineer, Senor Torres, had been quietly working
+      out a new idea. He realised the shortcomings of the prevailing types of
+      airships some eleven years ago, and unostentatiously and painstakingly set
+      out to eliminate them by the perfection of a new type of craft. He
+      perfected his idea, which was certainly novel, and then sought the
+      assistance of the Spanish Government. But his fatherland was not adapted
+      to the prosecution of the project. He strove to induce the authorities to
+      permit even a small vessel to be built, but in vain. He then approached
+      the French Astra Company. His ambition was to build a vessel as large as
+      the current Zeppelin, merely to emphasise the value of his improvement
+      upon a sufficiently large scale, and to enable comparative data concerning
+      the two designs to be obtained. But the bogey of expense at first proved
+      insuperable. However, the French company, decided to give the invention a
+      trial, and to this end a small "vedette" of about 53,000 cubic feet
+      displacement was built.
+    </p>
+    <p>
+      Although an unpretentious little vessel, it certainly served to emphasise
+      the importance of the Torres idea. It was pitted against the "Colonel
+      Renard," the finest ship at that time in the French aerial service, which
+      had proved the fastest airship in commission, and which also was a product
+      of the Astra Company. But this fine craft was completely outclassed by the
+      puny Astra-Torres.
+    </p>
+    <p>
+      The builders and the inventor were now additionally anxious to illustrate
+      more emphatically the features of this design and to build a far larger
+      vessel. The opportunity was offered by the British Government, which had
+      been following the experiments with the small Astra-Torres in France. An
+      order was given for a vessel of 282,500 cubic feet displacement; in this
+      instance it was ranged against another formidable rival&mdash;the
+      Parseval. But the latter also failed to hold its own against the Spanish
+      invention, inasmuch as the Astra-Torres built for the British authorities
+      exceeded a speed of 50 miles per hour in the official tests. This vessel
+      is still doing valuable duty, being attached to the British air-service in
+      France.
+    </p>
+    <p>
+      The achievements of the British vessel were not lost upon the French
+      Government, which forthwith placed an order for a huge vessel of 812,200
+      cubic feet capacity, equipped with motors developing 1,000 horse-power,
+      which it was confidently expected would enable a speed of 60 miles per
+      hour to be attained. Thus France would be able to meet the Germans upon
+      fairly level terms, inasmuch as the speed of the latest Zeppelins does not
+      exceed 60 miles per hour. So confident were the authorities that a second
+      order for an even larger vessel was placed before the first large craft
+      was completed.
+    </p>
+    <p>
+      This latter vessel is larger than any Zeppelin yet built, seeing that it
+      displaces 38 tons, and is fitted with motors developing 1,000 horse-power.
+      It has recently been completed, and although the results of the trials, as
+      well as the dimensions of the craft have not been published, it is well
+      known that the speed has exceeded 60 miles per hour, so that France now
+      possesses the speediest dirigible in the world.
+    </p>
+    <p>
+      The Torres invention has been described as wonderful, scientifically
+      perfect and extremely simple. The vessel belongs to the non-rigid class,
+      but the whole of the suspension system is placed within the gas-bag, so
+      that the air-resistance offered by ropes is virtually eliminated in its
+      entirety, for the simple reason that practically no ropes are placed
+      outside the envelope. The general principle of design may be gathered from
+      the accompanying diagram. It is as if three sausage-shaped balloons were
+      disposed pyramidally&mdash;two lying side by side with one super-imposed,
+      with the bags connected at the points where the circular sections come
+      into contact. Thus the external appearance of the envelope is decidedly
+      unusual, comprising three symmetrical ridges. At the points where the
+      three bags come into contact cloth bands are stretched across the arcs,
+      thereby forming a cord. The suspension system is attached to the upper
+      corners of the inverted triangle thus formed, and converges in straight
+      lines through the gas space. The bracing terminates in collecting rings
+      from which a short vertical cable extends downwards through a special
+      accordion sleeve to pass through the lower wall of the envelope. These
+      sleeves are of special design, the idea being to permit the gas to escape
+      under pressure arising from expansion and at the same time to provide
+      ample play for the cable which is necessary in a flexible airship.
+    </p>
+    <p>
+      This cable emerges from the envelope only at the point or points where the
+      car or cars is or are placed. In the British airship of this type there is
+      only one car, but the larger French vessels are equipped with two cars
+      placed tandem-wise. The vertical cable, after extending downwards a
+      certain distance, is divided, one rope being attached to one, and the
+      second to the other side of the car. The two-bladed propellers are
+      disposed on either side of the car, in each of which a 500 horse-power
+      motor is placed.
+    </p>
+    <p>
+      The Astra-Torres type of dirigible may be said to represent the latest
+      expression in airship design and construction. The invention has given
+      complete satisfaction, and has proved strikingly successful. The French
+      Government has completed arrangements for the acquisition of larger and
+      more powerful vessels of this design, being now in the position to contest
+      every step that is made by Germany in this field. The type has also been
+      embraced by the Russian military authorities. The Astra-Torres airship has
+      a rakish appearance, and although the lines of the gas-bag are admitted to
+      increase frictional resistance, this is regarded as a minor defect,
+      especially when the many advantages of the invention are taken into
+      consideration.
+    </p>
+    <p>
+      <a name="link2HCH0005" id="link2HCH0005">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER V. GERMANY'S AERIAL DREADNOUGHT FLEET
+    </h2>
+    <p>
+      Although Germany, as compared with France, was relatively slow to
+      recognise the immense possibilities of aircraft, particularly dirigibles,
+      in the military sense, once the Zeppelin had received the well-wishes of
+      the Emperor William, Teuton activities were so pronounced as to enable the
+      leeway to be made up within a very short while. While the Zeppelin
+      commanded the greatest attention owing to the interesting co-operation of
+      the German Emperor, the other types met with official and royal
+      recognition and encouragement as already mentioned. France, which had held
+      premier position in regard to the aerial fleet of dirigibles for so long,
+      was completely out-classed, not only in dimensions but also in speed, as
+      well as radius of action and strategical distribution of the aerial
+      forces.
+    </p>
+    <p>
+      The German nation forged ahead at a great pace and was able to establish a
+      distinct supremacy, at least on paper. In the light of recent events it is
+      apparent that the German military authorities realised that the dawn of
+      "The Day" was approaching rapidly, and that it behoved them to be as fully
+      prepared in the air as upon the land. It was immaterial that the Zeppelin
+      was the synonym for disaster. By standardisation its cost could be reduced
+      while construction could be expedited. Furthermore, when the matter was
+      regarded in its broadest aspect, the fact was appreciated that forty
+      Zeppelins could be built at the cost of one super-Dreadnought, so that
+      adequate allowance could be made for accidents now and then, since a
+      Zeppelin catastrophe, no matter how complete it may be, is regarded by the
+      Teuton as a mere incident inseparable from progressive development.
+    </p>
+    <p>
+      At the beginning of the year 1914 France relied upon being strengthened by
+      a round dozen new dirigibles. Seven of these were to be of 20,000 cubic
+      metres' capacity and possessed of a speed of 47 miles per hour. While the
+      existing fleet was numerically strong, this strength was more apparent
+      than real, for the simple reason that a large number of craft were in
+      dry-dock undergoing repair or overhaul while many of the units were merely
+      under test and could not be regarded therefore as in the effective fleet.
+      True, there were a certain number of private craft which were liable to be
+      commandeered when the occasion arose, but they could not be considered as
+      decided acquisitions for the simple reason that many were purely
+      experimental units.
+    </p>
+    <p>
+      Aerial vessels, like their consorts upon the water, have been divided into
+      distinctive classes. Thus there are the aerial cruisers comprising vessels
+      exceeding 282,000 cubic feet in capacity; scouts which include those
+      varying between 176,600 and 282,000 cubic feet capacity; and vedettes,
+      which take in all the small or mosquito craft. At the end of 1913, France
+      possessed only four of the first-named craft in actual commission and thus
+      immediately available for war, these being the Adjutant Vincenot, Adjutant
+      Reau, Dupuy de Lome, and the Transaerien. The first three are of 197,800
+      cubic feet. All, however, were privately owned.
+    </p>
+    <p>
+      On the other hand, Germany had no fewer than ten huge vessels, ranging
+      from 353,000 to 776,900 cubic feet capacity, three of which, the Victoria
+      Luise, Suchard, and Hansa, though owned privately, were immediately
+      available for war. Of these the largest was the Zeppelin naval vessel
+      "L-1" 525 feet in length, by 50 feet diameter, of 776,900 cubic feet
+      capacity, equipped with engines developing 510 horse-power, and with a
+      speed of 51.8 miles per hour.
+    </p>
+    <p>
+      At the end of 1913 the effective aerial fleet of Germany comprised twenty
+      large craft, so far in advance of the French aerial cruisers as to be
+      worthy of the name bestowed upon them&mdash;"Aerial Dreadnoughts." This
+      merely represented the fleet available for immediate use and did not
+      include the four gigantic Suchard-Schutte craft, each of 847,500 cubic
+      feet, which were under construction, and which were being hurried forward
+      to come into commission early in 1914.
+    </p>
+    <p>
+      But the most interesting factor, apart from the possession of such a huge
+      fleet of dirigible air-craft, was their distribution at strategical points
+      throughout the Empire as if in readiness for the coming combat. They were
+      literally dotted about the country. Adequate harbouring facilities had
+      been provided at Konigsberg, Berlin, Posen, Breslau, Kiel, Hamburg,
+      Wilhelmshaven, Dusseldorf, Cologne, Frankfort, Metz, Mannheim, Strasburg,
+      and other places, with elaborate headquarters, of course, at
+      Friedrichshafen upon Lake Constance. The Zeppelin workshops, harbouring
+      facilities, and testing grounds at the latter point had undergone complete
+      remodelling, while tools of the latest type had been provided to
+      facilitate the rapid construction and overhaul of the monster Zeppelin
+      dirigibles. Nothing had been left to chance; not an item was perfunctorily
+      completed. The whole organisation was perfect, both in equipment and
+      operation. Each of the above stations possessed provision for an aerial
+      Dreadnought as well as one or more aerial cruisers, in addition to scouts
+      or vedettes.
+    </p>
+    <p>
+      Upon the outbreak of hostilities Germany's dirigible fleet was in a
+      condition of complete preparedness, was better organised, and better
+      equipped than that of any of her rivals. At the same time it constituted
+      more of a paper than a fighting array for reasons which I will explain
+      later. But there was another point which had escaped general observation.
+      Standardisation of parts and the installation of the desired machinery had
+      accomplished one greatly desired end&mdash;the construction of new craft
+      had been accelerated. Before the war an interesting experiment was carried
+      out to determine how speedily a vessel could be built. The result proved
+      that a dirigible of the most powerful type could be completed within eight
+      weeks and forthwith the various constructional establishments were brought
+      into line so as to maintain this rate of building.
+    </p>
+    <p>
+      The growth of the Zeppelin, although built upon disaster, has been
+      amazing. The craft of 1906 had a capacity of 430,000 cubic feet and a
+      speed of 36 miles per hour. In 1911 the creator of this type launched a
+      huge craft having a capacity of 627,000 cubic feet. In the meantime speed
+      had likewise been augmented by the use of more powerful motors until 52
+      miles an hour was attained. But this by no means represented the limit.
+      The foregoing vessels had been designed for land service purely and
+      simply, but now the German authorities demanded similar craft for naval
+      use, possessed of high speed and greater radius of action. Count Zeppelin
+      rose to the occasion, and on October 7th, 1912, launched at
+      Friedrichshafen the monster craft "L-I," 525 feet in length, 50 feet in
+      diameter, of 776,900 cubic feet capacity, a displacement of 22 tons and
+      equipped with three sets of motors aggregating more than 500 horse-power,
+      and capable of imparting a speed of 52 miles per hour.
+    </p>
+    <p>
+      The appearance of this craft was hailed with intense delight by the German
+      nation, while the naval department considered her to be a wonderful
+      acquisition, especially after the searching reliability trial. In charge
+      of Count Zeppelin and manned by a crew of 22 officers and men together
+      with nearly three tons of fuel&mdash;the fuel capacity conveys some idea
+      of her possible radius of action&mdash;she travelled from Friedrichshafen
+      to Johannisthal in 32 hours. On this remarkable journey another point was
+      established which was of far-reaching significance. The vessel was
+      equipped with wireless telegraphy and therewith she kept in touch with the
+      earth below throughout the journey, dropping and picking up wireless
+      stations as she progressed with complete facility. This was a distinct
+      achievement, inasmuch as the vessel having been constructed especially for
+      naval operations she would be able to keep in touch with the warships
+      below, guiding them unerringly during their movement.
+    </p>
+    <p>
+      The cross-country trip having proved so completely successful the
+      authorities were induced to believe that travelling over water would be
+      equally satisfactory. Accordingly the "L-I" was dispatched to the island
+      of Heligoland, the intention being to participate in naval manoeuvres in
+      order to provide some reliable data as to the value of these craft
+      operating in conjunction with warships. But in these tests German ambition
+      and pride received a check. The huge Zeppelin was manoeuvring over the
+      North Sea within easy reach of Heligoland, when she was caught by one of
+      those sudden storms peculiar to that stretch of salt water. In a moment
+      she was stricken helpless; her motive power was overwhelmed by the blind
+      forces of Nature. The wind caught her as it would a soap-bubble and hurled
+      her into the sea, precipitating the most disastrous calamity in the annals
+      of aeronautics, since not only was the ship lost, but fifteen of her crew
+      of 22 officers and men were drowned.
+    </p>
+    <p>
+      The catastrophe created consternation in German aeronautical circles. A
+      searching inquiry was held to explain the disaster, but as usual it failed
+      to yield much material information. It is a curious circumstance, but
+      every successive Zeppelin disaster, and their number is legion, has been
+      attributable to a new cause. In this instance the accident was
+      additionally disturbing, inasmuch as the ship had been flying across
+      country continuously for about twelve months and had covered more miles
+      than any preceding craft of her type. No scientific explanation for the
+      disaster was forthcoming, but the commander of the vessel, who sank with
+      his ship, had previously ventured his personal opinion that the vessel was
+      over-loaded to meet the calls of ambition, was by no means seaworthy, and
+      that sooner or later she would be caught by a heavy broadside wind and
+      rendered helpless, or that she would make a headlong dive to destruction.
+      It is a significant fact that he never had any faith in the airship, at
+      least for sea duty, though in response to official command he carried out
+      his duties faithfully and with a blind resignation to Fate.
+    </p>
+    <p>
+      Meantime, owing to the success of the "L-I" in cross-country operations,
+      another and more powerful craft, the "L-II" had been taken in hand, and
+      this was constructed also for naval use. While shorter than her consort,
+      being only 487 feet over all, this vessel had a greater beam&mdash;55
+      feet. This latter increase was decided because it was conceded to be an
+      easier matter to provide for greater beam than enhanced length in the
+      existing air-ship harbours. The "L-II" displaced 27 tons&mdash;five tons
+      in excess of her predecessor. In this vessel many innovations were
+      introduced, such as the provision of the passage-way connecting the cars
+      within the hull, instead of outside the latter as had hitherto been the
+      practice, while the three cars were placed more closely together than
+      formerly. The motors were of an improved type, giving an aggregate output
+      of 900 horse-power, and were divided into four separate units, housed in
+      two engine-rooms, the front car being a replica in every detail of the
+      navigating bridge of a warship.
+    </p>
+    <p>
+      This vessel was regarded as a distinct improvement upon the "L-I,"
+      although the latter could boast some great achievements. But her glory was
+      short-lived. In the course of the Government trials, while some 900 feet
+      aloft, the huge vessel suddenly exploded and was burned in the air, a mass
+      of broken and twisted metal-work falling to the ground. Of the 28 officers
+      and men, including members of the Admiralty Board who were conducting the
+      official trials, all but one were killed outright, and the solitary
+      exception was so terribly burned as to survive the fall for only a few
+      hours.
+    </p>
+    <p>
+      The accident was remarkable and demonstrated very convincingly that
+      although Count Zeppelin apparently had made huge strides in aerial
+      navigation through the passage of years, yet in reality he had made no
+      progress at all. He committed the identical error that characterised the
+      effort of Severo Pax ten years previously, and the disaster was directly
+      attributable to the self-same cause as that which overwhelmed the Severo
+      airship. The gas, escaping from the balloons housed in the hull, collected
+      in the confined passage-way communicating with the cars, came into contact
+      with a naked light, possibly the exhaust from the motors, and instantly
+      detonated with terrific force, blowing the airship to fragments and
+      setting fire to all the inflammable materials.
+    </p>
+    <p>
+      In this airship Zeppelin committed an unpardonable blunder. He had ignored
+      the factor of "internal safety," and had deliberately flown in the face of
+      the official rule which had been laid down in France after the Severo
+      disaster, which absolutely forbade the inclusion of such confined spaces
+      as Zeppelin had incorporated. This catastrophe coming so closely as it did
+      upon the preceding disaster to the pride of the German aerial fleet
+      somewhat shook public confidence in these craft, while aeronautical
+      authorities of other countries described the Zeppelin more vehemently than
+      ever as a "mechanical monstrosity" and a "scientific curiosity."
+    </p>
+    <p>
+      The Zeppelin has come to be feared in a general manner, but this result is
+      due rather to stories sedulously circulated, and which may be easily
+      traced to Teutonic sources. Very few data of a reliable character have
+      been allowed to filter through official circles. We have been told
+      somewhat verbosely of what it can accomplish and of its high degree of
+      efficiency and speed. But can credence be placed in these statements?
+    </p>
+    <p>
+      When Zeppelin IV made its unexpected descent at Luneville, and was
+      promptly seized by the French authorities, the German War office evinced
+      distinct signs of uneasiness. The reason was speedily forth coming. The
+      captain of the craft which had been captured forgot to destroy his log and
+      other records of data concerning the vessel which had been scientifically
+      collected during the journey. All this information fell into the hands of
+      the French military department, and it proved a wondrous revelation. It
+      enabled the French to value the Zeppelin at its true worth, which was by
+      no means comparable to the estimate based on reports skilfully circulated
+      for the benefit of the world at large.
+    </p>
+    <p>
+      Recently the French military department permitted the results of their
+      expert official examination to be made public. From close investigation of
+      the log-book and the diagrams which had been prepared, it was found that
+      the maximum speed attained by Zeppelin IV during this momentous flight was
+      only 45 miles per hour! It was ascertained, moreover, that the load was
+      10,560 pounds, and the ascensional effort 45,100 pounds. The fuel
+      consumption had averaged 297 pounds per hour, while the fuel tanks carried
+      sufficient for a flight of about seven hours. The airship had attained a
+      maximum height of about 6,230 feet, to reach which 6,600 pounds of ballast
+      had to be discarded. Moreover, it was proved that a Zeppelin, if
+      travelling under military conditions with full armament and ammunition
+      aboard, could carry sufficient fuel for only ten hours at the utmost,
+      during which, if the slightest head-wind prevailed, it could not cover
+      more than 340 miles on the one fuel charge.
+    </p>
+    <p>
+      This information has certainly proved a revelation and has contributed to
+      the indifference with which the Parisians regard a Zeppelin raid. At the
+      outbreak of war the Zeppelin station nearest to Paris was at Metz, but to
+      make the raid from that point the airship was forced to cover a round 500
+      miles. It is scarcely to be supposed that perfectly calm weather would
+      prevail during the whole period of the flight, so that a raid would be
+      attended by considerable risk. That this handicap was recognised in German
+      military circles is borne out by the fact that a temporary Zeppelin hangar
+      was established at a point considerably nearer the French capital, for the
+      purpose of enabling a raid to be carried out with a greater possibility of
+      success.
+    </p>
+    <p>
+      The capture of Zeppelin IV revealed another important fact. The critical
+      flying height of the airship is between 3,300 and 4,000 feet. To attempt a
+      raid at such an altitude would be to court certain disaster, inasmuch as
+      the vessel would have to run the gauntlet of the whole of the French
+      artillery, which it is admitted has a maximum range exceeding the flying
+      altitude of the Zeppelin. That the above calculation is within reason is
+      supported by the statements of Count Zeppelin himself, who has declared
+      that his airships are useless at a height exceeding 5,000 feet.
+      Confirmatory evidence upon this point is offered by the raid upon the
+      British East Coast towns, when it is stated that the aircraft were
+      manoeuvring at a height not exceeding 2,000 feet.
+    </p>
+    <p>
+      <a name="link2HCH0006" id="link2HCH0006">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER VI. THE MILITARY VALUE OF GERMANY'S AERIAL FLEET
+    </h2>
+    <p>
+      Although the Zeppelin undoubtedly has been over-rated by the forces to
+      which it is attached, at the same time it must not be under-estimated by
+      its detractors. Larger and more powerful vessels of this type have been,
+      and still are being, constructed, culminating, so far as is known, in the
+      "L-5," which is stated to have a capacity of about 1,000,000 cubic feet,
+      and to possess an average speed of 65 miles per hour.
+    </p>
+    <p>
+      While it is generally maintained that the Zeppelins will prove formidable
+      in attack, greater reliance is being placed upon the demoralising or
+      terrifying effect which they are able to exercise. Owing to the fact that
+      from 3 to 5 tons of fuel&mdash;say 900 to 1,500 gallons of gasoline or
+      petrol&mdash;can be carried aboard, giving them a wide radius of action,
+      it is doubtful whether they could travel from Cologne to London and back
+      upon a single fuel charge, since such a raid would entail a journey of
+      about 600 miles. The latest types of this craft are said to possess a high
+      ascensional speed, which offers a distinct protection against aeroplane
+      attack. According to such official information as has been vouchsafed, a
+      Zeppelin, when hard pressed, is able to rise vertically 3,500 feet in
+      about three minutes. This is far in excess of the ascensional speed of
+      even the speediest aeroplane, of course, the penalty for such a factor has
+      to be paid: the loss of gas is appreciable and may lead to the craft's
+      ultimate undoing. At the same time, however, it is able to maintain the
+      superior position as compared with the aeroplane for a considerable
+      period: the upper reaches of the air are its sanctuary.
+    </p>
+    <p>
+      Nor must the nocturnal activities of the Zeppelin be overlooked. So far as
+      night operations by these vessels are concerned, little has leaked out, so
+      that the possibilities of the airship in this direction are still somewhat
+      hypothetical. The fact remains, however, that it is night movements which
+      perhaps are the most to be dreaded by the enemy. According to official
+      German sources of information the latest types of Zeppelins are engined by
+      "noiseless" motors. There is nothing remarkable in this feature, since the
+      modern motor-car virtually answers to this description, although in this
+      instance quietness is obtained for the most part by recourse to the
+      sleeve-valve engine. Still, the ordinary Otto-cycle internal combustion
+      engine can be rendered almost silent by the utilisation of adequate
+      muffling devices, which, in the Zeppelin, are more possible of
+      incorporation than in the aeroplane, because the extra weight imposed by
+      this acquisition is a minor consideration in comparison with the lifting
+      power of the vessel.
+    </p>
+    <p>
+      Night operations, however, have not proved eminently successful. The very
+      darkness which protects the aerial prowler also serves a similar purpose
+      in connection with its prey. But aerial operations under the cover of
+      darkness are guided not so much by the glare of lights from below as
+      betrayal by sound. The difference between villages and cities may be
+      distinguished from aloft, say at 1,500 to 3,000 feet, by the hum which
+      life and movement emit, and this is the best guide to the aerial scout or
+      battleship. The German authorities have made a special study of this
+      peculiar problem, and have conducted innumerable tests upon the darkest
+      nights, when even the sheen of the moon has been unavailable, for the
+      express purpose of training the aerial navigators to discover their
+      position from the different sounds reaching them from below. In other
+      words, the corsair in the skies depends more upon compass and sound than
+      upon compass and vision when operating after dark. The searchlights with
+      which the Zeppelins are equipped are provided merely for illuminating a
+      supposed position. They are not brought into service until the navigator
+      concludes that he has arrived above the desired point: the ray of light
+      which is then projected is merely to assist the crew in the discharge of
+      the missiles of destruction.
+    </p>
+    <p>
+      The Zeppelin, however, owing to its speed, both in the horizontal and
+      vertical planes, is essentially a unit for daylight operations. The other
+      airships which Germany possesses, and which for the most part are of the
+      non-rigid type, are condemned to daylight operations from the character of
+      their design. Owing to their low speeds they may be dismissed as
+      impossible aerial vessels for hazardous work and are not regarded by the
+      German authorities as all-round airships of war.
+    </p>
+    <p>
+      Craft of the air are judged in Germany from the one standard only. This
+      may be a Teutonic failing, but it is quite in keeping with the Teutonic
+      spirit of militarism. Commercialism is a secondary factor. To the German
+      Emperor an airship is much what a new manufacturing process or machine is
+      to the American. Whereas the latter asks, "How much will it save me on the
+      dollar?" to the War Lord of Germany&mdash;and an airship notwithstanding
+      its other recommendatory features is judged solely from this standpoint&mdash;the
+      question is "What are its military qualifications?"
+    </p>
+    <p>
+      When the semi-rigid airship "V-I" was brought before the notice of the
+      German military department the pressing point concerning its military
+      recommendations arose at once. The inventor had foreseen this issue and
+      was optimistic. Thereupon the authorities asked if the inventor were
+      prepared to justify his claims. The retort was positive. Forthwith the
+      Junkers decided to submit it to the test.
+    </p>
+    <p>
+      This ship is of quite a distinctive type. It is an aerial cruiser, and the
+      inventor claims that it combines all the essential qualifications of the
+      Zeppelin and of the competitors of the latter, in addition to the
+      advantage of being capable of dissection, transportation in parts, and
+      rapid re-erection at any desired spot. The length of the vessel is about
+      270 feet; maximum diameter approximately 42 feet, and capacity about
+      300,000 cubic feet. The outstanding feature is a rigid keel-frame forming
+      a covered passage way below the envelope or gas-bag, combined with easy
+      access to all parts of the craft while under way, together with an
+      artificial stiffening which dispenses with the necessity of attaching any
+      additional cars. The frame is so designed that the load, as well as the
+      ballast and fuel tanks, may be distributed as desired, and at the same
+      time it ensures an advantageous disposition of the steering mechanism, far
+      removed from the centre of rotation at the stern, without any overloading
+      of the latter.
+    </p>
+    <p>
+      The lifting part of the airship comprises a single gas bag fitted with two
+      ballonets provided to ensure the requisite gas-tension in the main
+      envelope, while at the same time permitting, in times of emergency, a
+      rapid change of altitude. Self-contained blowers contribute to the
+      preservation of the shape of the envelope, the blowers and the ballonets
+      being under the control of the pilot. Planes resembling Venetian blinds
+      facilitate vertical steering, while the suspension of the keel is carried
+      out in such a manner as to secure uniformity of weight upon the gas bag.
+      The propelling power comprises two sets of internal combustion engines,
+      each developing 130 horse-power, the transmission being through rubber
+      belting. The propellers, built of wood, make 350 revolutions per minute,
+      and are set as closely as possible to the centre of resistance.
+    </p>
+    <p>
+      But the most salient characteristic of this machine is its portability. It
+      can be dismantled and transported by wagons to any desired spot, the
+      suspension frame being constructed in units, each of which is sufficiently
+      small to be accommodated in an ordinary vehicle. Upon arrival the parts
+      may be put together speedily and easily. The authorities submitted the
+      airship to exacting trials and were so impressed by its characteristics
+      and the claims of the inventor that undoubtedly it will be brought into
+      service during the present crisis.
+    </p>
+    <p>
+      At the same time the whole faith of the German military staff so far as
+      airship operations are concerned, is pinned to the Zeppelin.
+      Notwithstanding its many drawbacks it is the vessel which will be used for
+      the invasion of Great Britain. Even the harbour question, which is
+      admitted to be somewhat acute, has been solved to a certain degree. At
+      strategical points permanent harbours or airship sheds have been
+      established. Seeing that the airships demand considerable skill in docking
+      and undocking, and that it is impossible to achieve these operations
+      against the wind, swinging sheds have been adopted.
+    </p>
+    <p>
+      On water the practice is to anchor a floating harbour at one end, leaving
+      the structure to swing round with the wind. But on dry land such a dock is
+      impossible. Accordingly turntable sheds have been adopted. The shed is
+      mounted upon a double turn-table, there being two circular tracks the one
+      near the centre of the shed and the other towards its extremities. The
+      shed is mounted upon a centre pivot and wheels engaged with these inner
+      and outer tracks. In this manner the shed may be swung round to the most
+      favourable point of the compass according to the wind.
+    </p>
+    <p>
+      In the field, however, such practices are impossible, and the issue in
+      this connection has been overcome by recourse to what may be termed
+      portable harbours. They resemble the tents of peripatetic circuses and
+      travelling exhibitions. There is a network of vertical steel members which
+      may be set with facility and speed and which are stayed by means of wire
+      guys. At the top of the outer vertical posts pulleys are provided whereby
+      the outer skin or canvas forming the walls may be hauled into position,
+      while at the apex of the roof further pulleys ensure the proper placing of
+      the roofing. The airship is able to enter or leave from either end
+      according to conditions. The material is fireproofed as a precautionary
+      measure, but at the same time the modern aerial bomb is able to penetrate
+      the roofing without any difficulty and to explode against the airship
+      anchored within.
+    </p>
+    <p>
+      The one great objection to the Zeppelin harbour is the huge target it
+      offers to hostile attack, which, in the event of a vessel being moored
+      within, is inevitably serious. Thus, for instance, upon the occasion of
+      the air raids conducted by Lieutenant Collet and of Squadron Commander
+      Briggs and his colleagues at Dusseldorf and Friedrichshafen respectively,
+      little difficulty was experienced in destroying the airships riding at
+      anchor. The target offered by the shed is so extensive that it would be
+      scarcely possible for a flying enemy to miss it. A bomb dropped from a
+      reasonable height, say 500 feet, would be almost certain to strike some
+      part of the building, and a Zeppelin is an easy vessel to destroy. The
+      firing of one balloon is sufficient to detonate the whole, for the simple
+      reason that hydrogen gas is continuously oozing through the bags in which
+      it is contained. According to a recent statement the Germans are said to
+      be utilising an inert or non-inflammable gas, equal in lifting power to
+      hydrogen, for the inflation of military craft, but scientific thought does
+      not entertain this statement with any degree of seriousness. No gas as
+      light as hydrogen and non-explosive is known to commerce.
+    </p>
+    <p>
+      Will Germany invade Great Britain by air? This is the absorbing topic of
+      the moment&mdash;one which has created intense interest and a certain
+      feeling of alarm among the timorous. Although sporadic raids are
+      considered to be possible and likely to be carried out with a varying
+      measure of success&mdash;such as that made upon the British East Coast&mdash;eminent
+      authorities ridicule an invasion in force. The risk would be enormous,
+      although there is no doubt that Germany, which has always maintained that
+      an invasion of this character will be made, will be compelled to essay
+      such a task, in order to satisfy public opinion, and to justify official
+      statements. It is a moot point, however, whether the invaders ever will
+      succeed in making good their escape, unless Nature proves exceptionally
+      kind.
+    </p>
+    <p>
+      The situation is best summed up in the unbiassed report of General George
+      P. Scriven, Chief Signal officer of the United States Army to the U.S.
+      Secretary of War. In this report, which deals exhaustively with the
+      history, construction and achievements of airships, such an invasion is
+      described as fantastic and impracticable. Writing on November 10th, 1914,
+      the officer declares that "he is not prepared to recommend the American
+      Army to take up seriously the question of constructing dirigibles, as they
+      are not worth their cost as offensive machines, while for reconnaissance
+      or defence they are of far less value than aeroplanes." In his words,
+      "Dirigibles are seemingly useless in defence against the aeroplane or
+      gun-fire."
+    </p>
+    <p>
+      In order to be able to make an invasion in force upon Great Britain's
+      cities extremely favourable weather must prevail, and the treacherous
+      nature of the weather conditions of the North Sea are known fully well
+      both to British and Teuton navigators. Seeing that the majority of the
+      Zeppelin pilots are drawn from the Navy and mercantile marine, and thus
+      are conversant with the peculiarities and characteristics of this stretch
+      of salt water, it is only logical to suppose that their knowledge will
+      exert a powerful influence in any such decision, the recommendations of
+      the meteorological savants not withstanding.
+    </p>
+    <p>
+      When the Zeppelin pride of the German Navy "L-1" was hurled to destruction
+      by a typical North Sea squall, Captain Blew of the Victoria Luise, a
+      Zeppelin with many great achievements to her credit, whose navigator was
+      formerly in the Navy, and thus is familiar with the whole issue, explained
+      that this atmospheric liveliness of the North Sea prevails for the most
+      part in the latitude of Norway, but that it frequently extends as far
+      south as the gate of the Channel. He related furthermore that the rain
+      squalls are of tropical violence, while the vertical thrusts of air are
+      such that no dirigible as yet constructed could ever hope to live in them.
+      Under such conditions, he continued, the gas is certain to cool intensely,
+      and the hull must then become waterlogged, not to mention the downward
+      thrust of the rain. Under such conditions buoyancy must be imperilled to
+      such a degree as to demand the jettisoning of every piece of ballast, fuel
+      and other removable weight, including even the steadying and vertical
+      planes. When this has been done, he pointed out, nothing is left with
+      which to combat the upward vertical thrusts of the air. To attempt to run
+      before the wind is to court positive disaster, as the wind is certain to
+      gain the mastery. Once the airship loses steering way and is rendered
+      uncontrollable it becomes the sport of the forces of Nature, with the
+      result that destruction is merely a matter of minutes, or even seconds.
+    </p>
+    <p>
+      Every navigator who knows the North Sea will support these conclusions.
+      Squalls and blizzards in winter, and thunderstorms in summer, rise with
+      startling suddenness and rage with terrific destructive fury. Such
+      conditions must react against the attempt of an aerial invasion in force,
+      unless it be made in the character of the last throw by a desperate
+      gambler, with good fortune favouring the dash to a certain degree. But
+      lesser and more insignificant Zeppelin raids are likely to be somewhat
+      frequent, and to be made at every favourable climatic opportunity.
+    </p>
+    <p>
+      <a name="link2HCH0007" id="link2HCH0007">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER VII. AEROPLANES OF WAR
+    </h2>
+    <p>
+      Owing to the fertility of inventors and the resultant multiplicity of
+      designs it is impossible to describe every type of heavier-than-air
+      machine which has been submitted to the exacting requirements of military
+      duty. The variety is infinite and the salient fact has already been
+      established that many of the models which have proved reliable and
+      efficient under normal conditions are unsuited to military operations. The
+      early days of the war enabled those of doubtful value to be eliminated,
+      the result being that those machines which are now in use represent the
+      survival of the fittest. Experience has furthermore emphasised the
+      necessity of reducing the number of types to the absolute minimum. This
+      weeding-out process is being continued and there is no doubt that by the
+      time the war is concluded the number of approved types of aeroplanes of
+      military value will have been reduced to a score or less. The
+      inconveniences and disadvantages arising from the utilisation of a wide
+      variety of different types are manifold, the greatest being the necessity
+      of carrying a varied assortment of spare parts, and confusion in the
+      repair and overhauling shops.
+    </p>
+    <p>
+      The methodical Teuton was the first to grasp the significance of these
+      drawbacks; he has accordingly carried standardisation to a high degree of
+      efficiency, as is shown in another chapter. At a later date France
+      appreciated the wisdom of the German practice, and within a short time
+      after the outbreak of hostilities promptly ruled out certain types of
+      machines which were regarded as unsuitable. In this instance the process
+      of elimination created considerable surprise, inasmuch as it involved an
+      embargo on the use of certain machines, which under peace conditions had
+      achieved an international reputation, and were held to represent the
+      finest expression of aeronautical science in France as far as aeroplane
+      developments are concerned.
+    </p>
+    <p>
+      Possibly the German machine which is most familiar, by name, to the
+      general public is the Taube, or, as it is sometimes called, the Etrich
+      monoplane, from the circumstance that it was evolved by the Austrian
+      engineer Igo Etrich in collaboration with his colleague Wels. These two
+      experimenters embarked on the study of dynamic flight contemporaneously
+      with Maxim, Langley, Kress, and many other well-known pioneers, but it was
+      not until 1908 that their first practical machine was completed. Its
+      success was instantaneous, many notable flights being placed to its
+      credit, while some idea of the perfection of its design may be gathered
+      from the fact that the machine of to-day is substantially identical with
+      that used seven years ago, the alterations which have been effected
+      meanwhile being merely modifications in minor details.
+    </p>
+    <p>
+      The design of this machine follows very closely the lines of a bird in
+      flight&mdash;hence its colloquial description, "Taube," or "dove." Indeed
+      the analogy to the bird is so close that the ribs of the frame resemble
+      the feathers of a bird. The supporting plane is shaped in the manner of a
+      bird's distended wing, and is tipped up at the rear ends to ensure
+      stability. The tail also resembles that of a bird very closely.
+    </p>
+    <p>
+      This aeroplane, especially the latest type, is very speedy, and it has
+      proved extremely reliable. It is very sharp in turning and extremely
+      sensitive to its rudder, which renders it a first-class craft for
+      reconnoitring duty. The latest machines are fitted with motors developing
+      from 120 to 150 horse-power.
+    </p>
+    <p>
+      The "Taube" commanded attention in Germany for the reason that it
+      indicated the first departure from the adherence to the French designs
+      which up to that time had been followed somewhat slavishly, owing to the
+      absence of native initiative.
+    </p>
+    <p>
+      The individuality of character revealed in the "Taube" appealed to the
+      German instinct, with the result that the machine achieved a greater
+      reputation than might have been the case had it been pitted against other
+      types of essentially Teutonic origin. The Taube was subsequently tested
+      both in France and Great Britain, but failed to raise an equal degree of
+      enthusiasm, owing to the manifestation of certain defects which marred its
+      utility. This practical experience tended to prove that the Taube, like
+      the Zeppelin, possessed a local reputation somewhat of the paper type. The
+      Germans, however, were by no means disappointed by such adverse criticism,
+      but promptly set to work to eliminate defects with a view to securing an
+      all-round improvement.
+    </p>
+    <p>
+      The most successful of these endeavours is represented in the
+      Taube-Rumpler aeroplane, which may be described as an improved edition of
+      Etrich's original idea. As a matter of fact the modifications were of so
+      slight, though important, a character that many machines generically
+      described as Taubes are in reality Rumplers, but the difference is beyond
+      detection by the ordinary and unpractised observer.
+    </p>
+    <p>
+      In the Rumpler machine the wings, like those of the Taube, assume broadly
+      the form and shape of those of the pigeon or dove in flight. The early
+      Rumpler machines suffered from sluggish control, but in the later types
+      this defect has been overcome. In the early models the wings were
+      flexible, but in the present craft they are rigid, although fitted with
+      tips or ailerons. The supporting truss beneath the wings, which was such
+      an outstanding feature of its prototype, has been dispensed with, the
+      usual I-beam longitudinals being used in its stead. The latest machines
+      fitted with 100-120 horse-power Mercedes motors have a fine turn of speed,
+      possess an enhanced ascensional effort, and are far simpler to control.
+    </p>
+    <p>
+      Other German machines which are used in the military service are the Gotha
+      and the Albatross. The former is a monoplane, and here again the influence
+      of Etrich upon German aeroplane developments is strongly manifested, the
+      shape of the bird's wing being retained. In the Gotha the truss which
+      Etrich introduced is a prominent characteristic. The Albatross is a
+      biplane, but this craft has proved to be somewhat slow and may be said to
+      be confined to what might be described as the heavier aerial military
+      duties, where great endurance and reliability are essential. As the war
+      proceeds, doubtless Teuton ingenuity will be responsible for the
+      appearance of new types, as well as certain modifications in the detail
+      construction of the existing machines, but there is every indication that
+      the broad lines of Etrich's conception will be retained in all monoplanes.
+    </p>
+    <p>
+      There is one point in which Germany has excelled. Wood is not employed in
+      the construction of these heavier-than-air craft. Steel and the lighter
+      tough alloys are exclusively used. In this way the minimum of weight
+      consistent with the maximum of strength policy is carried out. Moreover
+      the manufacture of component parts is facilitated and accelerated to a
+      remarkable degree by the use of metal, while the tasks of fitting and
+      repairing are notably expedited by the practice of standardisation.
+      Germany is also manifesting commendable enterprise in the perfection of
+      light powerful motors for these dynamic machines. The latest types of
+      explosion-motors range from 100 to 150 horse-power; the advantages of
+      these are obvious.
+    </p>
+    <p>
+      Upon the outbreak of hostilities the French possessed an enormous number
+      and variety of aeroplanes and this aerial fleet had been brought to a high
+      standard of organisation. The aerial fleet is sub-divided into squadrons
+      called "escadrilles," each of which comprises six machines and pilots.
+      These units are kept up to strength, wastage being made up from reserves,
+      so as to maintain the requisite homogeneity.
+    </p>
+    <p>
+      But ere the war had been in progress many weeks an official order was
+      issued forbidding the employment of the Bleriot, Deperdussin, Nieuport,
+      and R.E.P. monoplanes. Those which received official approval included the
+      Caudron, Henry, and Maurice Farman, Morane-Saulnier, and Voisin machines.
+    </p>
+    <p>
+      This drastic order came somewhat as a thunderbolt, and the reason for the
+      decree has not been satisfactorily revealed. Suffice to say that in one
+      stroke the efficiency and numerical strength of the French aerial navy
+      were reduced very appreciably. For instance, it is stated that there were
+      thirty escadrilles of Bleriot monoplanes together with pilots at the
+      front, in addition to thirty mixed escadrilles of the other prohibited
+      types with their fliers. Moreover a round 33 escadrilles of all the
+      various types were in reserve. The effect of the military order was to
+      reduce the effective strength by no fewer than 558 aeroplanes.
+    </p>
+    <p>
+      Seeing that the French aerial force was placed at a great disadvantage
+      numerically by this action, there seems to be ample justification for the
+      hostile criticism which the decree of prohibition aroused in certain
+      circles, especially when it is remembered that there was not an equal
+      number of the accepted machines available to take the place of those which
+      had been ruled out of court. One effect of this decree was to throw some
+      400 expert aviators upon the waiting list for the simple reason that
+      machines were unavailable. Some of the best aviation skill and knowledge
+      which France possesses were affected by the order. It is stated that
+      accomplished aviators, such as Vedrines, were unable to obtain machines.
+    </p>
+    <p>
+      It will be seen that the ultimate effect of the French military decree was
+      to reduce the number of types to about four, each of which was allotted a
+      specific duty. But whereas three different bi-planes are on the approved
+      list there is only one monoplane&mdash;the Morane-Saulaier. This machine,
+      however, has a great turn of speed, and it is also able to climb at a very
+      fast pace. In these respects it is superior to the crack craft of Germany,
+      so that time after time the latter have refused battle in the skies, and
+      have hurried back to their lines.
+    </p>
+    <p>
+      The Morane-Saulnier is the French mosquito craft of the air and like the
+      insect, it is avowedly aggressive. In fact, its duties are confined to the
+      work of chasing and bringing down the enemy, for which work its high
+      manoeuvring capacity is excellently adapted. Its aggressive armament
+      comprises a mitrailleuse. Unfortunately, however, the factory responsible
+      for the production of this machine is at present handicapped by the
+      limitations of its manufacturing plant, which when pushed to the utmost
+      extent cannot turn out more than about ten machines per week. No doubt
+      this deficiency will be remedied as the war proceeds by extension of the
+      works or by allotting orders to other establishments, but at the time of
+      the decree the manufacturing capacity was scarcely sufficient to make good
+      the wastage, which was somewhat heavy.
+    </p>
+    <p>
+      As far as biplanes are concerned the Caudron is the fastest in flight and
+      is likewise extremely quick in manoeuvring. It is a very small machine and
+      is extremely light, but the fact that it can climb at the rate of over 330
+      feet per minute is a distinct advantage in its favour. It supplements the
+      Morane-Saulnier monoplane in the specific duty of the latter, while it is
+      also employed for discovering the enemy's artillery and communicating the
+      range of the latter to the French and British artillery. In this latter
+      work it has played a very prominent part and to it is due in no small
+      measure that deadly accuracy of the artillery of the Allies which has now
+      become so famous. This applies especially to those tactics, where the
+      field artillery dashes up to a position, discharges a number of rounds in
+      rapid succession, or indulges in rafale firing, and then limbering up,
+      rushes away before the enemy can reply.
+    </p>
+    <p>
+      As is well known the Farman biplanes possess high endurance qualities.
+      They can remain aloft for many hours at a stretch and are remarkably
+      reliable. Owing to these qualities they are utilised for prolonged and
+      searching reconnoitring duties such as strategical reconnaissances as
+      distinct from the hurried and tactical reconnaissances carried out by
+      fleeter machines. While they are not so speedy as the monoplanes of the
+      German military establishment, endurance in this instance is preferable to
+      pace. A thorough survey of the enemy's position over the whole of his
+      military zone, which stretches back for a distance of 30 miles or so from
+      the outer line of trenches, is of incalculable value to a commander who is
+      contemplating any decisive movement or who is somewhat in doubt as to the
+      precise character of his antagonist's tactics.
+    </p>
+    <p>
+      The French aerial fleet has been particularly active in its work of
+      raiding hostile positions and submitting them to a fusillade of bombs from
+      the clouds. The machine which is allotted this specific task is the Voisin
+      biplane. This is due to the fact that this machine is able to carry a
+      great weight. It was speedily discovered that in bomb-raids it is
+      essential for an aeroplane to be able to carry a somewhat large supply of
+      missiles, owing to the high percentage of misses which attends these
+      operations. A raid by a machine capable of carrying only, say,
+      half-a-dozen projectiles, is virtually a waste of fuel, and the endurance
+      limitations of the fast machines reacts against their profitable use in
+      this work. On the other hand, the fact that the Voisin machine is able to
+      carry a large supply of bombs renders it an ideal craft for this purpose;
+      hence the official decision to confine it to this work.
+    </p>
+    <p>
+      So far as the British efforts in aerial work are concerned there is no
+      such display of rigid selection as characterises the practice of the
+      French and German military authorities. Britain's position in the air has
+      been extensively due to private enterprise, and this is still being
+      encouraged. Moreover at the beginning of the war Britain was numerically
+      far inferior both to her antagonist and to her ally. Consequently it was a
+      wise move to encourage the private manufacture of machines which had
+      already established their value. The consequence is that a variety of
+      machines figure in the British aerial navy. Private initiative is
+      excellently seconded by the Government manufacturing aeroplane factory,
+      while the training of pilots is likewise being carried out upon a
+      comprehensive scale. British manufacture may be divided into two broad
+      classes&mdash;the production of aeroplanes and of waterplanes
+      respectively. Although there is a diversity of types there is a
+      conspicuous homogeneity for the most part, as was evidenced by the British
+      raid carried out on February 11-12, when a fleet of 34 machines raided the
+      various German military centres established along the coast of Flanders.
+    </p>
+    <p>
+      Considerable secrecy has been displayed by the British Government
+      concerning the types of machines that are being utilised, although ample
+      evidence exists from the producing activity of the various establishments
+      that all available types which have demonstrated their reliability and
+      efficiency are being turned to useful purpose. The Avro and Sopwith
+      warplanes with their very high speeds have proved remarkably successful.
+    </p>
+    <p>
+      So far as manufacturing is concerned the Royal Aerial Factory may be said
+      to constitute the back bone of the British aerial fleet. This factory
+      fulfils various purposes. It is not only engaged in the manufacture of
+      machines, and the development of aeroplanes for specific duties, but also
+      carries out the inspection and testing of machines built by private firms.
+      Every machine is submitted to an exacting test before it is passed into
+      the service.
+    </p>
+    <p>
+      Three broad types of Government machines are manufactured at this
+      establishment. There is that designed essentially for scouting operations,
+      in which speed is the all-important factor and which is of the tractor
+      type. Another is the "Reconnoitring" machine known officially as the
+      "R.E." to-day, but formerly as the "B.E" (Bleriot-Experimental), a
+      considerable number of which are in commission.
+    </p>
+    <p>
+      This machine is also of the tractor type, carrying a pilot and an
+      observer, and has a maximum speed of 40-50 miles per hour. If required it
+      can further be fitted with an automatic gun for defence and attack. The
+      third craft is essentially a fighting machine. Owing to the introduction
+      of the machine-gun which is fixed in the prow, with the marksman
+      immediately behind it, the screw is placed at the rear. The pilot has his
+      seat behind the gunner. The outstanding feature of these machines is the
+      high factor of safety, which attribute has astonished some of the foremost
+      aviation experts in the world.
+    </p>
+    <p>
+      Great Britain lagged behind her Continental rivals in the development of
+      the Fourth Arm, especially in matters pertaining to motive power. For some
+      time reliance was placed upon foreign light highspeed explosion motors,
+      but private enterprise was encouraged, with the result that British Motors
+      comparing favourably in every respect with the best productions upon the
+      Continent are now available. Development is still proceeding, and there is
+      every evidence that in the near future entire reliance will be placed upon
+      the native motor.
+    </p>
+    <p>
+      Undoubtedly, as the war progresses, many valuable lessons will be learned
+      which will exercise an important bearing upon the design and construction
+      of warplanes. The ordeals to which the machines are submitted in military
+      duties are far more severe than any imposed by the conditions of commerce.
+      Accordingly there is every indication that the conflict upon the Continent
+      will represent a distinctive epoch in aeroplane design and construction.
+      Many problems still await solution, such as the capacity to hover over a
+      position, and it is quite possible that these complex and baffling
+      questions will be settled definitely as the result of operations in the
+      field. The aeroplane has reached a certain stage of evolution: further
+      progress is virtually impossible unless something revolutionary is
+      revealed, perfected, and brought to the practical stage.
+    </p>
+    <p>
+      <a name="link2HCH0008" id="link2HCH0008">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER VIII. SCOUTING FROM THE SKIES
+    </h2>
+    <p>
+      From the moment when human flight was lifted from the rut of experiment to
+      the field of practical application, many theories, interesting and
+      illuminating, concerning the utility of the Fourth Arm as a military unit
+      were advanced. The general consensus of expert opinion was that the flying
+      machine would be useful to glean information concerning the movements of
+      an enemy, rather than as a weapon of offence.
+    </p>
+    <p>
+      The war is substantiating this argument very completely. Although
+      bomb-dropping is practised somewhat extensively, the results achieved are
+      rather moral than material in their effects. Here and there startling
+      successes have been recorded especially upon the British side, but these
+      triumphs are outnumbered by the failures in this direction, and merely
+      serve to emphasise the views of the theorists.
+    </p>
+    <p>
+      The argument was also advanced that, in this particular work, the
+      aeroplane would prove more valuable than the dirigible, but actual
+      campaigning has proved conclusively that the dirigible and the
+      heavier-than-air machines have their respective fields of utility in the
+      capacity of scouts. In fact in the very earliest days of the war, the
+      British airships, though small and slow in movement, proved more
+      serviceable for this duty than their dynamic consorts. This result was
+      probably due to the fact that military strategy and tactics were somewhat
+      nonplussed by the appearance of this new factor. At the time it was an
+      entirely unknown quantity. It is true that aircraft had been employed in
+      the Balkan and the Italo-Ottoman campaigns, but upon such a limited scale
+      as to afford no comprehensive idea of their military value and
+      possibilities.
+    </p>
+    <p>
+      The belligerents, therefore, were caught somewhat at a disadvantage, and
+      an appreciable period of time elapsed before the significance of the
+      aerial force could be appreciated, while means of counter acting or
+      nullifying its influences had to be evolved simultaneously, and according
+      to the exigencies of the moment. At all events, the protagonists were
+      somewhat loth to utilise the dirigible upon an elaborate scale or in an
+      aggressive manner. It was employed more after the fashion of a captive
+      balloon, being sent aloft from a point well behind the front lines of the
+      force to which it was attached, and well out of the range of hostile guns.
+      Its manoeuvres were somewhat circumscribed, and were carried out at a safe
+      distance from the enemy, dependence being placed upon the advantages of an
+      elevated position for the gathering of information.
+    </p>
+    <p>
+      But as the campaign progressed, the airships became more daring. Their
+      ability to soar to a great height offered them complete protection against
+      gun-fire, and accordingly sallies over the hostile lines were carried out.
+      But even here a certain hesitancy became manifest. This was perfectly
+      excusable, for the simple reason that the dirigible, above all, is a
+      fair-weather craft, and disasters, which had overtaken these vessels time
+      after time, rendered prudence imperative. Moreover, but little was known
+      of the range and destructiveness of anti-aircraft guns.
+    </p>
+    <p>
+      In the duty of reconnoitring the dirigible possesses one great advantage
+      over its heavier-than-air rival. It can remain virtually stationary in the
+      air, the propellers revolving at just sufficient speed to off-set the wind
+      and tendencies to drift. In other words, it has the power of hovering over
+      a position, thereby enabling the observers to complete their task
+      carefully and with deliberation.
+    </p>
+    <p>
+      On the other hand, the means of enabling an aeroplane to hover still
+      remain to be discovered. It must travel at a certain speed through the air
+      to maintain its dynamic equilibrium, and this speed is often too high to
+      enable the airman to complete his reconnaissance with sufficient accuracy
+      to be of value to the forces below. All that the aeroplane can do is to
+      circle above a certain position until the observer is satisfied with the
+      data he has collected.
+    </p>
+    <p>
+      But hovering on the part of the dirigible is not without conspicuous
+      drawbacks. The work of observation cannot be conducted with any degree of
+      accuracy at an excessive altitude. Experience has proved that the range of
+      the latest types of anti-aircraft weapons is in excess of anticipations.
+      The result is that the airship is useless when hovering beyond the zone of
+      fire. The atmospheric haze, even in the clearest weather, obstructs the
+      observer's vision. The caprices of this obstacle are extraordinary, as
+      anyone who has indulged in ballooning knows fully well. On a clear
+      summer's day I have been able to see the ground beneath with perfect
+      distinctness from a height of 4,500 feet, yet when the craft had ascended
+      a further two or three hundred feet, the panorama was blurred. A film of
+      haze lies between the balloon and the ground beneath. And the character of
+      this haze is continually changing, so that the aerial observer's task is
+      rendered additionally difficult. Its effects are particularly notice able
+      when one attempts to photograph the view unfolded below. Plate after plate
+      may be exposed and nothing will be revealed. Yet at a slightly lower
+      altitude the plates may be exposed and perfectly sharp and well-defined
+      images will be obtained.
+    </p>
+    <p>
+      Seeing that the photographic eye is keener and more searching than the
+      human organ of sight, it is obvious that this haze constitutes a very
+      formidable obstacle. German military observers, who have accompanied the
+      Zeppelins and Parsevals on numerous aerial journeys under varying
+      conditions of weather, have repeatedly drawn attention to this factor and
+      its caprices, and have not hesitated to venture the opinion that it would
+      interfere seriously with military aerial reconnaissances, and also that it
+      would tend to render such work extremely hazardous at times.
+    </p>
+    <p>
+      When these conditions prevail the dirigible must carry out its work upon
+      the broad lines of the aeroplane. It must descend to the level where a
+      clear view of the ground may be obtained, and in the interests of safety
+      it has to keep on the move. To attempt to hover within 4,000 feet of the
+      ground is to court certain disaster, inasmuch as the vessel offers a
+      magnificent and steady target which the average gunner, equipped with the
+      latest sighting devices and the most recent types of guns, scarcely could
+      fail to hit.
+    </p>
+    <p>
+      But the airman in the aeroplane is able to descend to a comparatively low
+      level in safety. The speed and mobility of his machine constitute his
+      protection. He can vary his altitude, perhaps only thirty or forty feet,
+      with ease and rapidity, and this erratic movement is more than sufficient
+      to perplex the marksmen below, although the airman is endangered if a
+      rafale is fired in such a manner as to cover a wide zone.
+    </p>
+    <p>
+      Although the aeroplane may travel rapidly it is not too fleet for a keen
+      observer who is skilled in his peculiar task. He may only gather a rough
+      idea of the disposition of troops, their movements, the lines of
+      communication, and other details which are indispensable to his commander,
+      but in the main the intelligence will be fairly accurate. Undulating
+      flight enables him to determine speedily the altitude at which he is able
+      to obtain the clearest views of the country beneath. Moreover, owing to
+      his speed he is able to complete his task in far less time than his
+      colleague operating in the dirigible, the result being that the
+      information placed at the disposal of his superior officers is more to the
+      moment, and accordingly of greater value.
+    </p>
+    <p>
+      Reconnoitring by aeroplane may be divided into two broad categories,
+      which, though correlated to a certain degree, are distinctive, because
+      each constitutes a specific phase in military operations. They are known
+      respectively as "tactical" and "strategical" movements. The first is
+      somewhat limited in its scope as compared with the latter, and has
+      invariably to be carried out rapidly, whereas the strategical
+      reconnaissance may occupy several hours.
+    </p>
+    <p>
+      The tactical reconnaissance concerns the corps or divisional commander to
+      which the warplane is attached, and consequently its task is confined to
+      the observation of the line immediately facing the particular corps or
+      division. The aviator does not necessarily penetrate beyond the lines of
+      the enemy, but, as a rule limits his flight to some distance from his
+      outermost defences. The airman must possess a quick eye, because his
+      especial duty is to note the disposition of the troops immediately facing
+      him, the placing of the artillery, and any local movements of the forces
+      that may be in progress. Consequently the aviator engaged on this service
+      may be absent from his lines for only a few minutes, comparatively
+      speaking; the intelligence he acquires must be speedily communicated to
+      the force to which he is attached, because it may influence a local
+      movement.
+    </p>
+    <p>
+      The strategical reconnaissance, on the other hand, affects the whole plan
+      of campaign. The aviators told off for this duty are attached to the staff
+      of the Commander-in-Chief, and the work has to be carried out upon a far
+      more comprehensive and elaborate scale, while the airmen are called upon
+      to penetrate well into the hostile territory to a point thirty, forty, or
+      more miles beyond the outposts.
+    </p>
+    <p>
+      The procedure is to instruct the flier either to carry out his
+      observations of the territory generally, or to report at length upon a
+      specified stretch of country. In the latter event he may fly to and fro
+      over the area in question until he has acquired all the data it is
+      possible to collect. His work not only comprises the general disposition
+      of troops, defences, placing of artillery, points where reserves are being
+      held, high-roads, railways, base camps, and so forth, but he is also
+      instructed to bring back as correct an idea as possible of what the enemy
+      proposes to do, so that his Commander-in-Chief may adjust his moves
+      accordingly. In order to perform this task with the requisite degree of
+      thoroughness it is often necessary for the airman to remain in the air for
+      several hours continuously, not returning, in fact, until he has completed
+      the allotted duty.
+    </p>
+    <p>
+      The airman engaged in strategical aerial reconnaissance must possess,
+      above all things, what is known as a "military" eye concerning the country
+      he traverses. He must form tolerably correct estimates of the forces
+      beneath and their character. He must possess the ability to read a map
+      rapidly as he moves through the air and to note upon it all information
+      which is likely to be of service to the General Staff. The ability to
+      prepare military sketches rapidly and intelligibly is a valuable
+      attribute, and skill in aerial photography is a decidedly useful
+      acquisition.
+    </p>
+    <p>
+      Such men must be of considerable stamina, inasmuch as great demands are
+      made upon their powers of endurance. Being aloft for several hours imposes
+      a severe tax upon the nervous system, while it must also be borne in mind
+      that all sorts and conditions of weather are likely to be encountered,
+      more particularly during the winter. Hail, rain, and blizzards may be
+      experienced in turn, while the extreme cold which often prevails in the
+      higher altitudes during the winter season is a fearful enemy to combat.
+      Often an airman upon his return from such a reconnaissance has been
+      discovered to be so numbed and dazed as a result of the prolonged
+      exposure, that considerable time has elapsed before he has been
+      sufficiently restored to set forth the results of his observations in a
+      coherent, intelligible manner for the benefit of the General Staff. Under
+      these circumstances it is not surprising that the most skilful and
+      experienced aviators are generally reserved for this particular work. In
+      addition to the natural accidents to which the strategical aerial observer
+      is exposed, the dangers arising from hostile gun-fire must not be
+      overlooked. He is manoeuvring the whole time over the enemy's firing zone,
+      where anti-aircraft weapons are disposed strategically, and where every
+      effort is made by artillery to bring him down, or compel him to repair to
+      such a height as to render observation with any degree of accuracy
+      well-nigh impossible.
+    </p>
+    <p>
+      The methods practised by the German aerial scout vary widely, and are
+      governed in no small measure by the intrepidity and skill of the airman
+      himself. One practice is to proceed alone upon long flights over the
+      enemy's lines, penetrating just as far into hostile territory as the pilot
+      considers advisable, and keeping, of course, within the limits of the
+      radius of action of the machine, as represented by the fuel supply, the
+      while carefully taking mental stock of all that he observes below. It is a
+      kind of roving commission without any definite aim in view beyond the
+      collection of general intelligence.
+    </p>
+    <p>
+      This work, while productive and valuable to a certain degree, is attended
+      with grave danger, as the German airmen have repeatedly found to their
+      cost. Success is influenced very materially by the accuracy of the
+      airman's judgment. A slight miscalculation of the velocity and direction
+      of the wind, or failure to detect any variations in the climatic
+      conditions, is sufficient to prove his undoing. German airmen who essayed
+      journeys of discovery in this manner, often failed to regain their lines
+      because they ventured too far, misjudged the speed of the wind which was
+      following them on the outward run, and ultimately were forced to earth
+      owing to the exhaustion of the fuel supply during the homeward trip; the
+      increased task imposed upon the motor, which had to battle hard to make
+      headway, caused the fuel consumption per mile to exceed calculations.
+    </p>
+    <p>
+      Then the venturesome airman cannot neglect another factor which is adverse
+      to his success. Hostile airmen lie in wait, and a fleet of aeroplanes is
+      kept ready for instant service. They permit the invader to penetrate well
+      into their territory and then ascend behind him to cut off his retreat.
+      True, the invader has the advantage of being on the wing, while the ether
+      is wide and deep, without any defined channels of communication. But nine
+      times out of ten the adventurous scout is trapped. His chances of escape
+      are slender, because his antagonists dispose themselves strategically in
+      the air. The invader outpaces one, but in so doing comes within range of
+      another. He is so harassed that he either has to give fight, or, finding
+      his retreat hopelessly cut off, he makes a determined dash, trusting to
+      his high speed to carry him to safety. In these driving tactics the French
+      and British airmen have proved themselves adepts, more particularly the
+      latter, as the chase appeals to their sporting instincts. There is nothing
+      so exhilarating as a quarry who displays a determination to run the
+      gauntlet.
+    </p>
+    <p>
+      The roving Teuton scout was considerably in evidence in the early days of
+      the war, but two or three weeks' experience emphasised the sad fact that,
+      in aerial strategy, he was hopelessly outmatched by his opponents. His
+      advantage of speed was nullified by the superior tactical and strategical
+      acumen of his antagonists, the result being that the German airman, who
+      has merely been trained along certain lines, who is in many cases nothing
+      more than a cog-wheel in a machine, and who is proverbially slow-witted,
+      has concluded that he is no match for the airmen of the Allies. He found
+      from bitter experience that nothing afforded the Anglo-French military
+      aviators such keen delight as to lie in wait for a "rover," and then to
+      swoop into the air to round him up.
+    </p>
+    <p>
+      The proportion of these individual scouts who were either brought down, or
+      only just succeeded in reaching safety within their own lines, and who
+      were able to exhibit serious wounds as evidence of the severity of the
+      aerial tussle, or the narrowness of the escape, has unnerved the Teuton
+      airmen as a body to a very considerable extent. Often, even when an
+      aeroplane descended within the German lines, it was found that the roving
+      airman had paid the penalty for his rashness with his life, so that his
+      journey had proved in vain, because all the intelligence he had gained had
+      died with him, or, if committed to paper, was so unintelligible as to
+      prove useless.
+    </p>
+    <p>
+      It was the success of the British airmen in this particular field of duty
+      which was responsible for the momentous declaration in Field-Marshal Sir
+      John French's famous despatch:&mdash;"The British Flying Corps has
+      succeeded in establishing an individual ascendancy, which is as
+      serviceable to us as it is damaging to the enemy.... The enemy have been
+      less enterprising in their flights. Something in the direction of the
+      mastery of the air has already been gained."
+    </p>
+    <p>
+      The methods of the British airmen are in vivid contrast to the practice of
+      the venturesome Teuton aerial rovers described above. While individual
+      flights are undertaken they are not of unknown duration or mileage. The
+      man is given a definite duty to perform and he ascends merely to fulfil
+      it, returning with the information at the earliest possible moment. It is
+      aerial scouting with a method. The intelligence is required and obtained
+      for a specific purpose, to govern a contemplated move in the grim game of
+      war.
+    </p>
+    <p>
+      Even then the flight is often undertaken by two or more airmen for the
+      purpose of checking and counterchecking information gained, or to ensure
+      such data being brought back to headquarters, since it is quite possible
+      that one of the party may fall a victim to hostile fire. By operating upon
+      these lines there is very little likelihood of the mission proving a
+      complete failure. Even when raids upon certain places such as Dusseldorf,
+      Friedrichshafen or Cuxhaven are planned, complete dependence is not placed
+      on one individual. The machine is accompanied, so that the possibility of
+      the appointed task being consummated is transformed almost into a
+      certainty.
+    </p>
+    <p>
+      The French flying men work upon broadly similar lines. Their fleet is
+      divided into small squadrons each numbering four, six, or more machines,
+      according to the nature of the contemplated task. Each airman is given an
+      area of territory which is to be reconnoitred thoroughly. In this way
+      perhaps one hundred or more miles of the enemy's front are searched for
+      information at one and the same time. The units of the squadron start out,
+      each taking the appointed direction according to the preconceived plan,
+      and each steering by the aid of compass and map. They are urged to
+      complete the work with all speed and to return to a secret rendezvous.
+    </p>
+    <p>
+      Later the air is alive with the whirring of motors. The machines are
+      coming back and all converging to one point. They vol-plane to the earth
+      and gracefully settle down within a short distance of each other at the
+      rendezvous. The pilots collect and each relates the intelligence he has
+      gained. The data are collated and in this manner the General Staff is able
+      to learn exactly what is transpiring over a long stretch of the hostile
+      lines, and a considerable distance to the rear of his advance works.
+      Possibly five hundred square miles have been reconnoitred in this manner.
+      Troops have been massed here, lines of communication extend somewhere
+      else, while convoys are moving at a third place. But all has been
+      observed, and the commanding officer is in a position to re-arrange his
+      forces accordingly. It is a remarkable example of method in military
+      tactics and strategy, and conveys a striking idea of the degree to which
+      aerial operations have been organised.
+    </p>
+    <p>
+      After due deliberation it is decided that the convoys shall be raided, or
+      that massed troops shall be thrown into confusion, if not dispersed. The
+      squadron is ordered to prepare for another aerial journey. The roads along
+      which the convoys are moving are indicated upon the map, or the position
+      of the massed troops in bivouac is similarly shown. The airmen load their
+      machines with a full charge of bombs. When all is ready the leader
+      ascends, followed in rapid succession by the other units, and they whirr
+      through the air in single file. It now becomes a grim game of
+      follow-my-leader.
+    </p>
+    <p>
+      The leader detects the convoy, swoops down, suddenly launches his
+      missiles, and re-ascends. He does not deviate a foot from his path to
+      observe the effects of his discharge, as the succeeding aeroplane is close
+      behind him. If the leader has missed then the next airman may correct his
+      error. One after another the machines repeat the manoeuvre, in precisely
+      the same manner as the units of a battleship squadron emulate the leading
+      vessel when attacking the foe. The tactical evolutions have been laid
+      down, and there is rigid adherence thereto, because only thereby may
+      success be achieved. When the last war-plane has completed its work, the
+      leader swings round and repeats the dash upon the foe. A hail of bullets
+      may scream around the men in the air, but one and all follow faithfully in
+      the leader's trail. One or more machines may fail in the attack, and may
+      even meet with disaster, but nothing interferes with the movements of the
+      squadron as a whole. It is the homogeneity of the attacking fleet which
+      tells, and which undermines the moral of the enemy, even if it does not
+      wreak decisive material devastation. The work accomplished to the best of
+      their ability, the airmen speed back to their lines in the same formation.
+    </p>
+    <p>
+      At first sight reconnoitring from aloft may appear a simple operation, but
+      a little reflection will reveal the difficulties and arduousness of the
+      work. The observer, whether he be specially deputed, or whether the work
+      be placed in the hand of the pilot himself&mdash;in this event the
+      operation is rendered additionally trying, as he also has to attend to his
+      machine must keep his eyes glued to the ground beneath and at the same
+      time be able to read the configuration of the panorama revealed to him. He
+      must also keep in touch with his map and compass, so as to be positive of
+      his position and direction. He must be a first-class judge of distances
+      and heights.
+    </p>
+    <p>
+      When flying rapidly at a height of 4,000 feet or more, the country below
+      appears as a perfect plane, or flat stretch, although as a matter of fact
+      it may be extremely undulating. Consequently, it is by no means a simple
+      matter to distinguish eminences and depressions, or to determine the
+      respective and relative heights of hills.
+    </p>
+    <p>
+      If a rough sketch is required, the observer must be rapid in thought,
+      quick in determination, and facile with his pencil, as the machine, no
+      matter how it may be slowed down, is moving at a relatively high speed. He
+      must consult his map and compass frequently, since an airman who loses his
+      bearings is useless to his commander-in-chief. He must have an eagle eye,
+      so as to be able to search the country unfolded below, in order to gather
+      all the information which is likely to be of value to his superior
+      officers. He must be able to judge accurately the numbers of troops
+      arrayed beneath him, the lines of the defensive works, to distinguish the
+      defended from the dummy lines which are thrown up to baffle him, and to
+      detect instantly the movement of the troops and the direction, as well as
+      the roads, along which they are proceeding. Reserves and their complement,
+      artillery, railway-lines, roads, and bridges, if any, over streams and
+      railways must be noted&mdash;in short he must obtain an eye photograph of
+      the country he observes and grasp exactly what is happening there. In
+      winter, with the thermometer well down, a blood-freezing wind blowing,
+      wreaths of clouds drifting below and obscuring vision for minutes at a
+      time, the rain possibly pelting down as if presaging a second deluge, the
+      plight of the vigilant human eye aloft is far from enviable.
+    </p>
+    <p>
+      Upon the return of the machine to its base, the report must be prepared
+      without delay. The picture recorded by the eye has to be set down clearly
+      and intelligibly with the utmost speed. The requisite indications must be
+      made accurately upon the map. Nothing of importance must be omitted: the
+      most trivial detail is often of vital importance.
+    </p>
+    <p>
+      A facile pencil is of inestimable value in such operations. While aloft
+      the observer does not trust to his memory or his eye picture, but commits
+      the essential factors to paper in the form of a code, or what may perhaps
+      be described more accurately as a shorthand pictorial interpretation of
+      the things he has witnessed. To the man in the street such a record would
+      be unintelligible, but it is pregnant with meaning, and when worked out
+      for the guidance of the superior officers is a mass of invaluable detail.
+    </p>
+    <p>
+      At times it so happens that the airman has not been able to complete his
+      duty within the time anticipated by those below. But he has gathered
+      certain information which he wishes to communicate without coming to
+      earth. Such data may be dropped from the clouds in the form of maps or
+      messages. Although wireless telegraphy is available for this purpose, it
+      suffers from certain drawbacks. If the enemy possesses an equipment which
+      is within range of that of the air-craft and the force to which it
+      belongs, communications may be nullified by the enemy throwing out a
+      continuous stream of useless signals which "jamb" the intelligence of
+      their opponents.
+    </p>
+    <p>
+      If a message&mdash;written in code&mdash;or a map is to be dropped from
+      aloft it is enclosed within a special metallic cylinder, fitted with a
+      vane tail to ensure direction of flight when launched, and with a
+      detonating head. This is dropped overboard. When it strikes the ground the
+      detonator fires a charge which emits a report without damaging the message
+      container, and at the same time fires a combustible charge emitting
+      considerable smoke. The noise attracts anyone in the vicinity of the spot
+      where the message has fallen, while at the same time the clouds of smoke
+      guide one to the point and enable the cylinder to be recovered. This
+      device is extensively used by the German aviators, and has proved highly
+      serviceable; a similar contrivance is adopted by French airmen.
+    </p>
+    <p>
+      There is one phase of aerial activity which remains to be demonstrated.
+      This is the utilisation of aerial craft by the defenders of a besieged
+      position such as a ring of fortifications or fortified city. The utility
+      of the Fourth Arm in this province has been the subject of considerable
+      speculation. Expert opinion maintains that the advantage in this
+      particular connection would rest with the besiegers. The latter would be
+      able to ascertain the character of the defences and the defending
+      gun-force, by means of the aerial scout, who would prove of inestimable
+      value in directing the fire of the besieging forces.
+    </p>
+    <p>
+      On the other hand it is maintained that an aerial fleet would be useless
+      to the beleaguered. In the first place the latter would experience grave
+      difficulties in ascertaining the positions of the attacking and
+      fortress-reducing artillery, inasmuch as this could be masked effectively,
+      and it is thought that the aerial force of the besieged would be speedily
+      reduced to impotence, since it would be subjected to an effective
+      concentrated fire from the ring of besieging anti-aircraft guns and other
+      weapons. In other words, the theory prevails that an aerial fleet, no
+      matter how efficient, would be rendered ineffective for the simple reason
+      that it would be the initial object of the besieger's attack. Possibly the
+      stem test of experience will reveal the fallacy of these contentions as
+      emphatically as it has disproved others. But there is one point upon which
+      authorities are unanimous. If the artillery of the investing forces is
+      exposed and readily distinguishable, the aerial forces of the beleaguered
+      will bring about its speedy annihilation, as the defensive artillery will
+      be concentrated upon that of the besiegers.
+    </p>
+    <p>
+      <a name="link2HCH0009" id="link2HCH0009">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER IX. THE AIRMAN AND ARTILLERY
+    </h2>
+    <p>
+      There is one field in which the airman has achieved distinctive triumphs.
+      This is in the guidance of artillery fire. The modern battle depends first
+      and foremost upon the fierce effectiveness of big-gun assault, but to
+      ensure this reliable direction is imperative. No force has proved so
+      invaluable for this purpose as the man of-the-air, and consequently this
+      is the province in which he has been exceptionally and successfully
+      active.
+    </p>
+    <p>
+      It will be recalled that in the Japanese investiture of Port Arthur during
+      the Russo-Japanese war, thousands of lives were expended upon the
+      retention and assault of 203 Metre Hill. It was the most blood-stained
+      spot upon the whole of the Eastern Asiatic battlefield. General Nogi threw
+      thousands after thousands of his warriors against this rampart while the
+      Russians defended it no less resolutely. It was captured and re-captured;
+      in fact, the fighting round this eminence was so intense that it appeared
+      to the outsider to be more important to both sides than even Port Arthur
+      itself.
+    </p>
+    <p>
+      Yet if General Nogi had been in the possession of a single aeroplane or
+      dirigible it is safe to assert that scarcely one hundred Japanese or
+      Russian soldiers would have met their fate upon this hill. Its value to
+      the Japanese lay in one sole factor. The Japanese heavy guns shelling the
+      harbour and the fleet it contained were posted upon the further side of
+      this eminence and the fire of these weapons was more or less haphazard. No
+      means of directing the artillery upon the vital points were available; 203
+      Metre Hill interrupted the line of sight. The Japanese thereupon resolved
+      to capture the hill, while the Russians, equally appreciative of the
+      obstruction it offered to their enemy, as valiantly strove to hold it.
+      Once the hill was captured and the fire of the Japanese guns could be
+      directed, the fate of the fortress was sealed.
+    </p>
+    <p>
+      Similar conditions have prevailed during the present campaign, especially
+      in the western theatre of war, where the ruggedness of the country has
+      tended to render artillery fire ineffective and expensive unless
+      efficiently controlled. When the German Army attacked the line of the
+      British forces so vehemently and compelled the retreat at Mons, the
+      devastating fire of the enemy's artillery was directed almost exclusively
+      by their airmen, who hovered over the British lines, indicating exactly
+      the point where gun-fire could work the maximum of havoc. The instant
+      concentration of massed artillery fire upon the indicated positions
+      speedily rendered one position after another untenable.
+    </p>
+    <p>
+      The Germans maintained the upper hand until at last the aerial forces of
+      the British Expeditionary Army came into action. These airmen attacked the
+      Teuton aerial craft without the slightest hesitation, and in a short while
+      rendered cloudland absolutely unhealthy. The sequel was interesting. As if
+      suddenly blinded, the German artillery fire immediately deteriorated. On
+      the other hand, the British artillery, now having the benefit of aerial
+      guidance, was able to repay the German onslaughts with interest, and
+      speedily compelled that elaborate digging-in of the infantry lines which
+      has now become so characteristic of the opposing forces.
+    </p>
+    <p>
+      So far as the British lines are concerned the men in the trenches keep a
+      sharp look-out for hostile aeroplanes. The moment one is observed to be
+      advancing, all the men seclude themselves and maintain their concealment.
+      To do otherwise is to court a raking artillery outburst. The German
+      aeroplane, detecting the tendency of the trenches describes in the air the
+      location of the vulnerable spot and the precise disposition by flying
+      immediately above the line. Twice the manoeuvre is repeated, the second
+      movement evidently being in the character of a check upon the first
+      observation, and in accordance with instructions, whereupon the Tommies,
+      to quote their own words, "know they are in for it!" Ere the aeroplane has
+      completed the second manoeuvre the German guns ring out.
+    </p>
+    <p>
+      The facility with which artillery fire can be concentrated through the
+      medium of the aeroplane is amazing. In one instance, according to the
+      story related to me by an officer, "a number of our men were resting in an
+      open field immediately behind the second line of trenches, being in fact
+      the reserves intended for the relief of the front lines during the
+      following night. An aeroplane hove in sight. The men dropped their kits
+      and got under cover in an adjacent wood. The aeroplane was flying at a
+      great height and evidently laboured under the impression that the kits
+      were men. Twice it flew over the field in the usual manner, and then the
+      storm of shrapnel, 'Jack Johnsons' and other tokens from the Kaiser rained
+      upon the confined space. A round four hundred shells were dropped into
+      that field in the short period of ten minutes, and the range was so
+      accurate that no single shell fell outside the space. Had the men not
+      hurried to cover not one would have been left alive to tell the tale,
+      because every square foot of the land was searched through and through. We
+      laughed at the short-sightedness of the airman who had contributed to such
+      a waste of valuable shot and shell, but at the same time appreciated the
+      narrowness of our own escape."
+    </p>
+    <p>
+      The above instance is by no means isolated. It has happened time after
+      time. The slightest sign of activity in a trench when a "Taube" is
+      overhead suffices to cause the trench to be blown to fragments, and time
+      after time the British soldiers have had to lie prone in their trenches
+      and suffer partial burial as an alternative to being riddled by shrapnel.
+    </p>
+    <p>
+      The method of ascertaining the range of the target from the indications
+      given by the aeroplane are of the simplest character. The German method is
+      for the aerial craft to fly over the position, and when in vertical line
+      therewith to discharge a handful of tinsel, which, in falling, glitters in
+      the sunlight, or to launch a smoking missile which answers the same
+      purpose as a projectile provided with a tracer. This smoke-ball being
+      dropped over the position leaves a trail of black or whitish smoke
+      according to the climatic conditions which prevail, the object being to
+      enable the signal to be picked up with the greatest facility. The height
+      at which the aerial craft is flying being known, a little triangulation
+      upon the part of the observer at the firing point enables him to calculate
+      the range and to have the guns laid accordingly.
+    </p>
+    <p>
+      When the aerial craft has been entrusted with the especial duty of
+      directing artillery-fire, a system of communication between the aerial
+      observer and the officer in charge of the artillery is established,
+      conducted, of course, by code. In the British Army, signalling is both
+      visual and audible. In daylight visual signalling is carried out by means
+      of coloured flags or streamers and smoke-signals, while audible
+      communication is effected by means of a powerful horn working upon the
+      siren principle and similar to those used by automobiles. Both flags and
+      sound-signals, however, are restricted owing to the comparatively short
+      distances over which they can be read with any degree of accuracy. The
+      smoke-signal therefore appears to be the most satisfactory and reliable,
+      as the German airmen have proved conclusively, for the simple reason that
+      the trail of smoke may be picked up with comparative ease, even at a
+      distance, by means of field glasses. The tinsel too, is readily
+      distinguishable, particularly in bright weather, for the glittering
+      surface, catching the sun-light, acts some what in the manner of a
+      heliograph.
+    </p>
+    <p>
+      The progress of the airman is followed by two officers at the base from
+      which he started. One is equipped with the director, while the second
+      takes the range. Directly this has been found as a result of calculation,
+      the guns are laid ready for firing. In those cases where the enemy's
+      artillery is concealed perhaps behind a hill, the airman is of
+      incalculable value, inasmuch as he is able to reveal a position which
+      otherwise would have to be found by considerable haphazard firing, and
+      which, even if followed by a captive balloon anchored above the firing
+      point, might resist correction.
+    </p>
+    <p>
+      The accuracy of the airman's work in communicating the range has been
+      responsible for the high efficiency of the British and French artillery.
+      The latter, with the 75 millimetre quick-firing gun, is particularly
+      adapted to following up the results of the aeroplane's reconnaissance,
+      especially with the system of rafale fire, because the whole position can
+      be searched through and through within a minute or two. According to
+      information which has been given to me by our artillery officers, the
+      British system also has proved disastrous to the enemy. The practice is to
+      get the range as communicated by the aeroplane, to bring the artillery
+      into position speedily, to discharge salvo after salvo with all speed for
+      a few minutes, and then to wheel the artillery away before any hostile
+      fire can be returned. The celerity with which the British artillery comes
+      into, and goes out of, action has astonished even our own authorities.
+      This mobility is of unique value: it is taking advantage of a somewhat
+      slow-witted enemy with interest. By the time the Germans have opened fire
+      upon the point whence the British guns were discharged, the latter have
+      disappeared and are ready to let fly from another point, some distance
+      away, so that the hostile fire is abortive. Mobility of such a character
+      is decidedly unnerving and baffling even to a quick-witted opponent.
+    </p>
+    <p>
+      In his search for hostile artillery the airman runs grave risks and
+      displays remarkable resource. It is invariably decided, before he sets
+      out, that he shall always return to a certain altitude to communicate
+      signals. Time after time the guns of the enemy have been concealed so
+      cunningly from aerial observation as to pass unnoticed. This trait became
+      more pronounced as the campaigns of the Aisne progressed. Accordingly the
+      airman adopts a daring procedure. He swoops down over suspicious places,
+      where he thinks guns may be lurking, hoping that the enemy will betray its
+      presence. The ruse is invariably successful. The airman makes a sudden
+      dive towards the earth. The soldiers in hiding below, who have become
+      somewhat demoralised by the accuracy of the British aerial bomb-throwers,
+      have an attack of nerves. They open a spirited fusillade in the hope of
+      bringing the airman to earth. But their very excitement contributes to his
+      safety. The shots are fired without careful aim and expend themselves
+      harmlessly. Sweeping once more upwards, the airman regains the
+      pre-determined level, performs a certain evolution in the air which warns
+      the observer at his base that he has made a discovery, and promptly drops
+      his guiding signal directly over the point from which he has drawn fire.
+    </p>
+    <p>
+      Operations at night are conducted by means of coloured lights or an
+      electrical searchlight system. In the former instance three lights are
+      generally carried&mdash;white, red, and green&mdash;each of which has a
+      distinctive meaning. If reliance is placed upon the electric light
+      signalling lamp, then communications are in code. But night operations are
+      somewhat difficult and extremely dangerous, except when the elements are
+      propitious. There is the ground mist which blots everything from sight,
+      rendering reconnaissance purely speculative. But on a clear night the
+      airman is more likely to prove successful. He keeps a vigilant eye upon
+      all ground-lights and by close observation is able to determine their
+      significance. It is for this reason that no lights of any description are
+      permitted in the advance trenches. The striking of a match may easily
+      betray a position to the alert eye above.
+    </p>
+    <p>
+      So far as the British Army is concerned a complete code is in operation
+      for communicating between aeroplanes and the ground at night. Very's
+      lights are used for this purpose, it being possible to distinguish the
+      respective colours at a distance of six miles and from an altitude of
+      2,000 feet. The lights are used both by the aeroplane and the battery of
+      artillery.
+    </p>
+    <p>
+      The code is varied frequently, but the following conveys a rough idea of
+      how communication is carried out by this means under cover of darkness.
+      The aeroplane has located its objective and has returned to the
+      pre-arranged altitude. A red light is thrown by the airman. It indicates
+      that he is directly over the enemy's position. A similarly coloured light
+      is shown by the artillery officer, which intimates to the airman that his
+      signal has been observed and that the range has been taken.
+    </p>
+    <p>
+      In observing the effects of artillery fire a code of signals is employed
+      between the airman and the artillery officer to indicate whether the shot
+      is "long" or "short," to the right or to the left of the mark, while
+      others intimate whether the fuse is correctly timed or otherwise. It is
+      necessary to change the code fairly frequently, not only lest it should
+      fall into the enemy's hands, but also to baffle the hostile forces;
+      otherwise, after a little experience, the latter would be able to divine
+      the significance of the signals, and, in anticipation of being greeted
+      with a warm fusillade, would complete hurried arrangements to mitigate its
+      effects, if not to vacate the position until the bombardment had ceased.
+    </p>
+    <p>
+      Sufficient experience has already been gathered, however, to prove the
+      salient fact that the airman is destined to play an important part in the
+      direction and control of artillery-fire. Already he has been responsible
+      for a re-arrangement of strategy and tactics. The man aloft holds such a
+      superior position as to defy subjugation; the alternative is to render his
+      work more difficult, if not absolutely impossible.
+    </p>
+    <p>
+      <a name="link2HCH0010" id="link2HCH0010">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER X. BOMB-THROWING FROM AIR-CRAFT
+    </h2>
+    <p>
+      During the piping times of peace the utility of aircraft as weapons of
+      offence was discussed freely in an academic manner. It was urged that the
+      usefulness of such vessels in this particular field would be restricted to
+      bomb-throwing. So far these contentions have been substantiated during the
+      present campaign. At the same time it was averred that even as a
+      bomb-thrower the ship of the air would prove an uncertain quantity, and
+      that the results achieved would be quite contrary to expectations. Here
+      again theory has been supported by practice, inasmuch as the damage
+      wrought by bombs has been comparatively insignificant.
+    </p>
+    <p>
+      The Zeppelin raids upon Antwerp and Britain were a fiasco in the military
+      sense. The damage inflicted by the bombs was not at all in proportion to
+      the quantity of explosive used. True, in the case of Antwerp, it
+      demoralised the civilian population somewhat effectively, which perhaps
+      was the desired end, but the military results were nil.
+    </p>
+    <p>
+      The Zeppelin, and indeed all dirigibles of large size, have one advantage
+      over aeroplanes. They are able to throw bombs of larger size and charged
+      with greater quantities of high explosive and shrapnel than those which
+      can be hurled from heavier-than-air machines. Thus it has been stated that
+      the largest Zeppelins can drop single charges exceeding one ton in weight,
+      but such a statement is not to be credited.
+    </p>
+    <p>
+      The shell generally used by the Zeppelin measures about 47 inches in
+      length by 8 1/2 inches in diameter, and varies in weight from 200 to 242
+      pounds. Where destruction pure and simple is desired, the shell is charged
+      with a high explosive such as picric acid or T.N.T., the colloquial
+      abbreviation for the devastating agent scientifically known as
+      "Trinitrotoluene," the base of which, in common with all the high
+      explosives used by the different powers and variously known as lyddite,
+      melinite, cheddite, and so forth, is picric acid. Such a bomb, if it
+      strikes the objective, a building, for instance, fairly and squarely, may
+      inflict widespread material damage.
+    </p>
+    <p>
+      On the other hand, where it is desired to scatter death, as well as
+      destruction, far and wide, an elaborate form of shrapnel shell is
+      utilised. The shell in addition to a bursting charge, contains bullets,
+      pieces of iron, and other metallic fragments. When the shell bursts, their
+      contents, together with the pieces of the shell which is likewise broken
+      up by the explosion, are hurled in all directions over a radius of some 50
+      yards or more, according to the bursting charge.
+    </p>
+    <p>
+      These shells are fired upon impact, a detonator exploding the main charge.
+      The detonator, comprising fulminate of mercury, is placed in the head or
+      tail of the missile. To secure perfect detonation and to distribute the
+      death-dealing contents evenly in all directions, it is essential that the
+      bomb should strike the ground almost at right angles: otherwise the
+      contents are hurled irregularly and perhaps in one direction only. One
+      great objection to the percussion system, as the method of impact
+      detonation is called, is that the damage may be localised. A bomb launched
+      from a height of say 1,000 feet attains terrific velocity, due to the
+      force of gravity in conjunction with its own weight, in consonance with
+      the law concerning a falling body, by the time it reaches the ground. It
+      buries itself to a certain depth before bursting so that the forces of the
+      explosion become somewhat muffled as it were. A huge deep hole&mdash;a
+      miniature volcano crater&mdash;is formed, while all the glass in the
+      immediate vicinity of the explosion may be shattered by the concussion,
+      and the walls of adjacent buildings be bespattered with shrapnel.
+    </p>
+    <p>
+      Although it is stated that an airship is able to drop a single missile
+      weighing one ton in weight, there has been no attempt to prove the
+      contention by practice. In all probability the heaviest shell launched
+      from a Zeppelin has not exceeded 300 pounds. There is one cogent reason
+      for such a belief. A bomb weighing one ton is equivalent to a similar
+      weight of ballast. If this were discarded suddenly the equilibrium of the
+      dirigible would be seriously disturbed&mdash;it would exert a tendency to
+      fly upwards at a rapid speed. It is doubtful whether the planes
+      controlling movement in the vertical plane would ever be able to
+      counteract this enormous vertical thrust. Something would have to submit
+      to the strain. Even if the dirigible displaced say 20 tons, and a bomb
+      weighing one ton were discharged, the weight of the balloon would be
+      decreased suddenly by approximately five per cent, so that it would shoot
+      upwards at an alarming speed, and some seconds would elapse before control
+      was regained.
+    </p>
+    <p>
+      The method of launching bombs from airships varies considerably. Some are
+      released from a cradle, being tilted into position ready for firing, while
+      others are discharged from a tube somewhat reminiscent of that used for
+      firing torpedoes, with the exception that little or no initial impetus is
+      imparted to the missile; the velocity it attains is essentially
+      gravitational.
+    </p>
+    <p>
+      The French favour the tube-launching method since thereby it is stated to
+      be possible to take more accurate aim. The objective is sighted and the
+      bomb launched at the critical moment. In some instances the French employ
+      an automatic detonator which corresponds in a certain measure to the
+      time-fuse of a shrapnel shell fired from a gun.
+    </p>
+    <p>
+      The bomb-thrower reads the altitude of his airship as indicated by his
+      barometer or other recording instrument, and by means of a table at his
+      command ascertains in a moment the time which will elapse before the bomb
+      strikes the ground. The automatic detonator is set in motion and the bomb
+      released to explode approximately at the height to which it is set. When
+      it bursts the full force of the explosion is distributed downwards and
+      laterally. Owing to the difficulty of ensuring the explosion of the bomb
+      at the exact height desired, it is also made to explode upon impact so as
+      to make doubly sure of its efficacy.
+    </p>
+    <p>
+      Firing timed bombs from aloft, however, is not free from excitement and
+      danger, as the experience of a French airman demonstrates. His dirigible
+      had been commanded to make a night-raid upon a railway station which was a
+      strategical junction for the movement of the enemy's troops. Although the
+      hostile searchlights were active, the airship contrived to slip between
+      the spokes of light without being observed. By descending to a
+      comparatively low altitude the pilot was able to pick up the objective.
+    </p>
+    <p>
+      Three projectiles were discharged in rapid succession and then the
+      searchlights, being concentrated, struck the airship, revealing its
+      presence to the troops below. Instantly a spirited fusillade broke out.
+      The airmen, by throwing ballast and other portable articles overboard
+      pell-mell, rose rapidly, pursued by the hostile shells.
+    </p>
+    <p>
+      In the upward travel the bomb-thrower decided to have a parting shot. The
+      airship was steadied momentarily to enable the range to be taken, the
+      automatic detonator was set going and the bomb slipped into the launching
+      tube. But for some reason or other the missile jambed.
+    </p>
+    <p>
+      The situation was desperate. In a few seconds the bomb would burst and
+      shatter the airship. The bomb-thrower grabbed a tool and climbing into the
+      rigging below hacked away at the bomb-throwing tube until the whole
+      equipment was cut adrift and fell clear of the vessel. Almost instantly
+      there was a terrific explosion in mid-air. The blast of air caused the
+      vessel to roll and pitch in a disconcerting manner, but as the airman
+      permitted the craft to continue its upward course unchecked, she soon
+      steadied herself and was brought under control once more.
+    </p>
+    <p>
+      The bomb carried by aeroplanes differs consider ably from that used by
+      dirigibles, is smaller and more convenient to handle, though considering
+      its weight and size it is remarkably destructive. In this instance
+      complete reliance is placed upon detonation by impact. The latest types of
+      British war-plane bombs have been made particularly formidable, those
+      employed in the "raids in force" ranging up to 95 pounds in weight.
+    </p>
+    <p>
+      The type of bomb which has proved to be the most successful is
+      pear-shaped. The tail spindle is given an arrow-head shape, the vanes
+      being utilised to steady the downward flight of the missile. In falling
+      the bomb spins round, the rotating speed increasing as the projectile
+      gathers velocity. The vanes act as a guide, keeping the projectile in as
+      vertical a plane as possible, and ensuring that the rounded head shall
+      strike the ground. The earlier types of bombs were not fitted with these
+      vanes, the result being that sometimes they turned over and over as they
+      fell through the air, while more often than not they failed to explode
+      upon striking the ground.
+    </p>
+    <p>
+      The method of launching the bomb also varies considerably, experience not
+      having indicated the most efficient method of consummating this end. In
+      some cases the bombs are carried in a cradle placed beneath the aeroplane
+      and launched merely by tilting them in a kind of sling, one by one, to
+      enable them to drop to the ground, this action being controlled by means
+      of a lever. In another instance they are dropped over the side of the car
+      by the pilot, the tail of the bomb being fitted with a swivel and ring to
+      facilitate the operation. Some of the French aviators favour a still
+      simpler method. The bomb is attached to a thread and lowered over the
+      side. At the critical moment it is released simply by severing the thread.
+      Such aeroplane bombs, however, constitute a menace to the machine and to
+      the pilot. Should the bomb be struck by hostile rifle or shell fire while
+      the machine is aloft, an explosion is probable; while should the aero
+      plane make an abrupt descent the missiles are likely to be detonated.
+    </p>
+    <p>
+      A bomb which circumvents this menace and which in fact will explode only
+      when it strikes the ground is that devised by Mr. Marten-Hale. This
+      projectile follows the usual pear-shape, and has a rotating tail to
+      preserve direction when in flight. The detonator is held away from the
+      main charge by a collar and ball-bearing which are held in place by the
+      projecting end of a screw-releasing spindle. When the bomb is dropped the
+      rotating tail causes the spindle to screw upwards until the projection
+      moves away from the steel balls, thereby allowing them to fall inward when
+      the collar and the detonator are released. In order to bring about this
+      action the bomb must have a fall of at least 200 feet.
+    </p>
+    <p>
+      When the bomb strikes the ground the detonator falls down on the charge,
+      fires the latter, and thus brings about the bursting of the bomb. The
+      projectile is of the shrapnel type. It weighs 20 pounds complete, is
+      charged with some four pounds of T.N.T., and carries 340 steel balls,
+      which represent a weight of 5 3/4 pounds.
+    </p>
+    <p>
+      The firing mechanism is extremely sensitive and the bomb will burst upon
+      impact with the hull of an airship, water, or soft soil. This projectile,
+      when discharged, speedily assumes the vertical position, so that there is
+      every probability that it will strike the ground fairly and squarely,
+      although at the same time such an impact is not imperative, because it
+      will explode even if the angle of incidence be only 5 degrees. It is
+      remarkably steady in its flight, the balancing and the design of the tail
+      frustrating completely any tendency to wobble or to turn turtle while
+      falling.
+    </p>
+    <p>
+      Other types of missile may be used. For instance, incendiary bombs have
+      been thrown with success in certain instances. These bombs are similar in
+      shape to the shrapnel projectile, but are charged with petrol or some
+      other equally highly inflammable mixture, and fitted with a detonator.
+      When they strike the objective the bursting charge breaks up the shell,
+      releasing the contents, and simultaneously ignites the combustible.
+    </p>
+    <p>
+      Another shell is the smoke-bomb, which, up to the present, has been used
+      only upon a restricted scale. This missile is charged with a certain
+      quantity of explosive to burst the shell, and a substance which, when
+      ignited, emits copious clouds of dense smoke. The scope of such a shell is
+      somewhat restricted, it is used only for the purpose of obstructing
+      hostile artillery fire. The shells are dropped in front of the artillery
+      position and the clouds of smoke which are emitted naturally inter fere
+      with the operations of the gunners. These bombs have also been used with
+      advantage to denote the position of concealed hostile artillery, although
+      their utility in this connection is somewhat uncertain, owing to the
+      difficulty of dropping the bomb so accurately as to enable the
+      range-finders to pick up the range.
+    </p>
+    <p>
+      Dropping bombs from aloft appears to be a very simple operation, but as a
+      matter of fact it is an extremely difficult matter to strike the target,
+      especially from a high altitude. So far as the aeroplane is concerned it
+      is somewhat at a disadvantage as compared with the airship, as the latter
+      is able to hover over a position, and, if a spring-gun is employed to
+      impart an initial velocity to the missile, there is a greater probability
+      of the projectile striking the target provided it has been well-aimed. But
+      even then other conditions are likely to arise, such as air-currents,
+      which may swing the missile to one side of the objective. Consequently
+      adequate allowance has to be made for windage, which is a very difficult
+      factor to calculate from aloft.
+    </p>
+    <p>
+      Bomb-dropping from an aeroplane is even more difficult. If for instance
+      the aeroplane is speeding along at 60 miles an hour, the bomb when
+      released will have a speed in the horizontal plane of 60 miles an hour,
+      because momentarily it is travelling at the speed of the aeroplane.
+      Consequently the shell will describe a curved trajectory, somewhat similar
+      to that shown in Fig. 7.
+    </p>
+    <p>
+      On the other hand, if the aeroplane is travelling slowly, say at 20 miles
+      an hour, the curve of the trajectory will be flatter, and if a head wind
+      be prevailing it may even be swept backwards somewhat after it has lost
+      its forward momentum, and describe a trajectory similar to that in Fig. 8.
+    </p>
+    <p>
+      A bomb released from an altitude of 1000 feet seldom, if ever, makes a
+      bee-line for the earth, even if dropped from a stationary airship.
+      Accordingly, the airman has to release the bomb before he reaches the
+      target below. The determination of the critical moment for the release is
+      not easy, inasmuch as the airman has to take into his calculations the
+      speed of his machine, his altitude, and the direction and velocity of the
+      air-currents.
+    </p>
+    <p>
+      The difficulty of aiming has been demonstrated upon several occasions at
+      aviation meetings and other similar gatherings. Monsieur Michelin, who has
+      done so much for aviation in France, offered a prize of L1,00&mdash;$5,000&mdash;in
+      1912 for bomb-dropping from an aeroplane. The target was a rectangular
+      space marked out upon the ground, measuring 170 feet long by 40 feet
+      broad, and the missiles had to be dropped from a height of 2,400 feet. The
+      prize was won by the well-known American airman, Lieutenant Riley E.
+      Scott, formerly of the United States Army. He dropped his bombs in groups
+      of three. The first round fell clear of the target, but eight of the
+      remaining missiles fell within the area.
+    </p>
+    <p>
+      In the German competition which was held at Gotha in September of the same
+      year the results were somewhat disappointing. Two targets were provided.
+      The one represented a military bivouac occupying a superficies of 330
+      square feet, and the other a captive balloon resembling a Zeppelin. The
+      prizes offered were L500, L200, and L80&mdash;$2,500, $1,000 and $400&mdash;respectively,
+      and were awarded to those who made the greatest number of hits. The
+      conditions were by no means so onerous as those imposed in the Michelin
+      contest, inasmuch as the altitude limit was set at 660 feet, while no
+      machine was to descend within 165 feet. The first competitor completely
+      failed to hit the balloon. The second competitor flying at 800 feet landed
+      seven bombs within the square, but only one other competitor succeeded in
+      placing one bomb within the space.
+    </p>
+    <p>
+      Bomb-dropping under the above conditions, however, is vastly dissimilar
+      from such work under the grim realities of war. The airman has to act
+      quickly, take his enemy by surprise, avail himself of any protective
+      covering which may exist, and incur great risks. The opposing forces are
+      overwhelmingly against him. The modern rifle, if fired vertically into the
+      air, will hurl the bullet to a height of about 5,000 feet, while the
+      weapons which have been designed to combat aircraft have a range of 10,000
+      feet or more.
+    </p>
+    <p>
+      At the latter altitude aggressive tactics are useless. The airman is
+      unable to obtain a clear sharp view of the country beneath owing to the
+      interference offered to vision by atmospheric haze, even in the dearest of
+      weather. In order to obtain reasonable accuracy of aim the corsair of the
+      sky must fly at about 400 feet. In this respect, however, the aeroplane is
+      at a decided advantage, as compared with the dirigible. The machine offers
+      a considerably smaller target and moves with much greater speed.
+      Experience of the war has shown that to attempt to hurl bombs from an
+      extreme height is merely a waste of ammunition. True, they do a certain
+      amount of damage, but this is due to luck, not judgment.
+    </p>
+    <p>
+      For success in aerial bomb operations the human element is mainly
+      responsible. The daring airman is likely to achieve the greatest results,
+      as events have proved, especially when his raid is sudden and takes the
+      enemy by surprise. The raids carried out by Marix, Collet, Briggs,
+      Babington, Sippe and many others have established this fact
+      incontrovertibly. In all these operations the airmen succeeded because of
+      their intrepidity and their decision to take advantage of cover, otherwise
+      a prevailing mist or low-lying clouds. Flight-Lieutenant Collet approached
+      the Zeppelin shed at Dusseldorf at an altitude of 6,000 feet. There was a
+      bank of mist below, which he encountered at 1,500 feet. He traversed the
+      depth of this layer and emerged therefrom at a height of only 400 feet
+      above the ground. His objective was barely a quarter of a mile ahead.
+      Travelling at high speed he launched his bombs with what proved to be
+      deadly precision, and disappeared into cover almost before the enemy had
+      grasped his intentions. Lieutenant-Commander, now Flight-Commander, Marix
+      was even more daring. Apparently he had no mist in which to conceal
+      himself but trusted almost entirely to the speed of his machine, which
+      probably at times notched 90 miles per hour. Although his advent was
+      detected and he was greeted with a spirited fusillade he clung to his
+      determined idea. He headed straight for the Zeppelin shed, launched two
+      bombs and swung into the higher reaches of the air without a moment's
+      hesitation. His aim was deadly, since both bombs found their mark, and the
+      Zeppelin docked within was blown up. The intrepid airman experienced
+      several narrow escapes, for his aeroplane was struck twenty times, and one
+      or two of the control wires were cut by passing bullets.
+    </p>
+    <p>
+      The raid carried out by Commanders Briggs and Babington in company with
+      Lieutenant Sippe upon the Zeppelin workshops at Friedrichshafen was even
+      more daring. Leaving the Allies' lines they ascended to an altitude of
+      4,500 feet, and at this height held to the pre-arranged course until they
+      encountered a mist, which while protecting them from the alert eyes of the
+      enemy below, was responsible for the separation of the raiders, so that
+      each was forced to act independently and to trust to the compass to bring
+      him out of the ordeal successfully. Lieutenant Sippe sighted Lake
+      Constance, and taking advantage of the mist lying low upon the water,
+      descended to such an extent that he found himself only a few feet above
+      the roofs of the houses. Swinging round to the Lake he descended still
+      lower until at last he was practically skimming the surface of the Lake,
+      since he flew at the amazingly low height of barely seven feet off the
+      water. There is no doubt that the noise of his motor was heard plainly by
+      the enemy, but the mist completely enveloped him, and owing to the strange
+      pranks that fog plays with sound deceived his antagonists.
+    </p>
+    <p>
+      At last, climbing above the bank of vapour, he found that he had overshot
+      the mark, so he turned quickly and sped backwards. At the same time he
+      discovered that he had been preceded by Commander Briggs, who was
+      bombarding the shed furiously, and who himself was the object of a
+      concentrated fire. Swooping down once more, Lieutenant Sippe turned,
+      rained his bombs upon the objective beneath, drawing fire upon himself,
+      but co-operating with Commander Babington, who had now reached the scene,
+      he manoeuvred above the works and continued the bombardment until their
+      ammunition was expended, when they sped home-wards under the cover of the
+      mist. Considering the intensity of the hostile fire, it is surprising that
+      the aeroplanes were not smashed to fragments. Undoubtedly the high speed
+      of the machines and the zigzagging courses which were followed nonplussed
+      the enemy. Commander Briggs was not so fortunate as his colleagues; a
+      bullet pierced his petrol tank, compelling a hurried descent.
+    </p>
+    <p>
+      The most amazing feature of these aerial raids has been the remarkably low
+      height at which the airmen have ventured to fly. While such a procedure
+      facilitates marksmanship it increases the hazards. The airmen have to
+      trust implicitly to the fleetness of their craft and to their own nerve.
+      Bearing in mind the vulnerability of the average aeroplane, and the
+      general absence of protective armouring against rifle fire at almost
+      point-blank range, it shows the important part which the human element is
+      compelled to play in bomb-dropping operations.
+    </p>
+    <p>
+      Another missile which has been introduced by the French airmen, and which
+      is extremely deadly when hurled against dense masses of men, is the steel
+      arrow, or "flechette" as it is called. It is a fiendish projectile
+      consisting in reality of a pencil of solid polished steel, 4 3/4 inches in
+      length. The lower end has a sharp tapering point, 5/8ths of an inch in
+      length. For a distance of 1 1/8th of an inch above this point the
+      cylindrical form of the pencil is preserved, but for the succeeding three
+      inches to the upper end, the pencil is provided with four equally spaced
+      angle flanges or vanes. This flanging of the upper end or tail ensures the
+      arrow spinning rapidly as it falls through the air, and at the same times
+      preserves its vertical position during its descent. The weight of the
+      arrow is two-thirds of an ounce.
+    </p>
+    <p>
+      The method of launching this fearsome projectile is ingenious. A hundred
+      or even more are packed in a vertical position in a special receptacle,
+      placed upon the floor of the aeroplane, preferably near the foot of the
+      pilot or observer. This receptacle is fitted with a bottom moving in the
+      manner of a trap-door, and is opened by pressing a lever. The aviator has
+      merely to depress this pedal with his foot, when the box is opened and the
+      whole of the contents are released. The fall at first is somewhat erratic,
+      but this is an advantage, as it enables the darts to scatter and to cover
+      a wide area. As the rotary motion of the arrows increases during the fall,
+      the direct line of flight becomes more pronounced until at last they
+      assume a vertical direction free from all wobbling, so that when they
+      alight upon the target they are quite plumb.
+    </p>
+    <p>
+      When launched from a height they strike the objective with terrific force,
+      and will readily penetrate a soldier's helmet and skull. Indeed, when
+      released at a height of 4,000 feet they have been known to pierce a
+      mounted soldier's head, and pass vertically through his body and that of
+      his horse also. Time after time German soldiers have found themselves
+      pinned to the ground through the arrow striking and penetrating their
+      feet. Owing to the extremely light weight of the darts they can be
+      launched in batches of hundreds at a time, and in a promiscuous manner
+      when the objective is a massed body of infantry or cavalry, or a transport
+      convoy. They are extremely effective when thrown among horses even from a
+      comparatively low altitude, not so much from the fatalities they produce,
+      as from the fact that they precipitate a stampede among the animals, which
+      is generally sufficiently serious and frantic to throw cavalry or a
+      transport-train into wild confusion.
+    </p>
+    <p>
+      Although aerial craft, when skilfully handled, have proved highly
+      successful as weapons of offence, the possibilities of such aggression as
+      yet are scarcely realised; aerial tactics are in their infancy.
+      Developments are moving rapidly. Great efforts are being centred upon the
+      evolution of more formidable missiles to be launched from the clouds. The
+      airman is destined to inspire far greater awe than at present, to exercise
+      a still more demoralising influence, and to work infinitely more
+      destruction.
+    </p>
+    <p>
+      <a name="link2HCH0011" id="link2HCH0011">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XI. ARMOURED AEROPLANES
+    </h2>
+    <p>
+      The stern test of war has served to reveal conclusively the fact that
+      aerial craft can be put out of action readily and effectively, when once
+      the marksman has picked up the range, whether the gunner be conducting his
+      operations with an anti-aircraft gun stationed upon the ground, or from a
+      hostile machine. It will be remembered that Flight-Commander Briggs, on
+      the occasion of the daring British raid upon the Zeppelin sheds at
+      Friedrichshafen, was brought to the ground by a bullet which penetrated
+      his fuel tank. Several other vessels, British, German, French, and Russian
+      alike, have been thrown out of action in a similar manner, and invariably
+      the craft which has been disabled suddenly in this way has fallen
+      precipitately to earth in the fatal headlong dive.
+    </p>
+    <p>
+      Previous to the outbreak of hostilities there was considerable divergence
+      of opinion upon this subject. The general opinion was that the outspread
+      wings and the stays which constituted the weakest parts of the structure
+      were most susceptible to gun-fire, and thus were likely to fail. But
+      practice has proved that it is the driving mechanism which is the most
+      vulnerable part of the aeroplane.
+    </p>
+    <p>
+      This vulnerability of the essential feature of the flying machine is a
+      decisive weakness, and exposes the aviator to a constant menace. It may be
+      quite true that less than one bullet in a thousand may hit the machine,
+      but when the lucky missile does find its billet its effect is complete.
+      The fact must not be overlooked that the gunners who work the batteries of
+      anti-aircraft guns are becoming more and more expert as a result of
+      practice, so that as time progresses and improved guns for such duty are
+      rendered available, the work of the aviator is likely to become more
+      dangerous and difficult. Experience has proved that the high velocity gun
+      of to-day is able to hurl its projectile or shell to an extreme height&mdash;far
+      greater than was previously considered possible&mdash;so that considerable
+      discretion has to be exercised by the airman, who literally bears his life
+      in his hands.
+    </p>
+    <p>
+      Although elaborate trials were carried out upon the testing ranges with
+      the weapons devised especially for firing upon flying machines, captive
+      balloons being employed as targets, the data thus obtained were neither
+      conclusive nor illuminating. The actual experiences of airmen have given
+      us some very instructive facts upon this point for the first time.
+    </p>
+    <p>
+      It was formerly held that the zone of fire that is to be considered as a
+      serious danger was within a height of about 4,500 feet. But this estimate
+      was well within the mark. Airmen have found that the modern projectiles
+      devised for this phase of operations are able to inflict distinctly
+      serious damage at an altitude of 9,000 feet. The shell itself may have but
+      little of its imparted velocity remaining at this altitude, but it must be
+      remembered that when the missile bursts, the contents thereof are given an
+      independent velocity, and a wide cone of dispersion, which is quite
+      sufficient to achieve the desired end, inasmuch as the mechanism of the
+      modern aeroplane and dirigible is somewhat delicate.
+    </p>
+    <p>
+      It was for this reason that the possibility of armouring the airship was
+      discussed seriously, and many interesting experiments in this field were
+      carried out. At the same time it was decided that the armouring should be
+      effected upon lines analogous to that prevailing in warship engineering.
+      The craft should not only be provided with defensive but also with
+      aggressive armament. This decision was not viewed with general
+      approbation. It was pointed out that questions of weight would arise,
+      especially in relation to the speed of the machine. Increased weight,
+      unless it were accompanied by a proportionate augmentation of power in the
+      motor, would react against the efficiency and utility of the machine,
+      would appreciably reduce its speed, and would affect its climbing powers
+      very adversely. In some quarters it was maintained that as a result the
+      machine would even prove unsuited to military operations, inasmuch as high
+      speed is the primary factor in these.
+    </p>
+    <p>
+      Consequently it was decided by the foremost aviating experts that machines
+      would have to be classified and allotted to particular spheres of work,
+      just as warships are built in accordance with the special duty which they
+      are expected to perform. In reconnaissance, speed is imperative, because
+      such work in the air coincides with that of the torpedo-boat or scout upon
+      the seas. It is designed to acquire information respecting the movements
+      of the enemy, so as to assist the heavier arms in the plan of campaign. On
+      the other hand, the fighting corsair of the skies might be likened to the
+      cruiser or battleship. It need not possess such a high turn of speed, but
+      must be equipped with hard-hitting powers and be protected against
+      attacking fire.
+    </p>
+    <p>
+      One attempt to secure the adequate protection against gun-fire from the
+      ground assumed the installation of bullet-proof steel plating, about one
+      fifth of an inch thick, below the tank and the motor respectively. The
+      disposition of the plating was such as to offer the minimum of resistance
+      to the air and yet to present a plane surface to the ground below. So far
+      as it went this protection was completely effective, but it failed to
+      armour the vital parts against lateral, cross and downward fire while
+      aloft. As the latter is more to be feared than the fire from the ground,
+      seeing that it may be directed at point blank range, this was a decided
+      defect and the armour was subsequently abandoned as useless.
+    </p>
+    <p>
+      The only effective method of achieving the desired end is to armour the
+      whole of the carriage or fuselage of the adroplane, and this was the
+      principle adopted by the Vickers Company. The Vickers military aeroplane
+      is essentially a military machine. It is built of steel throughout. The
+      skeleton of the machine is formed of an alloy which combines the qualities
+      of aluminium and steel to ensure toughness, strength, and lightness. In
+      fact, metal is employed liberally throughout, except in connection with
+      the wings, which follow the usual lines of construction. The body of the
+      car is sheathed with steel plating which is bullet proof against rifle or
+      even shrapnel fire. The car is designed to carry two persons; the seats
+      are therefore disposed tandem-wise, with the observer or gunner occupying
+      the front seat.
+    </p>
+    <p>
+      The defensive armament is adequate for ordinary purposes. Being fitted
+      with a 100 horse-power motor, fairly high speeds are attainable, although
+      the velocity is not equal to that of machines constructed upon
+      conventional lines, inasmuch as there is an appreciable increase in
+      weight.
+    </p>
+    <p>
+      The car is short and designed upon excellent stream lines, so that the
+      minimum of resistance to the air is offered, while at the same time the
+      balancing is perfect. The sides of the car are brought up high enough to
+      protect the aviators, only their heads being visible when they are seated.
+      The prow of the car follows the lines generally adopted in high speed
+      torpedo boat design; there is a sharp knife edge stem with an enclosed
+      fo'c's'le, the latter housing the gun.
+    </p>
+    <p>
+      Another craft, designed for scouting operations, may be likened to the
+      mosquito craft of the seas. This machine, while a biplane like the
+      military aeroplane, is of lighter construction, everything being
+      sacrificed to speed in this instance. It is fitted with a 100 horse-power
+      motor and is designed to carry an observer if required. There is no
+      offensive armament, however. The fuel tank capacity, moreover, is limited,
+      being only sufficient for a two or three hours' flight. While this is
+      adequate for general reconnoitring, which for the most part entails short
+      high speed flights, there are occasions when the Staff demands more
+      prolonged observations conducted over a greater radius. This requisition
+      can be met by eliminating the observer, whose duties in this instance must
+      be assumed by the pilot, and substituting in place of the former, a second
+      fuel tank of sufficient capacity for a flight of four or five hours,
+      thereby bringing the term of action in the air to about 6 1/4 hours. This
+      machine travels at a very high speed and is eminently adapted to its
+      specific duty, but it is of limited service for general purposes.
+    </p>
+    <p>
+      The arming of an aeroplane, to enable it to defend itself against hostile
+      attack or to participate in raiding operations upon the aerial fleet of
+      the enemy, appears to be a simple task, but as a matter of fact it is an
+      undertaking beset with difficulties innumerable. This is especially the
+      case where the aeroplane is of the tractive type, that is to say where the
+      propellers are placed in the forefront of the machine and in their
+      revolution serve to draw the machine forward. All other considerations
+      must necessarily be sacrificed to the mounting of the propeller.
+      Consequently it is by no means easy to allot a position for the
+      installation of a gun, or if such should be found there is grave risk of
+      the angle of fire being severely restricted. In fact, in many instances
+      the mounting of a gun is out of the question: it becomes a greater menace
+      to the machine than to the enemy.
+    </p>
+    <p>
+      The French aeronautical section of the military department devoted
+      considerable study to this subject, but found the problem almost
+      insurmount able. Monsieur Loiseau met with the greatest measure of
+      success, and his system is being practised in the present campaign. This
+      principle is essentially adapted to tractor aeroplanes. Forward of the
+      pilot a special position is reserved for the gunner. A special mounting is
+      provided towards the prow, and upon the upper face of the body of the
+      machine. The gun mounting is disposed in such a manner that it is able to
+      command a wide arc of fire in the vertical plane over the nose of the
+      machine and more particularly in the downward direction.
+    </p>
+    <p>
+      The marksman is provided with a special seat, but when he comes into
+      action he has to stand to manipulate his weapon. The lower part of his
+      body is protected by a front shield of steel plate, a fifth of an inch in
+      thickness, while a light railing extending upon either side and behind
+      enables the gunner to maintain his position when the aeroplane is banking
+      and climbing. The machine gun, of the Hotchkiss type, is mounted upon a
+      swivel attached to a tripod, while the latter is built into the bracing of
+      the car, so as to ensure a fairly steady gun platform.
+    </p>
+    <p>
+      While the gun in the hands of a trained marksman may be manipulated with
+      destructive effect, the drawbacks to the arrangement are obvious. The
+      gunner occupies a very exposed position, and, although the bullet-proof
+      shield serves to break the effects of wind when travelling at high speed
+      which renders the sighting and training of the weapon extremely difficult,
+      yet he offers a conspicuous target, more particularly when the enemy is
+      able to assume the upper position in the air as a result of superior speed
+      in travelling. The gun, however, may be elevated to about 60 degrees,
+      which elevation may be accentuated by the inclination of the aeroplane
+      when climbing, while the facility with which the weapon may be moved
+      through the horizontal plane is distinctly favourable.
+    </p>
+    <p>
+      But the aerial marksman suffers from one very pronounced defect: he has a
+      severely restricted survey of everything below, since his vision is
+      interrupted by the planes. The result is that an enemy who has lost
+      ascendancy of position is comparatively safe if he is able to fly
+      immediately below his adversary: the mitrailleuse of the latter cannot be
+      trained upon him. On the other hand the enemy, if equipped with repeating
+      rifles or automatic pistols, is able to inflict appreciable damage upon
+      the craft overhead, the difficulties of firing vertically into the air
+      notwithstanding.
+    </p>
+    <p>
+      In the Vickers system, where the propeller is mounted behind the car, the
+      aeroplane thus operating upon the pusher principle, the nose of the car is
+      occupied by the arm, which is a rifle calibre machine gun fitted upon a
+      special mounting. The prow is provided with an embrasure for the weapon
+      and the latter is so installed as to command an angle of 30 degrees on all
+      sides of the longitudinal axis of the machine when in flight. In this
+      instance the marksman is provided with complete protection on all sides,
+      inasmuch as his position is in the prow, where the hood of the fo'c's'le
+      shields him from overhead attack. The gun is protected by a special shield
+      which moves with the gun barrel. This shield is provided with mica
+      windows, through which the gunner is able to sight his arm, so that he is
+      not inconvenienced in any way by the wind draught.
+    </p>
+    <p>
+      One shortcoming of such methods of arming an aeroplane will be observed.
+      Ahead firing only is possible; the weapon cannot be trained astern, while
+      similarly the line of fire on either broadside is severely limited. This
+      is one reason why the machine-gun armament of aerial craft of the
+      heavier-than-air type has not undergone extensive development. In many
+      instances the pilot and observer have expressed their preference for
+      repeating high velocity rifles over any form of fixed gun mounting, and
+      have recourse to the latter only when the conditions are extremely
+      favourable to its effective employment.
+    </p>
+    <p>
+      Efforts are now being made to equip the military type of aeroplane with
+      both forward and astern firing guns. The urgency of astern fire has been
+      brought home very vividly. Suppose, for instance, two hostile aeroplanes,
+      A and B, are in the air. A has the advantage at first, but B is speedier
+      and rapidly overhauls A. During the whole period of the overhauling
+      movement the gun of B can be directed upon A, while the latter, owing to
+      the arc of training being limited to c d cannot reply. Obviously in the
+      running fight it would be to the advantage of B, although the fleeter
+      machine, to keep behind A (position 1), but the latter is making towards
+      its own lines.
+    </p>
+    <p>
+      Under these circumstances A must be headed off, so B crowds on speed to
+      consummate this end. But in the overtaking process B renders his gun-fire
+      ineffective, inasmuch as B passes beyond the arc of his gun which is
+      represented by e f. But in so doing B comes within the firing arc of A
+      (position 9). To minimise this danger B ascends to a higher level to
+      obtain the paramount position.
+    </p>
+    <p>
+      If, however, B were equipped with an astern gun the aeroplane A would be
+      within the fire of B when the forward gun of the latter could not be used.
+      Similarly if A were also fitted with an astern gun it would be able to
+      attack its pursuer the whole time B was to its rear and in this event, if
+      its gun-fire were superior, it would be able to keep the latter to a safe
+      distance, or compel B to manoeuvre into a superior position, which would
+      entail a certain loss of time.
+    </p>
+    <p>
+      An astern firing gun would be valuable to B in another sense. Directly it
+      had passed A or brought the latter within the zone of its astern gun it
+      could maintain its fire at the most advantageous range, because owing to
+      its speed it would be able to dictate the distance over which shots should
+      be exchanged and if mounted with a superior weapon would be able to keep
+      beyond the range of A's guns while at the same time it would keep A within
+      range of its own gun and consequently rake the latter. In the interests of
+      self-preservation A would be compelled to change its course; in fact, B
+      would be able to drive it in any direction he desired, as he would command
+      A's movements by gun-fire.
+    </p>
+    <p>
+      The value of combined ahead and astern firing has been appreciated, but
+      there is one difficulty which at the moment appears to be insuperable the
+      clearance of the propeller. At the moment astern-firing, if such it may be
+      called, is maintained by repeating rifles, but this armament is not to be
+      compared with machine-gun firing, as the latter with its capacity to pour
+      400 to 600 shots a minute, is far more deadly, particularly when the
+      weapon is manipulated by a crack gunner.
+    </p>
+    <p>
+      Up to the present the offensive armament of aeroplanes has been confined
+      to light machine guns such as the Hotchkiss, Berthier, Schwartlose, and
+      Maxim weapons. So far as the arming of aeroplanes is concerned the
+      indispensable condition is light weight. With airships this factor is not
+      so vital, the result being that some dirigibles are mounted with guns,
+      throwing one pound bursting shells, fitted either with delay action or
+      percussion fuses, the former for preference. These shells are given a wide
+      cone of dispersion. Experiments are also being made with a gun similar to
+      the pom-pom which proved so useful in South Africa, the gun throwing small
+      shells varying from four to eight ounces in weight at high velocity and in
+      rapid succession. While such missiles would not be likely to inflict
+      appreciable damage upon an armoured aeroplane, they would nevertheless be
+      disconcerting to the aviators subjected to such fire, and in aerial
+      combats the successful undermining of the adversary's moral is of far
+      greater importance than in land operations, since immediately ascendancy
+      in the artillery operations is attained the final issue is a matter of
+      moments.
+    </p>
+    <p>
+      But the most devastating arm which has yet been contrived for aerial
+      operations is the light machine gun which has recently been perfected. The
+      one objective with this weapon is to disable the hostile aircraft's
+      machinery. It fires an armour piercing projectile which, striking the
+      motor of any aircraft, would instantly put the latter out of action. The
+      shell has a diameter of about.75 inch and weighs about four ounces. The
+      gun is a hybrid of the mitrailleuse and the French "Soixante-quinze,"
+      combining the firing rapidity of the former with the recoil mechanism of
+      the latter. This missile has established its ability to penetrate the
+      defensive armouring of any aeroplane and the motor of the machine at 1,000
+      yards' range. This offensive arm is now being manufactured, so that it is
+      likely to be seen in the near future as the main armament of aeroplanes.
+    </p>
+    <p>
+      At the moment widespread efforts are being made in the direction of
+      increasing the offensive efficiency of aircraft. It is one of the phases
+      of ingenuity which has been stimulated into activity as a result of the
+      war.
+    </p>
+    <p>
+      <a name="link2HCH0012" id="link2HCH0012">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XII. BATTLES IN THE AIR
+    </h2>
+    <p>
+      Ever since the days of Jules Verne no theme has proved so popular in
+      fiction as fighting in the air. It was a subject which lent itself to
+      vivid imagination and spirited picturesque portrayal. Discussion might be
+      provoked, but it inevitably proved abortive, inasmuch as there was a
+      complete absence of data based upon actual experience. The novelist was
+      without any theory: he avowedly depended upon the brilliance of his
+      imagination. The critic could only theorise, and no matter how dogmatic
+      his reasonings, they were certainly as unconvincing as those of the object
+      of his attack.
+    </p>
+    <p>
+      But truth has proved stranger than fiction. The imaginative pictures of
+      the novelist have not only been fulfilled but surpassed, while the
+      theorising critic has been utterly confounded. Fighting in the air has
+      become so inseparable from the military operations of to-day that it
+      occurs with startling frequency. A contest between hostile aeroplanes,
+      hundreds of feet above the earth, is no longer regarded as a dramatic,
+      thrilling spectacle: it has become as matter-of-fact as a bayonet melee
+      between opposed forces of infantry.
+    </p>
+    <p>
+      A duel in the clouds differs from any other form of encounter. It is
+      fought mercilessly: there can be no question of quarter or surrender. The
+      white flag is no protection, for the simple reason that science and
+      mechanical ingenuity have failed, so far, to devise a means of taking an
+      aeroplane in tow. The victor has no possible method of forcing the
+      vanquished to the ground in his own territory except driving. If such a
+      move be made there is the risk that the latter will take the advantage of
+      a critical opportunity to effect his escape, or to turn the tables. For
+      these reasons the fight is fought to a conclusive finish.
+    </p>
+    <p>
+      To aspire to success in these combats waged in the trackless blue, speed,
+      initiative, and daring are essential. Success falls to the swift in every
+      instance. An aeroplane travelling at a high speed, and pursuing an
+      undulating or irregular trajectory is almost impossible to hit from the
+      ground, as sighting is so extremely difficult. Sighting from another
+      machine, which likewise is travelling rapidly, and pursuing an irregular
+      path, is far more so. Unless the attacker can approach relatively closely
+      to his enemy the possibility of hitting him is extremely remote. Rifle or
+      gun-fire must be absolutely point blank.
+    </p>
+    <p>
+      When a marauding aeroplane is espied the attacking corsair immediately
+      struggles for the strategical position, which is above his adversary. To
+      fire upwards from one aeroplane at another is virtually impossible, at
+      least with any degree of accuracy. The marksman is at a hopeless
+      disadvantage. If the pilot be unaccompanied and entirely dependent upon
+      his own resources he cannot hope to fire vertically above him, for the
+      simple reason that in so doing he must relinquish control of his machine.
+      A rifle cannot possibly be sighted under such conditions, inasmuch as it
+      demands that the rifleman shall lean back so as to obtain control of his
+      weapon and to bring it to bear upon his objective. Even if a long range
+      Mauser or other automatic pistol of the latest type be employed, two hands
+      are necessary for firing purposes, more particularly as, under such
+      conditions, the machine, if not kept under control, is apt to lurch and
+      pitch disconcertingly.
+    </p>
+    <p>
+      Even a colleague carried for the express purpose of aggression is
+      handicapped. If he has a machinegun, such as a Maxim or a mitrailleuse, it
+      is almost out of the question to train it vertically. Its useful vertical
+      training arc is probably limited to about 80 degrees, and at this
+      elevation the gunner has to assume an extremely uncomfortable position,
+      especially upon an aeroplane, where, under the best of circumstances, he
+      is somewhat cramped.
+    </p>
+    <p>
+      On the other hand the man in the aeroplane above holds the dominating
+      position. He is immediately above his adversary and firing may be carried
+      out with facility. The conditions are wholly in his favour. Sighting and
+      firing downwards, even if absolutely vertically, imposes the minimum
+      physical effort, with the result that the marksman is able to bring a
+      steadier aim upon his adversary. Even if the machine be carrying only the
+      pilot, the latter is able to fire upon his enemy without necessarily
+      releasing control of his motor, even for a moment.
+    </p>
+    <p>
+      If he is a skilled sharpshooter, and the exigencies demand, he can level,
+      sight, and fire his weapon with one hand, while under such circumstances
+      an automatic self-loading pistol can be trained upon the objective with
+      the greatest ease. If the warplane be carrying a second person, acting as
+      a gunner, the latter can maintain an effective rifle fusillade, and, at
+      the same time, manipulate his machine-gun with no great effort,
+      maintaining rifle fire until the pilot, by manoeuvring, can enable the
+      mitrailleuse or Maxim to be used to the greatest advantage.
+    </p>
+    <p>
+      Hence the wonderful display of tactical operations when two hostile
+      aeroplanes sight one another. The hunted at first endeavours to learn the
+      turn of speed which his antagonist commands. If the latter is inferior,
+      the pursued can either profit from his advantage and race away to safety,
+      or at once begin to manoeuvre for position. If he is made of stern stuff,
+      he attempts the latter feat without delay. The pursuer, if he realises
+      that he is out classed in pace, divines that his quarry will start
+      climbing if he intends to show fight, so he begins to climb also.
+    </p>
+    <p>
+      Now success in this tactical move will accrue to the machine which
+      possesses the finest climbing powers, and here again, of course, speed is
+      certain to count. But, on the other hand, the prowess of the aviator&mdash;the
+      human element once more&mdash;must not be ignored. The war has
+      demonstrated very convincingly that the personal quality of the aviator
+      often becomes the decisive factor.
+    </p>
+    <p>
+      A spirited contest in the air is one of the grimmest and most thrilling
+      spectacles possible to conceive, and it displays the skill of the aviator
+      in a striking manner. Daring sweeps, startling wheels, breathless
+      vol-planes, and remarkable climbs are carried out. One wonders how the
+      machine can possibly withstand the racking strains to which it is
+      subjected. The average aeroplane demands space in which to describe a
+      turn, and the wheel has to be manipulated carefully and dexterously, an
+      operation requiring considerable judgment on the part of the helmsman.
+    </p>
+    <p>
+      But in an aerial duel discretion is flung to the winds. The pilot jambs
+      his helm over in his keen struggle to gain the superior position, causing
+      the machine to groan and almost to heel over. The stem stresses of war
+      have served to reveal the perfection of the modern aeroplane together with
+      the remarkable strength of its construction. In one or two instances, when
+      a victor has come to earth, subsequent examination has revealed the
+      enormous strains to which the aeroplane has been subjected. The machine
+      has been distorted; wires have been broken&mdash;wires which have
+      succumbed to the enormous stresses which have been imposed and have not
+      been snapped by rifle fire. One well-known British airman, who was
+      formerly a daring automobilist, confided to me that a fight in the air "is
+      the finest reliability trial for an aeroplane that was ever devised!"
+    </p>
+    <p>
+      In these desperate struggles for aerial supremacy the one party endeavours
+      to bring his opponent well within the point-blank range of his armament:
+      the other on his part strives just as valiantly to keep well out of reach.
+      The latter knows fully well that his opponent is at a serious disadvantage
+      when beyond point-blank range, for the simple reason that in sighting the
+      rifle or automatic pistol, it is difficult, if not impossible while aloft,
+      to judge distances accurately, and to make the correct allowances for
+      windage.
+    </p>
+    <p>
+      If, however, the dominating aviator is armed with a machine gun he
+      occupies the superior position, because he can pour a steady hail of lead
+      upon his enemy. The employment of such a weapon when the contest is being
+      waged over friendly territory has many drawbacks. Damage is likely to be
+      inflicted among innocent observers on the earth below; the airman is
+      likely to bombard his friends. For this very reason promiscuous firing, in
+      the hope of a lucky shot finding a billet in the hostile machine, is not
+      practised. Both parties appear to reserve their fire until they have drawn
+      within what may be described as fighting distance, otherwise point blank
+      range, which may be anything up to 300 yards.
+    </p>
+    <p>
+      Some of the battles between the German and the French or British
+      aeroplanes have been waged with a total disregard of the consequences.
+      Both realise that one or the other must perish, and each is equally
+      determined to triumph. It is doubtful whether the animosity between the
+      opposing forces is manifested anywhere so acutely as in the air. In some
+      instances the combat has commenced at 300 feet or so above the earth, and
+      has been fought so desperately, the machines climbing and endeavouring to
+      outmanoeuvre each other, that an altitude of over 5,000 feet has been
+      attained before they have come to close grips.
+    </p>
+    <p>
+      The French aviator is nimble, and impetuous: the German aviator is daring,
+      but slow in thought: the British airman is a master of strategy, quick in
+      thought, and prepared to risk anything to achieve his end. The German
+      airman is sent aloft to reconnoitre the enemy and to communicate his
+      information to his headquarters. That is his assigned duty and he performs
+      it mechanically, declining to fight, as the welfare of his colleagues
+      below is considered to be of more vital importance than his personal
+      superiority in an aerial contest. But if he is cornered he fights with a
+      terrible and fatalistic desperation.
+    </p>
+    <p>
+      The bravery of the German airmen is appreciated by the Allies. The French
+      flying-man, with his traditional love for individual combat, seeks and
+      keenly enjoys a duel. The British airman regards such a contest as a mere
+      incident in the round of duty, but willingly accepts the challenge when it
+      is offered. It is this manifestation of what may be described as
+      acquiescence in any development that enabled the British flying corps,
+      although numerically inferior, to gain its mastery of the air so
+      unostentatiously and yet so completely.
+    </p>
+    <p>
+      All things considered an aeroplane duel is regarded as a fairly equal
+      combat. But what of a duel between an aeroplane and a dirigible? Which
+      holds the advantage? This question has not been settled, at any rate
+      conclusively, but it is generally conceded that up to a certain point the
+      dirigible is superior. It certainly offers a huge and attractive target,
+      but rifle fire at its prominent gas-bag is not going to cause much havoc.
+      The punctures of the envelope may represent so many vents through which
+      the gas within may effect a gradual escape, but considerable time must
+      elapse before the effect of such a bombardment becomes pronounced in its
+      result, unless the gas-bag is absolutely riddled with machine gun-fire,
+      when descent must be accelerated.
+    </p>
+    <p>
+      On the other hand, it is to be presumed that the dirigible is armed. In
+      this event it has a distinct advantage. It has a steady gun-platform
+      enabling the weapons of offence to be trained more easily and an enhanced
+      accuracy of fire to be obtained. In order to achieve success it is
+      practically imperative that an aeroplane should obtain a position above
+      the dirigible, but the latter can ascend in a much shorter space of time,
+      because its ascent is vertical, whereas the aeroplane must describe a
+      spiral in climbing. Under these circumstances it is relatively easy for
+      the airship to outmanoeuvre the aeroplane in the vertical plane, and to
+      hold the dominating position.
+    </p>
+    <p>
+      But even should the aeroplane obtain the upper position it is not regarded
+      with fear. Some of the latest Zeppelins have a machine gun mounted upon
+      the upper surface of the envelope, which can be trained through 360
+      degrees and elevated to about 80 degrees vertical. Owing to the steady gun
+      platform offered it holds command in gun-fire, so that the aeroplane,
+      unless the aviator is exceptionally daring, will not venture within the
+      range of the dirigible. It is stated, however, that this upper gun has
+      proved unsatisfactory, owing to the stresses and strains imposed upon the
+      framework of the envelope of the Zeppelin during firing, and it has
+      apparently been abandoned. The position, however, is still available for a
+      sniper or sharpshooter.
+    </p>
+    <p>
+      The position in the sky between two such combatants is closely analogous
+      to that of a torpedo boat and a Dreadnought. The latter, so long as it can
+      keep the former at arm's, or rather gun's, distance is perfectly safe. The
+      torpedo boat can only aspire to harass its enemy by buzzing around, hoping
+      that a lucky opportunity will develop to enable it to rush in and to
+      launch its torpedo. It is the same with the aeroplane when arrayed against
+      a Zeppelin. It is the mosquito craft of the air.
+    </p>
+    <p>
+      How then can a heavier-than-air machine triumph over the unwieldy
+      lighter-than-air antagonist? Two solutions are available. If it can get
+      above the dirigible the adroplane may bring about the dirigible's
+      destruction by the successful launch of a bomb. The detonation of the
+      latter would fire the hydrogen within the gas-bag or bags, in which event
+      the airship would fall to earth a tangled wreck. Even if the airship were
+      inflated with a non-inflammable gas&mdash;the Germans claim that their
+      Zeppelins now are so inflated&mdash;the damage wrought by the bomb would
+      be so severe as to destroy the airship's buoyancy, and it would be forced
+      to the ground.
+    </p>
+    <p>
+      The alternative is very much more desperate. It involves ramming the
+      dirigible. This is undoubtedly possible owing to the speed and facile
+      control of the aeroplane, but whether the operation would be successful
+      remains to be proved. The aeroplane would be faced with such a
+      concentrated hostile fire as to menace its own existence&mdash;its forward
+      rush would be frustrated by the dirigible just as a naval vessel parries
+      the ramming tactics of an enemy by sinking the latter before she reaches
+      her target, while if it did crash into the hull of the dirigible, tearing
+      it to shreds, firing its gas, or destroying its equilibrium, both
+      protagonists would perish in the fatal dive to earth. For this reason
+      ramming in mid-air is not likely to be essayed except when the situation
+      is desperate.
+    </p>
+    <p>
+      What happens when two aeroplanes meet in dire combat in mid-air and one is
+      vanquished? Does the unfortunate vessel drop to earth like a stone, or
+      does it descend steadily and reach the ground uninjured? So far as actual
+      experience has proved, either one of the foregoing contingencies may
+      happen. In one such duel the German aeroplane was observed to start
+      suddenly upon a vol-plane to the ground. Its descending flight carried it
+      beyond the lines of the Allies into the territory of its friends. Both
+      came to the conclusion that the aviator had effected his escape. But
+      subsequent investigation revealed the fact that a lucky bullet from the
+      Allies' aeroplane had lodged in the brain of the German pilot, killing him
+      instantly. At the moment when Death over took him the aviator had set his
+      plane for the descent to the ground, and the machine came to earth in the
+      manner of a glider.
+    </p>
+    <p>
+      But in other instances the descent has been far more tragic. The
+      aeroplane, deprived of its motive power, has taken the deadly headlong
+      dive to earth. It has struck the ground with terrific violence, burying
+      its nose in the soil, showing incidentally that a flying machine is an
+      indifferent plough, and has shattered itself, the debris soaked with the
+      escaping fuel becoming ignited. In any event, after such a fall the
+      machine is certain to be a wreck. The motor may escape damage, in which
+      event it is salvaged, the machine subsequently being purposely sacrificed
+      to the flames, thereby rendering it no longer available to the enemy even
+      if captured. In many instances the hostile fire has smashed some of the
+      stays and wires, causing the aeroplane to lose its equilibrium, and
+      sending it to earth in the manner of the proverbial stone, the aviators
+      either being dashed to pieces or burned to death.
+    </p>
+    <p>
+      What are the vulnerable parts of the aeroplane? While the deliberate
+      intention of either combatant is to put his antagonist hors de combat, the
+      disablement of the machine may be achieved without necessarily killing or
+      even seriously wounding the hostile airman. The prevailing type of
+      aeroplane is highly susceptible to derangement: it is like a ship without
+      armour plate protection. The objective of the antagonist is the motor or
+      the fuel-tank, the vital parts of the machine, as much as the aviator
+      seated within.
+    </p>
+    <p>
+      A well-planted shot, which upsets the mechanism of the engine, or a
+      missile which perforates the fuel tank, thereby depriving the motor of its
+      sustenance, will ensure victory as conclusively as the death of the
+      aviator himself. Rifle fire can achieve either of these ends with little
+      difficulty. Apart from these two nerve-centres, bombardment is not likely
+      to effect the desired disablement, inasmuch as it cannot be rendered
+      completely effective. The wings may be riddled like a sieve, but the
+      equilibrium of the machine is not seriously imperilled thereby. Even many
+      of the stays may be shot away, but bearing in mind the slender objective
+      they offer, their destruction is likely to be due more to luck than
+      judgment. On the other hand, the motor and fuel tank of the conventional
+      machine offer attractive targets: both may be put out of action readily,
+      and the disablement of the motive power of an enemy's craft, be it
+      torpedo-boat, battleship, or aeroplane, immediately places the same at the
+      assailant's mercy.
+    </p>
+    <p>
+      Nevertheless, of course, the disablement of the airman brings about the
+      desired end very effectively. It deprives the driving force of its
+      controlling hand; The aeroplane becomes like a ship without a rudder: a
+      vessel whose helmsman has been shot down. It is unmanageable, and likely
+      to become the sport of the element in which it moves. It is for this
+      reason that aviators have been urged to direct their fire upon the men and
+      mechanism of a dirigible in the effort to put it out of action. An
+      uncontrolled airship is more likely to meet with its doom than an
+      aeroplane. The latter will inevitably glide to earth, possibly damaging
+      itself seriously in the process, as events in the war have demonstrated,
+      but a helpless airship at once becomes the sport of the wind, and anyone
+      who has assisted, like myself, in the descent of a vessel charged with gas
+      and floating in the air, can appreciate the difficulties experienced in
+      landing. An uncontrolled Zeppelin, for instance, would inevitably pile up
+      in a tangled twisted ruin if forced to descend in the manner of an
+      ordinary balloon. Consequently the pilot of a dirigible realises to the
+      full the imperative urgency of keeping beyond the point-blank fire of
+      aerial mosquito craft.
+    </p>
+    <p>
+      The assiduity with which British aviators are prepared to swarm to the
+      attack has been responsible for a display of commendable ingenuity on the
+      part of the German airman. Nature has provided some of its creatures, such
+      as the octopus, for instance, with the ways and means of baffling its
+      pursuers. It emits dense clouds of inky fluid when disturbed, and is able
+      to effect its escape under cover of this screen.
+    </p>
+    <p>
+      The German aviator has emulated the octopus. He carries not only explosive
+      bombs but smoke balls as well. When he is pursued and he finds himself in
+      danger of being overtaken, the Teuton aviator ignites these missiles and
+      throws them overboard. The aeroplane becomes enveloped in a cloud of thick
+      impenetrable smoke. It is useless to fire haphazard at the cloud, inasmuch
+      as it does not necessarily cover the aviator. He probably has dashed out
+      of the cloud in such a way as to put the screen between himself and his
+      pursuer.
+    </p>
+    <p>
+      In such tactics he has merely profited by a method which is practised
+      freely upon the water. The torpedo boat flotilla when in danger of being
+      overwhelmed by superior forces will throw off copious clouds of smoke.
+      Under this cover it is able to steal away, trusting to the speed of the
+      craft to carry them well beyond gunshot. The "smoke screen," as it is
+      called, is an accepted and extensively practised ruse in naval strategy,
+      and is now adopted by its mosquito colleagues of the air.
+    </p>
+    <p>
+      <a name="link2HCH0013" id="link2HCH0013">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XIII. TRICKS AND RUSES TO BAFFLE THE AIRMAN
+    </h2>
+    <p>
+      The airman has not been allowed to hold his undisputed sway in military
+      operations for long. Desperate situations demand drastic remedies and
+      already considerable and illuminating ingenuity is being displayed to
+      baffle and mislead the scout of the skies.
+    </p>
+    <p>
+      It is a somewhat curious and noteworthy fact, that the Germans were among
+      the first to realise the scope of the airman's activities, and the
+      significance of their relation to the conveyance of intimate information
+      and the direction of artillery fire. Consequently, they now spare no
+      effort to convey illusory information, in the hope that the hostile force
+      may ultimately make a false move which may culminate in disaster.
+    </p>
+    <p>
+      Thus, for instance, as much endeavour is bestowed upon the fashioning of
+      dummy trenches as upon the preparation of the actual lines of defence. And
+      every care will be taken to indicate that the former are strongly held.
+      The dug-outs are complete and at places are apparently cunningly masked.
+      If the airman is flying swiftly, he is likely to fail to distinguish the
+      dummy from the real trenches. To him the defences appear to be far more
+      elaborate and more strongly held than is the actual case.
+    </p>
+    <p>
+      The advantage of this delusion is obvious when a retreat is being made. It
+      enables the enemy to withdraw his forces deliberately and in perfect
+      order, and to assume another and stronger position comparatively at
+      leisure. The difficulty of detecting the dummies is emphasised, inasmuch
+      as now, whenever the sound of an aeroplane is heard, or a glimpse thereof
+      is obtained, the men keep well down and out of sight. Not a sign of
+      movement is observable. For all the airman may know to the contrary, the
+      trenches may be completely empty, whereas, as a matter of fact, they are
+      throbbing with alert infantry, anxious for a struggle with the enemy.
+    </p>
+    <p>
+      This is one instance where the dirigible is superior to the aeroplane. The
+      latter can only keep circling round and round over the suspicious
+      position; the movement through the air interferes with close continuous
+      observation. On the other hand, the dirigible can maintain a stationary
+      position aloft for hours on end. Then the issue is resolved into a contest
+      of patience, with the advantage to the airman. The soldiers in the
+      trenches fret and fume under cover; confined concealment is irksome and is
+      a supreme test of the nerves. Unless the soldiers are made of very stern
+      stuff, physical endurance succumbs. Some rash act&mdash;apparently very
+      trivial&mdash;may be committed; it suffices for the vigilant sentinel
+      overhead. He detects the slender sign of life, forms his own conclusions,
+      and returns to his headquarters with the intelligence that the enemy is
+      playing "Brer Rabbit."
+    </p>
+    <p>
+      It has also become increasingly difficult for the airman to gather
+      absolutely trustworthy data concerning the disposition and movement of
+      troops. Small columns are now strung out along the highways to convey the
+      impression that the moving troops are in far greater force than is
+      actually the case, while the main body is under the cover offered by a
+      friendly wood and is safe from detection. The rapidity with which
+      thousands of men are able to disappear when the word "Airman" is passed
+      round is astonishing. They vanish as completely and suddenly as if
+      swallowed by the earth or dissolved into thin air. They conceal themselves
+      under bushes, in ditches, lie prone under hedgerows, dart into houses and
+      outbuildings&mdash;in short, take every cover which is available, no
+      matter how slender it may seem, with baffling alacrity. The attenuated
+      column, however, is kept moving along the highway for the express purpose
+      of deceiving the airman.
+    </p>
+    <p>
+      Advancing troops also are now urged to move forward under the shelter of
+      trees, even if the task entails marching in single or double file, to
+      escape the prying eyes of the man above. By keeping close to the line of
+      trunks, thus taking full advantage of the overhanging branches, and
+      marching in such a manner as to create little dust, it is possible to
+      escape the aerial scout.
+    </p>
+    <p>
+      The concealment of cavalry, however, is somewhat difficult. An animal,
+      especially if he be unaccustomed to the noise of the aeroplane, is likely
+      to become startled, and to give vent to a frightened and vociferous
+      neighing which invariably provokes a hearty response from his equine
+      comrades. The sharp ear of the airman does not fail to distinguish this
+      sound above the music of his motor. Again, he has come to regard all
+      copses and stretches of undergrowth with suspicion. Such may or may not
+      harbour the enemy, but there is no risk in making an investigation. He
+      swoops down, and when a short distance above the apparently innocent
+      copse, circles round it two or three times. Still undecided, he finally
+      hurls a bomb. Its detonation invariably proves effective. The horses
+      stampede and the secret is out. Even foot soldiers must be severely
+      trained and experienced to resist the natural inclination to break cover
+      when such a missile is hurled into their midst.
+    </p>
+    <p>
+      Frequently a force, which has laboured under the impression that it is
+      safe from detection, has revealed its presence unwittingly and upon the
+      spur of the moment. If the men be steeled against the bomb attack, it is
+      almost impossible to resist the inclination to take a shot when the
+      airman, swooping down, ventures so temptingly near as to render him an
+      enticing target almost impossible to miss. As a rule, however, the
+      observer is on the alert for such a betrayal of a force's existence. When
+      the bomb fails to scatter the enemy, or the men are proof against the
+      temptation to fire a volley, a few rounds from the aeroplane's machine gun
+      often proves effective. If the copse indeed be empty no harm is done,
+      beyond the abortive expenditure of a few rounds of ammunition: if it be
+      occupied, the fruits of the manoeuvre are attractive. Cunning is matched
+      against cunning, and the struggle for supremacy in the art of craftiness
+      is keen.
+    </p>
+    <p>
+      The French Flying Corps have had recourse to an ingenious ruse for
+      accomplishing two ends&mdash;the one to draw concealed artillery fire, and
+      the other to pre-occupy the airmen. Two German aerial scouts observed a
+      French machine flying at a somewhat venturesome height over their masked
+      artillery. Divining the reason for the hostile intrepidity they gave
+      chase. Circling round the French machine they assailed it with machine-gun
+      fire. The enemy appeared to take no notice but continued his gradual
+      descent in a steady line.
+    </p>
+    <p>
+      Presently the German airmen, having drawn sufficiently near, observed that
+      the French aviator was inert. Had he been killed? Everything pointed to
+      such a conclusion, especially as they had raked the aeroplane fore and aft
+      with bullets. But still suspicious they continued their circling
+      movements, their attention so concentrated upon their quarry that they had
+      not observed another move. It was the crash of guns from their masked
+      artillery which broke in upon their absorption. Looking round, they
+      observed three French aeroplanes soaring around and above them at high
+      speed. Scarcely had they realised the situation before a spirited
+      mitraireuse fire was rained upon them. One of the German aeroplanes was
+      speedily disabled. Its fuel tank was riddled and it sank rapidly, finally
+      crashing to earth in the deadly dive head foremost, and killing both its
+      occupants in the fall. The second aeroplane hurried away with its pilot
+      wounded. In the excitement of the aerial melee the first French aeroplane
+      had been forgotten. It was now scarcely 100 feet above the German
+      artillery. A capture appeared to be imminent, but the Germans received a
+      rude surprise. Suddenly the aeroplane exploded and a hail of shrapnel
+      burst over the heads of the artillerymen.
+    </p>
+    <p>
+      The circumstance was decidedly uncanny, but after two or three such
+      experiences of exploding aeroplanes the matter was explained. The
+      apparently helpless aeroplane was merely a glider, which, instead of
+      carrying a man, had a booby-trap aboard.
+    </p>
+    <p>
+      It appears that the French airmen have found a use for the aeroplanes
+      which are considered unsafe for further use. The motor and propeller are
+      removed and the dummy of explosives is strapped into position. The laden
+      glider is then taken aloft by means of an airship, and in the concealment
+      of the clouds is released, the rudder being so set as to ensure a gradual
+      vol-plane towards the suspicious position below. The explosive cargo is
+      set with a time fuse, the arrangement being that the contents will be
+      detonated while the machine is near the ground, unless this end is
+      accelerated by a well-planted shell from an anti-aircraft gun. The decoy
+      glider is generally accompanied by one or two aeroplanes under control,
+      which keep under the cover of the clouds until the hostile aviators have
+      been drawn into the air, when they swoop down to the attack. The raiders
+      are fully aware that they are not likely to become the target of fire from
+      the ground, owing to the fact that the enemy's artillery might hit its
+      friends. Consequently the antagonistic airmen are left to settle their own
+      account. In the meantime the dummy machine draws nearer to the ground to
+      explode and to scatter its death-dealing fragments of steel, iron, and
+      bullets in all directions.
+    </p>
+    <p>
+      Possibly in no other phase of warfare is subterfuge practised so
+      extensively as in the concealment of guns. The branches of trees
+      constitute the most complete protection and guns are placed in position
+      beneath a liberal cover of this character. The branches also offer a
+      screen for the artillerymen, who can lurk beneath this shelter until the
+      aeroplane has passed. To complete the illusion dummy guns fashioned from
+      tree trunks and the wheels of useless limbers are rigged up, and partially
+      hidden under branches, the idea being to convey the impression to the man
+      aloft that they are the actual artillery.
+    </p>
+    <p>
+      The aerial scout observes the dummies beneath the sparse covering of
+      branches. Congratulating himself upon his sharp eyesight, he returns to
+      his base with the intelligence that he has found the enemy's guns he
+      indicates their position upon the map, and in some cases returns to notify
+      the position of the weapons by smoke-ball or tinsel, when they are
+      immediately subjected to a severe bombardment. He follows the shell-fire
+      and sees the arms put out of action. He returns to camp satisfied with his
+      exploit, oblivious of the smiles and laughter of the hostile artillerymen,
+      who have their guns safely in position and well masked some distance away.
+      The dummies are imperfectly concealed purposely, so that they may be
+      discovered by the aerial scout, while the real guns are completely masked
+      and ready to belch forth from another point. In one or two cases the
+      dummies have been rigged up in such a manner as to convey the impression,
+      when seen from aloft, that a whole battery has been put out of action,
+      barrels and wheels as well as broken limbers strewing the ground in all
+      directions.
+    </p>
+    <p>
+      Moving masses of soldiers are also resorting to cunning in order to
+      mislead the airman or to escape his observation. At the battle of Haelen,
+      during which engagement the German warplanes were exceptionally active,
+      the Belgian soldiers covered their heads with bundles of wheat snatched
+      from the standing stooks, and under this cover lurked in a field where the
+      corn was still standing. From aloft their forms defied detection: the
+      improvised headgear completely covered them and blended effectively with
+      the surrounding wheat. In another instance the French misled a German
+      airman somewhat effectively. What appeared to be cavalry was seen to be
+      retreating along the country road, and the airman returned hurriedly to
+      report. A German squadron was dispatched in hasty pursuit. But as it
+      rounded a copse skirting the road it received a murderous fire at close
+      quarters, which decimated the ranks and sent the survivors flying for
+      their lives along the road up which they had ridden so confidently. Had
+      the aviator been in a position to observe the horses more closely, he
+      would have found that what appeared to be riders on their backs were in
+      reality sacks stuffed with straw, dressed in old uniforms, and that a mere
+      handful of men were driving the animals forward. The cavalrymen had
+      purposely dismounted and secreted themselves in the wood in anticipation
+      of such a pursuit as was made.
+    </p>
+    <p>
+      While the Germans do not appear to be so enterprising in this form of
+      ingenuity they have not been idle. A French airman flying over the Teuton
+      lines observed the outermost trenches to be alive with men whose helmets
+      were distinctly visible. The airman reported his observations and the
+      trench was subjected to terrific shell fire. Subsequently the French made
+      a spirited charge, but to their dismay found that the outermost German
+      trench was occupied by dummies fashioned from all sorts of materials and
+      crowned with helmets! This ruse had enabled the German lines to be
+      withdrawn to another position in safety and comparatively at leisure.
+    </p>
+    <p>
+      Before war was declared the German military experts were emphasising the
+      importance of trees for masking troops and guns against aerial
+      observation. One of the foremost authorities upon military aviation only a
+      few months ago urged the German Military Staff to encourage the planting
+      of orchards, not for the purpose of benefiting agriculture or in the
+      interests of the farmers, but merely for military exigencies.
+    </p>
+    <p>
+      He pointed to the extensive orchards which exist in Alsace-Lorraine and
+      Baden, the military covering value of which he had determined from
+      personal experience, having conducted aerial operations while military
+      were moving to and fro under the cover of the trees. He declared that the
+      cover was efficient and that under the circumstances the laying out of
+      extensive orchards in strategical places should be carried out without any
+      delay. This, he urged, was a national and not a private obligation. He
+      advocated the bestowal of subsidies on the farmers to encourage the
+      planting of fruit trees. He suggested that the trees should be provided by
+      the State, and given to all who were prepared to plant them; that
+      substantial prizes should be awarded to encourage the rapid growth
+      thereof, and that annual prizes should be awarded to the man who would
+      undertake their cultivation and pruning, not from the fruit-yielding point
+      of view, but for facilitating the movement of troops beneath their dense
+      branches.
+    </p>
+    <p>
+      He even urged the military acquisition of suitable land and its
+      determined, skilful, and discreet exploitation by those who loved the
+      Fatherland. He emphasised the necessity for keeping such orchards under
+      military control, only vouchsafing sufficient powers to the local
+      authorities to ensure the desired consummation. He maintained that, if the
+      work were prosecuted upon the right lines and sufficient financial
+      assistance were given, the purpose in view could be achieved without
+      saddling the war department with any unremunerative or excessive burden.
+      He admitted that the process of raising fruit trees to the stage when they
+      would afford adequate cover would be tedious and somewhat prolonged, but
+      argued that the military advantages, such as enabling troops to move below
+      the welcome shelter with absolute freedom and without physical fatigue,
+      would be an ample compensation.
+    </p>
+    <p>
+      The utility of such cover to artillery was another factor he did not fail
+      to emphasise. He dwelt seriously upon the difficulty of rendering
+      permanent gun emplacements and heavy artillery invisible to the airman by
+      resort to the usual type of gun shields. The latter may be located with
+      ease by alert airmen, whereas if the guns were under cover of fruit trees
+      they would be able to accomplish their deadly mission without betraying
+      their presence to the aerial scout. Moreover, by pruning the trees in such
+      a manner as to ensure free movement beneath, the artillery would be able
+      to advance without betraying the fact to the enemy.
+    </p>
+    <p>
+      This authority vigorously insisted that the work should be carried out
+      without a moment's delay as it was vital to the Fatherland. In the light
+      of recent events, and the excellent cover which is offered by the orchards
+      of the territory he cited as an illustration of his contention, such a
+      disclosure is pregnant with meaning. It throws a new light upon the
+      thorough methods with which the Germans carried out their military
+      preparations, and incidentally shows that they were fully alive to every
+      possible development. Fruit-raising as a complement to military operations
+      may be a new line of discussion, but it serves to reveal the German in his
+      true light, ready for every contingency, and shows how thoroughly he
+      appreciates the danger from the man in the clouds.
+    </p>
+    <p>
+      <a name="link2HCH0014" id="link2HCH0014">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XIV. ANTI-AIRCRAFT GUNS. MOBILE WEAPONS.
+    </h2>
+    <p>
+      When the airship and the aeroplane became accepted units of warfare it was
+      only natural that efforts should be concentrated upon the evolution of
+      ways and means to compass their destruction or, at least, to restrict
+      their field of activity. But aircraft appeared to have an immense
+      advantage in combat. They possess virtually unlimited space in which to
+      manoeuvre, and are able to select the elevation from which to hurl their
+      missiles of destruction.
+    </p>
+    <p>
+      There is another and even more important factor in their favour. A
+      projectile fired, or even dropped, from a height, say of 5,000 feet, is
+      favourably affected by the force of gravity, with the result that it
+      travels towards the earth with accumulating energy and strikes the ground
+      with decisive force.
+    </p>
+    <p>
+      On the other hand, a missile discharged into space from a weapon on the
+      earth has to combat this action of gravity, which exercises a powerful
+      nullifying influence upon its flight and velocity, far in excess of the
+      mere resistance offered by the air. In other words, whereas the projectile
+      launched from aloft has the downward pull of the earth or gravitational
+      force in its favour, the shell fired from the ground in the reverse
+      direction has to contend against this downward pull and its decelerating
+      effect.
+    </p>
+    <p>
+      At the time when aircraft entered the realms of warfare very little was
+      known concerning the altitudes to which projectiles could be hurled
+      deliberately. Certain conclusive information upon this point was available
+      in connection with heavy howitzer fire, based on calculations of the
+      respective angles at which the projectile rose into the air and fell to
+      the ground, and of the time the missile took to complete its flight from
+      the gun to the objective. But howitzer fire against aircraft was a sheer
+      impossibility: it was like using a six-inch gun to kill a fly on a window
+      pane at a thousand yards' range. Some years ago certain experiments in
+      aerial firing with a rifle were undertaken in Switzerland. The weapon was
+      set vertically muzzle upwards and discharged. From the time which elapsed
+      between the issue of the bullet from the muzzle until it struck the earth
+      it was possible to make certain deductions, from which it was estimated
+      that the bullet reached an altitude of 600 feet or so. But this was merely
+      conjecture.
+    </p>
+    <p>
+      Consequently when artillerists entered upon the study of fighting
+      air-craft with small arms and light guns, they were compelled to struggle
+      in the dark to a very pronounced extent, and this darkness was never
+      satisfactorily dispelled until the present war, for the simple reason that
+      there were no means of getting conclusive information. The German armament
+      manufacturers endeavoured to solve the problem by using smoking shells or
+      missiles fitted with what are known as tracers. By following the
+      ascensional path of the projectiles as revealed by the smoke it was
+      possible to draw certain conclusions. But these were by no means
+      convincing or illuminating, as so many factors affected the issue.
+    </p>
+    <p>
+      Despite the peculiar and complex difficulties associated with the problem
+      it was attacked some what boldly. In this trying field of artillery
+      research the prominent German armament manufacturers, Krupp of Essen and
+      Ehrhardt of Dusseldorf, played a leading part, the result being that
+      before the airship or the aeroplane was received within the military fold,
+      the anti-aircraft gun had been brought into the field of applied science.
+      The sudden levelling-up serves to illustrate the enterprise of the Germans
+      in this respect as well as their perspicacity in connection with the
+      military value of aircraft.
+    </p>
+    <p>
+      Any gun we can hope to employ against aircraft with some degree of success
+      must fulfil special conditions, for it has to deal with a difficult and
+      elusive foe. Both the lighter-than-air and the heavier than-air craft
+      possess distinctive features and varying degrees of mobility. Taking the
+      first-named, the facility with which it can vary its altitude is a
+      disconcerting factor, and is perplexing to the most skilful gunner,
+      inasmuch as he is called upon to judge and change the range suddenly.
+    </p>
+    <p>
+      On the other hand, the artilleryman is favoured in certain directions. The
+      range of utility of the airship is severely limited. If its avowed mission
+      is reconnaissance and conclusive information concerning the disposition of
+      forces, artillery and so forth is required, experience has proved that
+      such work cannot be carried out satisfactorily or with any degree of
+      accuracy at a height exceeding 5,000 feet, and a distance beyond six
+      miles. But even under these circumstances the climatic conditions must be
+      extremely favourable. If the elements are unpropitious the airship must
+      venture nearer to its objective. These data were not difficult to collect,
+      inasmuch as they were more or less available from the results of military
+      observations with captive balloons, the conditions being somewhat similar.
+      With the ordinary captive balloon it has been found that, in clear
+      weather, a radius of about 3 3/4 miles at the maximum elevation
+      constitutes its range of reliable utility.
+    </p>
+    <p>
+      With the aeroplane, however, the conditions are very dissimilar. In the
+      first place the machine owing to its diminutive size as compared with the
+      airship, offers a small and inconspicuous target. Then there is its high
+      independent speed, which is far beyond that of the airship. Furthermore
+      its mobility is greater. It can wheel, turn sharply to the right or to the
+      left, and pursue an irregular undulating flight in the horizontal plane,
+      which renders it well nigh impossible for a gunner to pick it up. The
+      machine moves at a higher relative speed than that at which the gun can be
+      trained. It is the rapid and devious variation which so baffles the
+      gunner, who unless he be highly skilled and patient, is apt to commence to
+      fire wildly after striving for a few moments, and in vain, to pick up the
+      range; he trusts to luck or depends upon blind-shooting, which invariably
+      results in a waste of ammunition.
+    </p>
+    <p>
+      A gun, to be of tangible destructive efficiency when directed against
+      aircraft, especially those depending upon the gas-bag for equilibrium,
+      must be of special design. It must be capable of firing at an angle only a
+      few degrees less than the absolute vertical, and in order to follow the
+      rapid and involved movements of its objective, must be so mobile that it
+      can be trained through a complete circle at any angle of inclination less
+      than its maximum. At the same time, if the weapon is being used in field
+      operations it must be mounted upon a carriage of adequate mobility to
+      enable it to follow the airship, and thereby keep pace with the latter, so
+      that the aerial craft may be sorely harassed if not actually hit. The
+      automobile is the obvious vehicle for this duty, and it has accordingly
+      been extensively used in this service.
+    </p>
+    <p>
+      The automobile and the gun mounted thereon follow widely different lines.
+      Some vehicles are designed especially for this duty, while others are
+      improvisations, and be it noted, in passing, that many of the latter have
+      proved more serviceable than the former. Still, the first-named is to be
+      preferred, inasmuch as necessarily it is designed to meet the all-round
+      requirements imposed, and consequently is better able to stand up to the
+      intended work, whereas the extemporised vehicle is only serviceable under
+      favourable conditions.
+    </p>
+    <p>
+      The Krupp Company has evolved many designs of anti-aircraft motor-driven
+      guns&mdash;"Archibalds" the British airmen term them with emphatic levity.
+      They are sturdily-built vehicles fitted with heavy motors, developing from
+      40 to 50 horse-power, with the chassis not widely dissimilar from that
+      adopted for motor-omnibus traffic. Consequently, they are not necessarily
+      condemned to the high-roads, but within certain limits are able to travel
+      across country, i.e., upon fields or other level expanses, where the soil
+      is not unduly soft.
+    </p>
+    <p>
+      But the very character of the problem rendered the evolution of the
+      vehicle a somewhat perplexing matter. There were many factors which had to
+      be taken into consideration, and it was possible to meet the imposed
+      requirements only within certain limits. In the first place, the weight of
+      the gun itself had to be kept down. It was obviously useless to overload
+      the chassis. Again, the weight of the projectile and its velocity had to
+      be borne in mind. A high velocity was imperative. Accordingly, an initial
+      velocity varying from 2,200 to 2,700 feet per second, according to the
+      calibre of the gun, was determined.
+    </p>
+    <p>
+      Moreover, as mobility was an indispensable condition, the gun had to be so
+      mounted that it could be fired from the motor-car even if the latter were
+      travelling at high speed. This requirement entailed another difficulty.
+      The gun had to be mounted in such a manner as to enable the gunner to
+      train it easily and readily through the complete circle and through its
+      complete range of vertical inclination. As the result of prolonged
+      experiments it was ascertained that the most suitable arrangement was a
+      pedestal mounting, either within a turret or upon an open deck. To meet
+      the weight of the gun, as well as the strains and stresses incidental to
+      firing, the chassis was strengthened, especially over the rear axle near
+      which the mounting is placed.
+    </p>
+    <p>
+      The heaviest gun of this type is the 10.5 centimetre (4 1/4-inch)
+      quick-firer, throwing a shell weighing nearly forty pounds, with an
+      initial velocity of 2,333 feet per second. This "Archibald" is totally
+      unprotected. The gun is mounted centrally upon the carriage over the rear
+      axle, and occupies the centre of the deck between the driver's seat and
+      that of the gun crew behind. The whole of the deck is clear, thereby
+      offering no obstruction to the gunner in training the weapon, while the
+      space may be widened by dropping down the wings of the vehicle. At the
+      rear is a seat to accommodate the gun crew, beneath which the ammunition
+      is stowed. When travelling and out of action, the gun lies horizontally,
+      the muzzle pointing from the rear of the car.
+    </p>
+    <p>
+      To reduce the strains arising from firing, the arm is fitted with what is
+      known as the "differential recoil." Above the breach is an air recuperator
+      and a piston, while there is no hydraulic brake such as is generally used.
+      The compressor is kept under compression while the car is travelling with
+      the gun out of action, so that the arm is available for instant firing.
+      This is a departure from the general practice in connection with such
+      weapons. When the gun is loaded the bolt which holds the compressor back
+      is withdrawn, either by the hand for manual firing, or by the action of
+      the automatic closing of the breech when the arm is being used as a
+      quick-firer. In firing the gun is thrown forward under the pressure of the
+      released air which occurs at the moment of discharge. The energy of the
+      recoil brings the gun back and at the same time recharges the compressed
+      air reservoir.
+    </p>
+    <p>
+      The gun is so mounted upon its pedestal as to enable a maximum vertical
+      inclination of 75 degrees to be obtained. The mounting system also enables
+      the weapon to be trained in any desired direction up to the foregoing
+      maximum elevation throughout a complete circle, and it can be handled with
+      ease and celerity. A smaller "Archibald" is the 7.5 centimetre (3-inch
+      gun) throwing a 14.3 pound shell at an initial velocity of about 2,170
+      feet per second.
+    </p>
+    <p>
+      The turret anti-aircraft gun carried upon a motor-car differs from the
+      foregoing very considerably. This is a protected arm. The gun of 7.1
+      centimetres&mdash;approximately 2.75 inches&mdash;is mounted in the same
+      manner upon the car-deck and over the driving axle, but is enclosed within
+      a sheet steel turret, which is proof against rifle and machine-gun fire.
+      This turret resembles the conning-tower of a battleship, and is
+      sufficiently spacious to house the whole of the gun crew, the internal
+      diameter being about seven feet. Access to the turret is obtained through
+      a rear door. This gun has a maximum elevation of about 75 degrees, while
+      its operation and mechanism are similar to those of the unprotected
+      weapon.
+    </p>
+    <p>
+      The vehicle itself is practically identical with the armoured motor-car,
+      which has played such an important part during the present campaign, the
+      driver being protected by a bullet-proof steel screen similar in design to
+      the ordinary glass wind-screen fitted to touring automobiles. This is
+      carried sufficiently high to offer complete protection to his head when
+      seated at the wheel, while through a small orifice in this shield he is
+      able to obtain a clear view of the road. The engine and its vital parts
+      are also adequately protected. The ammunition is carried in a
+      cupboard-like recess forming part of the driver's seat, encased in
+      bullet-proof steel sheeting with flap-doors. This device enables the
+      shells to be withdrawn readily from the side of the car and passed to the
+      crew within the turret. The caisson is of sufficient dimensions to receive
+      69 shells.
+    </p>
+    <p>
+      The Ehrhardt airship fighting ordnance is similarly adapted to motor-car
+      operations, one type being especially powerful. The whole of the vehicle
+      is encased in armour-plating impervious to rifle and machine-gun fire. The
+      driver is provided with a small orifice through which he is able to obtain
+      a clear uninterrupted view of the road ahead, while the armouring over the
+      tonneau is carried to a sufficient height to allow head-room to the gun
+      crew when standing at the gun. All four wheels are of the disk type and
+      fashioned from heavy sheet steel. The motor develops 40-50 horse-power
+      and, in one type, in order to mitigate the risk of breakdown or
+      disablement, all four wheels are driven. The gun, a small quick-firer, is
+      mounted on a pedestal in a projecting conning-tower. The mounting is
+      placed behind the driver's seat, and is trained and operated from the
+      tonneau. The maximum elevation is 75 degrees, and like the gun carriage
+      bearing the tube guide it can be moved through a complete circle, being
+      free to rotate in the fixed pivot jack to enable this end to be attained.
+    </p>
+    <p>
+      The foregoing may be said to represent the most powerful types of mobile
+      anti-aircraft weapons used by the Austro-German forces to-day. Arms of
+      similar design, roughly speaking, have also been introduced into the
+      French and Russian services. In addition many semi-armoured weapons of
+      this character are in operation, some specially built for the work, while
+      others have been improvised. In the semi-armoured motor-car the carriage
+      follows the usual lines; it has an open top, the armouring comprising the
+      body of the tonneau and the diskwheels, which are made of light
+      bullet-proof steel. Here again the prevailing practice is to mount the gun
+      as nearly above the rear axle as possible, and to work it from the
+      tonneau. The maximum elevation is also 75 degrees, with training
+      throughout the entire circle.
+    </p>
+    <p>
+      Another type comprises a very light machine gun of rifle calibre, and this
+      is intended for attachment to an ordinary motor car. There is a pedestal
+      mounting which can be set within the tonneau, while the weapon is pivoted
+      in an outrigger, the latter being free to rotate in its pivot jack. This
+      arrangement enables the arm to cover a wide range, while it also admits of
+      training through an extensive angle of elevation.
+    </p>
+    <p>
+      The Allied forces improvised travelling anti-aircraft offences by mounting
+      the latest types of Vickers, Hotchkiss, and other machine guns in armoured
+      motor cars. Some of these have the domed turret form, with the gun
+      projecting through the roof, while others are protected against hostile
+      attack from the side only, the carriage being panelled with bullet-proof
+      steel sheeting. While such weapons are useful, inasmuch as they can
+      maintain a hot fire ranging up to 750 shots per minute, they are not to be
+      compared with the "Archibalds," which are able to throw heavy shrapnel and
+      incendiary shells, and have a vertical range of about 6,000 to 8,000 feet.
+    </p>
+    <p>
+      The improvised motor-gun has not proved a complete success, except in
+      those instances when the hostile aircraft has ventured to approach
+      somewhat closely to the ground. The more formidable weapons cannot be
+      mounted upon ordinary vehicles, inasmuch as the increase in weight, which
+      is appreciable, impairs the efficiency of the vehicle, and at the same
+      time enhances the possibility of breakdown at a critical moment. For such
+      arms a special and substantial chassis is imperative, while the motive
+      power and gearing must be adapted to the circumstances.
+    </p>
+    <p>
+      Motor-mounted anti-aircraft weapons, however, have not proved an
+      unqualified success. The fact that the vehicles are condemned to the high
+      roads, or at least to comparatively smooth and level ground, constitutes a
+      severe handicap. Again, when travelling at high speed, and this is
+      essential when pursuing a fast aeroplane, the accurate laying of the
+      weapon is extremely difficult, owing to the oscillation of the vehicle
+      itself, especially if the road surface is in a bad condition. The sighting
+      arrangements are of a wonderfully complete character, as described
+      elsewhere, but the irregular rolling movement arising from high speed is a
+      nullifying quantity. It is tolerably easy for the aircraft, especially an
+      aeroplane, to evade successful pursuit, either by rising to an elevation
+      beyond the range of the gun, or by carrying out baffling evolutions such
+      as irregular undulating flight, wheeling, and climbing. According to the
+      reports of the British and French airmen the "Archibald" has failed to
+      establish the glowing reputation which was anticipated, for the simple
+      reason that, unless it has a clear straight road and can maintain its high
+      speed, it can easily be out-distanced by the fleet human bird.
+    </p>
+    <p>
+      The motor-car suffers from another serious disability. It cannot manoeuvre
+      with sufficient celerity. For instance, if it is necessary to turn round
+      in a narrow lane, valuable time is lost in the process, and this the
+      airman turns to account. In hilly country it is at a still greater
+      disadvantage, the inclines, gradients, and sinuosities of the roads
+      restricting its effectiveness very pronouncedly. It must also be
+      remembered that, relatively speaking, the "Archibald" offers a better
+      target to the airman than the aeroplane offers to the man behind the
+      anti-aircraft gun on the motor below. A few well-placed bombs are
+      sufficient to induce the pursuers to cease their activities. Even if the
+      missiles fail to strike the motor-car itself they can wreak disaster in
+      directly by rendering the road impassable or dangerous to negotiate at
+      high speed. On the whole therefore, the "Archibald" is a greatly
+      exaggerated weapon of offence against aircraft, and, so far as is known,
+      has failed to fulfil expectations. In fact, the Germans have practically
+      abandoned the idea of using it in the manner of a pursuing arm; they work
+      the weapon as a fixture, depending upon the car merely as a means of
+      moving it from point to point. Thus, in reality, it has been converted
+      into a light field-piece, and may almost be included in the category of
+      fixed weapons for combating aerial operations.
+    </p>
+    <p>
+      <a name="link2HCH0015" id="link2HCH0015">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XV. ANTI-AIRCRAFT GUNS. IMMOBILE WEAPONS
+    </h2>
+    <p>
+      The immobile anti-aircraft gun, as distinct from that attached to a
+      travelling carriage such as a motor-car, may be subdivided into two
+      classes. The one is the fixed arm which cannot be moved readily, mounted
+      upon a permanent emplacement; the other is the field-piece which, while
+      fired from a stationary position, may be moved from point to point upon a
+      suitable carriage. The distinction has its parallel in ordinary artillery,
+      the first-named weapon coinciding with the heavy siege gun, which is built
+      into and forms part and parcel of the defensive or offensive scheme, while
+      the second is analogous to the field artillery, which may be wheeled from
+      position to position.
+    </p>
+    <p>
+      In this phase of artillery the Germans led the way, for the simple reason
+      that they recognised the military value of aerial navigation years in
+      advance of their contemporaries. Again, in this field the Krupp
+      Organisation has played a prominent part. It embarked upon actual
+      construction of weapons while its rivals in other countries were content
+      to prepare their drawings, which were filed against "The Day." But it must
+      not be thought that because the German manufacturers of armaments were
+      ahead of their contemporaries they dominated the situation. Far from it.
+      Their competitors in the market of destruction were every whit as keen, as
+      ingenious, and as enterprising. Kruppism saw a commercial opportunity to
+      profit from advertisement and seized it: its rivals were content to work
+      in secret upon paper, to keep pace with the trend of thought, and to
+      perfect their organisations so as to be ready for the crisis when it
+      developed.
+    </p>
+    <p>
+      The first Krupp anti-aircraft field-piece was a 6.5 centimetre (2 9/16
+      inch) arm. It possessed many interesting features, the most salient of
+      which was the design of the axle of the carriage. The rigid axle for the
+      two wheels was replaced by an axle made in two sections, and joined
+      together in the form of a universal coupling, so that each wheel virtually
+      possessed its own axle, or rather half-axle. This was connected with the
+      cradle of the gun in such a manner that the wheels were laterally pivoted
+      thereon.
+    </p>
+    <p>
+      The result is that each axle can be turned forward together with its
+      wheel, and thus the wheels have their rims brought into line to form an
+      arc of a circle, of which the rear end of the spade of the gun carriage
+      constitutes the centre. This acts as a pivot, about which the gun can be
+      turned, the pair of wheels forming the runners for the achievement of this
+      movement. The setting of the weapon in the firing position or its
+      reversion to the travelling position can be easily and speedily effected
+      merely by the rotation of a handwheel and gearing.
+    </p>
+    <p>
+      With this gun a maximum elevation of 60 degrees is possible, owing to the
+      trunnions being carried well behind the breech in combination with the
+      system of long steady recoil. The balancing spring which encloses the
+      elevating screw is contained in a protected box. The recoil brake,
+      together with the spring recuperator, follows the usual Krupp practice in
+      connection with ordinary field pieces, as does also the automatic
+      breech-closing and firing mechanism. In fact there is no pronounced
+      deviation from the prevailing Krupp system, and only such modifications as
+      are necessary to adapt the arm to its special duty. When the gun is
+      elevated to high angles the shell, after insertion the breech is prevented
+      from slipping out by means of a special device, so that the proper and
+      automatic closing of the breech is not impaired in any way.
+    </p>
+    <p>
+      In such an arm as this, which is designed essentially for high-angle
+      firing, the sighting and training facilities require to be carried out
+      upon special lines, inasmuch as the objective is necessarily at a
+      considerable altitude above the horizon of the gun. In other words, in
+      firing at a high inclination, distance between the gun and the target
+      cannot be utilised directly for the back sight. On the other hand, it is
+      essential that in proportion as the angle from the horizontal increases,
+      the back sight should be lowered progressively in a manner corresponding
+      to the distance.
+    </p>
+    <p>
+      To assist the range-finder in his task of sighting it is necessary that he
+      should be provided with firing tables set out in a convenient form, which,
+      in conjunction with the telemeter, serve to facilitate training for each
+      successive round. In this way it is possible to pick up the range quickly
+      and to keep the objective in the line of fire until it either has been put
+      hors de combat, or has succeeded in retiring beyond the range of the gun.
+    </p>
+    <p>
+      The sighting arrangements of these Krupp anti-aircraft guns are carried
+      out upon these lines. Beneath the barrel of the back-sight is an observing
+      glass with an eye-piece for the artillerist, while above and behind the
+      observing glass is another eye-piece, to be used in conjunction with the
+      manipulation of the back-sight. The eye-piece of the observation glass is
+      so made that it can be turned through a vertical plane in proportion as
+      the angle of fire increases in relation to the horizontal. The
+      determination of the distance from the objective and from the
+      corresponding back-sight as well as the observation of the altitude is
+      carried out with the aid of the telemeter. This again carries an
+      observation glass fitted with an eye-piece which can be turned in the
+      vertical plane in the same manner as that of the fore-sight. By means of
+      this ingenious sighting device it is possible to ascertain the range and
+      angle of fire very easily and speedily.
+    </p>
+    <p>
+      The weight of the special Krupp anti-aircraft field-piece, exclusive of
+      the protecting shield, is approximately identical with that of the
+      ordinary light artillery field-piece. It throws a shell weighing 8.8
+      pounds with an initial velocity of about 2,066 feet per second.
+    </p>
+    <p>
+      Although the German armament manufacturers were among the first to enter
+      the field with an anti-aircraft gun of this character they were speedily
+      followed by the French, who devised a superior weapon. In fact, the latter
+      represented such a decisive advance that the German artillerists did not
+      hesitate to appropriate their improvements in sundry essential details,
+      and to incorporate them with their own weapons. This applies especially to
+      the differential recoil system which is utilised in the small
+      anti-aircraft guns now mounted upon the roofs of high buildings of cities
+      throughout Germany for the express purpose of repelling aerial attack.
+    </p>
+    <p>
+      The French system is admitted by the leading artillery technicians of the
+      world to be the finest which has ever been designed, its remarkable
+      success being due to the fact that it takes advantage of the laws of
+      Nature. In this system the gun is drawn back upon its cradle preparatory
+      to firing. In some instances the barrel is compressed against a spring,
+      but in the more modern guns it is forced to rest against a cushion of
+      compressed air contained within a cylinder. When first bringing the gun
+      into action, the barrel is brought into the preliminary position by
+      manually compressing the air or spring by means of a lever. Thereafter the
+      gun works automatically. When the gun is fired the barrel is released and
+      it flies forward. At a critical point in its forward travel the charge is
+      fired and the projectile speeds on its way. The kick or recoil serves to
+      arrest the forward movement of the barrel and finally drives it back again
+      against the strong spring or cushion of compressed air within the cylinder
+      to its normal position, when it is ready for the introduction of the next
+      shell.
+    </p>
+    <p>
+      The outstanding feature of this system is that the projectile is given a
+      higher initial velocity than is possible with the barrel held rigid at the
+      moment of discharge, because the shell is already travelling at the moment
+      of firing.
+    </p>
+    <p>
+      The fixed anti-aircraft guns such as are stationed upon eminences and
+      buildings are of the quick firing type, the object being to hurl a steady,
+      continuous stream of missiles upon the swiftly moving aeroplane. Some of
+      the weapons throw a one-pound shell and are closely similar to the pom-pom
+      which proved so effective during the South African war. Machine guns also
+      have been extensively adopted for this duty by all the combatants, their
+      range of approximately 2,000 yards and rapidity of fire being distinctly
+      valuable when hostile aircraft descend to an altitude which brings them
+      within the range of the weapon.
+    </p>
+    <p>
+      The greatest difficulty in connection with this phase of artillery,
+      however, is not so much the evolution of a serviceable and efficient type
+      of gun, as the determination of the type of projectile which is likely to
+      be most effective. While shrapnel is employed somewhat extensively it has
+      not proved completely satisfactory. It is difficult to set the timing fuse
+      even after the range has been found approximately, which in itself is no
+      easy matter when the aircraft is moving rapidly and irregularly, but
+      reliance is placed thereon in the hope that the machine may happen to be
+      within the cone of dispersion when the shell bursts, and that one or more
+      of the pieces of projectile and bullets may chance to penetrate either the
+      body of the airman or a vital part of the mechanism.
+    </p>
+    <p>
+      It is this uncertainty which has led to a preference for a direct missile
+      such as the bullet discharged from a machine gun. A stream of missiles,
+      even of rifle calibre, maintained at the rate of some 400 shots per minute
+      is certain to be more effective, provided range and aim are correct, than
+      shrapnel. But the ordinary rifle-bullet, unless the objective is within
+      very close range, is not likely to cause much harm, at least not to the
+      mechanism of the aerial vessel.
+    </p>
+    <p>
+      It is for this reason that greater attention is being devoted, especially
+      by the French artillerists, to the Chevalier anti-aircraft gun, a weapon
+      perfected by a Swiss technician resident in Great Britain. It projects a
+      formidable missile which in fact is an armour-piercing bullet 1/2- to
+      3/4-inch in diameter. It is designed for use with an automatic machinegun,
+      which the inventor has devised more or less upon the well-known French
+      system. The bullet has a high velocity&mdash;about 2,500 feet per second&mdash;and
+      a maximum range of 6,000 to 8,000 feet at the maximum elevation. Should
+      such a missile strike the motor or other mechanism of the vessel it would
+      wreak widespread havoc, and probably cause the machine to come to earth.
+      This arm has been designed for the express purpose of disabling the
+      aeroplane, and not for the subjugation of the airman, which is a minor
+      consideration, inasmuch as he is condemned to a descent when his craft
+      receives a mortal wound.
+    </p>
+    <p>
+      Attempts have been and still are being made to adapt an explosive
+      projectile to this gun, but so far the measure of success achieved has not
+      proved very promising. There are immense difficulties connected with the
+      design of an explosive shell of this class, charged with a high explosive,
+      especially in connection with the timing. So far as dependence upon
+      percussive detonation is concerned there is practically no difficulty.
+      Should such a missile strike, say, the motor of an aeroplane, or even the
+      hull of the craft itself, the latter would be practically destroyed. But
+      all things considered, it is concluded that more successful results are
+      likely to be achieved by the armour-piercing bullet striking the mechanism
+      than by an explosive projectile.
+    </p>
+    <p>
+      The Krupp company fully realised the difficulties pertaining to the
+      projectile problem in attacks upon aerial craft. So far as dirigibles are
+      concerned shrapnel is practically useless, inasmuch as even should the bag
+      be riddled by the flying fragments, little effective damage would be
+      wrought&mdash;the craft would be able to regain its haven. Accordingly
+      efforts were concentrated upon the perfection of two new types of
+      projectiles, both of which were directed more particularly against the
+      dirigible. The one is the incendiary shell&mdash;obus fumigene&mdash;while
+      the other is a shell, the contents of which, upon coming into contact with
+      the gas contained within the gas-bag, set up certain chemical reactions
+      which precipitate an explosion and fire.
+    </p>
+    <p>
+      The incendiary shells are charged with a certain compound which is ignited
+      by means of a fuse during its flight. This fuse arrangement coincides very
+      closely with that attached to ordinary shrapnel, inasmuch as the timing
+      may be set to induce ignition at different periods, such as either at the
+      moment it leaves the gun, before, or when it strikes the envelope of the
+      dirigible. The shell is fitted with a "tracer," that is to say, upon
+      becoming ignited it leaves a trail of smoke, corresponding with the trail
+      of a rocket, so that its passage through the air may be followed with
+      facility. This shell, however, was designed to fulfil a dual. Not only
+      will it fire the gaseous contents out of the dirigible, but it has an
+      explosive effect upon striking an incombustible portion of the aircraft,
+      such as the machinery, propellers or car, when it will cause sufficient
+      damage to throw the craft out of action.
+    </p>
+    <p>
+      The elaborate trials which were carried out with the obus fumigene
+      certainly were spectacular so as they went. Two small spherical balloons,
+      10 feet in diameter, and attached to 1,000 feet of cable, were sent aloft.
+      The anti-aircraft guns themselves were placed about 5,100 feet distant.
+      Owing to the inclement weather the balloons were unable to attain a height
+      of more than 200 feet in a direct vertical line above the ground. The guns
+      were trained and fired, but the one balloon was not hit until the second
+      round, while the third escaped injury until the fifth round. When struck
+      they collapsed instantly. Though the test was not particularly conclusive,
+      and afforded no reliable data, one point was ascertained&mdash;the trail
+      of smoke emitted by the shell enabled its trajectory to be followed with
+      ease. Upon the conclusion of these trials, which were the most successful
+      recorded, quick-firing tests in the horizontal plane were carried out. The
+      best performance in this instance was the discharge of five rounds in
+      eight seconds. In this instance the paths of the projectiles were simple
+      and easy to follow, the flight of the shell being observed until it fell
+      some 18,670 feet away. But the Krupp firm have found that trials upon the
+      testing ground with a captive balloon differ very materially from stern
+      tests in the field of actual warfare. Practically nothing has been heard
+      of the two projectiles during this war, as they have proved an absolute
+      failure.
+    </p>
+    <p>
+      Some months ago the world was startled by the announcement that the
+      leading German armament firm had acquired the whole of the interest in an
+      aerial torpedo which had been evolved by the Swedish artillerist, Gustave
+      Unge, and it was predicted that in the next war widespread havoc would be
+      wrought therewith. Remarkable claims were advanced for this projectile,
+      the foremost being that it would travel for a considerable distance
+      through the air and alight upon the objective with infallible accuracy.
+      The torpedo in question was subjected to exacting tests in Great Britain,
+      which failed to substantiate all the claims which were advanced, and it is
+      significant to observe that little has been heard of it during the present
+      conflict. It is urged in certain technical quarters, however, that the
+      aerial torpedo will prove to be the most successful projectile that can be
+      used against aircraft. I shall deal with this question in a later chapter.
+    </p>
+    <p>
+      During the early days of the war anti-aircraft artillery appeared to be a
+      much overrated arm. The successes placed to its credit were insignificant.
+      This was due to the artillerymen being unfamiliar with the new arm, and
+      the conditions which prevail when firing into space. Since actual practice
+      became possible great advances in marksmanship have been recorded, and the
+      accuracy of such fire to-day is striking. Fortunately the airman possesses
+      the advantage. He can manoeuvre beyond the range of the hostile weapons.
+      At the moment 10,000 feet represents the extreme altitude to which
+      projectiles can be hurled from the arms of this character which are now in
+      use, and they lack destructiveness at that range, for their velocity is
+      virtually expended.
+    </p>
+    <p>
+      Picking up the range is still as difficult as ever. The practice followed
+      by the Germans serves to indicate the Teuton thoroughness of method in
+      attacking such problems even if success does not ensue. The favourite
+      German principle of disposing anti-aircraft artillery is to divide the
+      territory to be protected into equilateral triangles, the sides of which
+      have a length of about six miles or less, according to the maximum
+      effective range of the pieces at an elevation of 23 1/2 degrees.
+    </p>
+    <p>
+      The guns are disposed at the corners of the triangles as indicated in
+      Figs. 13-14. Taking the one triangle as an example, the method of picking
+      up the range may be explained as follows. The several guns at the comers
+      of the triangle, each of which can be trained through the 360 degrees in
+      the horizontal plane, are in telephonic touch with an observer O stationed
+      some distance away. The airman A enters the area of the triangle. The
+      observer takes the range and communicates with the gunner B, who fires his
+      weapon. The shell bursts at 1 emitting a red flame and smoke. The observer
+      notes the altitude and relative position of the explosion in regard to the
+      aircraft, while gunner B himself observes whether the shell has burst to
+      the right or to the left of the objective and corrects accordingly. The
+      observer commands C to fire, and another shell is launched which emits a
+      yellow flame and smoke. It bursts at 2 according to the observer, while
+      gunner C also notes whether it is to the right or to the left of the
+      target and corrects accordingly. Now gunner D receives the command to fire
+      and the shell which explodes at 3 throws off a white flame and smoke.
+      Gunner D likewise observes whether there is any deviation to right or left
+      of the target and corrects in a similar manner. From the sum of the three
+      rounds the observer corrects the altitude, completes his calculations, and
+      communicates his instructions for correction to the three gunners, who now
+      merely train their weapons for altitude. The objective is to induce the
+      shells hurled from the three corners of the triangle to burst at a common
+      point 4, which is considered to be the most critical spot for the aviator.
+      The fire is then practically concentrated from the three weapons upon the
+      apex of a triangular cone which is held to bring the machine within the
+      danger zone.
+    </p>
+    <p>
+      This method of finding the range is carried out quickly&mdash;two or three
+      seconds being occupied in the task. In the early days of the war the
+      German anti-aircraft artillerymen proved sadly deficient in this work, but
+      practice improved their fire to a marvellous degree, with the result that
+      at the moment it is dangerous for an aviator to essay his task within an
+      altitude of 6,000 feet, which is the range of the average anti-aircraft
+      gun.
+    </p>
+    <p>
+      The country occupied by a belligerent is divided up in this manner into a
+      series of triangles. For instance, a machine entering hostile territory
+      from the east, enters the triangle A-B-C, and consequently comes within
+      the range of the guns posted at the comers of the triangle. Directly he
+      crosses the line B-C and enters the adjacent triangle he passes beyond the
+      range of gun A but comes within the range of the gun posted at D, and
+      while within the triangular area is under fire from the guns B-C-D. He
+      turns and crosses the line A-C, but in so doing enters another triangle
+      A-C-E, and comes range of the gun posted at E.
+    </p>
+    <p>
+      The accompanying diagram represents an area of country divided up into
+      such triangle and the position of the guns, while the circle round the
+      latter indicate the training arc of the weapons, each of which is a
+      complete circle, in the horizontal plane. The dotted line represents the
+      aviator's line of flight, and it will be seen that no matter how he twists
+      and turns he is always within the danger zone while flying over hostile
+      territory. The moment he outdistances one gun he comes within range of
+      another.
+    </p>
+    <p>
+      The safety of the aviator under these circumstances depends upon his
+      maintaining an altitude exceeding the range of the guns below, the most
+      powerful of which have a range of 8,000 to 10,000 feet, or on speed
+      combined with rapid twisting and turning, or erratic undulating flight,
+      rendering it extremely difficult for the gun-layer to follow his path with
+      sufficient celerity to ensure accurate firing.
+    </p>
+    <p>
+      At altitudes ranging between 4,000 and 6,000 feet the aeroplane comes
+      within the range of rifle and machine-gun firing. The former, however,
+      unless discharged in volleys with the shots covering a wide area, is not
+      particularly dangerous, inasmuch as the odds are overwhelmingly against
+      the rifleman. He is not accustomed to following and firing upon a rapidly
+      moving objective, the result being that ninety-nine times out of a hundred
+      he fails to register a hit. On the other hand the advantage accruing from
+      machine-gun fire is, that owing to the continuous stream of bullets
+      projected, there is a greater possibility of the gun being trained upon
+      the objective and putting it hors de combat.
+    </p>
+    <p>
+      But, taking all things into consideration, and notwithstanding the
+      achievements of the artillerist, the advantages are overwhelmingly on the
+      side of the aviator. When one reflects upon the total sum of aircraft
+      which have been brought to earth during the present campaign, it will be
+      realised that the number of prizes is insignificant in comparison with the
+      quantity of ammunition expended.
+    </p>
+    <p>
+      <a name="link2HCH0016" id="link2HCH0016">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XVI. MINING THE AIR
+    </h2>
+    <p>
+      While the anti-aircraft gun represents the only force which has been
+      brought to the practical stage for repelling aerial attack, and
+      incidentally is the sole offensive weapon which has established its
+      effectiveness, many other schemes have been devised and suggested to
+      consummate these ends. While some of these schemes are wildly fantastic,
+      others are feasible within certain limitations, as for instance when
+      directed against dirigibles.
+    </p>
+    <p>
+      It has been argued that the atmosphere is akin to the salt seas; that an
+      aerial vessel in its particular element is confronted with dangers
+      identical with those prevailing among the waters of the earth. But such an
+      analogy is fallacious: there is no more similarity between the air and the
+      ocean than there is between an airship and a man-of-war. The waters of the
+      earth conceal from sight innumerable obstructions, such as rocks, shoals,
+      sandbanks, and other dangers which cannot by any means be readily
+      detected.
+    </p>
+    <p>
+      But no such impediments are encountered in the ether. The craft of the air
+      is virtually a free age in the three dimensions. It can go whither it will
+      without let or hindrance so long as the mechanical agencies of man are
+      able to cope with the influences of Nature. It can ascend to a height
+      which is out of all proportion to the depth to which the submarine can
+      descend in safety. It is a matter of current knowledge that a submarine
+      cannot sink to a depth of more than 250 feet: an aerial vessel is able to
+      ascend to 5,000, 8,000, or even 10,000 feet above the earth, and the
+      higher the altitude it attains the greater is its degree of safety. The
+      limit of ascension is governed merely by the physical capacities of those
+      who are responsible for the aerial vessel's movement.
+    </p>
+    <p>
+      It is for this reason that the defensive measures which are practised in
+      the waters of the earth are inapplicable to the atmosphere. Movement by,
+      or in, water is governed by the depth of channels, and these may be
+      rendered impassable or dangerous to negotiate by the planting of mines. A
+      passing ship or submarine may circumvent these explosive obstructions, but
+      such a successful manoeuvre is generally a matter of good luck. So far as
+      submarines are concerned the fact must not be over looked that movements
+      in the sea are carried out under blind conditions: the navigator is unable
+      to see where he is going; the optic faculty is rendered nugatory. Contrast
+      the disability of the submarine with the privileges of its consort in the
+      air. The latter is able to profit from vision. The aerial navigator is
+      able to see every inch of his way, at least during daylight. When darkness
+      falls he is condemned to the same helplessness as his confrere in the
+      waters below.
+    </p>
+    <p>
+      A well-known British authority upon aviation suggested that advantage
+      should be taken of this disability, and that the air should be mined
+      during periods of darkness and fog to secure protection against aerial
+      invasion. At first sight the proposal appears to be absolutely grotesque,
+      but a little reflection will suffice to demonstrate its possibilities when
+      the area to be defended is comparatively limited. The suggestion merely
+      proposes to profit from one defect of the dirigible. The latter, when bent
+      upon a daring expedition, naturally prefers to make a bee-line towards its
+      objective: fuel considerations as a matter of fact compel it to do so.
+      Consequently it is possible, within certain limits, to anticipate the
+      route which an invading craft will follow: the course is practically as
+      obvious as if the vessel were condemned to a narrow lane marked out by
+      sign-posts. Moreover, if approaching under cover of night or during thick
+      weather, it will metaphorically "hug the ground." To attempt to complete
+      its task at a great height is to court failure, as the range of vision is
+      necessarily so limited.
+    </p>
+    <p>
+      Under these circumstances the mining of the air could be carried out upon
+      the obvious approaches to a threatened area. The mines, comprising large
+      charges of high-explosive and combustible material, would be attached to
+      small captive balloons similar to the "sounding balloons" which are so
+      much used by meteorologists in operations for sounding the upper strata of
+      the atmosphere. These pilot balloons would be captive, their thin wires
+      being wound upon winches planted at close intervals along the coast-line.
+      The balloon-mines themselves would be sent to varying heights, ranging
+      from 1,000 to 5,000 feet, and with several attached to each cable, the
+      disposition of the mines in the air in such an irregular manner being in
+      fact closely similar to the practice adopted in the mining of a channel
+      for protection against submarines and hostile ships.
+    </p>
+    <p>
+      The suggestion is that these mines should be sent aloft at dusk or upon
+      the approach of thick and foggy weather, and should be wound in at dawn or
+      when the atmosphere cleared, inasmuch as in fine weather the floating
+      aerial menace would be readily detected by the pilot of a dirigible, and
+      would be carefully avoided. If the network were sufficiently intricate it
+      would not be easy for an airship travelling at night or in foggy weather
+      to steer clear of danger, for the wires holding the balloons captive would
+      be difficult to distinguish.
+    </p>
+    <p>
+      The mines would depend upon detonators to complete their work, and here
+      again they would bear a close resemblance to sea-mines. By looping the
+      mines their deadliness could be increased. The unsuspicious airship,
+      advancing under cover of darkness or thick weather, might foul one of the
+      wires, and, driving forward, would tend to pull one or more mines against
+      itself. Under the force of the impact, no matter how gentle, or slight,
+      one or more of the detonating levers would be moved, causing the mine to
+      explode, thus bursting the lifting bag of the vessel, and firing its
+      gaseous contents. An alternative method, especially when a cable carried
+      only a single mine, would be to wind in the captive balloon directly the
+      wire was fouled by an invading aerial craft, the process being continued
+      until the mine was brought against the vessel and thereby detonated.
+    </p>
+    <p>
+      Another proposed mining method differs materially in its application. In
+      this instance it is suggested that the mines should be sent aloft, but
+      should not be of the contact type, and should not be fired by impact
+      detonators, but that dependence should be placed rather upon the
+      disturbing forces of a severe concussion in the air. The mines would be
+      floating aloft, and the advance of the airship would be detected. The
+      elevation of the mines in the vicinity of the invading craft would be
+      known, while the altitude of the airship in relation thereto could be
+      calculated. Then, it is proposed that a mine within d certain radius of
+      the approaching craft, and, of course, below it, should be fired
+      electrically from the ground. It is maintained that if the charge were
+      sufficiently heavy and an adequate sheet of flame were produced as a
+      result of the ignition, an airship within a hundred yards thereof would be
+      imperilled seriously, while the other mines would also be fired,
+      communicating ignition from one to the other. The equilibrium of the
+      airship is so delicate that it can be readily upset, and taking into
+      account the facts that gas is always exuding from the bag, and that
+      hydrogen has a tendency to spread somewhat in the manner of oil upon
+      water, it is argued that the gas would be ignited, and would bring about
+      the explosion of the airship.
+    </p>
+    <p>
+      Another method has even been advocated. It is averred in authoritative
+      circles that when the aerial invasion in force of Great Britain is
+      attempted, the Zeppelins will advance under the cover of clouds. Also that
+      the craft will make for one objective&mdash;London. Doubtless advantage
+      will be taken of clouds, inasmuch as they will extend a measure of
+      protection to the craft, and will probably enable the invading fleet to
+      elude the vigilance of the aeroplane scouts and patrols. Under these
+      circumstances it is suggested that balloon-mines should be sent aloft and
+      be concealed in the clouds. It would be impossible to detect the wires
+      holding them captive, so that the precise location of the lurking danger
+      would not be divined by the invader. Of course, the chances are that the
+      invading airship would unconsciously miss the mines; on the other hand the
+      possibilities are equally great that it would blunder into one of these
+      traps and be blown to atoms.
+    </p>
+    <p>
+      An English airman has recently suggested a means of mining invading
+      Zeppelins which differs completely from the foregoing proposals. His idea
+      is that aeroplanes should be equipped with small mines of the contact
+      type, charged with high explosives, and that the latter should be lowered
+      from the aeroplane and be trawled through the atmosphere. As an
+      illustration I will suppose that a hostile aircraft is sighted by a
+      patrolling aeroplane. The pilot's companion in the latter immediately
+      prepares his aerial mine, fixing the detonator, and attaching the mine to
+      the wire. The latter is then dropped overboard, the wire being paid out
+      from a winch until it has descended to the level of the hostile craft. The
+      airman now manoeuvres in the air circling about the airship, dragging his
+      mine behind him, and endeavouring to throw it across or to bring it into
+      contact with the airship below. Naturally the latter, directly it observed
+      the airman's object, would endeavour to elude the pursuing trawling mine,
+      either by crowding on speed or by rising to a greater altitude. The
+      aeroplane, however, would have the advantage both in point of speed and
+      powers of climbing, while there is no doubt that the sight of the mine
+      swinging in the air would exert a decisive moral effect upon those in the
+      airship.
+    </p>
+    <p>
+      Attempts to render the mine harmless by discharging it prematurely with
+      the aid of rifle and machine-gun fire would, of course, be made by the
+      crew of the airship, but the trawling mine would prove a very difficult
+      target to strike. If such a missile were used against an airship of the
+      proportions of a Zeppelin the mine would inevitably be trawled across the
+      vessel sooner or later. Once the airship had been fouled, the aviator
+      would merely have to drive ahead, dragging the wire and its charge across
+      the gas-bag until at last one of the contact levers of the mine was moved
+      by being dragged against some part of the vessel, when the mine would be
+      exploded. In such operations the aviator would run a certain risk, as he
+      would be more or less above the airship, and to a certain degree within
+      the zone of the ultimate explosion. But there is no doubt that he would
+      succeed in his "fishing" exploit within a very short time.
+    </p>
+    <p>
+      This ingenious scheme has already been tested upon a small scale and has
+      been found effective, the trawling bomb being drawn across its target and
+      fired by contact within a few minutes. The experiment seems to prove that
+      it would be simpler and more effectual to attack a hostile aircraft such
+      as a Zeppelin in this manner than to drop free bombs at random. Moreover,
+      we cannot doubt that the sight of a mine containing even ten or twelve
+      pounds of high explosive dangling at the end of a wire would precipitate a
+      retreat on the part of an airship more speedily than any other combative
+      expedient.
+    </p>
+    <p>
+      The advocate of this mine-trawling method, who is a well-known aviator,
+      anticipates no difficulty in manoeuvring a mine weighing 30 pounds at the
+      end of 300 feet of fine wire. Success depends in a great measure on the
+      skill of the aviator in maintaining a constant tension upon the line until
+      it falls across its objective.
+    </p>
+    <p>
+      The process calls for a certain manifestation of skill in manoeuvring the
+      aeroplane in relation to the airship, judgment of distance, and ability to
+      operate the aeroplane speedily. The rapid ascensional capability of the
+      airship, as compared with that of the aeroplane, is a disadvantage, but on
+      the other hand, the superior mobility and speed of the aeroplane would
+      tell decisively for success.
+    </p>
+    <p>
+      Among the many wonders which the Krupp organisation is stated to have
+      perfected, and which it is claimed will create considerable surprise, is
+      the aerial torpedo. Many of the Krupp claims are wildly chimerical, as
+      events have already proved, but there is no doubt that considerable effort
+      has been expended upon this latest missile, for which the firm is said to
+      have paid the inventor upwards of L25,000&mdash;$125,000. Curiously enough
+      the projectile was perfected within gunshot of the British aerodrome of
+      Hendon and is stated to have been offered to the British Government at the
+      time, and to have met with a chilling reception. One fact, however, is
+      well established. The inventor went to Germany, and submitted his idea to
+      Krupp, by whom it was tested without delay. Upon the completion of the
+      purchase, the great armament manufacturers did not fail to publish
+      broadcast the fact that they had acquired a mysterious new terror of the
+      skies. That was some three years ago, and in the interval the cleverest
+      brains of the German firm have been steadily devoting their time and
+      energies to the improvement of the missile, the first appearance of which
+      was recorded, in a somewhat hazy manner, in the closing days of December.
+    </p>
+    <p>
+      While the exact mechanism of this missile is a secret, the governing
+      principles of its design and operation are known to a select few
+      technicians in this country. Strange to say, the projectile was designed
+      in the first instance in the interests of peace and humanity, but while
+      engaged upon his experiments the inventor suddenly concluded that it would
+      be a more profitable asset if devoted to the grim game of war. At the time
+      the military significance of the airship and the aeroplane were becoming
+      apparent; hence the sudden diversion of the idea into a destructive
+      channel.
+    </p>
+    <p>
+      This aerial torpedo is a small missile carrying a charge of high
+      explosive, such as trinitrotoluene, and depends for its detonation upon
+      impact or a time fuse. It is launched into the air from a cradle in the
+      manner of the ordinary torpedo, but the initial velocity is low. The
+      torpedo is fitted with its own motive power, which comes automatically
+      into action as the missile climbs into the air. This self-contained energy
+      is so devised that the maximum power is attained before the missile has
+      lost the velocity imparted in the first instance, the result being that it
+      is able to continue its flight in a horizontal direction from the moment
+      it attains the highest point in its trajectory, which is naturally varied
+      according to requirements. But there is no secret about the means of
+      propulsion. The body is charged with a slow-burning combustible, in the
+      manner of the ordinary rocket, whereby it is given a rapid rotary motion.
+    </p>
+    <p>
+      Furthermore it is stated to be fitted with a small gyroscope in the manner
+      of the torpedo used in the seas, for the purpose of maintaining direction
+      during flight, but upon this point there is considerable divergence of
+      opinion among technicians, the general idea being that the torpedo depends
+      upon an application of the principle of the ordinary rocket rather than
+      upon a small engine such as is fitted to the ordinary torpedo. The
+      employment of a slow combustible ensures the maintenance of the missile in
+      the air for a period exceeding that of the ordinary shell. It is claimed
+      by the Germans that this projectile will keep aloft for half-an-hour or
+      more, but this is a phantasy. Its maintenance of flight is merely a matter
+      of minutes.
+    </p>
+    <p>
+      The belated appearance of this much-lauded projectile and its restricted
+      use suggest that it is unreliable, and perhaps no more effective than the
+      aerial torpedo which appeared in the United States during the
+      Spanish-American War, and proved a complete failure. An effective and
+      reliable means of combating or frustrating a dirigible attack, other than
+      by gun-fire or resort to the drastic remedy of ramming the enemy, has yet
+      to be devised.
+    </p>
+    <p>
+      <a name="link2HCH0017" id="link2HCH0017">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XVII. WIRELESS IN AVIATION
+    </h2>
+    <p>
+      In a previous chapter the various methods of signalling between the ground
+      and the airman aloft have been described. Seeing that wireless telegraphy
+      has made such enormous strides and has advanced to such a degree of
+      perfection, one naturally would conclude that it constitutes an ideal
+      system of communication under such conditions in military operations.
+    </p>
+    <p>
+      But this is not the case. Wireless is utilised only to a very limited
+      extent. This is due to two causes. The one is of a technical, the other of
+      a strategical character.
+    </p>
+    <p>
+      The uninitiated, bearing in mind the comparative ease with which wireless
+      installations may be established at a relatively small expense, would not
+      unreasonably think that no serious difficulties of a technical character
+      could arise: at least none which would defy solution. But these
+      difficulties exist in two or three different fields, each of which is
+      peculiarly complex and demands individual treatment.
+    </p>
+    <p>
+      In the first place, there is the weight of the necessary installation. In
+      the case of the dirigible this may be a secondary consideration, but with
+      the aeroplane it is a matter of primary and vital importance. Again, under
+      present conditions, the noise of the motor is apt to render the
+      intelligent deciphering of messages while aloft a matter of extreme
+      difficulty, especially as these are communicated in code. The engine noise
+      might be effectively overcome by the use of a muffler such as, is used
+      with automobiles, but then there is the further difficulty of vibration.
+    </p>
+    <p>
+      This problem is being attacked in an ingenious manner. It is proposed to
+      substitute for audible signals visual interpretations, by the aid of an
+      electric lamp, the fluctuations in which would correspond to the dots and
+      dashes of the Morse code. Thus the airman would read his messages by sight
+      instead of by sound.
+    </p>
+    <p>
+      This method, however, is quite in its infancy, and although attractive in
+      theory and fascinating as a laboratory experiment or when conducted under
+      experimental conditions, it has not proved reliable or effective in
+      aeronautical operations. But at the same time it indicates a promising
+      line of research and development.
+    </p>
+    <p>
+      Then there are the problems of weight and the aerial. So far as present
+      knowledge goes, the most satisfactory form of aerial yet exploited is that
+      known as the trailing wire. From 300 to 700 feet of wire are coiled upon a
+      reel, and when aloft this wire is paid out so that it hangs below the
+      aeroplane. As a matter of fact, when the machine is travelling at high
+      speed it trails horizontally astern, but this is immaterial. One
+      investigator, who strongly disapproves of the trailing aerial, has carried
+      out experiments with a network of wires laid upon and attached to the
+      surface of the aeroplane's wings. But the trailing wire is generally
+      preferred, and certainly up to the present has proved more satisfactory.
+    </p>
+    <p>
+      The greatest obstacle, however, is the necessary apparatus. The average
+      aeroplane designed for military duty is already loaded to the maximum. As
+      a rule it carries the pilot and an observer, and invariably includes a
+      light arm for defence against an aerial enemy, together with an adequate
+      supply of ammunition, while unless short sharp flights are to be made, the
+      fuel supply represents an appreciable load. Under these circumstances the
+      item of weight is a vital consideration. It must be kept within a limit of
+      100 pounds, and the less the equipment weighs the more satisfactory it is
+      likely to prove, other things being equal.
+    </p>
+    <p>
+      The two most successful systems yet exploited are the Dubilier and the
+      Rouget. The former is an American invention, the latter is of French
+      origin. Both have been tested by the British Military Aeronautical
+      Department, and the French authorities have subjected the French system to
+      rigorous trials. Both systems, within their limitations, have proved
+      satisfactory.
+    </p>
+    <p>
+      The outstanding feature of the Dubilier system is the production of sine
+      waves of musical frequency from continuous current, thus dispensing with
+      the rotary converter. The operating principle is the obtaining of a series
+      of unidirectional impulses by a condenser discharge, the pulsating
+      currents following one another at regular intervals at a frequency of 500
+      impulses per second, which may be augmented up to 1,000 impulses per
+      second. The complete weight of such an apparatus is 40 pounds; the
+      electric generator, which is no larger than the motor used for driving the
+      ordinary table ventilating fan, accounts for 16 pounds of this total.
+      Under test at sea, upon the deck of a ship, a range of 250 miles has been
+      obtained. The British Government carried out a series of experiments with
+      this system, using a small plant weighing about 30 pounds, with which
+      communication was maintained up to about 20 miles.
+    </p>
+    <p>
+      In the French system the Reuget transmitter is employed. The apparatus,
+      including the dynamo, which is extremely small, weighs in all 70 pounds. A
+      small alternator of 200 watts and 100 volts is coupled direct to the
+      aeroplane motor, a new clutch coupler being employed for this purpose. By
+      means of a small transformer the voltage is raised to 30,000 volts, at
+      which the condenser is charged. In this instance the musical spark method
+      is employed.
+    </p>
+    <p>
+      The whole of the high tension wiring is placed within a small space so as
+      not to endanger the pilot, while the transformer is hermetically sealed in
+      a box with paraffin. The aerial comprises a trailing wire 100 feet in
+      length, which, however, can be wound in upon its reel within 15 seconds.
+      This reeled antenna, moreover, is fitted with a safety device whereby the
+      wire can be cut adrift in the event of an accident befalling the aeroplane
+      and necessitating an abrupt descent. With this apparatus the French
+      authorities have been able to maintain communication over a distance of 30
+      miles.
+    </p>
+    <p>
+      In maintaining ethereal communication with aeroplanes, however, a portable
+      or mobile station upon the ground is requisite, and this station must be
+      within the radius of the aerial transmitter, if messages are to be
+      received from aloft with any degree of accuracy and reliability. Thus it
+      will be recognised that the land station is as important as the aeroplane
+      equipment, and demands similar consideration.
+    </p>
+    <p>
+      A wide variety of systems have been employed to meet these conditions.
+      There is the travelling automobile station, in which the installation is
+      mounted upon a motor-car. In this instance the whole equipment is carried
+      upon a single vehicle, while the antenna is stowed upon the roof and can
+      be raised or lowered within a few seconds. If motor traction is
+      unavailable, then animal haulage may be employed, but in this instance the
+      installation is divided between two vehicles, one carrying the
+      transmitting and receiving apparatus and the generating plant, the other
+      the fuel supplies and the aerial, together with spare parts.
+    </p>
+    <p>
+      The motive power is supplied by a small air cooled petrol or gasoline
+      motor developing eight horse-power, and coupled direct to a 2-kilo watt
+      alternator. At one end of the shaft of the latter the disk discharger is
+      mounted, its function being to break up the train of waves into groups of
+      waves, so as to impart a musical sound to the note produced in the
+      receiver. A flexible cable transmits the electric current from the
+      generator to the wagon containing the instruments. The aerial is built up
+      of masts carried in sections.
+    </p>
+    <p>
+      The Germans employ a mobile apparatus which is very similar, but in this
+      instance the mast is telescopic. When closed it occupies but little space.
+      By turning the winch handle the mast is extended, and can be carried to
+      any height up to a maximum of about 100 feet. The capacity of these mobile
+      stations varies within wide limits, the range of the largest and most
+      powerful installations being about 200 miles. The disadvantage of these
+      systems, however, is that they are condemned to territories where the
+      ground at the utmost is gently undulating, and where there are roads on
+      which four-wheeled vehicles can travel.
+    </p>
+    <p>
+      For operation in hilly districts, where only trails are to be found, the
+      Marconi Company, has perfected what may be described as "pack" and
+      "knapsack" installations respectively. In the first named the whole of the
+      installation is mounted upon the backs of four horses. The first carries
+      the generator set, the second the transmitting instruments, the third the
+      receiving equipment, and the fourth the detachable mast and stays.
+    </p>
+    <p>
+      The generator is carried upon the horse's saddle, and is fitted with a
+      pair of legs on each side. On one side of the saddle is mounted a small
+      highspeed explosion motor, while on the opposite side, in axial alignment
+      with the motor, is a small dynamo. When it is desired to erect the
+      installation the saddle carrying this set is removed from the horse's back
+      and placed upon the ground, the legs acting as the support. A length of
+      shaft is then slipped into sockets at the inner ends of the motor and
+      dynamo shafts respectively, thus coupling them directly, while the current
+      is transmitted through a short length of flexible cable to the
+      instruments. The mast itself is made in lengths of about four feet, which
+      are slipped together in the manner of the sections of a fishing rod, and
+      erected, being supported by means of wire guys. In this manner an antenna
+      from 40 to 50 feet in height may be obtained.
+    </p>
+    <p>
+      The feature of this set is its compactness, the equal division of the
+      sections of the installation, and the celerity with which the station may
+      be set up and dismantled in extremely mountainous country such as the
+      Vosges, where it is even difficult for a pack-horse to climb to commanding
+      or suitable positions, there is still another set which has been perfected
+      by the Marconi Company. This is the "knapsack" set, in which the whole of
+      the installation, necessarily light, small, and compact, is divided among
+      four men, and carried in the manner of knapsacks upon their backs.
+      Although necessarily of limited radius, such an installation is adequate
+      for communication within the restricted range of air-craft.
+    </p>
+    <p>
+      Greater difficulties have to be overcome in the mounting of a wireless
+      installation upon a dirigible. When the Zeppelin was finally accepted by
+      the German Government, the military authorities emphasised the great part
+      which wireless telegraphy was destined to play in connection with such
+      craft. But have these anticipations been fulfilled? By no means, as a
+      little reflection will suffice to prove.
+    </p>
+    <p>
+      In the first place, a wireless outfit is about the most dangerous piece of
+      equipment which could be carried by such a craft as the Zeppelin unless it
+      is exceptionally well protected. As is well known the rigidity of this
+      type of airship is dependent upon a large and complicated network of
+      aluminium, which constitutes the frame. Such a huge mass of metal
+      constitutes an excellent collector of electricity from the atmosphere; it
+      becomes charged to the maximum with electricity.
+    </p>
+    <p>
+      In this manner a formidable contributory source of danger to the airship
+      is formed. In fact, this was the reason why "Z-IV" vanished suddenly in
+      smoke and flame upon falling foul of the branches of trees during its
+      descent. At the time the Zeppelin was a highly charged electrical machine
+      or battery as it were, insulated by the surrounding air. Directly the
+      airship touched the trees a short circuit was established, and the
+      resultant spark sufficed to fire the gas, which is continuously exuding
+      from the gas bags.
+    </p>
+    <p>
+      After this accident minute calculations were made and it was ascertained
+      that a potential difference of no less than 100,00 volts existed between
+      the framework of the dirigible and the trees. This tension sufficed to
+      produce a spark 4 inches in length. It is not surprising that the
+      establishment of the electric equilibrium by contact with the trees, which
+      produced such a spark should fire the hydrogen inflation charge. In fact
+      the heat generated was so intense that the aluminium metallic framework
+      was fused. The measurements which were made proved that the gas was
+      consumed within 15 seconds and the envelope destroyed within 20 seconds.
+    </p>
+    <p>
+      As a result of this disaster endeavours were made to persuade Count
+      Zeppelin to abandon the use of aluminium for the framework of his balloon
+      but they were fruitless, a result no doubt due to the fact that the
+      inventor of the airship of this name has but a superficial knowledge of
+      the various sciences which bear upon aeronautics, and fully illustrates
+      the truth of the old adage that "a little learning is a dangerous thing."
+      Count Zeppelin continues to work upon his original lines, but the danger
+      of his system of construction was not lost upon another German
+      investigator, Professor Schiitte, who forthwith embarked upon the
+      construction of another rigid system, similar to that of Zeppelin, at
+      Lanz. In this vessel aluminium was completely abandoned in favour of a
+      framework of ash and poplar.
+    </p>
+    <p>
+      The fact that the aluminium constituted a dangerous collector of
+      electricity rendered the installation of wireless upon the Zeppelin not
+      only perilous but difficult. Very serious disturbances of an electrical
+      nature were set up, with the result that wireless communication between
+      the travelling dirigible and the ground below was rendered extremely
+      uncertain. In fact, it has never yet been possible to communicate over
+      distances exceeding about 150 miles. Apart from this defect, the danger of
+      operating the wireless is obvious, and it is generally believed in
+      technical circles that the majority of the Zeppelin disasters from fire
+      have been directly attributable to this, especially those disasters which
+      have occurred when the vessel has suddenly exploded before coming into
+      contact with terrestrial obstructions.
+    </p>
+    <p>
+      In the later vessels of this type the wireless installation is housed in a
+      well insulated compartment. This insulation has been carried, to an
+      extreme degree, which indicates that at last the authorities have
+      recognised the serious menace that wireless offers to the safety of the
+      craft, with the result that every protective device to avoid disaster from
+      this cause has been freely adopted.
+    </p>
+    <p>
+      The fact that it is not possible to maintain communication over a distance
+      exceeding some 20 miles is a severe handicap to the progressive
+      development of wireless telegraphy in this field. It is a totally
+      inadequate radius when the operations of the present war are borne in
+      mind. A round journey of 200, or even more miles is considered a mere
+      jaunt; it is the long distance flight which counts, and which contributes
+      to the value of an airman's observations. The general impression is that
+      the fighting line or zone comprises merely two or three successive
+      stretches of trenches and other defences, representing a belt five miles
+      or so in width, but this is a fallacy. The fighting zone is at least 20
+      miles in width; that is to say, the occupied territory in which vital
+      movements take place represents a distance of 20 miles from the foremost
+      line of trenches to the extreme rear, and then comes the secondary zone,
+      which may be a further 10 miles or more in depth. Consequently the airman
+      must fly at least 30 miles in a bee-line to cover the transverse belt of
+      the enemy's field of operations. Upon the German and Russian sides this
+      zone is of far greater depth, ranging up to 50 miles or so in width. In
+      these circumstances the difficulties of ethereal communication 'twixt air
+      and earth may be realised under the present limitations of radius from
+      which it is possible to transmit.
+    </p>
+    <p>
+      But there are reasons still more cogent to explain why wireless telegraphy
+      has not been used upon a more extensive scale during the present campaign.
+      Wireless communication is not secretive. In other words, its messages may
+      be picked up by friend and foe alike with equal facility. True, the
+      messages are sent in code, which may be unintelligible to the enemy. In
+      this event the opponent endeavours to render the communications
+      undecipherable to one and all by what is known as "jambing." That is to
+      say, he sends out an aimless string of signals for the purpose of
+      confusing senders and receivers, and this is continued without cessation
+      and at a rapid rate. The result is that messages become blurred and
+      undecipherable.
+    </p>
+    <p>
+      But there is another danger attending the use of wireless upon the
+      battlefield. The fact that the stations are of limited range is well known
+      to the opposing forces, and they are equally well aware of the fact that
+      aerial craft cannot communicate over long distances. For instance, A sends
+      his airmen aloft and conversation begins between the clouds and the
+      ground. Presently the receivers of B begin to record faint signals. They
+      fluctuate in intensity, but within a few seconds B gathers that an
+      aeroplane is aloft and communicating with its base. By the aid of the
+      field telephone B gets into touch with his whole string of wireless
+      stations and orders a keen look-out and a listening ear to ascertain
+      whether they have heard the same signals. Some report that the signals are
+      quite distinct and growing louder, while others declare that the signals
+      are growing fainter and intermittent. In this manner B is able to deduce
+      in which direction the aeroplane is flying. Thus if those to the east
+      report that signals are growing stronger, while the stations on the west
+      state that they are diminishing, it is obvious that the aeroplane is
+      flying west to east, and vice versa when the west hears more plainly at
+      the expense of the east. If, however, both should report that signals are
+      growing stronger, then it is obvious that the aircraft is advancing
+      directly towards them.
+    </p>
+    <p>
+      It was this ability to deduce direction from the sound of the signals
+      which led to the location of the Zeppelin which came down at Luneville
+      some months previous to the war, and which threatened to develop into a
+      diplomatic incident of serious importance. The French wireless stations
+      running south-east to north-west were vigilant, and the outer station on
+      the north-west side picked up the Zeppelin's conversation. It maintained a
+      discreet silence, but communicated by telephone to its colleagues behind.
+    </p>
+    <p>
+      Presently No. 2 station came within range, followed by Nos. 3, 4, 5, 6,
+      and so on in turn. Thus the track of the Zeppelin was dogged silently
+      through the air by its wireless conversation as easily and as positively
+      as if its flight had been followed by the naked eye. The Zeppelin
+      travellers were quite ignorant of this action upon the part of the French
+      and were surprised when they were rounded-up to learn that they had been
+      tracked so ruthlessly. Every message which the wireless of the Zeppelin
+      had transmitted had been received and filed by the French.
+    </p>
+    <p>
+      Under these circumstances it is doubtful whether wireless telegraphy
+      between aircraft and the forces beneath will be adopted extensively during
+      the present campaign. Of course, should some radical improvement be
+      perfected, whereby communication may be rendered absolutely secretive,
+      while no intimation is conveyed to the enemy that ethereal conversation is
+      in progress, then the whole situation will be changed, and there may be
+      remarkable developments.
+    </p>
+    <p>
+      <a name="link2HCH0018" id="link2HCH0018">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XVIII. AIRCRAFT AND NAVAL OPERATIONS
+    </h2>
+    <p>
+      When once the flying machine had indicated its possibilities in connection
+      with land operations it was only natural that endeavours should be made to
+      adapt it to the more rigorous requirements of the naval service. But the
+      conditions are so vastly dissimilar that only a meagre measure of success
+      has been recorded. Bomb-throwing from aloft upon the decks of battleships
+      appeals vividly to the popular imagination, and the widespread destruction
+      which may be caused by dropping such an agent down the funnel of a vessel
+      into the boiler-room is a favourite theme among writers of fiction and
+      artists. But hitting such an objective while it is tearing at high speed
+      through the water, from a height of several thousand feet is a vastly
+      different task from throwing sticks and balls at an Aunt Sally on terra
+      firma: the target is so small and elusive.
+    </p>
+    <p>
+      Practically it is impossible to employ the flying machine, whether it be a
+      dirigible or an aeroplane, in this field. Many factors militate against
+      such an application. In the first place there is a very wide difference
+      between dry land and a stretch of water as an area over which to
+      manoeuvre. So far as the land is concerned descent is practicable at any
+      time and almost anywhere. But an attempt to descend upon the open sea even
+      when the latter is as calm as the proverbial mill-pond is fraught with
+      considerable danger. The air-currents immediately above the water differ
+      radically from those prevailing above the surface of the land. Solar
+      radiation also plays a very vital part. In fact the dirigible dare not
+      venture to make such a landing even if it be provided with floats. The
+      chances are a thousand to one that the cars will become water-logged,
+      rendering re-ascent a matter of extreme difficulty, if not absolutely
+      impossible. On the other hand, the aeroplane when equipped with floats, is
+      able to alight upon the water, and to rest thereon for a time. It may even
+      take in a new supply of fuel if the elements be propitious, and may be
+      able to re-ascend, but the occasions are rare when such operations can be
+      carried out successfully.
+    </p>
+    <p>
+      In operations over water the airman is confronted with one serious danger&mdash;the
+      risk of losing his bearings and his way. For instance, many attempts have
+      been made to cross the North Sea by aeroplane, but only one has proved
+      successful so far. The intrepid aviator did succeed in passing from the
+      shore of Britain to the coast of Scandinavia. Many people suppose that
+      because an airman is equipped with a compass he must be able to find his
+      way, but this is a fallacy. The aviator is in the same plight as a mariner
+      who is compelled from circumstances to rely upon his compass alone, and
+      who is debarred by inclement weather from deciding his precise position by
+      taking the sun. A ship ploughing the waters has to contend against the
+      action of cross currents, the speed of which varies considerably, as well
+      as adverse winds. Unless absolute correction for these influences can be
+      made the ship will wander considerably from its course. The airman is
+      placed in a worse position. He has no means of determining the direction
+      and velocity of the currents prevailing in the atmosphere, and his compass
+      cannot give him any help in this connection, because it merely indicates
+      direction.
+    </p>
+    <p>
+      Unless the airman has some means of determining his position, such as
+      landmarks, he fails to realise the fact that he is drifting, or, even if
+      he becomes aware of this fact, it is by no means a simple straightforward
+      matter for him to make adequate allowance for the factor. Side-drift is
+      the aviator's greatest enemy. It cannot be determined with any degree of
+      accuracy. If the compass were an infallible guide the airman would be able
+      to complete a given journey in dense fog just as easily as in clear
+      weather. It is the action of the cross currents and the unconscious drift
+      which render movement in the air during fog as impracticable with safety
+      as manoeuvring through the water under similar conditions. More than one
+      bold and skilful aviator has essayed the crossing of the English Channel
+      and, being overtaken by fog, has failed to make the opposite coast. His
+      compass has given him the proper direction, but the side-drift has proved
+      his undoing, with the result that he has missed his objective.
+    </p>
+    <p>
+      The fickle character of the winds over the water, especially over such
+      expanses as the North Sea, constitutes another and seriously adverse
+      factor. Storms, squalls, gales, and, in winter, blizzards, spring up with
+      magical suddenness, and are so severe that no aircraft could hope to live
+      in them. But such visitations are more to be dreaded by the
+      lighter-than-air than by the heavier-than-air machines. The former offers
+      a considerable area of resistance to the tempest and is caught up by the
+      whirlwind before the pilot fully grasps the significant chance of the
+      natural phenomenon. Once a dirigible is swept out of the hands of its
+      pilot its doom is sealed.
+    </p>
+    <p>
+      On the other hand, the speed attainable by the aeroplane constitutes its
+      safety. It can run before the wind, and meantime can climb steadily and
+      rapidly to a higher altitude, until at last it enters a contrary wind or
+      even a tolerably quiescent atmosphere. Even if it encounters the tempest
+      head on there is no immediate danger if the aviator keep cool. This fact
+      has been established times out of number and the airman has been
+      sufficiently skilful and quick-witted to succeed in frustrating the
+      destructive tactics of his natural enemy.
+    </p>
+    <p>
+      Only a short while ago in France, British airmen who went aloft in a gale
+      found the latter too strong for them. Although the machine was driven full
+      speed ahead it was forced backwards at the rate of 10 miles per hour
+      because the independent speed of the aeroplane was less than the velocity
+      of the wind. But a dirigible has never succeeded in weathering a gale; its
+      bulk, area, and weight, combined with its relatively slow movement, are
+      against it, with the result that it is hurled to destruction. All things
+      considered, the dirigible is regarded as an impracticable acquisition to a
+      fleet, except in the eyes of the Germans, who have been induced to place
+      implicit reliance upon their monsters. The gullible Teuton public
+      confidently believes that their Dreadnoughts of the air will complete the
+      destruction of the British fleet, but responsible persons know full well
+      that they will not play such a part, but must be reserved for scouting.
+      Hitherto, in naval operations, mosquito water-craft, such as
+      torpedo-boats, have been employed in this service. But these swift vessels
+      suffer from one serious disability. The range of vision is necessarily
+      limited, and a slight mist hanging over the water blinds them; the enemy
+      may even pass within half-a-mile of them and escape detection.
+    </p>
+    <p>
+      The Zeppelin from its position 1,000 feet or more above the water, in
+      clear weather, has a tremendous range of vision; the horizon is about 40
+      miles distant, as compared with approximately 8 miles in the case of the
+      torpedo-boat. Of course an object, such as a battleship, may be detected
+      at a far greater range. Consequently the German naval programme is to send
+      the Zeppelin a certain distance ahead of the battleship squadron. The
+      dirigible from its coign of vantage would be able to sight a hostile
+      squadron if it were within visual range and would communicate the fact to
+      the commander of the fleet below. The latter would decide his course
+      according to information received; thus he would be enabled to elude his
+      enemy, or, if the tidings received from the aerial scout should be
+      favourable, to dispose his vessels in the most favourable array for
+      attack.
+    </p>
+    <p>
+      The German code of naval tactics does not foreshadow the use of dirigible
+      aircraft as vessels of attack. Scouting is the primary and indeed the only
+      useful duty of the dirigible, although it is quite possible that the
+      aerial craft might participate in a subsequent naval engagement, as,
+      indeed, has been the case. Its participation, however, would be governed
+      entirely by climatic conditions. The fact that the dirigible is a weak
+      unit of attack in naval operations is fully appreciated by all the
+      belligerents.
+    </p>
+    <p>
+      The picture of a sky "black with Zeppelins" may appeal to the popular
+      imagination, and may induce the uninitiated to cherish the belief that
+      such an array would strike terror into the hearts of the foe, but the
+      naval authorities are well aware that no material advantage would accrue
+      from such a force. In the first place they would constitute an ideal
+      target for the enemy's vessels. They would be compelled to draw within
+      range in order to render their own attack effective, and promiscuous
+      shooting from below would probably achieve the desired end. One or more of
+      the hostile aircraft would be hit within a short while. Such disasters
+      would undoubtedly throw the aerial fleet into confusion, and possibly
+      might interfere with the tactical developments of its own friends upon the
+      water below.
+    </p>
+    <p>
+      The shells hurled from the Zeppelins would probably inflict but little
+      damage upon the warships beneath. Let it be conceded that they weigh about
+      500 pounds, which is two-thirds of the weight of the projectile hurled
+      from the Krupp 128-centimetre howitzer. Such a missile would have but
+      little destructive effect if dropped from a height of 1,000 feet. To
+      achieve a result commensurate with that of the 28-centimetre howitzer the
+      airship would have to launch the missile from a height of about 7,000
+      feet. To take aim from such an altitude is impossible, especially at a
+      rapidly moving target such as a battle-cruiser.
+    </p>
+    <p>
+      The fact must not be forgotten that Count Zeppelin himself has expressed
+      the opinion, the result of careful and prolonged experiments, that his
+      craft is practically useless at a height exceeding 5,000 feet. Another
+      point must not be overlooked. In a spirited naval engagement the
+      combatants would speedily be obliterated from the view of those aloft by
+      the thick pall of smoke&mdash;the combination of gun-fire and emission
+      from the furnaces and a blind attack would be just as likely to damage
+      friend as foe.
+    </p>
+    <p>
+      Even if the aircraft ventured to descend as low as 5,000 feet it would be
+      faced with another adverse influence. The discharge of the heavy
+      battleship guns would bring about such an agitation of the air above as to
+      imperil the delicate equilibrium of an airship. Nor must one overlook the
+      circumstance that in such an engagement the Zeppelins would become the
+      prey of hostile aeroplanes. The latter, being swifter and nimbler, would
+      harry the cumbersome and slow-moving dirigible in the manner of a dog
+      baiting a bear to such a degree that the dirigible would be compelled to
+      sheer off to secure its own safety. Desperate bravery and grim
+      determination may be magnificent physical attributes, ut they would have
+      to be superhuman to face the stinging recurrent attacks of
+      mosquito-aeroplanes.
+    </p>
+    <p>
+      The limitations of the Zeppelin, and in fact of all dirigible aircraft,
+      were emphasised upon the occasion of the British aerial raid upon
+      Cuxhaven. Two Zeppelins bravely put out to overwhelm the cruisers and
+      torpedo boats which accompanied and supported the British sea-planes, but
+      when confronted with well-placed firing from the guns of the vessels below
+      they quickly decided that discretion was the better part of valour and
+      drew off. In naval operations the aeroplane is a far more formidable foe,
+      although here again there are many limitations. The first and most serious
+      is the severely limited radius of action. The aeroplane motor is a hungry
+      engine, while the fuel capacity of the tank is restricted. The German
+      military authorities speedily realised the significance of this factor and
+      its bearing upon useful operations, and forth with carried out elaborate
+      endurance tests. In numerable flights were made with the express purpose
+      of determining how long a machine could remain in the air upon a single
+      fuel supply.
+    </p>
+    <p>
+      The results of these flights were collated and the achievements of each
+      machine in this direction carefully analysed, a mean average drawn up, and
+      then pigeon-holed. The results were kept secret, only the more sensational
+      records being published to the world. As the policy of standardisation in
+      the construction of aeroplanes was adopted the radius of action of each
+      type became established. It is true that variations of this factor even
+      among vessels exactly similar in every respect are inevitable, but it was
+      possible to establish a reliable mean average for general guidance.
+    </p>
+    <p>
+      The archives of the Berlin military department are crowded with facts and
+      figures relating to this particular essential, so that the radius of
+      action, that is the mileage upon a single fuel charge, of any class and
+      type of machine may be ascertained in a moment. The consequence is that
+      the military authorities are able to decide the type of aeroplane which is
+      best suited to a certain projected task. According to the dossier in the
+      pigeon-hole, wherein the results of the type are filed, the aeroplane will
+      be able to go so far, and upon arriving at that point will be able to
+      accomplish so much work, and then be able to return home. Consequently it
+      is dispatched upon the especial duty without any feeling of uncertainty.
+    </p>
+    <p>
+      Unfortunately, these experimental processes were too methodical to prove
+      reliable. The endurance data were prepared from tests carried out in the
+      aerodrome and from cross-country trials accomplished under ideal or
+      fair-weather conditions. The result is that calculations have been often
+      upset somewhat rudely by weather conditions of a totally unexpected
+      character, which bring home vividly the striking difference between theory
+      and practice.
+    </p>
+    <p>
+      The British and French aviation authorities have not adopted such
+      methodical standardisation or rule of thumb inferences, but rather have
+      fostered individual enterprise and initiative. This stimulation of
+      research has been responsible for the creation of a type of aeroplane
+      specially adapted to naval service, and generically known as the water
+      plane, the outstanding point of difference from the aeroplane being the
+      substitution of canoes or floats for the wheeled chassis peculiar to the
+      land machine. The flier is sturdily built, while the floats are
+      sufficiently substantial to support the craft upon the water in calm
+      weather. Perhaps it was the insular situation of the British nation which
+      was responsible for this trend of development, because so far as Britain
+      is concerned the sea-going aeroplane is in dispensable. But the salient
+      fact remains that to-day the waterplane service of Great Britain is the
+      most efficient in the world, the craft being speedy, designed and built to
+      meet the rough weather conditions which are experienced around these
+      islands, and ideal vessels for patrol and raiding duties.
+    </p>
+    <p>
+      So far as the British practice is concerned the waterplane is designed to
+      operate in conjunction with, and not apart from, the Navy. It has been
+      made the eyes of the Navy in the strictest interpretation of the term. In
+      any such combination the great difficulty is the establishment of what may
+      be termed a mobile base, inasmuch as the waterplane must move with the
+      fleet. This end has been achieved by the evolution of a means of carrying
+      a waterplane upon, and launching it from, a battleship, if necessary.
+    </p>
+    <p>
+      For this purpose a docking cradle or way has been provided aft where the
+      aeroplane may be housed until the moment arrives for its employment.
+      Several vessels have been devoted to this nursing duty and are known as
+      parent ships to the waterplane service. All that is requisite when the
+      time arrives for the use of the seaplane is to lift it bodily by derrick
+      or crane from its cradle and to lower it upon the water. It will be
+      remembered that the American naval authorities made an experiment with a
+      scheme for directly launching the warplane from the deck of a battleship
+      in the orthodox, as well as offering it a spot upon which to alight upon
+      returning from a flight, while Wing-Commander Samson, R.N., D.S.O., the
+      famous British airman, repeated the experiment by flying from a similar
+      launching way installed upon H.M.S. Hibernia. But this practice has many
+      shortcomings. So far as the British and French navies are concerned, the
+      former process is preferred. Again, when the waterplane returns from a
+      flight it is admitted that it is simpler, quicker, and safer for it to
+      settle upon the water near the parent ship and to be lifted on board.
+    </p>
+    <p>
+      As a sea-scout the waterplane is overwhelmingly superior to the dirigible
+      as events have conclusively proved. Its greater mobility and speed stand
+      it in excellent stead because it is able to cover a larger area within a
+      shorter space of time than its huge and unwieldy contemporary.
+      Furthermore, it is a difficult target to hit and accordingly is not so
+      likely to be brought down by hostile fire. There is another point in its
+      favour. The experience of the war has proved that the numerically inferior
+      enemy prefers to carry out his naval operations under the cover of the
+      mist and haze which settle upon the water, and yet are of sufficient depth
+      to conceal his identity and composition. Such mists as a rule comprise a
+      relatively thin bank of low-lying vapour, which while enveloping the
+      surface of the water in an impenetrable pall, yet permits the mast-heads
+      of the vessels to stand out clearly, although they cannot be detected from
+      the water-level or even from the control and fighting tops of a warship. A
+      scouting waterplane, however, is able to observe them and note their
+      movement, and accordingly can collect useful information concerning the
+      apparent composition of the hidden force, the course it is following, its
+      travelling speed, and so forth, which it can convey immediately to its
+      friends.
+    </p>
+    <p>
+      The aeroplane has established its value in another manner. Coal-burning
+      vessels when moving at any pronounced speed invariably throw off large
+      quantities of smoke, which may be detected easily from above, even when
+      the vessels themselves are completely hidden in the mist. It was this
+      circumstance which revealed the presence of the British squadron in the
+      affair of the Bight of Heligoland.
+    </p>
+    <p>
+      The German airman on patrol duty from the adjacent base on the island of
+      Heligoland detected the presence of this smoke, above the low-lying bank
+      of fog, although there were no other visible signs of any vessels. Fully
+      cognisant of the fact that the German Fleet was at anchor in a safe place
+      he naturally divined that the smoke proceeded from a hostile squadron,
+      evidently bent upon a raid. He returned to his headquarters, conveyed the
+      intelligence he had collected to his superior officers, upon receipt of
+      which a German cruiser squadron was sent out and engaged the British
+      vessels to its own discomfiture. But for the airman's vigilance and
+      smartness there is no doubt that the British squadron would have
+      accomplished a great coup.
+    </p>
+    <p>
+      This incident, however, served to reveal that the aerial scout is prone to
+      suffer from over-keenness and to collect only a partial amount of
+      information. Upon this occasion the German watchman detected the presence
+      of the British torpedo-boat and light cruiser force. Had he continued his
+      investigations and made a wider sweep he would have discovered the
+      proximity of the British battle-cruiser squadron which routed the German
+      force, the latter having acted on incomplete information.
+    </p>
+    <p>
+      While the low-lying sea-fog is the navigator's worst enemy, it is the
+      airman's greatest friend and protection. It not only preserves him against
+      visual discovery from below, but is an excellent insulator of sound, so
+      that his whereabouts is not betrayed by the noise of his motor. It is of
+      in calculable value in another way. When a fog prevails the sea is
+      generally as smooth as the pro verbial mirror, enabling the waterplanes to
+      be brought up under cover to a suitable point from which they may be
+      dispatched. Upon their release by climbing to a height of a few hundred
+      feet the airmen are able to reach a clear atmosphere, where by means of
+      the compass it is possible to advance in approximately the desired
+      direction, safe from discovery from below owing to the fog. If they are
+      "spotted" they can dive into its friendly depths, complete their work, and
+      make for the parent ship.
+    </p>
+    <p>
+      Low-lying sea-fogs are favourable to aerial raids provided the scout is
+      able to catch sight of the upper parts of landmarks to enable him to be
+      sure of the correctness of his line of flight-in cases where the distance
+      is very short compass direction is sufficiently reliable-because the bank
+      of vapour not only constitutes a perfect screen, but serves as a blanket
+      to the motor exhaust, if not completely, at least sufficiently to mislead
+      those below. Fogs, as every mariner will testify, play strange tricks with
+      the transmission of sound. Hence, although those on the vessels below
+      might detect a slight hum, it might possibly be so faint as to convey the
+      impression that the aviator was miles away, when, as a matter of fact, he
+      was directly overhead. This confusion arising from sound aberration is a
+      useful protection in itself, as it tends to lure a naval force lying in or
+      moving through the fog into a false sense of security.
+    </p>
+    <p>
+      The development of the submarine revealed the incontrovertible fact that
+      this arm would play a prominent part in future operations upon the water:
+      a presage which has been adequately fulfilled during the present conflict.
+      The instinct of self-preservation at once provoked a discussion of the
+      most effective ways and means of disguising its whereabouts when it
+      travels submerged. To this end the German naval authorities conducted a
+      series of elaborate and interesting experiments off the island of
+      Heligoland. As is well known, when one is directly above a stretch of
+      shallow water, the bottom of the latter can be seen quite distinctly.
+      Consequently, it was decided to employ aerial craft as detectives. Both
+      the aeroplane and the dirigible took part in these experiments, being
+      flown at varying heights, while the submarine was maneouvred at different
+      depths immediately below. The sum of these investigations proved
+      conclusively that a submarine may be detected from aloft when moving at a
+      depth of from 30 to 40 feet. The outline of the submerged craft is
+      certainly somewhat blurred, but nevertheless it is sufficiently distinct
+      to enable its identity to be determined really against the background or
+      bottom of the sea. To combat this detection from an aerial position it
+      will be necessary inter alia to evolve a more harmonious or protective
+      colour-scheme for the submarine. Their investigations were responsible for
+      the inauguration of the elaborate German aerial patrol of harbours, the
+      base for such aerial operations being established upon the island of
+      Heligoland.
+    </p>
+    <p>
+      So far the stern test of war as applied to the science of aeronautics has
+      emphasised the fact that as a naval unit the dirigible is a complete
+      failure. Whether experience will bring about a modification of these views
+      time alone will show, but it is certain that existing principles of design
+      will have to undergo a radical revision to achieve any notable results.
+      The aeroplane alone has proved successful in this domain, and it is upon
+      this type of aerial craft that dependence will have to be placed.
+    </p>
+    <p>
+      <a name="link2HCH0019" id="link2HCH0019">
+      <!--  H2 anchor --> </a>
+    </p>
+    <div style="height: 4em;">
+      <br /><br /><br /><br />
+    </div>
+    <h2>
+      CHAPTER XIX. THE NAVIES of THE AIR
+    </h2>
+    <p>
+      Less than three years ago the momentous and spectacular race among the
+      Powers of Europe for the supremacy of the air began. At first the struggle
+      was confined to two rivals&mdash;France and Germany&mdash;but as time
+      progressed and the importance of aerial fleets was recognised, other
+      nations, notably Great Britain, entered the field.
+    </p>
+    <p>
+      Germany obtained an advantage. Experiment and research were taken up at a
+      point which had been reached by French effort; further experiments and
+      researches were carried out in German circles with secret and feverish
+      haste, with the result that within a short time a pronounced degree of
+      efficiency according to German ideals had been attained. The degree of
+      perfection achieved was not regarded with mere academic interest; it
+      marked the parting of the ways: the point where scientific endeavour
+      commanded practical appreciation by turning the success of the laboratory
+      and aerodrome into the channel of commercial manufacture. In other words,
+      systematic and wholesale production was undertaken upon an extensive
+      scale. The component parts were standardised and arrangements were
+      completed with various establishments possessed of the most suitable
+      machinery to perfect a programme for turning out aeronautical requirements
+      in a steady, continuous stream from the moment the crisis developed.
+    </p>
+    <p>
+      The wisdom of completing these arrangements in anticipation is now
+      apparent. Upon the outbreak of hostilities many German establishments
+      devoted to the production of articles required in the infinite
+      ramifications of commerce found themselves deprived of their markets, but
+      there was no risk that their large plants would be brought to a
+      standstill: the Government ordered the manufacture of aeroplane parts and
+      motors upon an extensive scale. In this manner not only were the
+      industrial establishments kept going, but their production of aeronautical
+      requirements relieved those organisations devoted to the manufacture of
+      armaments, so that the whole resources and facilities of these could be
+      concentrated upon the supply of munitions of war.
+    </p>
+    <p>
+      In France the air-fleet, although extensive upon the outbreak of war, was
+      somewhat heterogeneous. Experiment was still being pursued: no type had
+      met with definite official recognition, the result being that no
+      arrangements had been completed for the production of one or more standard
+      types upon an elaborate scale comparable with that maintained by Germany.
+      In fact some six months after the outbreak of war there was an appreciable
+      lack of precision on this point in French military. Many of the types
+      which had established their success were forbidden by military decree as
+      mentioned in a previous chapter, while manufacturing arrangements were
+      still somewhat chaotic.
+    </p>
+    <p>
+      Great Britain was still more backward in the new movement. But this state
+      of affairs was in a measure due to the division of the Fourth Arm among
+      the two services. A well-organised Government manufactory for the
+      production of aeroplanes and other aircraft necessities had been
+      established, while the private manufacturers had completed preparations
+      for wholesale production. But it was not until the Admiralty accepted
+      responsibility for the aerial service that work was essayed in grim
+      earnest.
+    </p>
+    <p>
+      The allocation of the aerial responsibilities of Great Britain to the
+      Admiralty was a wise move. Experience has revealed the advantages accruing
+      from the perfection of homogeneous squadrons upon the water, that is to
+      say groups of ships which are virtually sister-craft of identical speed,
+      armament, and so on, thus enabling the whole to act together as a complete
+      effective unit. As this plan had proved so successful upon the water, the
+      Admiralty decided to apply it to the fleet designed for service in the air
+      above.
+    </p>
+    <p>
+      At the time this plan of campaign was definitely settled Great Britain as
+      an aerial power was a long way behind her most formidable rival, but
+      strenuous efforts were made to reduce the handicap, and within a short
+      while the greater part of this leeway had been made up. Upon the outbreak
+      of war Great Britain undoubtedly was inferior to Germany in point of
+      numbers of aircraft, but the latter Power was completely outclassed in
+      efficiency, and from the point of view of PERSONNEL. The British had
+      developed the waterplane as an essential auxiliary to naval operations,
+      and here was in advance of her rival, who had practically neglected this
+      line of experiment and evolution, resting secure in the assurance of her
+      advisers that the huge dirigibles would be adequate for all exigencies on
+      the water.
+    </p>
+    <p>
+      Indeed, when war was declared, all the Powers were found more or less
+      wanting so far as their aerial fleets were concerned. If Germany's huge
+      aerial navy had been in readiness for instant service when she invaded
+      Belgium, she would have overcome that little country's resistance in a far
+      shorter time and with much less waste of life. It was the Belgians who
+      first brought home to the belligerents the prominent part that aircraft
+      were destined to play in war, and the military possibilities of the
+      aeroplane. True, the Belgians had a very small aerial navy, but it was put
+      to work without delay and accomplished magnificent results, ascertaining
+      the German positions and dispositions with unerring accuracy and
+      incredible ease, and thus enabling the commander of the Belgian Army to
+      dispose his relatively tiny force to the best advantage, and to offer the
+      most effective resistance.
+    </p>
+    <p>
+      Great Britain's aerial navy, while likewise some what small, was also
+      ready for instant service. The British Expeditionary force was supported
+      by a very efficient aerial fleet, the majority of the vessels forming
+      which flew across the Channel at high speed to the British headquarters in
+      France so as to be available directly military preparations were begun,
+      and the value of this support proved to be inestimable, since it speedily
+      demoralised the numerically superior enemy.
+    </p>
+    <p>
+      France, like Germany, was somewhat dilatory, but this was attributable
+      rather to the time occupied in the mobilisation of the Fourth Arm than to
+      lack of energy. There were a round 1,500 aeroplanes ostensibly ready for
+      service, in addition to some 26 dirigibles. But the fleet was somewhat
+      scattered, while many of the craft were not immediately available, being
+      in the shops or in dock for repairs and overhaul. During the period of
+      mobilisation the so-called standing military force was augmented by about
+      500 machines which were acquired from private owners. The aeroplane
+      factories were also, overhauled and re-organised so as to be in a position
+      to remedy the inevitable wastage, but these organisation efforts were
+      somewhat handicapped by the shortage of labour arising from the call to
+      arms. France, moreover, imperilled her aerial strength by forbidding the
+      use of 558 machines which were ready for service.
+    </p>
+    <p>
+      Germany's aerial fleet was of similar proportions to that of her Gallic
+      neighbour, but curiously enough, and in strange contrast, there appeared
+      to be a lack of readiness in this ramification of the Teuton war machine.
+      The military establishment possessed about 1,000 machines&mdash;active and
+      reserve&mdash;of which it is estimated 700 were available for instant
+      service. During the period of mobilisation a further 450 machines were
+      added to the fleet, drawn for the most part from private owners. So far as
+      the dirigibles were concerned 14 Zeppelins were ready for duty, while
+      others were under construction or undergoing overhaul and repair. A few
+      other types were also in commission or acquired during mobilisation,
+      bringing the dirigible force to 40 machines all told.
+    </p>
+    <p>
+      But the greatest surprise was probably offered by Russia. Very little was
+      known concerning Russian activities in this particular field, although it
+      was stated that large orders for machines had been placed with various
+      foreign manufactories. Certain factories also had been established within
+      the Empire, although the character of their work and its results and
+      achievements were concealed from prying eyes. In Russia, however, an
+      appreciable number of private aeroplanes were in operation, and these, of
+      course, were placed at the disposal of the authorities the moment the
+      crisis developed.
+    </p>
+    <p>
+      The British and French aeroplane manufacturers had been busy upon Russian
+      orders for many months previous to the outbreak of hostilities, while
+      heavy shipments of component parts had been made, the assembling and
+      completion of the machines being carried out in the country. It is
+      generally believed that upon the outbreak of war Russia had a fleet of 800
+      aeroplanes in hand, of which total 150 were contributed from private
+      sources. Even the dirigible had not been overlooked, there being nearly 20
+      of these craft attached to the Russian Army, although for the most part
+      they are small vessels.
+    </p>
+    <p>
+      In comparison with the foregoing large aerial navies, that of Great
+      Britain appeared to be puny. At the moment Great Britain possesses about
+      500 machines, of which about 200 are waterplanes. In addition, according
+      to the Secretary of the Admiralty, 15 dirigibles should be in service.
+      Private enterprise is supported by the Government, which maintains a
+      factory for the manufacture of these craft.
+    </p>
+    <p>
+      During the two years preceding the outbreak of war the various Powers grew
+      remarkably reticent concerning the composition and enlargement of their
+      respective aerial fleets. No official figures were published. But at the
+      same time it is a well-known fact that during the year 1913 France
+      augmented her flying force by no fewer than 544 aeroplanes. Germany was no
+      less energetic, the military acquisition in this branch, and during the
+      self-same year, approaching 700 machines according to the semi-official
+      reports published in that country.
+    </p>
+    <p>
+      The arrangements concluded for the manufacture of additional craft during
+      the war are equally remarkable. The principal factory in Germany, (now
+      devoting its energies to the production of these craft, although in
+      happier days its normal complement of 4,000 men were responsible for the
+      production of another commercial article) possesses facilities for turning
+      out 30 complete aeroplanes per week, according to the statement of its
+      managing director. But it is averred that this statement is purposely
+      misleading, inasmuch as during the first fortnight of the campaign it was
+      producing over 50 aeroplanes per week. It must be remembered that Germany
+      is responsible for the supply of the majority of such craft for the
+      Austrian armies, that country purchasing these vessels in large numbers,
+      because in the early days of the conflict it was notoriously weak in this
+      arm. Since the declaration of war strenuous efforts have been made to
+      remedy this state of affairs, particularly upon the unexpected revelation
+      of Russia's aerial strength.
+    </p>
+    <p>
+      It is computed that upon the outbreak of war the various Powers were in
+      the position to show an aggregate of 4,980 aircraft of all descriptions,
+      both for active service and reserve. This is a colossal fleet, but it
+      serves to convey in a graphic manner the importance attached to the adrial
+      vessel by the respective belligerents. So far as Germany is concerned she
+      is sorely in need of additional machines. Her fleet of the air has lost
+      its formidable character, owing to the fact that it has to be divided
+      between two frontiers, while she has been further weakened by the enormous
+      lengths of the two battle-fronts.
+    </p>
+    <p>
+      Russia has been able to concentrate her aerial force, which has proved of
+      incalculable value to the Grand Duke Nicholas, who has expressed his
+      appreciation of the services rendered by his fliers. The French likewise
+      have been favoured by Fortune in this respect. Their aerial navy is
+      likewise concentrated upon a single frontier, although a pronounced
+      proportion has been reserved for service upon the Mediterranean sea-board
+      for co-operation with the fleet. France suffers, however, to a certain
+      degree from the length of her battle-line, which is over 200 miles in
+      length. The French aerial fleet has been particularly active in the Vosges
+      and the Argonne, where the difficult, mountainous, and densely wooded
+      country has rendered other systems of observation of the enemy's movements
+      a matter of extreme difficulty. The Germans have laboured under a similar
+      handicap in this territory, and have likewise been compelled to centre a
+      considerable proportion of their aerial fleet upon this corner of the
+      extended battlefield.
+    </p>
+    <p>
+      It is in this region that the greatest wastage has been manifest. I have
+      been informed by one correspondent who is fighting in this sternly
+      contested area, that at one time a daily loss of ten German machines was a
+      fair average, while highwater mark was reached, so far as his own
+      observations and ability to glean information were concerned by the loss
+      of 19 machines during a single day. The French wastage, while not so heavy
+      upon the average, has been considerable at times.
+    </p>
+    <p>
+      The term wastage is somewhat misleading, if not erroneous. It does not
+      necessarily imply the total loss of a machine, such as its descent upon
+      hostile territory, but includes damage to machines, no matter how slight,
+      landing within their own lines. In the difficult country of the Vosges
+      many aeroplanes have come to earth somewhat heavily, and have suffered
+      such damage as to render them inoperative, compelling their removal from
+      the effective list until they have undergone complete overhaul or
+      reconstruction. Upon occasions this wastage has been so pronounced that
+      the French aviators, including some of the foremost fliers serving with
+      the forces, have been without a machine and have been compelled to wait
+      their turn.
+    </p>
+    <p>
+      I am informed that one day four machines, returning from a reconnaissance
+      in force, crashed successively to the ground, and each had to be hauled
+      away to the repair sheds, necessitating withdrawal from service for
+      several days. Unfortunately the French, owing to their decision to rule
+      out certain machines as unsuited to military service, have not yet
+      perfected their organisation for making good this wastage, although
+      latterly it has been appreciably reduced by greater care among the
+      aviators in handling their vessels.
+    </p>
+    <p>
+      The fast vessels of the French aerial fleet have proved exceptionally
+      valuable. With these craft speeds of 95 and 100 miles or more per hour
+      have been attained under favourable conditions, and pace has proved
+      distinctly advantageous, inasmuch as it gives the French aviators a
+      superiority of about 40 per cent over the average German machine. It was
+      the activity and daring of the French fliers upon these high speed
+      machines which induced the German airmen to change their tactics.
+      Individual effort and isolated raiding operations were abandoned in favour
+      of what might be described as combined or squadron attack. Six or eight
+      machines advancing together towards the French lines somewhat nonplussed
+      these fleet French mosquito craft, and to a certain degree nullified their
+      superiority in pace. Speed was discounted, for the simple reason that the
+      enemy when so massed evinced a disposition to fight and to follow
+      harassing tactics when one of the slowest French machines ventured into
+      the air.
+    </p>
+    <p>
+      It is interesting to observe that aerial operations, now that they are
+      being conducted upon what may be termed methodical lines as distinct from
+      corsair movements, are following the broad fundamental principles of naval
+      tactics. Homogeneous squadrons, that is, squadrons composed of vessels of
+      similar type and armament, put out and follow roughly the "single line
+      ahead" formation. Upon sighting the enemy there is the manoeuvring for
+      position advantage which must accrue to the speedier protagonist. One
+      then, witnesses what might almost be described as an application of the
+      process of capping the line or "crossing the 'T.'" This tends to throw the
+      slower squadron into confusion by bending it back upon itself, meanwhile
+      exposing it to a demoralizing fire.
+    </p>
+    <p>
+      The analogy is not precisely correct but sufficiently so to indicate that
+      aerial battles will be fought much upon the same lines, as engagements
+      between vessels upon the water. If the manoeuvres accomplish nothing
+      beyond breaking up and scattering the foe, the result is satisfactory in
+      as much as in this event it is possible to exert a driving tendency and to
+      force him back upon the lines of the superior force, when the scattered
+      vessels may be brought within the zone of spirited fire from the ground.
+    </p>
+    <p>
+      Attacks in force are more likely to prove successful than individual
+      raiding tactics, as recent events upon the battlefield of Europe have
+      demonstrated more or less convincingly. An attack in force is likely to
+      cause the defenders upon the ground beneath to lose their heads and to
+      fire wildly and at random, with the result that the airmen may achieve
+      their object with but little damage to themselves. This method of
+      attacking in force was essayed for the first time by the British aerial
+      fleet, which perhaps is not surprising, seeing that the machines are
+      manned and the operations supervised by officers who have excelled in
+      naval training, and who are skilled in such movements.
+    </p>
+    <p>
+      No doubt this practice, combined with the daring of the British aviators,
+      contributed very materially to the utter demoralisation of the German
+      aerial forces, and was responsible for that hesitancy to attack a position
+      in the vicinity of the British craft which became so manifest in the
+      course of a few weeks after the outbreak of hostilities.
+    </p>
+    <p>
+      One of the foremost military experts of the United States, who passed some
+      time in the fighting zone, expressed his opinion that the British aerial
+      force is the most efficient among the belligerents when considered as a
+      unit, the French flier being described by the same authority as most
+      effective when acting individually, owing to personal intrepidity. As a
+      scout the French aviator is probably unequalled, because he is quick to
+      perceive and to collect the data required, and when provided with a fast
+      machine is remarkably nimble and venturesome in the air. The British
+      aviators, however, work as a whole, and in the particular phases where
+      such tactics are profitable have established incontestable superiority. At
+      first the German aerial force appeared to possess no settled system of
+      operation. Individual effort was pronounced, but it lacked method. The
+      Germans have, however, profited from the lessons taught by their
+      antagonists, and now are emulating their tactics, but owing to their
+      imperfect training and knowledge the results they achieve appear to be
+      negligible.
+    </p>
+    <p>
+      The dirigible still remains an unknown quantity in these activities,
+      although strange to relate, in the early days of the war, the work
+      accomplished by the British craft, despite their comparatively low speed
+      and small dimensions, excelled in value that achieved by the warplanes.
+      This was particularly noticeable in matters pertaining to reconnaissance,
+      more especially at night, when the British vessels often remained for
+      hours together in the air, manoeuvring over the hostile lines, and
+      gathering invaluable information as to the disposition and movements of
+      the opposing forces.
+    </p>
+    <p>
+      But it is probably in connection with naval operations that the British
+      aerial fleet excels. The waterplanes have established their supremacy over
+      the naval dirigible in a striking manner. British endeavour fostered the
+      waterplane movement and has carried it to a high degree of perfection. The
+      waterplane is not primarily designed to perform long flights, although
+      such may be carried out if the exigencies demand. The practice of deputing
+      certain vessels to art as "parent ships" to a covey of waterplanes has
+      proved as successful in practice, as in theory. Again, the arrangements
+      for conveying these machines by such means to a rendezvous, and there
+      putting them into the water to complete a certain duty, have been
+      triumphantly vindicated. At the time this idea was embraced it met with a
+      certain degree of hostile criticism: it was argued that the association of
+      the two fighting, machines would tend towards confusion, and impair the
+      efficiency of both.
+    </p>
+    <p>
+      Practice has refuted this theory. The British aerial raids upon Cuxhaven
+      and other places would have been impossible, and probably valueless as an
+      effective move, but for the fact that it was possible to release the
+      machines from a certain point upon the open sea, within easy reach of the
+      cooperating naval squadron. True, the latter was exposed to hostile attack
+      from submarines, but as results proved this was easy to repel. The
+      aircraft were enabled to return to their base, as represented by the
+      rendezvous, to be picked up, and to communicate the intelligence gained
+      from their flight to the authorities in a shorter period of time than
+      would have been possible under any other circumstances, while the risk to
+      the airmen was proportionately reduced.
+    </p>
+    <p>
+      The fact that the belligerents have built up such huge aerial navies
+      conclusively proves that the military value of the Fourth Arm has been
+      fully appreciated. From the results so far achieved there is every
+      indication that activity in this direction will be increased rather than
+      diminished.
+    </p>
+    <p>
+      <br /><br />
+    </p>
+<pre xml:space="preserve">
+
+
+
+
+
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+Project Gutenberg's Aeroplanes and Dirigibles of War, by Frederick A. Talbot
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+
+Title: Aeroplanes and Dirigibles of War
+
+Author: Frederick A. Talbot
+
+Posting Date: July 21, 2008 [EBook #793]
+Release Date: January, 1997
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK AEROPLANES AND DIRIGIBLES OF WAR ***
+
+
+
+
+
+
+
+
+
+
+AEROPLANES AND DIRIGIBLES OF WAR
+
+By Frederick A. Talbot
+
+
+
+
+PREFACE
+
+Ever since the earliest days of the great conquest of the air, first by
+the dirigible balloon and then by the aeroplane, their use in time of
+war has been a fruitful theme for discussion. But their arrival was
+of too recent a date, their many utilities too unexplored to provide
+anything other than theories, many obviously untenable, others avowedly
+problematical.
+
+Yet the part airships have played in the Greatest War has come as a
+surprise even to their most convinced advocates. For every expectation
+shattered, they have shown a more than compensating possibility of
+usefulness.
+
+In this volume an endeavour has been made to record their achievements,
+under the stern test of trial, as an axiom of war, and to explain, in
+untechnical language, the many services to which they have been and may
+be applied.
+
+In the preparation of the work I have received assistance from many
+sources--British, French, Russian and German--from official reports and
+from men who have played a part in the War in the Air. The information
+concerning German military aircraft has been obtained from Government
+documents, most of which were placed at my disposal before the outbreak
+of war.
+
+The use of aircraft has changed the whole art and science of warfare.
+With its disabilities well in hand, with its strength but half revealed,
+the aerial service has revolutionised strategy and shorn the unexpected
+attack of half its terrors. The Fourth Arm is now an invaluable part of
+the complex military machine.
+
+F. A. TALBOT.
+
+
+
+                     CONTENTS
+CHAPTER
+
+     I.     The introduction of aircraft into military operations
+     II.    The military uses of the captive balloon
+     III.   Germany's rise to military airship supremacy
+     IV.    Airships of war
+     V.     Germany's aerial dreadnought fleet
+     VI.    The military value of Germany's aerial fleet
+     VII.   Aeroplanes of war
+     VIII.  Scouting from the skies
+     IX.    The airman and artillery
+     X.     Bomb-throwing from air-craft
+     XI.    Armoured aeroplanes
+     XII.   Battles in the air
+     XIII.  Tricks and ruses to baffle the airman
+     XIV.   Anti-aircraft guns. Mobile weapons
+     XV.    Anti-aircraft guns. Immobile weapons
+     XVI.   Mining the air
+     XVII.  Wireless in aviation
+     XVIII. Aircraft and naval operations
+     XIX.   The navies of the air
+
+
+
+
+
+CHAPTER I. THE INTRODUCTION OF AIRCRAFT INTO MILITARY OPERATIONS
+
+It is a curious circumstance that an invention, which is hailed as
+being one of the greatest achievements ever recorded in the march of
+civilisation, should be devoted essentially to the maiming of humanity
+and the destruction of property. In no other trend of human endeavour
+is this factor so potently demonstrated as in connection with Man's
+Conquest of the Air.
+
+The dogged struggle against the blind forces of Nature was waged
+tenaciously and perseveringly for centuries. But the measure of success
+recorded from time to time was so disappointing as to convey the
+impression, except in a limited circle, that the problem was impossible
+of solution. In the meantime wondrous changes had taken place in the
+methods of transportation by land and sea. The steam and electric
+railway, steam propulsion of vessels, and mechanical movement along
+the highroads had been evolved and advanced to a high standard of
+perfection, to the untold advantage of the community. Consequently it
+was argued, if only a system of travel along the aerial highways could
+be established, then all other methods of mechanical transportation
+would be rendered, if not entirely obsolete, at least antiquated.
+
+At last man triumphed over Nature--at least to such a degree as to
+inspire the confidence of the world at large, and to bring aerial travel
+and transportation within range of realisation. But what has been the
+result? The discovery is not devoted to the interests of peace and
+economic development, but to extermination and destruction.
+
+At the same time this development may be explained. The airship and
+aeroplane in the present stage of evolution possess no economic value.
+True, cross-country cruises by airship have been inaugurated, and, up to
+a point, have proved popularly, if not commercially, successful,
+while tentative efforts have been made to utilise the aeroplane as
+a mail-carrier. Still, from the view-point of the community at large
+aerial travel is as remote as it was centuries ago.
+
+It is somewhat interesting to observe how history is repeating itself.
+When the Montgolfiers succeeded in lifting themselves into the air by
+means of a vessel inflated with hot air, the new vehicle was hailed not
+so much as one possessed of commercial possibilities, but as an engine
+of war! When the indomitable courage and perseverance of Count von
+Zeppelin in the face of discouraging disasters and flagrant failures, at
+last commanded the attention of the German Emperor, the latter regarded
+the Zeppelin craft, not from the interests of peace, but as a military
+weapon, and the whole of the subsequent efforts of the Imperial admirer
+were devoted to the perfection of the airship in this one direction.
+
+Other nations, when they embarked on an identical line of development,
+considered the airship from a similar point of view. In fact, outside
+Germany, there was very little private initiative in this field.
+Experiments and developments were undertaken by the military or naval,
+and in some instances by both branches, of the respective Powers.
+Consequently the aerial craft, whether it be a dirigible airship, or an
+aeroplane, can only be regarded from the military point of view.
+
+Despite the achievements which have been recorded by human endeavour
+in the field of aerial travel, the balloon per se has by no means been
+superseded. It still remains an invaluable adjunct to the fighting
+machine. In Great Britain its value in this direction has never been
+ignored: of late, indeed, it has rather been developed. The captive
+balloon is regarded as an indispensable unit to both field and sea
+operations. This fact was emphasised very strongly in connection with
+the British naval attacks upon the German forces in Flanders, and it
+contributed to the discomfiture of the German hordes in a very emphatic
+manner.
+
+The captive balloon may be operated from any spot where facilities exist
+for anchoring the paying out cable together with winding facilities for
+the latter. Consequently, if exigencies demand, it maybe operated from
+the deck of a warship so long as the latter is stationary, or even from
+an automobile. It is of small cubic capacity, inasmuch as it is only
+necessary for the bag to contain sufficient gas to lift one or two men
+to a height of about 500 or 600 feet.
+
+When used in the field the balloon is generally inflated at the base, to
+be towed or carried forward by a squad of men while floating in the air,
+perhaps at a height of 10 feet. A dozen men will suffice for this duty
+as a rule, and in calm weather little difficulty is encountered in
+moving from point to point. This method possesses many advantages.
+The balloon can be inflated with greater ease at the base, where it is
+immune from interference by hostile fire. Moreover, the facilities for
+obtaining the requisite inflating agent--hydrogen or coal gas--are more
+convenient at such a point. If the base be far removed from the spot at
+which it is desired to operate the balloon, the latter is inflated at a
+convenient point nearer the requisite position, advantage being taken of
+the protective covering offered by a copse or other natural obstacle.
+
+As is well known, balloons played an important part during the siege
+of Paris in 1870-1, not only in connection with daring attempts to
+communicate with the outer world, but in reconnoitring the German
+positions around the beleaguered city. But this was not the first
+military application of the aerial vessel; it was used by the French
+against the Austrians in the battle of Fleurus, and also during the
+American Civil War. These operations, however, were of a sporadic
+character; they were not part and parcel of an organised military
+section.
+
+It is not generally known that the British War office virtually
+pioneered the military use of balloons, and subsequently the methods
+perfected in Britain became recognised as a kind of "standard" and
+were adopted generally by the Powers with such modifications as local
+exigencies seemed to demand.
+
+The British military balloon department was inaugurated at Chatham under
+Captain Templer in 1879. It was devoted essentially to the employment
+of captive balloons in war, and in 1880 a company of the Royal Engineers
+was detailed to the care of this work in the field. Six years previously
+the French military department had adopted the captive balloon under
+Colonel Laussedat, who was assisted among others by the well-known
+Captain Renard. Germany was somewhat later in the field; the military
+value of captive balloons was not appreciated and taken into serious
+consideration here until 1884. But although British efforts were
+preceded by the French the latter did not develop the idea upon accepted
+military lines.
+
+The British authorities were confronted with many searching problems.
+One of the earliest and greatest difficulties encountered was in
+connection with the gas for inflation. Coal gas was not always readily
+available, so that hydrogen had to be depended upon for the most part.
+But then another difficulty arose. This was the manufacture of the
+requisite gas. Various methods were tested, such as the electrolytic
+decomposition of water, the decomposition of sulphuric acid by means of
+iron, the reaction between slaked lime and zinc, and so forth.
+
+But the drawbacks to every process, especially upon the field of battle,
+when operations have to be conducted under extreme difficulties and
+at high pressure, were speedily recognised. While other
+nations concentrated their energies upon the simplification of
+hydrogen-manufacturing apparatus for use upon the battle-field, Great
+Britain abandoned all such processes in toto. Our military organisation
+preferred to carry out the production of the necessary gas at a
+convenient manufacturing centre and to transport it, stored in steel
+cylinders under pressure, to the actual scene of operations. The method
+proved a great success, and in this way it was found possible to inflate
+a military balloon in the short space of 20 minutes, whereas, under the
+conditions of making gas upon the spot, a period of four hours or more
+was necessary, owing to the fact that the manufacturing process is
+relatively slow and intricate. The practicability of the British idea
+and its perfection served to establish the captive balloon as a military
+unit.
+
+The British military ballooning department has always ranked as the
+foremost of its type among the Powers, although its work has been
+carried out so unostentatiously that the outside world has gleaned very
+little information concerning its operations. Captain Templer was an
+indefatigable worker and he brought the ballooning section to a high
+degree of efficiency from the military point of view.
+
+But the British Government was peculiarly favoured, if such a term
+may be used. Our little wars in various parts of the world contributed
+valuable information and experience which was fully turned to account.
+Captive balloons for reconnoitring purposes were used by the British
+army for the first time at Suakim in 1885, and the section established
+its value very convincingly. The French military balloon department
+gained its first experience in this field in the previous year, a
+balloon detachment having been dispatched to Tonkin in 1884. In both
+the Tonkin and Soudan campaigns, invaluable work was accomplished by the
+balloon sections, with the result that this aerial vehicle has come to
+be regarded as an indispensable military adjunct. Indeed the activity of
+the German military ballooning section was directly attributable to the
+Anglo-French achievements therewith.
+
+In this work, however, the British force speedily displayed its
+superiority and initiative. The use of compressed hydrogen was adopted,
+and within the course of a few years the other Powers, realising the
+advantages which the British department had thus obtained, decided to
+follow its example. The gas is stored in cylinders under a pressure
+varying from six to ten or more atmospheres; in other words from about
+80 to 140 or more pounds per square inch. Special military wagons
+have been designed for the transport of these cylinders, and they are
+attached to the balloon train.
+
+The balloon itself is light, and made of such materials as to reduce
+the weight thereof to the minimum. The British balloons are probably the
+smallest used by any of the Powers, but at the same time they are
+the most expensive. They are made of goldbeater's skin, and range in
+capacity from 7,000 to 10,000 cubic feet, the majority being of the
+former capacity. The French balloon on the other hand has a capacity
+exceeding 18,000 cubic feet, although a smaller vessel of 9,000 cubic
+feet capacity, known as an auxiliary, and carrying a single observer, is
+used.
+
+The Germans, on the other hand, with their Teutonic love of the immense,
+favour far larger vessels. At the same time the military balloon section
+of the German Army eclipses that of any other nations is attached to the
+Intelligence Department, and is under the direct control of the General
+Staff. Balloon stations are dotted all over the country, including
+Heligoland and Kiel, while regular sections are attached to the Navy
+for operating captive balloons from warships. Although the Zeppelin and
+aeroplane forces have come to the front in Germany, and have relegated
+the captive balloon somewhat to the limbo of things that were, the
+latter section has never been disbanded; in fact, during the present
+campaign it has undergone a somewhat spirited revival.
+
+The South African campaign emphasised the value of the British balloon
+section of the Army, and revealed services to which it was specially
+adapted, but which had previously more or less been ignored. The
+British Army possessed indifferent maps of the Orange Free State and the
+Transvaal. This lamentable deficiency was remedied in great measure by
+recourse to topographical photographs taken from the captive balloons.
+The guides thus obtained were found to be of extreme value.
+
+During the early stages of the war the hydrogen was shipped in cylinders
+from the homeland, but subsequently a manufacturing plant of such
+capacity as to meet all requirements was established in South Africa.
+The cylinders were charged at this point and dispatched to the scene of
+action, so that it became unnecessary to transport the commodity from
+Britain. The captive balloon revealed the impregnability of Spion Kop,
+enabled Lord Roberts to ascertain the position of the Boer guns at the
+Battle of Paardeburg, and proved of invaluable assistance to the forces
+of General White during the siege of Ladysmith.
+
+
+
+CHAPTER II. THE MILITARY USES of THE CAPTIVE BALLOON
+
+Although the captive balloon is recognised as indispensable in military
+operations, its uses are somewhat limited. It can be employed only in
+comparatively still weather. The reason is obvious. It is essential that
+the balloon should assume a vertical line in relation to its winding
+plant upon the ground beneath, so that it may attain the maximum
+elevation possible: in other words, the balloon should be directly
+above the station below, so that if 100 yards of cable are paid out the
+aerostat may be 100 yards above the ground. If a wind is blowing, the
+helpless craft is certain to be caught thereby and driven forwards or
+backwards, so that it assumes an angle to its station. If this become
+acute the vessel will be tilted, rendering the position of the observers
+somewhat precarious, and at the same time observing efficiency will be
+impaired.
+
+This point may be appreciated more easily by reference to the
+accompanying diagram. A represents the ground station and B the position
+of the captive balloon when sent aloft in calm weather, 300 feet of
+cable being paid out. A wind arises and blows the vessel forward to the
+position C. At this point the height of the craft in relation to the
+ground has been reduced, and the reduction must increase proportionately
+as the strength of the wind increases and forces the balloon still more
+towards the ground. At the same time, owing to the tilt given to the
+car, observation is rendered more difficult and eventually becomes
+extremely dangerous.
+
+A wind, if of appreciable strength, develops another and graver danger.
+Greater strain will be imposed upon the cable, while if the wind be
+gusty, there is the risk that the vessel will be torn away from
+its anchoring rope and possibly lost. Thus it will be seen that the
+effective utilisation of a captive balloon is completely governed by
+meteorological conditions, and often it is impossible to use it
+in weather which exercises but little influence upon dirigibles or
+aeroplanes.
+
+The captive balloon equipment comprises the balloon, together with the
+observer's basket, the wire-cable whereby it is anchored and controlled,
+and the winding apparatus. Formerly a steam engine was necessary for
+the paying in and out of the cable, but nowadays this is accomplished by
+means of a petrol-driven motor, an oil-engine, or even by the engine of
+an automobile. The length of cable varies according to the capacity of
+the balloon and the maximum operating height.
+
+The average British balloon is able to lift about 290 or 300 pounds,
+which may be taken to represent the weight of two observers. On the
+other hand, the French and German balloons are able to carry four times
+this weight, with the exception of the French auxiliaries, which are
+designed to lift one observer only. The balloons of the two latter
+Powers have also a greater maximum altitude; it is possible to ascend to
+a height of some 2,000 feet in one of these.
+
+The observing station is connected with the winding crew below either
+by a telephone, or some other signalling system, the method practised
+varying according to circumstances. In turn the winding station is
+connected with the officer in charge of the artillery, the fire of which
+the captive balloon is directing. The balloon observer is generally
+equipped with various instruments, such as telescope, photographic
+cameras, and so forth, so as to be able, if necessary, to prepare a
+topographical survey of the country below. By this means the absence
+of reliable maps may be remedied, or if not regarded, as sufficiently
+correct they may be checked and counter-checked by the data gained
+aloft.
+
+Seeing that the gas has to be transported in cylinders, which are
+weighty, it is incumbent that the waste of this commodity should be
+reduced to the minimum. The balloon cannot be deflated at night and
+re-inflated in the morning--it must be maintained in the inflated
+condition the whole time it is required for operation.
+
+There are various methods of consummating this end. One method is to
+haul in the balloon and to peg it down on all sides, completing the
+anchorage by the attachment of bags filled with earth to the network.
+While this process is satisfactory in calm weather, it is impracticable
+in heavy winds, which are likely to spring up suddenly. Consequently
+a second method is practised. This is to dig a pit into the ground of
+sufficient size to receive the balloon. When the latter is hauled in it
+is lowered into this pit and there pegged down and anchored. Thus it
+is perfectly safe during the roughest weather, as none of its bulk is
+exposed above the ground level. Furthermore it is not a conspicuous
+object for the concentration of hostile fire.
+
+In some instances, and where the military department is possessed of
+an elaborate equipment such as characterises the German army, when
+reconnaissance is completed and the balloon is to be removed to another
+point, the gas is pumped back into the cylinders for further use. Such
+an economical proceeding is pretty and well adapted to manoeuvres, but
+it is scarcely feasible in actual warfare, for the simple reason that
+the pumping takes time. Consequently the general procedure, when the
+balloon has completed its work, is to permit the gas to escape into the
+air in the usual manner, and to draw a fresh supply of gas from further
+cylinders when the occasion arises for re-inflation.
+
+Although the familiar spherical balloon has proved perfectly adequate
+for reconnoitring in the British and French armies, the German
+authorities maintained that it was not satisfactory in anything but calm
+weather. Accordingly scientific initiative was stimulated with a view to
+the evolution of a superior vessel. These endeavours culminated in the
+Parseval-Siegsfeld captive balloon, which has a quaint appearance. It
+has the form of a bulky cylinder with hemispherical extremities. At one
+end of the balloon there is a surrounding outer bag, reminiscent of a
+cancerous growth. The lower end of this is open. This attachment serves
+the purpose of a ballonet. The wind blowing against the opening, which
+faces it, charges the ballonet with air. This action, it is claimed,
+serves to steady the main vessel, somewhat in the manner of the tail of
+a kite, thereby enabling observations to be made as easily and correctly
+in rough as in calm weather. The appearance of the balloon while aloft
+is certainly curious. It appears to be rearing up on end, as if the
+extremity saddled with the ballonet were weighted.
+
+British and French captive balloon authorities are disposed to discount
+the steadying effect of this attachment, and, indeed, to maintain that
+it is a distinct disadvantage. It may hold the vessel steadier for the
+purpose of observation, but at the same time it renders the balloon a
+steadier target for hostile fire. On the other hand, the swaying of a
+spherical balloon with the wind materially contributes to its safety.
+A moving object, particularly when its oscillations are irregular
+and incalculable, is an extremely difficult object at which to take
+effective aim.
+
+Seeing that even a small captive balloon is of appreciable
+dimensions--from 25 to 33 feet or more in diameter--one might consider
+it an easy object to hit. But experience has proved otherwise. In the
+first place the colour of the balloon is distinctly protective. The
+golden or yellowish tinge harmonises well with the daylight, even in
+gloomy weather, while at night-time it blends excellently with the
+moonlight. For effective observations a high altitude is undesirable. At
+a height of 600 feet the horizon is about 28 miles from the observer,
+as compared with the 3 miles constituting the range of vision from
+the ground over perfectly flat country. Thus it will be seen that the
+"spotter" up aloft has the command of a considerable tract.
+
+Various ways and means of finding the range of a captive balloon have
+been prepared, and tables innumerable are available for committal to
+memory, while those weapons especially designed for aerial targets are
+fitted with excellent range-finders and other instruments. The Germans,
+with characteristic thoroughness, have devoted considerable attention
+to this subject, but from the results which they have achieved up to
+the present this guiding knowledge appears to be more spectacular and
+impressive than effective.
+
+To put a captive balloon out of action one must either riddle the
+envelope, causing it to leak like a sieve, blow the vessel to pieces, or
+ignite the highly inflammable gas with which it is inflated. Individual
+rifle fire will inflict no tangible damage. A bullet, if it finds
+its billet, will merely pass through the envelope and leave two small
+punctures. True, these vents will allow the gas to escape, but this
+action will proceed so slowly as to permit the vessel to remain aloft
+long enough to enable the observer to complete his work. A lucky rifle
+volley, or the stream of bullets from a machine gun may riddle the
+envelope, precipitating a hurried descent, owing to the greater number
+of perforations through which the gas is able to escape, but as a rule
+the observer will be able to land safely.
+
+Consequently the general practice is to shatter the aerostat, and to
+this end either shrapnel, high explosive, or incendiary shells will be
+used. The former must explode quite close to the balloon in order to
+achieve the desired end, while the incendiary shell must actually
+strike it, so as to fire the gas. The high explosive shell may explode
+effectually some feet away from the vessel, inasmuch as in this instance
+dependence is placed upon the terrific concussion produced by the
+explosion which, acting upon the fragile fabric of the balloon, brings
+about a complete collapse of the envelope. If a shrapnel is well placed
+and explodes immediately above the balloon, the envelope will be torn to
+shreds and a violent explosion of the gas will be precipitated. But as
+a matter of fact, it is extremely difficult to place a shrapnel shell so
+as to consummate this end. The range is not picked up easily, while
+the timing of the fuse to bring about the explosion of the shell at the
+critical moment is invariably a complex problem.
+
+One favourite method of finding the range of a balloon is shown in the
+accompanying diagrams. The artillery battery is at B and the captive
+balloon, C, is anchored at A. On either side of B and at a specified
+distance, observers O1 and O2 respectively are stationed. First a shell
+is fired at "long" range, possibly the maximum range of the gun. It
+bursts at D. As it has burst immediately in the line of sight of B, but
+with the smoke obscured by the figure of the balloon C, it is obvious
+to B that the explosion has occurred behind the objective, but at what
+distance he cannot tell. To O1 and O2, however, it is seen to have burst
+at a considerable distance behind C though to the former it appears to
+have burst to the left and to the second observer to the right of the
+target.
+
+Another shell, at "short" range, is now fired, and it bursts at E. The
+explosion takes place in the line of sight of B, who knows that he has
+fired short of the balloon because the latter is eclipsed by the smoke.
+But the two observers see that it is very short, and here again the
+explosion appears to O1 to have occurred to the right of the target,
+while to O2 it has evidently burst to the left of the aerostat, as
+revealed by the relation of the position of the balloon to the bursting
+of the shell shown in Fig. 3.
+
+A third round is fired, and the shell explodes at F. In this instance
+the explosion takes place below the balloon. Both the observers and the
+artillery man concur in their deductions upon the point at which
+the shell burst. But the shell must explode above the balloon, and
+accordingly a fourth round is discharged and the shell bursts at G.
+
+This appears to be above the balloon, inasmuch as the lines of sight
+of the two observers and B converge at this point. But whether the
+explosion occurs immediately above the vessel as is desired, it is
+impossible to say definitely, because it may explode too far behind to
+be effective. Consequently, if this shell should prove abortive, the
+practice is to decrease the range gradually with each succeeding round
+until the explosion occurs at the critical point, when, of course, the
+balloon is destroyed. An interesting idea of the difficulty of picking
+up the range of a captive balloon may be gathered from the fact that
+some ten minutes are required to complete the operation.
+
+But success is due more to luck than judgment. In the foregoing
+explanation it is premised that the aerial vessel remains stationary,
+which is an extremely unlikely contingency. While those upon the ground
+are striving to pick up the range, the observer is equally active in his
+efforts to baffle his opponents. The observer follows each successive,
+round with keen interest, and when the shells appear to be bursting at
+uncomfortably close quarters naturally he intimates to his colleagues
+below that he desires his position to be changed, either by ascending to
+a higher point or descending. In fact, he may be content to come to the
+ground. Nor must the fact be overlooked that while the enemy is trying
+to place the observer hors de combat, he is revealing the position of
+his artillery, and the observer is equally industrious in picking up the
+range of the hostile guns for the benefit of his friends below.
+
+When the captive balloon is aloft in a wind the chances of the enemy
+picking up the range thereof are extremely slender, as it is continually
+swinging to and fro. While there is always the possibility of a shell
+bursting at such a lucky moment as to demolish the aerial target, it is
+generally conceded to be impossible to induce a shell to burst within
+100 yards of a balloon, no matter how skilfully the hostile battery may
+be operated.
+
+The value of the captive balloon has been demonstrated very strikingly
+throughout the attack upon the entrenched German positions in Flanders.
+Owing to the undulating character of the dunes the "spotters" upon the
+British monitors and battle ships are unable to obtain a sweeping view
+of the country. Accordingly captive balloons are sent aloft in some
+cases from the deck of the monitors, and in others from a suitable point
+upon the beach itself. The aerial observer from his point of vantage is
+able to pick up the positions of the German forces and artillery with
+ease and to communicate the data thus gained to the British vessels,
+although subjected to heavy and continuous hostile fire. The difficulty
+of hitting a captive balloon has been graphically emphasised, inasmuch
+as the German artillerists have failed to bring down a solitary balloon.
+On the other hand the observer in the air is able to signal the results
+of each salvo fired from the British battleships as they manoeuvre at
+full speed up and down the coastline, while he keeps the fire of the
+monitors concentrated upon the German positions until the latter have
+been rendered untenable or demolished. The accuracy of the British
+gun-fire has astonished even the Germans, but it has been directly
+attributable to the rangefinder perched in the car of the captive
+balloon and his rapid transmission of information to the vessels below.
+
+The enthusiastic supporters of aerial navigation maintained that
+the dirigible and the aeroplane would supersede the captive balloon
+completely. But as a matter of fact the present conflict has established
+the value of this factor more firmly than ever. There is not the
+slightest possibility that the captive balloon sections of the
+belligerents will be disbanded, especially those which have the
+fruits of experience to guide them. The airship and the aeroplane have
+accomplished wonders, but despite their achievements the captive balloon
+has fully substantiated its value as a military unit in its particular
+field of operations.
+
+
+
+CHAPTER III. GERMANY'S RISE TO MILITARY AIRSHIP SUPREMACY
+
+Two incidents in the history of aviation stand out with exceptional
+prominence. The one is the evolution of the Zeppelin airship--a story
+teeming with romance and affording striking and illuminating glimpses
+of dogged perseverance, grim determination in the face of repeated
+disasters, and the blind courageous faith of the inventor in the
+creation of his own brain. The second is the remarkable growth of
+Germany's military airship organisation, which has been so rapid and
+complete as to enable her to assume supremacy in this field, and that
+within the short span of a single decade.
+
+The Zeppelin has always aroused the world's attention, although this
+interest has fluctuated. Regarded at first as a wonderful achievement
+of genius, afterwards as a freak, then as the ready butt for universal
+ridicule, and finally with awe, if not with absolute terror--such in
+brief is the history of this craft of the air.
+
+Count von Zeppelin can scarcely be regarded as an ordinary man. He took
+up the subject of flight at an age which the majority of individuals
+regard as the opportune moment for retirement from activity, and,
+knowing nothing about mechanical engineering, he concentrated his
+energies upon the study of this science to enable him to master the
+difficulties of a mechanical character incidental to the realisation of
+his grand idea. His energy and indomitable perseverance are equalled by
+his ardent patriotism, because, although the Fatherland discounted his
+idea when other Powers were ready to consider it, and indeed made
+him tempting offers for the acquisition of his handiwork, he stoutly
+declined all such solicitations, declaring that his invention, if such
+it may be termed, was for his own country and none other.
+
+Count von Zeppelin developed his line of study and thought for one
+reason only. As an old campaigner and a student of military affairs
+he realised the shortcomings of the existing methods of scouting
+and reconnoitring. He appreciated more than any other man of the day
+perhaps, that if the commander-in-chief of an army were provided with
+facilities for gazing down upon the scene of operations, and were able
+to take advantage of all the information accruing to the man above who
+sees all, he would hold a superior position, and be able to dispose
+his forces and to arrange his plan of campaign to the most decisive
+advantage. In other words, Zeppelin conceived and developed his airship
+for one field of application and that alone-military operations.
+Although it has achieved certain successes in other directions these
+have been subsidiary to the primary intention, and have merely served to
+emphasise its military value.
+
+Von Zeppelin was handicapped in his line of thought and investigation
+from the very first. He dreamed big things upon a big scale. The
+colossal always makes a peculiar and irresistible appeal to the Teutonic
+nature. So he contemplated the perfection of a big dirigible, eclipsing
+in every respect anything ever attempted or likely to be attempted
+by rival countries. Unfortunately, the realisation of the "colossal"
+entails an equally colossal financial reserve, and the creator of this
+form of airship for years suffered from financial cramp in its worst
+manifestation.  Probably it was to the benefit of the world at large
+that Fortune played him such sorry tricks. It retarded the growth of
+German ambitions in one direction very effectively.
+
+As is well known Zeppelin evolved what may be termed an individual line
+of thought in connection with his airship activities. He adopted what is
+known as the indeformable airship: that is to say the rigid, as opposed
+to the semi-rigid and flexible craft. As a result of patient experiment
+and continued researches he came to the conclusion that a huge outer
+envelope taking the form of a polygonal cylinder with hemispherical
+ends, constructed upon substantial lines with a metallic skeleton
+encased within an impermeable skin, and charged with a number of smaller
+balloon-shaped vessels containing the lifting agent--hydrogen gas--would
+fulfil his requirements to the greatest advantage. Model after model was
+built upon these lines. Each was subjected to searching tests with the
+invariable result attending such work with models. Some fulfilled the
+expectations of the inventor, others resolutely declined to illustrate
+his reasonings in any direction.
+
+The inevitable happened. When a promising model was completed finally
+the inventor learned to his sorrow what every inventor realises in time.
+His fortune and the resources of others had been poured down the sink
+of experiment. To carry the idea from the model to the practical stage
+required more money, and it was not forthcoming. The inventor sought
+to enlist the practical sympathy of his country, only to learn that in
+Germany, as in other lands, the axiom concerning the prophet, honour,
+and country prevails. No exuberant inventor received such a cold douche
+from a Government as did Count Zeppelin from the Prussian authorities.
+For two years further work was brought practically to a standstill:
+nothing could be done unless the sinews of war were forthcoming. His
+friends, who had assisted him financially with his models, now concluded
+that their aid had been misplaced.
+
+The inventor, though disappointed, was by no means cast down. He clung
+tenaciously to his pet scheme and to such effect that in 1896 a German
+Engineering Society advanced him some funds to continue his researches.
+This support sufficed to keep things going for another two years,
+during which time a full-sized vessel was built. The grand idea began
+to crystallise rapidly, with the result that when a public company was
+formed in 1898, sufficient funds were rendered available to enable the
+first craft to be constructed. It aroused considerable attention, as
+well it might, seeing that it eclipsed anything which had previously
+been attempted in connection with dirigibles. It was no less than 420
+feet in length, by 38 feet in diameter, and was fitted with two cars,
+each of which carried a sixteen horse-power motor driving independent
+propellers rigidly attached to the body of the vessel. The propellers
+were both vertical and horizontal, for the purpose of driving the ship
+in the two planes--vertical and horizontal respectively.
+
+The vessel was of great scientific interest, owing to the ingenuity of
+its design and construction. The metallic skeleton was built up from
+aluminium and over this was stretched the fabric of the envelope,
+care being observed to reduce skin friction, as well as to achieve
+impermeability. But it was the internal arrangement of the gas-lifting
+balloons which provoked the greatest concern. The hull was divided
+into compartments, each complete in itself, and each containing a small
+balloon inflated with hydrogen. It was sub-division as practised in
+connection with vessels ploughing the water applied to aerial craft, the
+purpose being somewhat the same. As a ship of the seas will keep afloat
+so long as a certain number of its subdivisions remain watertight,
+so would the Zeppelin keep aloft if a certain number of the gas
+compartments retained their charges of hydrogen. There were no fewer
+than seventeen of these gas-balloons arranged in a single line within
+the envelope. Beneath the hull and extending the full length of
+the latter was a passage which not only served as a corridor for
+communication between the cars, but also to receive a weight attached
+to a cable worked by a winch. By the movement of this weight the bow or
+stem of the vessel could be tilted to assist ascent and descent.
+
+The construction of the vessel subsequently proved to be the easiest and
+most straightforward part of the whole undertaking. There were other and
+more serious problems to be solved. How would such a monster craft come
+to earth? How could she be manipulated upon the ground? How could she
+be docked? Upon these three points previous experience was silent. One
+German inventor who likewise had dreamed big things, and had carried
+them into execution, paid for his temerity and ambitions with his life,
+while his craft was reduced to a mass of twisted and torn metal. Under
+these circumstances Count Zeppelin decided to carry out his flights
+over the waters of the Bodensee and to house his craft within a
+floating dock. In this manner two uncertain factors might be effectively
+subjugated.
+
+Another problem had been ingeniously overcome. The outer envelope
+presented an immense surface to the atmosphere, while temperature was
+certain to play an uncertain part in the behaviour of the craft. The
+question was to reduce to the minimum the radiation of heat and cold to
+the bags containing the gas. This end was achieved by leaving a slight
+air space between the inflated gas balloons and the inner surface of the
+hull.
+
+The first ascent was made on July 2nd, 1900, but was disappointing,
+several breakdowns of the mechanism occurring while the vessel was in
+mid-air, which rendered it unmanageable, although a short flight was
+made which sufficed to show that an independent speed of 13 feet per
+second could be attained. The vessel descended and was made fast in her
+dock, the descent being effected safely, while manoeuvring into dock was
+successful. At least three points about which the inventor had been in
+doubt appeared to be solved--his airship could be driven through the air
+and could be steered; it could be brought to earth safely; and it could
+be docked.
+
+The repairs to the mechanism were carried out and on October 17th and
+21st of the same year further flights were made. By this time certain
+influential Teuton aeronautical experts who had previously ridiculed
+Zeppelin's idea had made a perfect volte-face. They became staunch
+admirers of the system, while other meteorological savants participated
+in the trials for the express purpose of ascertaining just what the ship
+could do. As a result of elaborate trigonometrical calculations it was
+ascertained that the airship attained an independent speed of 30 feet
+per second, which exceeded anything previously achieved. The craft
+proved to be perfectly manageable in the air, and answered her helm,
+thus complying with the terms of dirigibility. The creator was flushed
+with his triumph, but at the same time was doomed to experience
+misfortune. In its descent the airship came to "earth" with such a shock
+that it was extensively damaged. The cost of repairing the vessel was
+so heavy that the company declined to shoulder the liability, and as the
+Count was unable to defray the expense the wreck was abandoned.
+
+Although a certain meed of success had been achieved the outlook seemed
+very black for the inventor. No one had any faith in his idea. He made
+imploring appeals for further money, embarked upon lecturing campaigns,
+wrote aviation articles for the Press, and canvassed possible supporters
+in the effort to raise funds for his next enterprise. Two years passed,
+but the fruits of the propaganda were meagre. It was at this juncture,
+when everything appeared to be impossible, that Count Zeppelin
+discovered his greatest friend. The German Emperor, with an eye ever
+fixed upon new developments, had followed Zeppelin's uphill struggle,
+and at last, in 1902, came to his aid by writing a letter which ran:--
+
+"Since your varied flights have been reported to me it is a great
+pleasure to me to express my acknowledgment of your patience and your
+labours, and the endurance with which you have pressed on through
+manifold hindrances till success was near. The advantages of your system
+have given your ship the greatest attainable speed and dirigibility, and
+the important results you have obtained have produced an epoch-making
+step forward in the construction of airships and leave laid down a
+valuable basis for future experiments."
+
+This Imperial appreciation of what had been accomplished proved to be
+the turning point in the inventor's fortunes. It stimulated financial
+support, and the second airship was taken in hand. But misfortune still
+pursued him. Accidents were of almost daily occurrence. Defects were
+revealed here and weaknesses somewhere else. So soon as one trouble was
+overcome another made itself manifest. The result was that the whole of
+the money collected by his hard work was expended before the ship
+could take to the air. A further crash and blasting of cherished hopes
+appeared imminent, but at this moment another Royal personage came to
+the inventor's aid.
+
+The King of Wurtemberg took a personal interest in his subject's uphill
+struggle, and the Wurtemberg Government granted him the proceeds of a
+lottery. With this money, and with what he succeeded in raising by hook
+and by crook, and by mortgaging his remaining property, a round L20,000
+was obtained. With this capital a third ship was taken in hand, and
+in 1905 it was launched. It was a distinct improvement upon its
+predecessors. The airship was 414 feet in length by 38 feet in diameter,
+was equipped with 17 gas balloons having an aggregate capacity of
+367,000 cubic feet of hydrogen, was equipped with two 85 horse-power
+motors driving four propellers, and displaced 9 tons. All the
+imperfections incidental to the previous craft had been eliminated,
+while the ship followed improved lines in its mechanical and structural
+details.
+
+The trials with this vessel commenced on November 30th, 1905, but
+ill-luck had not been eluded. The airship was moored upon a raft which
+was to be towed out into the lake to enable the dirigible to ascend.
+But something went wrong with the arrangements. A strong wind caught the
+ungainly airship, she dipped her nose into the water, and as the motor
+was set going she was driven deeper into the lake, the vessel only being
+saved by hurried deflation.
+
+Six weeks were occupied in repairs, but another ascent was made
+on January 17th, 1906. The trials were fairly satisfactory, but
+inconclusive. One of the motors went wrong, and the longitudinal
+stability was found to be indifferent. The vessel was brought down, and
+was to be anchored, but the Fates ruled otherwise. A strong wind caught
+her during the night and she was speedily reduced to indistinguishable
+scrap.
+
+Despite catastrophe the inventor wrestled gamely with his project. The
+lessons taught by one disaster were taken to heart, and arrangements
+to prevent the recurrence thereof incorporated in the succeeding craft.
+Unfortunately, however, as soon as one defect was remedied another
+asserted itself. It was this persistent revelation of the unexpected
+which caused another period of indifference towards his invention.
+Probably nothing more would have been heard of the Zeppelin after this
+last accident had it not been for the intervention of the Prussian
+Government at the direct instigation of the Kaiser, who had now taken
+Count Zeppelin under his wing. A State lottery was inaugurated, the
+proceeds of which were handed over to the indefatigable inventor,
+together with an assurance that if he could keep aloft 24 hours without
+coming to earth in the meantime, and could cover 450 miles within
+this period, the Government would repay the whole of the money he had
+lavished upon his idea, and liquidate all the debts he had incurred in
+connection therewith.
+
+Another craft was built, larger than its predecessors, and equipped with
+two motors developing 170 horse-power. Upon completion it was submitted
+to several preliminary flights, which were so eminently successful
+that the inventor decided to make a trial trip under conditions closely
+analogous to those imposed for the Government test. On June 20th, 1908,
+at 8:26 a.m. the craft ascended and remained aloft for 12 hours, during
+which time it made an encouraging circular tour. Flushed with this
+success, the Count considered that the official award was within reach,
+and that all his previous disasters and misfortunes were on the eve of
+redemption.
+
+The crucial test was essayed on August 5th, 1908. Accompanied by twelve
+observers the vessel ascended and travelled without incident for
+eight hours. Then a slight mishap demanded attention, but was speedily
+repaired, and was ignored officially as being too trivial to influence
+the main issue. Victory appeared within measurable distance: the arduous
+toil of many patient years was about to be rewarded. The airship was
+within sight of home when it had to descend owing to the development
+of another motor fault. But as it approached the ground, Nature, as if
+infuriated at the conquest, rose up in rebellion. A sudden squall struck
+the unwieldy monster. Within a few moments it became unmanageable, and
+through some inscrutable cause, it caught fire, with the result that
+within a few moments it was reduced to a tangled mass of metallic
+framework.
+
+It was a catastrophe that would have completely vanquished many an
+inventor, but the Count was saved the gall of defeat. His flight, which
+was remarkable, inasmuch as he had covered 380 miles within 24 hours,
+including two unavoidable descents, struck the Teuton imagination. The
+seeds so carefully planted by the "Most High of Prussia" now bore fruit.
+The German nation sympathised with the indomitable inventor, appreciated
+his genius, and promptly poured forth a stream of subscriptions to
+enable him to build another vessel. The intimation that other Powers had
+approached the Count for the acquisition of his idea became known far
+and wide, together with the circumstance that he had unequivocally
+refused all offers. He was striving for the Fatherland, and his
+unselfish patriotism appealed to one and all. Such an attitude deserved
+hearty national appreciation, and the members of the great German public
+emptied their pockets to such a degree that within a few weeks a sum of
+L300,000 or $1,500,000 was voluntarily subscribed.
+
+All financial embarrassments and distresses were now completely removed
+from the Count's mind. He could forge ahead untrammelled by anxiety and
+worry. Another Zeppelin was built and it created a world's record. It
+remained aloft for 38 hours, during which time it covered 690 miles,
+and, although it came to grief upon alighting, by colliding with a
+tree, the final incident passed unnoticed. Germany was in advance of
+the world. It had an airship which could go anywhere, irrespective of
+climatic conditions, and in true Teuton perspective the craft was viewed
+from the military standpoint. Here was a means of obtaining the mastery
+of the air: a formidable engine of invasion and aerial attack had been
+perfected. Consequently the Grand Idea must be supported with unbounded
+enthusiasm. The Count was hailed by his august master as "The greatest
+German of the twentieth century," and in this appreciation the populace
+wholeheartedly concurred. Whether such a panegyric from such an
+auspicious quarter is praise indeed or the equivalent of complete
+condemnation, history alone will be able to judge, but when one
+reflects, at this moment, upon the achievements of this aircraft during
+the present conflagration, the unprejudiced will be rather inclined
+to hazard the opinion that Imperial Teuton praise is a synonym for
+damnation.
+
+Although the Zeppelin was accepted as a perfect machine it has never
+been possible to disperse the atmosphere of disaster with which it has
+been enveloped from the first. Vessel after vessel has gone up in smoke
+and flame: few craft of this type have enjoyed more than an evanescent
+existence; and each successive catastrophe has proved more terrible than
+its predecessor. But the Teutonic nation has been induced to pin its
+whole faith on this airship, notwithstanding that the more levelheaded
+engineers of other countries have always maintained the craft to be a
+"mechanical monstrosity" condemned from its design and principles of
+construction to disaster. Unshaken by this adverse criticism, Germany
+rests assured that by means of its Zeppelins it will achieve that
+universal supremacy which it is convinced is its Destiny.
+
+This blind child-like faith has been responsible for the establishment
+and development of the Zeppelin factories. At Friedrichshafen the
+facilities are adequate to produce two of these vessels per month, while
+another factory of a similar capacity has been established at Berlin.
+Unfortunately such big craft demand large docks to accommodate them, and
+in turn a large structure of this character constitutes an easy mark
+for hostile attack, as the raiding airmen of the Allies have proved very
+convincingly.
+
+But the Zeppelin must not be under-rated. Magnificent performances have
+been recorded by these vessels, such as the round 1,000 miles' trip in
+1909, and several other equally brilliant feats since that date. It
+is quite true that each astounding achievement has been attended by an
+equally stupendous accident, but that is accepted as a mere incidental
+detail by the faithful Teutonic nation. Many vivid prophecies of the
+forthcoming flights by Zeppelin have been uttered, and it is quite
+probable that more than one will be fulfilled, but success will be
+attributable rather to accident than design.
+
+Although the Zeppelin is the main stake of the German people in matters
+pertaining to aerial conquest, other types of airships have not been
+ignored, as related in another chapter. They have been fostered upon a
+smaller but equally effective scale. The semi-rigid Parseval and Gross
+craft have met with whole-hearted support, since they have established
+their value as vessels of the air, which is tantamount to the acceptance
+of their military value.
+
+The Parseval is pronounced by experts to be the finest expression of
+aeronautical engineering so far as Teuton effort is concerned. Certainly
+it has placed many notable flights to its credit. The Gross airship
+is an equally serviceable craft, its lines of design and construction
+closely following those of the early French supple airships. There are
+several other craft which have become more or less recognised by the
+German nation as substantial units of war, such as the Ruthemberg,
+Siemens-Schukert, and so forth, all of which have proved their
+serviceability more or less conclusively. But in the somewhat
+constricted Teuton mind the Zeppelin and the Zeppelin only represents
+the ultima Thule of aerial navigation and the means for asserting the
+universal character of Pan-Germanism as well as "Kultur."
+
+
+
+CHAPTER IV. AIRSHIPS OF WAR
+
+So much has been said and written concerning the Zeppelin airship,
+particularly in its military aspect, that all other developments in
+this field have sunk into insignificance so far as the general public is
+concerned. The Zeppelin dirigible has come to be generally regarded as
+the one and only form of practical lighter-than-air type of aircraft.
+Moreover, the name has been driven home with such effect that it is
+regarded as the generic term for all German airships.
+
+These are grievous fallacies. The Zeppelin is merely one of a variety of
+types, even in Germany, although at the moment it probably ranks as
+the solitary survivor of the rigid system of construction. At one time,
+owing to the earnestness with which the advantages of this form of
+design were discussed, and in view of the fact that the Zeppelin
+certainly appeared to triumph when all other designs failed, Great
+Britain was tempted to embrace the rigid form of construction. The
+building of an immense vessel of this class was actively supported
+and it was aptly christened the "May-fly." Opponents of the movement
+tempered their emphatic condemnatory criticism so far as to remark that
+it MAY FLY, but as events proved it never did. The colossal craft
+broke its back before it ever ventured into the air, and this solitary
+experience proving so disastrous, the rigid form of construction was
+abandoned once and for all. The venture was not in vain; it brought home
+to the British authorities more convincingly than anything else that
+the Zeppelin was a mechanical monstrosity. The French never even
+contemplated the construction of such a craft at that time, estimating
+it at its true value, and the British failure certainly served to
+support French antagonism to the idea. Subsequently, however, an attempt
+at rigid construction was made in France with the "Spiess" airship,
+mainly as a concession to public clamour.
+
+Even in Germany itself the defects of the Zeppelin were recognised and
+a decided effort to eliminate them was made by Professor Schutte in
+co-operation with a manufacturer of Mannheim named Lanz. The joint
+product of their ambitions, the Schutte-Lanz, is declared to be superior
+to the Zeppelin, but so far it has failed to justify any of the claims
+of its designers. This vessel, which also favours the colossal, is
+likewise of the rigid type, but realising the inherent dangers accruing
+from the employment of metal for the framework, its constructors have
+used wood, reinforced and strengthened where necessary by metallic
+angle-iron, plates, and bracing; this utilisation of metal is, however,
+carried out very sparingly. The first vessel of this class was a huge
+failure, while subsequent craft have not proved much more successful.
+
+In fact, one of the largest German airships ever designed, L4, is, or
+rather was, a Schutte-Lanz, with a capacity of 918,000 cubic feet, but
+over 6,000 pounds lighter than a Zeppelin of almost similar dimensions.
+I say "was" since L4 is no more. The pride of its creators evinced a
+stronger preference for Davy Jones' Locker than its designed realm. Yet
+several craft of this type have been built and have been mistaken for
+Zeppelins owing to the similarity of the broad principles of design and
+their huge dimensions. In one vital respect they are decidedly inferior
+to their contemporary--they are not so speedy.
+
+The most successful of the German lighter-than-air machines are those
+known respectively as the semi rigid and non-rigid types, the best
+examples of which are the Gross and Parseval craft. Virtually they are
+Teutonic editions of the successful French craft of identical design by
+which they were anticipated. The Lebaudy is possibly the most famous of
+the French efforts in this direction. The gas-bag has an asymmetrical
+shape, and is pointed at both ends, although the prow is blunter or
+rounder than the stem. The gas-bag comprises a single chamber for the
+inflating agent, the distended shape of the envelope being sustained by
+means of an air-ballonet. By varying the contents of the latter through
+the agency of a pump the tension of the gas in the lifting envelope can
+be maintained, and the shape of the inflated balloon preserved under all
+conditions.
+
+Beneath the gas-bag is a long strengthened girder, and from this in turn
+the car is suspended. It is the introduction of this rigid girder which
+is responsible for the descriptive generic term of "semi-rigid." On the
+other hand the "non-rigid" type may be roughly described as a pisciform
+balloon fitted with propelling machinery, inasmuch as the car containing
+the driving machinery is suspended from the balloon in the manner of
+the car in the ordinary drifting vessel. So far as the French effort is
+concerned the Bayard-Clement type is the best example of the non-rigid
+system; it is represented in Germany by the Parseval class.
+
+The Gross airship has been definitely adopted as a military machine
+by the German authorities, and figures in the "M" class. The "M-IV"
+completed in 1913 is the largest of this type, and differs from its
+prototypes in that it carries two cars, each fitted with motors, whereas
+the earlier machines were equipped with a single gondola after the
+French pattern. This vessel measures 320 feet in length, has a maximum
+diameter of 44 1/2 feet, displaces 13 tons, and is fitted with motors
+developing 450 horse-power, which is sufficient to give it a speed of
+47 miles per hour. This vessel represents a huge advance upon its
+predecessors of this design, inasmuch as the latter were about 245 feet
+in length by 36 1/4 feet in diameter, and displaced only six tons,
+while the single car was provided with a motor developing only 150
+horse-power, the speed being 28 miles per hour. Thus it will be seen
+that a huge development has suddenly taken place, a result due no doubt
+to the co-operation of the well-known engineer Basenach. The "M-IV"
+is essentially an experiment and great secrecy has been maintained
+in regard to the trials which have been carried out therewith, the
+authorities merely vouchsafing the fact that the airship has proved
+completely successful in every respect; conclusive testimony of this
+is offered by the inclusion of the vessel in the active aerial fleet of
+Germany.
+
+But it is the Parseval which is regarded as the finest type of airship
+flying the German flag. This vessel is the product of slow evolution,
+for it is admitted to be a power-driven balloon. Even the broad lines
+of the latter are preserved, the shape being that of a cylinder with
+rounded ends. It is the direct outcome of the "Drachen-Balloon,"
+perfected by Parseval and Siegsfeld, the captive balloon which is an
+indispensable part of the German military equipment.
+
+The complete success of the suspension system in this captive balloon
+prompted Parseval to continue his researches and experiments in regard
+to the application of power to the vessel, so as to induce it to move
+independently of the wind. The suspension system and the car are the
+outstanding features of the craft. It is non-rigid in the strictest
+interpretation of the term, although, owing to the incorporation of
+the steadying hollow "mattress" (as it is called by its inventor), the
+strength of the suspension system, and the substantial character of the
+car, it conveys an impression of great solidity. The thinnest rope,
+both manilla and steel, in the suspension system is as thick as a man's
+finger, while the car, measuring 30 feet in length by 6 feet in width,
+carried out in wood, is a striking example of the maximum of strength
+with the minimum of weight, being as steady and as solid as a boat's
+deck. The propellers are collapsible, although in the latest craft of
+this class they are semi-rigid.
+
+The mechanical equipment is also interesting. There are two propellers,
+and two motors, each nominally driving one propeller. But should one
+motor break down, or motives of economy, such as husbanding of fuel,
+render it advisable to run upon one engine, then the two propellers may
+be driven by either of the motors.
+
+The inventor has perfected an ingenious, simple, and highly efficient
+coupling device to attain this end, but to ensure that the propeller
+output is of the maximum efficiency in relation to the engine, the pitch
+of the propellers may be altered and even reversed while the engine is
+running. When one motor only is being used, the pitch is lowered until
+the propellers revolve at the speed which they would attain if both
+engines were in operation. This adjustment of the propeller pitch to the
+most economical engine revolutions is a distinctive characteristic, and
+contributes to the efficiency and reliability of the Parseval dirigible
+to a very pronounced degree.
+
+Steering in the vertical plane is also carried out upon distinctive
+lines. There are no planes for vertical steering, but movement is
+accomplished by tilting the craft and thus driving the gas from one end
+of the balloon to the other. This is effected by the manipulation of the
+air-ballonets, one of which is placed at the prow and stem of the gas
+bag respectively. If it is desired to descend the gas is driven from the
+forward to the after end of the envelope, merely by inflating the bow
+ballonet with air by means of a pump placed in the car. If ascent is
+required, the after-ballonet is inflated, thereby driving the gas to the
+forward end of the balloon, the buoyancy of which is thus increased.
+The outstanding feature of the "Drachen-Balloon" is incorporated in
+the airship. This is the automatic operation of the safety valve on the
+gas-bag directly by the air ballonets. If these ballonets empty owing
+to the pressure of the gas within the envelope, a rope system disposed
+within the balloon and connecting the ballonets and the gas-valve at the
+top is stretched taut, thereby opening the gas-valve. In this manner the
+gas-pressure becomes reduced until the ballonets are enabled to exercise
+their intended function. This is a safety precaution of inestimable
+value.
+
+The Parseval is probably the easiest dirigible to handle, inasmuch as it
+involves no more skill or knowledge than that required for an ordinary
+free balloon. Its movements in the vertical plane are not dissimilar
+to those of the aeroplane, inasmuch as ascent and descent are normally
+conducted in a "screwing" manner, the only exception being of course
+in abrupt descent caused by the ripping of the emergency-valve. On one
+occasion, it is stated, one of the latest machines of this type,
+when conducting experimental flights, absolutely refused to descend,
+producing infinite amusement both among the crowd and those on board.
+
+The development of the Parseval is directly attributable to the
+influence and intimate interest of the Kaiser, and undoubtedly this
+represents the wisest step he ever made in the realm of aeronautics. It
+certainly has enabled the German military machine to become possessed of
+a significant fleet of what may be described as a really efficient and
+reliable type of dirigible. The exact number of military Parsevals in
+commission is unknown, but there are several classes thereof, in the
+nature of aerial cruisers and vedettes.
+
+The largest and most powerful class are those known as the B type,
+measuring about 240 feet in length by 40 feet maximum diameter,
+of 223,000 cubic feet capacity, and fitted with two motorsand two
+propellers. This vessel carries about 10 passengers, can climb to a
+maximum height of approximately 8,500 feet, and is capable of remaining
+in the air for twenty hours upon a single fuel charge. While this is
+the largest and most serviceable type of Parseval designed for
+military duties, there is another, the A class, 200 feet in length with
+accommodation for six passengers in addition to the crew of three, which
+is capable of attaining a maximum altitude of 6,700 feet, and has an
+endurance capacity of 15 hours. This class also is fitted with twin
+propellers and motors. In addition there are the C and E classes,
+carrying from four to eight passengers, while the vedettes are
+represented by the D and F classes, which have a maximum altitude of
+2,000 feet and can remain aloft for only five hours upon a single fuel
+charge. These smaller vessels, however, have the advantage of requiring
+only one or two men to handle them. The present military Parseval
+dirigible is made in one of these five standardised classes, experience
+having established their efficiency for the specified military services
+for which they are built. In point of speed they compare favourably with
+the latest types of Zeppelin, the speeds of the larger types ranging
+from 32 to 48 miles per hour with a motor effort of 360 to 400
+horse-power.
+
+So far as the French airships of war are concerned, the fleet is
+somewhat heterogeneous, although the non-rigid type prevails. The French
+aerial navy is represented by the Bayard-Clement, Astra, Zodiac, and the
+Government-built machines. Although the rigid type never has met with
+favour in France, there is yet a solitary example of this system of
+construction--the Spiess, which is 460 feet in length by 47 feet in
+diameter and has a displacement of 20 tons. The semi-rigid craft are
+represented by the Lebaudy type, the largest of which measures 293 feet
+in length by 51 feet in diameter, and has a displacement of 10 tons.
+
+One may feel disposed to wonder why the French should be apparently
+backward in this form of aerial craft, but this may be explained by the
+fact that the era of experiment had not been concluded at the time war
+was declared, with the result that it has been somewhat difficult to
+determine which type would meet the military requirements of the country
+to the best advantage. Moreover, the French military authorities evinced
+a certain disposition to relegate the dirigible to a minor position,
+convinced that it had been superseded by the heavier-than-air machine.
+Taken on the whole, the French airship fleet is inferior to the German
+in point of speed, if not numerically, but this deficiency is more than
+counterbalanced by the skill and ability of the men manning their craft,
+who certainly are superior to their contemporaries in Germany, combined
+with the proved character of such craft as are in service.
+
+The same criticism may be said to apply to Great Britain. That
+country was backward in matters pertaining to the airship, because its
+experiments were carried out spasmodically while dependence was reposed
+somewhat too much upon foreign effort. The British airships are small
+and of low speed comparatively speaking. Here again it was the advance
+of the aeroplane which was responsible for the manifestation of a
+somewhat indifferent if not lethargic feeling towards the airship.
+Undoubtedly the experiments carried out in Great Britain were somewhat
+disappointing. The one and only attempt to out-Zeppelin the Zeppelin
+resulted in disaster to the craft before she took to the air, while
+the smaller craft carried out upon far less ambitious lines were
+not inspiritingly successful. Latterly the non-rigid system has been
+embraced exclusively, the craft being virtually mechanically driven
+balloons. They have proved efficient and reliable so far as they go, but
+it is the personal element in this instance also which has contributed
+so materially to any successes achieved with them.
+
+But although Great Britain and France apparently lagged behind the
+Germans, appreciable enterprise was manifested in another direction.
+The airship was not absolutely abandoned: vigilance was maintained for
+a superior type of craft. It was an instance of weighing the advantages
+against the disadvantages of the existing types and then evolving for a
+design which should possess the former without any of the latter. This
+end appears to be achieved with the Astra type of dirigible, the story
+of the development of which offers an interesting chapter in the annals
+of aeronautics.
+
+In all lighter-than-air machines the resistance to the air offered
+by the suspension ropes is considerable, and the reduction of this
+resistance has proved one of the most perplexing problems in the
+evolution of the dirigible. The air is broken up in such a manner by
+the ropes that it is converted into a brake or drag with the inevitable
+result that the speed undergoes a severe diminution. A full-rigged
+airship such as the Parseval, for instance, may present a picturesque
+appearance, but it is severely unscientific, inasmuch as if it were
+possible to eliminateor to reduce the air-resistance offered by the
+ropes, the speed efficiency might be raised by some sixty per cent and
+that without any augmentation of the propelling effort. As a matter
+of fact Zeppelin solved this vexatious problem unconsciously. In his
+monster craft the resistance to the air is reduced to a remarkable
+degree, which explains why these vessels, despite all their other
+defects are able to show such a turn of speed.
+
+It was this feature of the Zeppelin which induced Great Britain to
+build the May-fly and which likewise induced the French Government to
+stimulate dirigible design and construction among native manufacturers,
+at the same time, however, insisting that such craft should be equal at
+least in speed to the Zeppelins. The response to this invitation was the
+Spiess, which with its speed of 45 miles per hour ranked, until 1914, as
+one of the fastest dirigibles in the French service.
+
+In the meantime a Spanish engineer, Senor Torres, had been quietly
+working out a new idea. He realised the shortcomings of the prevailing
+types of airships some eleven years ago, and unostentatiously and
+painstakingly set out to eliminate them by the perfection of a new type
+of craft. He perfected his idea, which was certainly novel, and then
+sought the assistance of the Spanish Government. But his fatherland was
+not adapted to the prosecution of the project. He strove to induce the
+authorities to permit even a small vessel to be built, but in vain. He
+then approached the French Astra Company. His ambition was to build a
+vessel as large as the current Zeppelin, merely to emphasise the value
+of his improvement upon a sufficiently large scale, and to enable
+comparative data concerning the two designs to be obtained. But the
+bogey of expense at first proved insuperable. However, the French
+company, decided to give the invention a trial, and to this end a small
+"vedette" of about 53,000 cubic feet displacement was built.
+
+Although an unpretentious little vessel, it certainly served to
+emphasise the importance of the Torres idea. It was pitted against the
+"Colonel Renard," the finest ship at that time in the French aerial
+service, which had proved the fastest airship in commission, and
+which also was a product of the Astra Company. But this fine craft was
+completely outclassed by the puny Astra-Torres.
+
+The builders and the inventor were now additionally anxious to
+illustrate more emphatically the features of this design and to build
+a far larger vessel. The opportunity was offered by the British
+Government, which had been following the experiments with the small
+Astra-Torres in France. An order was given for a vessel of 282,500
+cubic feet displacement; in this instance it was ranged against another
+formidable rival--the Parseval. But the latter also failed to hold its
+own against the Spanish invention, inasmuch as the Astra-Torres built
+for the British authorities exceeded a speed of 50 miles per hour in the
+official tests. This vessel is still doing valuable duty, being attached
+to the British air-service in France.
+
+The achievements of the British vessel were not lost upon the French
+Government, which forthwith placed an order for a huge vessel of 812,200
+cubic feet capacity, equipped with motors developing 1,000 horse-power,
+which it was confidently expected would enable a speed of 60 miles per
+hour to be attained. Thus France would be able to meet the Germans upon
+fairly level terms, inasmuch as the speed of the latest Zeppelins does
+not exceed 60 miles per hour. So confident were the authorities that a
+second order for an even larger vessel was placed before the first large
+craft was completed.
+
+This latter vessel is larger than any Zeppelin yet built, seeing that
+it displaces 38 tons, and is fitted with motors developing 1,000
+horse-power. It has recently been completed, and although the results
+of the trials, as well as the dimensions of the craft have not been
+published, it is well known that the speed has exceeded 60 miles per
+hour, so that France now possesses the speediest dirigible in the world.
+
+The Torres invention has been described as wonderful, scientifically
+perfect and extremely simple. The vessel belongs to the non-rigid class,
+but the whole of the suspension system is placed within the gas-bag, so
+that the air-resistance offered by ropes is virtually eliminated in its
+entirety, for the simple reason that practically no ropes are placed
+outside the envelope. The general principle of design may be gathered
+from the accompanying diagram. It is as if three sausage-shaped
+balloons were disposed pyramidally--two lying side by side with one
+super-imposed, with the bags connected at the points where the circular
+sections come into contact. Thus the external appearance of the envelope
+is decidedly unusual, comprising three symmetrical ridges. At the points
+where the three bags come into contact cloth bands are stretched across
+the arcs, thereby forming a cord. The suspension system is attached to
+the upper corners of the inverted triangle thus formed, and converges
+in straight lines through the gas space. The bracing terminates in
+collecting rings from which a short vertical cable extends downwards
+through a special accordion sleeve to pass through the lower wall of the
+envelope. These sleeves are of special design, the idea being to permit
+the gas to escape under pressure arising from expansion and at the
+same time to provide ample play for the cable which is necessary in a
+flexible airship.
+
+This cable emerges from the envelope only at the point or points where
+the car or cars is or are placed. In the British airship of this type
+there is only one car, but the larger French vessels are equipped
+with two cars placed tandem-wise. The vertical cable, after extending
+downwards a certain distance, is divided, one rope being attached
+to one, and the second to the other side of the car. The two-bladed
+propellers are disposed on either side of the car, in each of which a
+500 horse-power motor is placed.
+
+The Astra-Torres type of dirigible may be said to represent the latest
+expression in airship design and construction. The invention has given
+complete satisfaction, and has proved strikingly successful. The French
+Government has completed arrangements for the acquisition of larger
+and more powerful vessels of this design, being now in the position to
+contest every step that is made by Germany in this field. The type has
+also been embraced by the Russian military authorities. The Astra-Torres
+airship has a rakish appearance, and although the lines of the gas-bag
+are admitted to increase frictional resistance, this is regarded as a
+minor defect, especially when the many advantages of the invention are
+taken into consideration.
+
+
+
+CHAPTER V. GERMANY'S AERIAL DREADNOUGHT FLEET
+
+Although Germany, as compared with France, was relatively slow
+to recognise the immense possibilities of aircraft, particularly
+dirigibles, in the military sense, once the Zeppelin had received the
+well-wishes of the Emperor William, Teuton activities were so pronounced
+as to enable the leeway to be made up within a very short while. While
+the Zeppelin commanded the greatest attention owing to the interesting
+co-operation of the German Emperor, the other types met with official
+and royal recognition and encouragement as already mentioned. France,
+which had held premier position in regard to the aerial fleet of
+dirigibles for so long, was completely out-classed, not only in
+dimensions but also in speed, as well as radius of action and
+strategical distribution of the aerial forces.
+
+The German nation forged ahead at a great pace and was able to establish
+a distinct supremacy, at least on paper. In the light of recent events
+it is apparent that the German military authorities realised that the
+dawn of "The Day" was approaching rapidly, and that it behoved them to
+be as fully prepared in the air as upon the land. It was immaterial that
+the Zeppelin was the synonym for disaster. By standardisation its cost
+could be reduced while construction could be expedited. Furthermore,
+when the matter was regarded in its broadest aspect, the fact was
+appreciated that forty Zeppelins could be built at the cost of one
+super-Dreadnought, so that adequate allowance could be made for
+accidents now and then, since a Zeppelin catastrophe, no matter how
+complete it may be, is regarded by the Teuton as a mere incident
+inseparable from progressive development.
+
+At the beginning of the year 1914 France relied upon being strengthened
+by a round dozen new dirigibles. Seven of these were to be of 20,000
+cubic metres' capacity and possessed of a speed of 47 miles per hour.
+While the existing fleet was numerically strong, this strength was more
+apparent than real, for the simple reason that a large number of craft
+were in dry-dock undergoing repair or overhaul while many of the units
+were merely under test and could not be regarded therefore as in the
+effective fleet. True, there were a certain number of private craft
+which were liable to be commandeered when the occasion arose, but they
+could not be considered as decided acquisitions for the simple reason
+that many were purely experimental units.
+
+Aerial vessels, like their consorts upon the water, have been divided
+into distinctive classes. Thus there are the aerial cruisers comprising
+vessels exceeding 282,000 cubic feet in capacity; scouts which include
+those varying between 176,600 and 282,000 cubic feet capacity; and
+vedettes, which take in all the small or mosquito craft. At the end
+of 1913, France possessed only four of the first-named craft in actual
+commission and thus immediately available for war, these being the
+Adjutant Vincenot, Adjutant Reau, Dupuy de Lome, and the Transaerien.
+The first three are of 197,800 cubic feet. All, however, were privately
+owned.
+
+On the other hand, Germany had no fewer than ten huge vessels, ranging
+from 353,000 to 776,900 cubic feet capacity, three of which, the
+Victoria Luise, Suchard, and Hansa, though owned privately, were
+immediately available for war. Of these the largest was the Zeppelin
+naval vessel "L-1" 525 feet in length, by 50 feet diameter, of 776,900
+cubic feet capacity, equipped with engines developing 510 horse-power,
+and with a speed of 51.8 miles per hour.
+
+At the end of 1913 the effective aerial fleet of Germany comprised
+twenty large craft, so far in advance of the French aerial cruisers as
+to be worthy of the name bestowed upon them--"Aerial Dreadnoughts." This
+merely represented the fleet available for immediate use and did not
+include the four gigantic Suchard-Schutte craft, each of 847,500 cubic
+feet, which were under construction, and which were being hurried
+forward to come into commission early in 1914.
+
+But the most interesting factor, apart from the possession of such a
+huge fleet of dirigible air-craft, was their distribution at strategical
+points throughout the Empire as if in readiness for the coming combat.
+They were literally dotted about the country. Adequate harbouring
+facilities had been provided at Konigsberg, Berlin, Posen, Breslau,
+Kiel, Hamburg, Wilhelmshaven, Dusseldorf, Cologne, Frankfort, Metz,
+Mannheim, Strasburg, and other places, with elaborate headquarters, of
+course, at Friedrichshafen upon Lake Constance. The Zeppelin workshops,
+harbouring facilities, and testing grounds at the latter point had
+undergone complete remodelling, while tools of the latest type had
+been provided to facilitate the rapid construction and overhaul of the
+monster Zeppelin dirigibles. Nothing had been left to chance; not an
+item was perfunctorily completed. The whole organisation was perfect,
+both in equipment and operation. Each of the above stations possessed
+provision for an aerial Dreadnought as well as one or more aerial
+cruisers, in addition to scouts or vedettes.
+
+Upon the outbreak of hostilities Germany's dirigible fleet was in a
+condition of complete preparedness, was better organised, and better
+equipped than that of any of her rivals. At the same time it constituted
+more of a paper than a fighting array for reasons which I will
+explain later. But there was another point which had escaped general
+observation. Standardisation of parts and the installation of the
+desired machinery had accomplished one greatly desired end--the
+construction of new craft had been accelerated. Before the war an
+interesting experiment was carried out to determine how speedily a
+vessel could be built. The result proved that a dirigible of the most
+powerful type could be completed within eight weeks and forthwith the
+various constructional establishments were brought into line so as to
+maintain this rate of building.
+
+The growth of the Zeppelin, although built upon disaster, has been
+amazing. The craft of 1906 had a capacity of 430,000 cubic feet and a
+speed of 36 miles per hour. In 1911 the creator of this type launched
+a huge craft having a capacity of 627,000 cubic feet. In the meantime
+speed had likewise been augmented by the use of more powerful motors
+until 52 miles an hour was attained. But this by no means represented
+the limit. The foregoing vessels had been designed for land service
+purely and simply, but now the German authorities demanded similar craft
+for naval use, possessed of high speed and greater radius of action.
+Count Zeppelin rose to the occasion, and on October 7th, 1912, launched
+at Friedrichshafen the monster craft "L-I," 525 feet in length, 50 feet
+in diameter, of 776,900 cubic feet capacity, a displacement of 22
+tons and equipped with three sets of motors aggregating more than 500
+horse-power, and capable of imparting a speed of 52 miles per hour.
+
+The appearance of this craft was hailed with intense delight by the
+German nation, while the naval department considered her to be a
+wonderful acquisition, especially after the searching reliability trial.
+In charge of Count Zeppelin and manned by a crew of 22 officers and men
+together with nearly three tons of fuel--the fuel capacity conveys
+some idea of her possible radius of action--she travelled from
+Friedrichshafen to Johannisthal in 32 hours. On this remarkable journey
+another point was established which was of far-reaching significance.
+The vessel was equipped with wireless telegraphy and therewith she
+kept in touch with the earth below throughout the journey, dropping and
+picking up wireless stations as she progressed with complete facility.
+This was a distinct achievement, inasmuch as the vessel having been
+constructed especially for naval operations she would be able to keep
+in touch with the warships below, guiding them unerringly during their
+movement.
+
+The cross-country trip having proved so completely successful the
+authorities were induced to believe that travelling over water would be
+equally satisfactory. Accordingly the "L-I" was dispatched to the island
+of Heligoland, the intention being to participate in naval manoeuvres
+in order to provide some reliable data as to the value of these craft
+operating in conjunction with warships. But in these tests German
+ambition and pride received a check. The huge Zeppelin was manoeuvring
+over the North Sea within easy reach of Heligoland, when she was caught
+by one of those sudden storms peculiar to that stretch of salt water. In
+a moment she was stricken helpless; her motive power was overwhelmed
+by the blind forces of Nature. The wind caught her as it would a
+soap-bubble and hurled her into the sea, precipitating the most
+disastrous calamity in the annals of aeronautics, since not only was the
+ship lost, but fifteen of her crew of 22 officers and men were drowned.
+
+The catastrophe created consternation in German aeronautical circles.
+A searching inquiry was held to explain the disaster, but as usual it
+failed to yield much material information. It is a curious circumstance,
+but every successive Zeppelin disaster, and their number is legion,
+has been attributable to a new cause. In this instance the accident was
+additionally disturbing, inasmuch as the ship had been flying across
+country continuously for about twelve months and had covered more miles
+than any preceding craft of her type. No scientific explanation for the
+disaster was forthcoming, but the commander of the vessel, who sank with
+his ship, had previously ventured his personal opinion that the
+vessel was over-loaded to meet the calls of ambition, was by no means
+seaworthy, and that sooner or later she would be caught by a heavy
+broadside wind and rendered helpless, or that she would make a headlong
+dive to destruction. It is a significant fact that he never had any
+faith in the airship, at least for sea duty, though in response to
+official command he carried out his duties faithfully and with a blind
+resignation to Fate.
+
+Meantime, owing to the success of the "L-I" in cross-country operations,
+another and more powerful craft, the "L-II" had been taken in hand, and
+this was constructed also for naval use. While shorter than her consort,
+being only 487 feet over all, this vessel had a greater beam--55 feet.
+This latter increase was decided because it was conceded to be an easier
+matter to provide for greater beam than enhanced length in the existing
+air-ship harbours. The "L-II" displaced 27 tons--five tons in excess of
+her predecessor. In this vessel many innovations were introduced, such
+as the provision of the passage-way connecting the cars within the hull,
+instead of outside the latter as had hitherto been the practice, while
+the three cars were placed more closely together than formerly. The
+motors were of an improved type, giving an aggregate output of 900
+horse-power, and were divided into four separate units, housed in two
+engine-rooms, the front car being a replica in every detail of the
+navigating bridge of a warship.
+
+This vessel was regarded as a distinct improvement upon the "L-I,"
+although the latter could boast some great achievements. But her glory
+was short-lived. In the course of the Government trials, while some 900
+feet aloft, the huge vessel suddenly exploded and was burned in the air,
+a mass of broken and twisted metal-work falling to the ground. Of the
+28 officers and men, including members of the Admiralty Board who were
+conducting the official trials, all but one were killed outright, and
+the solitary exception was so terribly burned as to survive the fall for
+only a few hours.
+
+The accident was remarkable and demonstrated very convincingly that
+although Count Zeppelin apparently had made huge strides in aerial
+navigation through the passage of years, yet in reality he had made no
+progress at all. He committed the identical error that characterised the
+effort of Severo Pax ten years previously, and the disaster was directly
+attributable to the self-same cause as that which overwhelmed the
+Severo airship. The gas, escaping from the balloons housed in the hull,
+collected in the confined passage-way communicating with the cars, came
+into contact with a naked light, possibly the exhaust from the motors,
+and instantly detonated with terrific force, blowing the airship to
+fragments and setting fire to all the inflammable materials.
+
+In this airship Zeppelin committed an unpardonable blunder. He had
+ignored the factor of "internal safety," and had deliberately flown in
+the face of the official rule which had been laid down in France after
+the Severo disaster, which absolutely forbade the inclusion of such
+confined spaces as Zeppelin had incorporated. This catastrophe coming so
+closely as it did upon the preceding disaster to the pride of the German
+aerial fleet somewhat shook public confidence in these craft, while
+aeronautical authorities of other countries described the Zeppelin more
+vehemently than ever as a "mechanical monstrosity" and a "scientific
+curiosity."
+
+The Zeppelin has come to be feared in a general manner, but this result
+is due rather to stories sedulously circulated, and which may be easily
+traced to Teutonic sources. Very few data of a reliable character have
+been allowed to filter through official circles. We have been told
+somewhat verbosely of what it can accomplish and of its high degree of
+efficiency and speed. But can credence be placed in these statements?
+
+When Zeppelin IV made its unexpected descent at Luneville, and was
+promptly seized by the French authorities, the German War office evinced
+distinct signs of uneasiness. The reason was speedily forth coming. The
+captain of the craft which had been captured forgot to destroy his
+log and other records of data concerning the vessel which had been
+scientifically collected during the journey. All this information
+fell into the hands of the French military department, and it proved a
+wondrous revelation. It enabled the French to value the Zeppelin at its
+true worth, which was by no means comparable to the estimate based on
+reports skilfully circulated for the benefit of the world at large.
+
+Recently the French military department permitted the results of their
+expert official examination to be made public. From close investigation
+of the log-book and the diagrams which had been prepared, it was found
+that the maximum speed attained by Zeppelin IV during this momentous
+flight was only 45 miles per hour! It was ascertained, moreover, that
+the load was 10,560 pounds, and the ascensional effort 45,100 pounds.
+The fuel consumption had averaged 297 pounds per hour, while the fuel
+tanks carried sufficient for a flight of about seven hours. The airship
+had attained a maximum height of about 6,230 feet, to reach which 6,600
+pounds of ballast had to be discarded. Moreover, it was proved that a
+Zeppelin, if travelling under military conditions with full armament and
+ammunition aboard, could carry sufficient fuel for only ten hours at the
+utmost, during which, if the slightest head-wind prevailed, it could not
+cover more than 340 miles on the one fuel charge.
+
+This information has certainly proved a revelation and has contributed
+to the indifference with which the Parisians regard a Zeppelin raid. At
+the outbreak of war the Zeppelin station nearest to Paris was at Metz,
+but to make the raid from that point the airship was forced to cover
+a round 500 miles. It is scarcely to be supposed that perfectly calm
+weather would prevail during the whole period of the flight, so that
+a raid would be attended by considerable risk. That this handicap was
+recognised in German military circles is borne out by the fact that a
+temporary Zeppelin hangar was established at a point considerably nearer
+the French capital, for the purpose of enabling a raid to be carried out
+with a greater possibility of success.
+
+The capture of Zeppelin IV revealed another important fact. The critical
+flying height of the airship is between 3,300 and 4,000 feet. To attempt
+a raid at such an altitude would be to court certain disaster, inasmuch
+as the vessel would have to run the gauntlet of the whole of the French
+artillery, which it is admitted has a maximum range exceeding the flying
+altitude of the Zeppelin. That the above calculation is within reason is
+supported by the statements of Count Zeppelin himself, who has declared
+that his airships are useless at a height exceeding 5,000 feet.
+Confirmatory evidence upon this point is offered by the raid upon the
+British East Coast towns, when it is stated that the aircraft were
+manoeuvring at a height not exceeding 2,000 feet.
+
+
+
+CHAPTER VI. THE MILITARY VALUE OF GERMANY'S AERIAL FLEET
+
+Although the Zeppelin undoubtedly has been over-rated by the forces to
+which it is attached, at the same time it must not be under-estimated by
+its detractors. Larger and more powerful vessels of this type have been,
+and still are being, constructed, culminating, so far as is known, in
+the "L-5," which is stated to have a capacity of about 1,000,000 cubic
+feet, and to possess an average speed of 65 miles per hour.
+
+While it is generally maintained that the Zeppelins will prove
+formidable in attack, greater reliance is being placed upon the
+demoralising or terrifying effect which they are able to exercise. Owing
+to the fact that from 3 to 5 tons of fuel--say 900 to 1,500 gallons of
+gasoline or petrol--can be carried aboard, giving them a wide radius of
+action, it is doubtful whether they could travel from Cologne to London
+and back upon a single fuel charge, since such a raid would entail a
+journey of about 600 miles. The latest types of this craft are said to
+possess a high ascensional speed, which offers a distinct protection
+against aeroplane attack. According to such official information as
+has been vouchsafed, a Zeppelin, when hard pressed, is able to rise
+vertically 3,500 feet in about three minutes. This is far in excess of
+the ascensional speed of even the speediest aeroplane, of course, the
+penalty for such a factor has to be paid: the loss of gas is appreciable
+and may lead to the craft's ultimate undoing. At the same time, however,
+it is able to maintain the superior position as compared with the
+aeroplane for a considerable period: the upper reaches of the air are
+its sanctuary.
+
+Nor must the nocturnal activities of the Zeppelin be overlooked. So far
+as night operations by these vessels are concerned, little has leaked
+out, so that the possibilities of the airship in this direction are
+still somewhat hypothetical. The fact remains, however, that it is
+night movements which perhaps are the most to be dreaded by the enemy.
+According to official German sources of information the latest types of
+Zeppelins are engined by "noiseless" motors. There is nothing remarkable
+in this feature, since the modern motor-car virtually answers to this
+description, although in this instance quietness is obtained for the
+most part by recourse to the sleeve-valve engine. Still, the ordinary
+Otto-cycle internal combustion engine can be rendered almost silent by
+the utilisation of adequate muffling devices, which, in the Zeppelin,
+are more possible of incorporation than in the aeroplane, because the
+extra weight imposed by this acquisition is a minor consideration in
+comparison with the lifting power of the vessel.
+
+Night operations, however, have not proved eminently successful. The
+very darkness which protects the aerial prowler also serves a similar
+purpose in connection with its prey. But aerial operations under the
+cover of darkness are guided not so much by the glare of lights from
+below as betrayal by sound. The difference between villages and cities
+may be distinguished from aloft, say at 1,500 to 3,000 feet, by the hum
+which life and movement emit, and this is the best guide to the aerial
+scout or battleship. The German authorities have made a special study
+of this peculiar problem, and have conducted innumerable tests upon the
+darkest nights, when even the sheen of the moon has been unavailable,
+for the express purpose of training the aerial navigators to discover
+their position from the different sounds reaching them from below. In
+other words, the corsair in the skies depends more upon compass and
+sound than upon compass and vision when operating after dark. The
+searchlights with which the Zeppelins are equipped are provided merely
+for illuminating a supposed position. They are not brought into service
+until the navigator concludes that he has arrived above the desired
+point: the ray of light which is then projected is merely to assist the
+crew in the discharge of the missiles of destruction.
+
+The Zeppelin, however, owing to its speed, both in the horizontal and
+vertical planes, is essentially a unit for daylight operations. The
+other airships which Germany possesses, and which for the most part are
+of the non-rigid type, are condemned to daylight operations from
+the character of their design. Owing to their low speeds they may be
+dismissed as impossible aerial vessels for hazardous work and are not
+regarded by the German authorities as all-round airships of war.
+
+Craft of the air are judged in Germany from the one standard only. This
+may be a Teutonic failing, but it is quite in keeping with the Teutonic
+spirit of militarism. Commercialism is a secondary factor. To the German
+Emperor an airship is much what a new manufacturing process or machine
+is to the American. Whereas the latter asks, "How much will it save
+me on the dollar?" to the War Lord of Germany--and an airship
+notwithstanding its other recommendatory features is judged solely from
+this standpoint--the question is "What are its military qualifications?"
+
+When the semi-rigid airship "V-I" was brought before the notice of the
+German military department the pressing point concerning its military
+recommendations arose at once. The inventor had foreseen this issue and
+was optimistic. Thereupon the authorities asked if the inventor were
+prepared to justify his claims. The retort was positive. Forthwith the
+Junkers decided to submit it to the test.
+
+This ship is of quite a distinctive type. It is an aerial cruiser, and
+the inventor claims that it combines all the essential qualifications
+of the Zeppelin and of the competitors of the latter, in addition to the
+advantage of being capable of dissection, transportation in parts, and
+rapid re-erection at any desired spot. The length of the vessel is about
+270 feet; maximum diameter approximately 42 feet, and capacity about
+300,000 cubic feet. The outstanding feature is a rigid keel-frame
+forming a covered passage way below the envelope or gas-bag, combined
+with easy access to all parts of the craft while under way, together
+with an artificial stiffening which dispenses with the necessity of
+attaching any additional cars. The frame is so designed that the load,
+as well as the ballast and fuel tanks, may be distributed as desired,
+and at the same time it ensures an advantageous disposition of the
+steering mechanism, far removed from the centre of rotation at the
+stern, without any overloading of the latter.
+
+The lifting part of the airship comprises a single gas bag fitted with
+two ballonets provided to ensure the requisite gas-tension in the main
+envelope, while at the same time permitting, in times of emergency,
+a rapid change of altitude. Self-contained blowers contribute to the
+preservation of the shape of the envelope, the blowers and the ballonets
+being under the control of the pilot. Planes resembling Venetian blinds
+facilitate vertical steering, while the suspension of the keel is
+carried out in such a manner as to secure uniformity of weight upon the
+gas bag. The propelling power comprises two sets of internal combustion
+engines, each developing 130 horse-power, the transmission being through
+rubber belting. The propellers, built of wood, make 350 revolutions per
+minute, and are set as closely as possible to the centre of resistance.
+
+But the most salient characteristic of this machine is its portability.
+It can be dismantled and transported by wagons to any desired spot,
+the suspension frame being constructed in units, each of which is
+sufficiently small to be accommodated in an ordinary vehicle. Upon
+arrival the parts may be put together speedily and easily. The
+authorities submitted the airship to exacting trials and were so
+impressed by its characteristics and the claims of the inventor that
+undoubtedly it will be brought into service during the present crisis.
+
+At the same time the whole faith of the German military staff so far
+as airship operations are concerned, is pinned to the Zeppelin.
+Notwithstanding its many drawbacks it is the vessel which will be used
+for the invasion of Great Britain. Even the harbour question, which is
+admitted to be somewhat acute, has been solved to a certain degree.
+At strategical points permanent harbours or airship sheds have been
+established. Seeing that the airships demand considerable skill in
+docking and undocking, and that it is impossible to achieve these
+operations against the wind, swinging sheds have been adopted.
+
+On water the practice is to anchor a floating harbour at one end,
+leaving the structure to swing round with the wind. But on dry land such
+a dock is impossible. Accordingly turntable sheds have been adopted.
+The shed is mounted upon a double turn-table, there being two circular
+tracks the one near the centre of the shed and the other towards its
+extremities. The shed is mounted upon a centre pivot and wheels engaged
+with these inner and outer tracks. In this manner the shed may be swung
+round to the most favourable point of the compass according to the wind.
+
+In the field, however, such practices are impossible, and the issue
+in this connection has been overcome by recourse to what may be termed
+portable harbours. They resemble the tents of peripatetic circuses and
+travelling exhibitions. There is a network of vertical steel members
+which may be set with facility and speed and which are stayed by
+means of wire guys. At the top of the outer vertical posts pulleys
+are provided whereby the outer skin or canvas forming the walls may
+be hauled into position, while at the apex of the roof further pulleys
+ensure the proper placing of the roofing. The airship is able to enter
+or leave from either end according to conditions. The material is
+fireproofed as a precautionary measure, but at the same time the modern
+aerial bomb is able to penetrate the roofing without any difficulty and
+to explode against the airship anchored within.
+
+The one great objection to the Zeppelin harbour is the huge target it
+offers to hostile attack, which, in the event of a vessel being moored
+within, is inevitably serious. Thus, for instance, upon the occasion of
+the air raids conducted by Lieutenant Collet and of Squadron
+Commander Briggs and his colleagues at Dusseldorf and Friedrichshafen
+respectively, little difficulty was experienced in destroying the
+airships riding at anchor. The target offered by the shed is so
+extensive that it would be scarcely possible for a flying enemy to miss
+it. A bomb dropped from a reasonable height, say 500 feet, would be
+almost certain to strike some part of the building, and a Zeppelin is
+an easy vessel to destroy. The firing of one balloon is sufficient
+to detonate the whole, for the simple reason that hydrogen gas is
+continuously oozing through the bags in which it is contained. According
+to a recent statement the Germans are said to be utilising an inert
+or non-inflammable gas, equal in lifting power to hydrogen, for the
+inflation of military craft, but scientific thought does not entertain
+this statement with any degree of seriousness. No gas as light as
+hydrogen and non-explosive is known to commerce.
+
+Will Germany invade Great Britain by air? This is the absorbing topic of
+the moment--one which has created intense interest and a certain feeling
+of alarm among the timorous. Although sporadic raids are considered
+to be possible and likely to be carried out with a varying measure
+of success--such as that made upon the British East Coast--eminent
+authorities ridicule an invasion in force. The risk would be enormous,
+although there is no doubt that Germany, which has always maintained
+that an invasion of this character will be made, will be compelled to
+essay such a task, in order to satisfy public opinion, and to justify
+official statements. It is a moot point, however, whether the invaders
+ever will succeed in making good their escape, unless Nature proves
+exceptionally kind.
+
+The situation is best summed up in the unbiassed report of General
+George P. Scriven, Chief Signal officer of the United States Army to the
+U.S. Secretary of War. In this report, which deals exhaustively with the
+history, construction and achievements of airships, such an invasion
+is described as fantastic and impracticable. Writing on November 10th,
+1914, the officer declares that "he is not prepared to recommend
+the American Army to take up seriously the question of constructing
+dirigibles, as they are not worth their cost as offensive machines,
+while for reconnaissance or defence they are of far less value than
+aeroplanes." In his words, "Dirigibles are seemingly useless in defence
+against the aeroplane or gun-fire."
+
+In order to be able to make an invasion in force upon Great Britain's
+cities extremely favourable weather must prevail, and the treacherous
+nature of the weather conditions of the North Sea are known fully well
+both to British and Teuton navigators. Seeing that the majority of the
+Zeppelin pilots are drawn from the Navy and mercantile marine, and
+thus are conversant with the peculiarities and characteristics of
+this stretch of salt water, it is only logical to suppose that their
+knowledge will exert a powerful influence in any such decision, the
+recommendations of the meteorological savants not withstanding.
+
+When the Zeppelin pride of the German Navy "L-1" was hurled to
+destruction by a typical North Sea squall, Captain Blew of the Victoria
+Luise, a Zeppelin with many great achievements to her credit, whose
+navigator was formerly in the Navy, and thus is familiar with the whole
+issue, explained that this atmospheric liveliness of the North Sea
+prevails for the most part in the latitude of Norway, but that it
+frequently extends as far south as the gate of the Channel. He related
+furthermore that the rain squalls are of tropical violence, while the
+vertical thrusts of air are such that no dirigible as yet constructed
+could ever hope to live in them. Under such conditions, he continued,
+the gas is certain to cool intensely, and the hull must then become
+waterlogged, not to mention the downward thrust of the rain. Under such
+conditions buoyancy must be imperilled to such a degree as to demand the
+jettisoning of every piece of ballast, fuel and other removable weight,
+including even the steadying and vertical planes. When this has been
+done, he pointed out, nothing is left with which to combat the upward
+vertical thrusts of the air. To attempt to run before the wind is to
+court positive disaster, as the wind is certain to gain the mastery.
+Once the airship loses steering way and is rendered uncontrollable it
+becomes the sport of the forces of Nature, with the result that
+destruction is merely a matter of minutes, or even seconds.
+
+Every navigator who knows the North Sea will support these conclusions.
+Squalls and blizzards in winter, and thunderstorms in summer, rise
+with startling suddenness and rage with terrific destructive fury.
+Such conditions must react against the attempt of an aerial invasion
+in force, unless it be made in the character of the last throw by a
+desperate gambler, with good fortune favouring the dash to a certain
+degree. But lesser and more insignificant Zeppelin raids are likely
+to be somewhat frequent, and to be made at every favourable climatic
+opportunity.
+
+
+
+CHAPTER VII. AEROPLANES OF WAR
+
+Owing to the fertility of inventors and the resultant multiplicity of
+designs it is impossible to describe every type of heavier-than-air
+machine which has been submitted to the exacting requirements of
+military duty. The variety is infinite and the salient fact has already
+been established that many of the models which have proved reliable and
+efficient under normal conditions are unsuited to military operations.
+The early days of the war enabled those of doubtful value to be
+eliminated, the result being that those machines which are now in
+use represent the survival of the fittest. Experience has furthermore
+emphasised the necessity of reducing the number of types to the absolute
+minimum. This weeding-out process is being continued and there is no
+doubt that by the time the war is concluded the number of approved types
+of aeroplanes of military value will have been reduced to a score or
+less. The inconveniences and disadvantages arising from the utilisation
+of a wide variety of different types are manifold, the greatest being
+the necessity of carrying a varied assortment of spare parts, and
+confusion in the repair and overhauling shops.
+
+The methodical Teuton was the first to grasp the significance of these
+drawbacks; he has accordingly carried standardisation to a high degree
+of efficiency, as is shown in another chapter. At a later date France
+appreciated the wisdom of the German practice, and within a short time
+after the outbreak of hostilities promptly ruled out certain types of
+machines which were regarded as unsuitable. In this instance the process
+of elimination created considerable surprise, inasmuch as it involved an
+embargo on the use of certain machines, which under peace conditions
+had achieved an international reputation, and were held to represent the
+finest expression of aeronautical science in France as far as aeroplane
+developments are concerned.
+
+Possibly the German machine which is most familiar, by name, to the
+general public is the Taube, or, as it is sometimes called, the Etrich
+monoplane, from the circumstance that it was evolved by the Austrian
+engineer Igo Etrich in collaboration with his colleague Wels. These two
+experimenters embarked on the study of dynamic flight contemporaneously
+with Maxim, Langley, Kress, and many other well-known pioneers, but it
+was not until 1908 that their first practical machine was completed.
+Its success was instantaneous, many notable flights being placed to its
+credit, while some idea of the perfection of its design may be gathered
+from the fact that the machine of to-day is substantially identical
+with that used seven years ago, the alterations which have been effected
+meanwhile being merely modifications in minor details.
+
+The design of this machine follows very closely the lines of a bird in
+flight--hence its colloquial description, "Taube," or "dove." Indeed the
+analogy to the bird is so close that the ribs of the frame resemble the
+feathers of a bird. The supporting plane is shaped in the manner of
+a bird's distended wing, and is tipped up at the rear ends to ensure
+stability. The tail also resembles that of a bird very closely.
+
+This aeroplane, especially the latest type, is very speedy, and it has
+proved extremely reliable. It is very sharp in turning and extremely
+sensitive to its rudder, which renders it a first-class craft for
+reconnoitring duty. The latest machines are fitted with motors
+developing from 120 to 150 horse-power.
+
+The "Taube" commanded attention in Germany for the reason that it
+indicated the first departure from the adherence to the French designs
+which up to that time had been followed somewhat slavishly, owing to the
+absence of native initiative.
+
+The individuality of character revealed in the "Taube" appealed to the
+German instinct, with the result that the machine achieved a greater
+reputation than might have been the case had it been pitted against
+other types of essentially Teutonic origin. The Taube was subsequently
+tested both in France and Great Britain, but failed to raise an equal
+degree of enthusiasm, owing to the manifestation of certain defects
+which marred its utility. This practical experience tended to prove that
+the Taube, like the Zeppelin, possessed a local reputation somewhat of
+the paper type. The Germans, however, were by no means disappointed by
+such adverse criticism, but promptly set to work to eliminate defects
+with a view to securing an all-round improvement.
+
+The most successful of these endeavours is represented in the
+Taube-Rumpler aeroplane, which may be described as an improved edition
+of Etrich's original idea. As a matter of fact the modifications were of
+so slight, though important, a character that many machines generically
+described as Taubes are in reality Rumplers, but the difference is
+beyond detection by the ordinary and unpractised observer.
+
+In the Rumpler machine the wings, like those of the Taube, assume
+broadly the form and shape of those of the pigeon or dove in flight. The
+early Rumpler machines suffered from sluggish control, but in the later
+types this defect has been overcome. In the early models the wings were
+flexible, but in the present craft they are rigid, although fitted with
+tips or ailerons. The supporting truss beneath the wings, which was such
+an outstanding feature of its prototype, has been dispensed with, the
+usual I-beam longitudinals being used in its stead. The latest machines
+fitted with 100-120 horse-power Mercedes motors have a fine turn of
+speed, possess an enhanced ascensional effort, and are far simpler to
+control.
+
+Other German machines which are used in the military service are the
+Gotha and the Albatross. The former is a monoplane, and here again
+the influence of Etrich upon German aeroplane developments is strongly
+manifested, the shape of the bird's wing being retained. In the Gotha
+the truss which Etrich introduced is a prominent characteristic. The
+Albatross is a biplane, but this craft has proved to be somewhat slow
+and may be said to be confined to what might be described as the heavier
+aerial military duties, where great endurance and reliability are
+essential. As the war proceeds, doubtless Teuton ingenuity will
+be responsible for the appearance of new types, as well as certain
+modifications in the detail construction of the existing machines, but
+there is every indication that the broad lines of Etrich's conception
+will be retained in all monoplanes.
+
+There is one point in which Germany has excelled. Wood is not employed
+in the construction of these heavier-than-air craft. Steel and the
+lighter tough alloys are exclusively used. In this way the minimum of
+weight consistent with the maximum of strength policy is carried
+out. Moreover the manufacture of component parts is facilitated and
+accelerated to a remarkable degree by the use of metal, while the
+tasks of fitting and repairing are notably expedited by the practice of
+standardisation. Germany is also manifesting commendable enterprise in
+the perfection of light powerful motors for these dynamic machines. The
+latest types of explosion-motors range from 100 to 150 horse-power; the
+advantages of these are obvious.
+
+Upon the outbreak of hostilities the French possessed an enormous number
+and variety of aeroplanes and this aerial fleet had been brought to
+a high standard of organisation. The aerial fleet is sub-divided into
+squadrons called "escadrilles," each of which comprises six machines and
+pilots. These units are kept up to strength, wastage being made up from
+reserves, so as to maintain the requisite homogeneity.
+
+But ere the war had been in progress many weeks an official order was
+issued forbidding the employment of the Bleriot, Deperdussin, Nieuport,
+and R.E.P. monoplanes. Those which received official approval included
+the Caudron, Henry, and Maurice Farman, Morane-Saulnier, and Voisin
+machines.
+
+This drastic order came somewhat as a thunderbolt, and the reason for
+the decree has not been satisfactorily revealed. Suffice to say that in
+one stroke the efficiency and numerical strength of the French aerial
+navy were reduced very appreciably. For instance, it is stated that
+there were thirty escadrilles of Bleriot monoplanes together with pilots
+at the front, in addition to thirty mixed escadrilles of the other
+prohibited types with their fliers. Moreover a round 33 escadrilles of
+all the various types were in reserve. The effect of the military order
+was to reduce the effective strength by no fewer than 558 aeroplanes.
+
+Seeing that the French aerial force was placed at a great disadvantage
+numerically by this action, there seems to be ample justification for
+the hostile criticism which the decree of prohibition aroused in certain
+circles, especially when it is remembered that there was not an equal
+number of the accepted machines available to take the place of those
+which had been ruled out of court. One effect of this decree was to
+throw some 400 expert aviators upon the waiting list for the simple
+reason that machines were unavailable. Some of the best aviation skill
+and knowledge which France possesses were affected by the order. It
+is stated that accomplished aviators, such as Vedrines, were unable to
+obtain machines.
+
+It will be seen that the ultimate effect of the French military decree
+was to reduce the number of types to about four, each of which was
+allotted a specific duty. But whereas three different bi-planes are on
+the approved list there is only one monoplane--the Morane-Saulaier.
+This machine, however, has a great turn of speed, and it is also able to
+climb at a very fast pace. In these respects it is superior to the crack
+craft of Germany, so that time after time the latter have refused battle
+in the skies, and have hurried back to their lines.
+
+The Morane-Saulnier is the French mosquito craft of the air and like the
+insect, it is avowedly aggressive. In fact, its duties are confined to
+the work of chasing and bringing down the enemy, for which work its high
+manoeuvring capacity is excellently adapted. Its aggressive armament
+comprises a mitrailleuse. Unfortunately, however, the factory
+responsible for the production of this machine is at present handicapped
+by the limitations of its manufacturing plant, which when pushed to the
+utmost extent cannot turn out more than about ten machines per week. No
+doubt this deficiency will be remedied as the war proceeds by extension
+of the works or by allotting orders to other establishments, but at the
+time of the decree the manufacturing capacity was scarcely sufficient to
+make good the wastage, which was somewhat heavy.
+
+As far as biplanes are concerned the Caudron is the fastest in flight
+and is likewise extremely quick in manoeuvring. It is a very small
+machine and is extremely light, but the fact that it can climb at the
+rate of over 330 feet per minute is a distinct advantage in its favour.
+It supplements the Morane-Saulnier monoplane in the specific duty of the
+latter, while it is also employed for discovering the enemy's artillery
+and communicating the range of the latter to the French and British
+artillery. In this latter work it has played a very prominent part and
+to it is due in no small measure that deadly accuracy of the artillery
+of the Allies which has now become so famous. This applies especially
+to those tactics, where the field artillery dashes up to a position,
+discharges a number of rounds in rapid succession, or indulges in rafale
+firing, and then limbering up, rushes away before the enemy can reply.
+
+As is well known the Farman biplanes possess high endurance qualities.
+They can remain aloft for many hours at a stretch and are remarkably
+reliable. Owing to these qualities they are utilised for prolonged and
+searching reconnoitring duties such as strategical reconnaissances as
+distinct from the hurried and tactical reconnaissances carried out by
+fleeter machines. While they are not so speedy as the monoplanes of the
+German military establishment, endurance in this instance is preferable
+to pace. A thorough survey of the enemy's position over the whole of
+his military zone, which stretches back for a distance of 30 miles or so
+from the outer line of trenches, is of incalculable value to a commander
+who is contemplating any decisive movement or who is somewhat in doubt
+as to the precise character of his antagonist's tactics.
+
+The French aerial fleet has been particularly active in its work of
+raiding hostile positions and submitting them to a fusillade of bombs
+from the clouds. The machine which is allotted this specific task is
+the Voisin biplane. This is due to the fact that this machine is able to
+carry a great weight. It was speedily discovered that in bomb-raids
+it is essential for an aeroplane to be able to carry a somewhat large
+supply of missiles, owing to the high percentage of misses which attends
+these operations. A raid by a machine capable of carrying only,
+say, half-a-dozen projectiles, is virtually a waste of fuel, and
+the endurance limitations of the fast machines reacts against their
+profitable use in this work. On the other hand, the fact that the Voisin
+machine is able to carry a large supply of bombs renders it an ideal
+craft for this purpose; hence the official decision to confine it to
+this work.
+
+So far as the British efforts in aerial work are concerned there is no
+such display of rigid selection as characterises the practice of the
+French and German military authorities. Britain's position in the air
+has been extensively due to private enterprise, and this is still being
+encouraged. Moreover at the beginning of the war Britain was numerically
+far inferior both to her antagonist and to her ally. Consequently it was
+a wise move to encourage the private manufacture of machines which had
+already established their value. The consequence is that a variety
+of machines figure in the British aerial navy. Private initiative is
+excellently seconded by the Government manufacturing aeroplane factory,
+while the training of pilots is likewise being carried out upon a
+comprehensive scale. British manufacture may be divided into two broad
+classes--the production of aeroplanes and of waterplanes respectively.
+Although there is a diversity of types there is a conspicuous
+homogeneity for the most part, as was evidenced by the British raid
+carried out on February 11-12, when a fleet of 34 machines raided the
+various German military centres established along the coast of Flanders.
+
+Considerable secrecy has been displayed by the British Government
+concerning the types of machines that are being utilised, although
+ample evidence exists from the producing activity of the various
+establishments that all available types which have demonstrated their
+reliability and efficiency are being turned to useful purpose. The Avro
+and Sopwith warplanes with their very high speeds have proved remarkably
+successful.
+
+So far as manufacturing is concerned the Royal Aerial Factory may be
+said to constitute the back bone of the British aerial fleet. This
+factory fulfils various purposes. It is not only engaged in the
+manufacture of machines, and the development of aeroplanes for specific
+duties, but also carries out the inspection and testing of machines
+built by private firms. Every machine is submitted to an exacting test
+before it is passed into the service.
+
+Three broad types of Government machines are manufactured at this
+establishment. There is that designed essentially for scouting
+operations, in which speed is the all-important factor and which is
+of the tractor type. Another is the "Reconnoitring" machine
+known officially as the "R.E." to-day, but formerly as the "B.E"
+(Bleriot-Experimental), a considerable number of which are in
+commission.
+
+This machine is also of the tractor type, carrying a pilot and an
+observer, and has a maximum speed of 40-50 miles per hour. If required
+it can further be fitted with an automatic gun for defence and attack.
+The third craft is essentially a fighting machine. Owing to the
+introduction of the machine-gun which is fixed in the prow, with the
+marksman immediately behind it, the screw is placed at the rear. The
+pilot has his seat behind the gunner. The outstanding feature of these
+machines is the high factor of safety, which attribute has astonished
+some of the foremost aviation experts in the world.
+
+Great Britain lagged behind her Continental rivals in the development
+of the Fourth Arm, especially in matters pertaining to motive power.
+For some time reliance was placed upon foreign light highspeed explosion
+motors, but private enterprise was encouraged, with the result that
+British Motors comparing favourably in every respect with the best
+productions upon the Continent are now available. Development is still
+proceeding, and there is every evidence that in the near future entire
+reliance will be placed upon the native motor.
+
+Undoubtedly, as the war progresses, many valuable lessons will be
+learned which will exercise an important bearing upon the design
+and construction of warplanes. The ordeals to which the machines are
+submitted in military duties are far more severe than any imposed by the
+conditions of commerce. Accordingly there is every indication that
+the conflict upon the Continent will represent a distinctive epoch in
+aeroplane design and construction. Many problems still await solution,
+such as the capacity to hover over a position, and it is quite possible
+that these complex and baffling questions will be settled definitely
+as the result of operations in the field. The aeroplane has reached a
+certain stage of evolution: further progress is virtually impossible
+unless something revolutionary is revealed, perfected, and brought to
+the practical stage.
+
+
+
+CHAPTER VIII. SCOUTING FROM THE SKIES
+
+From the moment when human flight was lifted from the rut of experiment
+to the field of practical application, many theories, interesting and
+illuminating, concerning the utility of the Fourth Arm as a military
+unit were advanced. The general consensus of expert opinion was that
+the flying machine would be useful to glean information concerning the
+movements of an enemy, rather than as a weapon of offence.
+
+The war is substantiating this argument very completely. Although
+bomb-dropping is practised somewhat extensively, the results achieved
+are rather moral than material in their effects. Here and there
+startling successes have been recorded especially upon the British side,
+but these triumphs are outnumbered by the failures in this direction,
+and merely serve to emphasise the views of the theorists.
+
+The argument was also advanced that, in this particular work, the
+aeroplane would prove more valuable than the dirigible, but actual
+campaigning has proved conclusively that the dirigible and the
+heavier-than-air machines have their respective fields of utility in the
+capacity of scouts. In fact in the very earliest days of the war,
+the British airships, though small and slow in movement, proved more
+serviceable for this duty than their dynamic consorts. This result
+was probably due to the fact that military strategy and tactics were
+somewhat nonplussed by the appearance of this new factor. At the time
+it was an entirely unknown quantity. It is true that aircraft had been
+employed in the Balkan and the Italo-Ottoman campaigns, but upon such a
+limited scale as to afford no comprehensive idea of their military value
+and possibilities.
+
+The belligerents, therefore, were caught somewhat at a disadvantage,
+and an appreciable period of time elapsed before the significance of
+the aerial force could be appreciated, while means of counter acting
+or nullifying its influences had to be evolved simultaneously,
+and according to the exigencies of the moment. At all events, the
+protagonists were somewhat loth to utilise the dirigible upon an
+elaborate scale or in an aggressive manner. It was employed more after
+the fashion of a captive balloon, being sent aloft from a point well
+behind the front lines of the force to which it was attached, and
+well out of the range of hostile guns. Its manoeuvres were somewhat
+circumscribed, and were carried out at a safe distance from the enemy,
+dependence being placed upon the advantages of an elevated position for
+the gathering of information.
+
+But as the campaign progressed, the airships became more daring. Their
+ability to soar to a great height offered them complete protection
+against gun-fire, and accordingly sallies over the hostile lines were
+carried out. But even here a certain hesitancy became manifest. This
+was perfectly excusable, for the simple reason that the dirigible, above
+all, is a fair-weather craft, and disasters, which had overtaken these
+vessels time after time, rendered prudence imperative. Moreover, but
+little was known of the range and destructiveness of anti-aircraft guns.
+
+In the duty of reconnoitring the dirigible possesses one great advantage
+over its heavier-than-air rival. It can remain virtually stationary in
+the air, the propellers revolving at just sufficient speed to off-set
+the wind and tendencies to drift. In other words, it has the power of
+hovering over a position, thereby enabling the observers to complete
+their task carefully and with deliberation.
+
+On the other hand, the means of enabling an aeroplane to hover still
+remain to be discovered. It must travel at a certain speed through the
+air to maintain its dynamic equilibrium, and this speed is often too
+high to enable the airman to complete his reconnaissance with sufficient
+accuracy to be of value to the forces below. All that the aeroplane can
+do is to circle above a certain position until the observer is satisfied
+with the data he has collected.
+
+But hovering on the part of the dirigible is not without conspicuous
+drawbacks. The work of observation cannot be conducted with any degree
+of accuracy at an excessive altitude. Experience has proved that the
+range of the latest types of anti-aircraft weapons is in excess of
+anticipations. The result is that the airship is useless when hovering
+beyond the zone of fire. The atmospheric haze, even in the clearest
+weather, obstructs the observer's vision. The caprices of this obstacle
+are extraordinary, as anyone who has indulged in ballooning knows fully
+well. On a clear summer's day I have been able to see the ground beneath
+with perfect distinctness from a height of 4,500 feet, yet when the
+craft had ascended a further two or three hundred feet, the panorama was
+blurred. A film of haze lies between the balloon and the ground beneath.
+And the character of this haze is continually changing, so that the
+aerial observer's task is rendered additionally difficult. Its effects
+are particularly notice able when one attempts to photograph the view
+unfolded below. Plate after plate may be exposed and nothing will be
+revealed. Yet at a slightly lower altitude the plates may be exposed and
+perfectly sharp and well-defined images will be obtained.
+
+Seeing that the photographic eye is keener and more searching than the
+human organ of sight, it is obvious that this haze constitutes a very
+formidable obstacle. German military observers, who have accompanied
+the Zeppelins and Parsevals on numerous aerial journeys under varying
+conditions of weather, have repeatedly drawn attention to this factor
+and its caprices, and have not hesitated to venture the opinion that it
+would interfere seriously with military aerial reconnaissances, and also
+that it would tend to render such work extremely hazardous at times.
+
+When these conditions prevail the dirigible must carry out its work upon
+the broad lines of the aeroplane. It must descend to the level where a
+clear view of the ground may be obtained, and in the interests of safety
+it has to keep on the move. To attempt to hover within 4,000 feet of
+the ground is to court certain disaster, inasmuch as the vessel offers
+a magnificent and steady target which the average gunner, equipped with
+the latest sighting devices and the most recent types of guns, scarcely
+could fail to hit.
+
+But the airman in the aeroplane is able to descend to a comparatively
+low level in safety. The speed and mobility of his machine constitute
+his protection. He can vary his altitude, perhaps only thirty or forty
+feet, with ease and rapidity, and this erratic movement is more than
+sufficient to perplex the marksmen below, although the airman is
+endangered if a rafale is fired in such a manner as to cover a wide
+zone.
+
+Although the aeroplane may travel rapidly it is not too fleet for a keen
+observer who is skilled in his peculiar task. He may only gather a
+rough idea of the disposition of troops, their movements, the lines
+of communication, and other details which are indispensable to his
+commander, but in the main the intelligence will be fairly accurate.
+Undulating flight enables him to determine speedily the altitude at
+which he is able to obtain the clearest views of the country beneath.
+Moreover, owing to his speed he is able to complete his task in far less
+time than his colleague operating in the dirigible, the result being
+that the information placed at the disposal of his superior officers is
+more to the moment, and accordingly of greater value.
+
+Reconnoitring by aeroplane may be divided into two broad categories,
+which, though correlated to a certain degree, are distinctive, because
+each constitutes a specific phase in military operations. They are known
+respectively as "tactical" and "strategical" movements. The first is
+somewhat limited in its scope as compared with the latter, and
+has invariably to be carried out rapidly, whereas the strategical
+reconnaissance may occupy several hours.
+
+The tactical reconnaissance concerns the corps or divisional commander
+to which the warplane is attached, and consequently its task is confined
+to the observation of the line immediately facing the particular corps
+or division. The aviator does not necessarily penetrate beyond the lines
+of the enemy, but, as a rule limits his flight to some distance from
+his outermost defences. The airman must possess a quick eye, because
+his especial duty is to note the disposition of the troops immediately
+facing him, the placing of the artillery, and any local movements of the
+forces that may be in progress. Consequently the aviator engaged on
+this service may be absent from his lines for only a few minutes,
+comparatively speaking; the intelligence he acquires must be speedily
+communicated to the force to which he is attached, because it may
+influence a local movement.
+
+The strategical reconnaissance, on the other hand, affects the whole
+plan of campaign. The aviators told off for this duty are attached to
+the staff of the Commander-in-Chief, and the work has to be carried out
+upon a far more comprehensive and elaborate scale, while the airmen
+are called upon to penetrate well into the hostile territory to a point
+thirty, forty, or more miles beyond the outposts.
+
+The procedure is to instruct the flier either to carry out his
+observations of the territory generally, or to report at length upon a
+specified stretch of country. In the latter event he may fly to and
+fro over the area in question until he has acquired all the data it is
+possible to collect. His work not only comprises the general disposition
+of troops, defences, placing of artillery, points where reserves are
+being held, high-roads, railways, base camps, and so forth, but he is
+also instructed to bring back as correct an idea as possible of what
+the enemy proposes to do, so that his Commander-in-Chief may adjust
+his moves accordingly. In order to perform this task with the requisite
+degree of thoroughness it is often necessary for the airman to remain in
+the air for several hours continuously, not returning, in fact, until he
+has completed the allotted duty.
+
+The airman engaged in strategical aerial reconnaissance must possess,
+above all things, what is known as a "military" eye concerning the
+country he traverses. He must form tolerably correct estimates of the
+forces beneath and their character. He must possess the ability to
+read a map rapidly as he moves through the air and to note upon it all
+information which is likely to be of service to the General Staff.
+The ability to prepare military sketches rapidly and intelligibly is
+a valuable attribute, and skill in aerial photography is a decidedly
+useful acquisition.
+
+Such men must be of considerable stamina, inasmuch as great demands
+are made upon their powers of endurance. Being aloft for several hours
+imposes a severe tax upon the nervous system, while it must also be
+borne in mind that all sorts and conditions of weather are likely to
+be encountered, more particularly during the winter. Hail, rain, and
+blizzards may be experienced in turn, while the extreme cold which often
+prevails in the higher altitudes during the winter season is a
+fearful enemy to combat. Often an airman upon his return from such a
+reconnaissance has been discovered to be so numbed and dazed as a result
+of the prolonged exposure, that considerable time has elapsed before
+he has been sufficiently restored to set forth the results of his
+observations in a coherent, intelligible manner for the benefit of the
+General Staff. Under these circumstances it is not surprising that the
+most skilful and experienced aviators are generally reserved for this
+particular work. In addition to the natural accidents to which the
+strategical aerial observer is exposed, the dangers arising from hostile
+gun-fire must not be overlooked. He is manoeuvring the whole time
+over the enemy's firing zone, where anti-aircraft weapons are disposed
+strategically, and where every effort is made by artillery to bring him
+down, or compel him to repair to such a height as to render observation
+with any degree of accuracy well-nigh impossible.
+
+The methods practised by the German aerial scout vary widely, and are
+governed in no small measure by the intrepidity and skill of the airman
+himself. One practice is to proceed alone upon long flights over the
+enemy's lines, penetrating just as far into hostile territory as the
+pilot considers advisable, and keeping, of course, within the limits of
+the radius of action of the machine, as represented by the fuel supply,
+the while carefully taking mental stock of all that he observes below.
+It is a kind of roving commission without any definite aim in view
+beyond the collection of general intelligence.
+
+This work, while productive and valuable to a certain degree, is
+attended with grave danger, as the German airmen have repeatedly found
+to their cost. Success is influenced very materially by the accuracy
+of the airman's judgment. A slight miscalculation of the velocity
+and direction of the wind, or failure to detect any variations in the
+climatic conditions, is sufficient to prove his undoing. German airmen
+who essayed journeys of discovery in this manner, often failed to regain
+their lines because they ventured too far, misjudged the speed of the
+wind which was following them on the outward run, and ultimately were
+forced to earth owing to the exhaustion of the fuel supply during the
+homeward trip; the increased task imposed upon the motor, which had to
+battle hard to make headway, caused the fuel consumption per mile to
+exceed calculations.
+
+Then the venturesome airman cannot neglect another factor which is
+adverse to his success. Hostile airmen lie in wait, and a fleet of
+aeroplanes is kept ready for instant service. They permit the invader
+to penetrate well into their territory and then ascend behind him to
+cut off his retreat. True, the invader has the advantage of being on the
+wing, while the ether is wide and deep, without any defined channels
+of communication. But nine times out of ten the adventurous scout is
+trapped. His chances of escape are slender, because his antagonists
+dispose themselves strategically in the air. The invader outpaces one,
+but in so doing comes within range of another. He is so harassed that he
+either has to give fight, or, finding his retreat hopelessly cut off,
+he makes a determined dash, trusting to his high speed to carry him
+to safety. In these driving tactics the French and British airmen have
+proved themselves adepts, more particularly the latter, as the chase
+appeals to their sporting instincts. There is nothing so exhilarating as
+a quarry who displays a determination to run the gauntlet.
+
+The roving Teuton scout was considerably in evidence in the early days
+of the war, but two or three weeks' experience emphasised the sad fact
+that, in aerial strategy, he was hopelessly outmatched by his opponents.
+His advantage of speed was nullified by the superior tactical and
+strategical acumen of his antagonists, the result being that the German
+airman, who has merely been trained along certain lines, who is in
+many cases nothing more than a cog-wheel in a machine, and who is
+proverbially slow-witted, has concluded that he is no match for the
+airmen of the Allies. He found from bitter experience that nothing
+afforded the Anglo-French military aviators such keen delight as to lie
+in wait for a "rover," and then to swoop into the air to round him up.
+
+The proportion of these individual scouts who were either brought down,
+or only just succeeded in reaching safety within their own lines, and
+who were able to exhibit serious wounds as evidence of the severity of
+the aerial tussle, or the narrowness of the escape, has unnerved the
+Teuton airmen as a body to a very considerable extent. Often, even when
+an aeroplane descended within the German lines, it was found that the
+roving airman had paid the penalty for his rashness with his life, so
+that his journey had proved in vain, because all the intelligence he
+had gained had died with him, or, if committed to paper, was so
+unintelligible as to prove useless.
+
+It was the success of the British airmen in this particular field
+of duty which was responsible for the momentous declaration in
+Field-Marshal Sir John French's famous despatch:--"The British Flying
+Corps has succeeded in establishing an individual ascendancy, which is
+as serviceable to us as it is damaging to the enemy.... The enemy have
+been less enterprising in their flights. Something in the direction of
+the mastery of the air has already been gained."
+
+The methods of the British airmen are in vivid contrast to the
+practice of the venturesome Teuton aerial rovers described above. While
+individual flights are undertaken they are not of unknown duration or
+mileage. The man is given a definite duty to perform and he ascends
+merely to fulfil it, returning with the information at the earliest
+possible moment. It is aerial scouting with a method. The intelligence
+is required and obtained for a specific purpose, to govern a
+contemplated move in the grim game of war.
+
+Even then the flight is often undertaken by two or more airmen for the
+purpose of checking and counterchecking information gained, or to ensure
+such data being brought back to headquarters, since it is quite possible
+that one of the party may fall a victim to hostile fire. By operating
+upon these lines there is very little likelihood of the mission
+proving a complete failure. Even when raids upon certain places such as
+Dusseldorf, Friedrichshafen or Cuxhaven are planned, complete dependence
+is not placed on one individual. The machine is accompanied, so that
+the possibility of the appointed task being consummated is transformed
+almost into a certainty.
+
+The French flying men work upon broadly similar lines. Their fleet is
+divided into small squadrons each numbering four, six, or more machines,
+according to the nature of the contemplated task. Each airman is given
+an area of territory which is to be reconnoitred thoroughly. In this way
+perhaps one hundred or more miles of the enemy's front are searched for
+information at one and the same time. The units of the squadron start
+out, each taking the appointed direction according to the preconceived
+plan, and each steering by the aid of compass and map. They are urged to
+complete the work with all speed and to return to a secret rendezvous.
+
+Later the air is alive with the whirring of motors. The machines are
+coming back and all converging to one point. They vol-plane to the earth
+and gracefully settle down within a short distance of each other at the
+rendezvous. The pilots collect and each relates the intelligence he has
+gained. The data are collated and in this manner the General Staff is
+able to learn exactly what is transpiring over a long stretch of the
+hostile lines, and a considerable distance to the rear of his advance
+works. Possibly five hundred square miles have been reconnoitred in
+this manner. Troops have been massed here, lines of communication extend
+somewhere else, while convoys are moving at a third place. But all has
+been observed, and the commanding officer is in a position to re-arrange
+his forces accordingly. It is a remarkable example of method in military
+tactics and strategy, and conveys a striking idea of the degree to which
+aerial operations have been organised.
+
+After due deliberation it is decided that the convoys shall be raided,
+or that massed troops shall be thrown into confusion, if not dispersed.
+The squadron is ordered to prepare for another aerial journey. The roads
+along which the convoys are moving are indicated upon the map, or the
+position of the massed troops in bivouac is similarly shown. The airmen
+load their machines with a full charge of bombs. When all is ready the
+leader ascends, followed in rapid succession by the other units, and
+they whirr through the air in single file. It now becomes a grim game of
+follow-my-leader.
+
+The leader detects the convoy, swoops down, suddenly launches his
+missiles, and re-ascends. He does not deviate a foot from his path to
+observe the effects of his discharge, as the succeeding aeroplane is
+close behind him. If the leader has missed then the next airman may
+correct his error. One after another the machines repeat the manoeuvre,
+in precisely the same manner as the units of a battleship squadron
+emulate the leading vessel when attacking the foe. The tactical
+evolutions have been laid down, and there is rigid adherence thereto,
+because only thereby may success be achieved. When the last war-plane
+has completed its work, the leader swings round and repeats the dash
+upon the foe. A hail of bullets may scream around the men in the air,
+but one and all follow faithfully in the leader's trail. One or more
+machines may fail in the attack, and may even meet with disaster, but
+nothing interferes with the movements of the squadron as a whole. It is
+the homogeneity of the attacking fleet which tells, and which undermines
+the moral of the enemy, even if it does not wreak decisive material
+devastation. The work accomplished to the best of their ability, the
+airmen speed back to their lines in the same formation.
+
+At first sight reconnoitring from aloft may appear a simple operation,
+but a little reflection will reveal the difficulties and arduousness of
+the work. The observer, whether he be specially deputed, or whether
+the work be placed in the hand of the pilot himself--in this event the
+operation is rendered additionally trying, as he also has to attend to
+his machine must keep his eyes glued to the ground beneath and at the
+same time be able to read the configuration of the panorama revealed to
+him. He must also keep in touch with his map and compass, so as to be
+positive of his position and direction. He must be a first-class judge
+of distances and heights.
+
+When flying rapidly at a height of 4,000 feet or more, the country below
+appears as a perfect plane, or flat stretch, although as a matter of
+fact it may be extremely undulating. Consequently, it is by no means a
+simple matter to distinguish eminences and depressions, or to determine
+the respective and relative heights of hills.
+
+If a rough sketch is required, the observer must be rapid in thought,
+quick in determination, and facile with his pencil, as the machine, no
+matter how it may be slowed down, is moving at a relatively high speed.
+He must consult his map and compass frequently, since an airman who
+loses his bearings is useless to his commander-in-chief. He must have
+an eagle eye, so as to be able to search the country unfolded below, in
+order to gather all the information which is likely to be of value to
+his superior officers. He must be able to judge accurately the numbers
+of troops arrayed beneath him, the lines of the defensive works, to
+distinguish the defended from the dummy lines which are thrown up to
+baffle him, and to detect instantly the movement of the troops and
+the direction, as well as the roads, along which they are proceeding.
+Reserves and their complement, artillery, railway-lines, roads, and
+bridges, if any, over streams and railways must be noted--in short
+he must obtain an eye photograph of the country he observes and grasp
+exactly what is happening there. In winter, with the thermometer well
+down, a blood-freezing wind blowing, wreaths of clouds drifting below
+and obscuring vision for minutes at a time, the rain possibly pelting
+down as if presaging a second deluge, the plight of the vigilant human
+eye aloft is far from enviable.
+
+Upon the return of the machine to its base, the report must be prepared
+without delay. The picture recorded by the eye has to be set down
+clearly and intelligibly with the utmost speed. The requisite
+indications must be made accurately upon the map. Nothing of importance
+must be omitted: the most trivial detail is often of vital importance.
+
+A facile pencil is of inestimable value in such operations. While
+aloft the observer does not trust to his memory or his eye picture, but
+commits the essential factors to paper in the form of a code, or what
+may perhaps be described more accurately as a shorthand pictorial
+interpretation of the things he has witnessed. To the man in the street
+such a record would be unintelligible, but it is pregnant with meaning,
+and when worked out for the guidance of the superior officers is a mass
+of invaluable detail.
+
+At times it so happens that the airman has not been able to complete
+his duty within the time anticipated by those below. But he has gathered
+certain information which he wishes to communicate without coming to
+earth. Such data may be dropped from the clouds in the form of maps or
+messages. Although wireless telegraphy is available for this purpose,
+it suffers from certain drawbacks. If the enemy possesses an equipment
+which is within range of that of the air-craft and the force to which
+it belongs, communications may be nullified by the enemy throwing out
+a continuous stream of useless signals which "jamb" the intelligence of
+their opponents.
+
+If a message--written in code--or a map is to be dropped from aloft it
+is enclosed within a special metallic cylinder, fitted with a vane tail
+to ensure direction of flight when launched, and with a detonating head.
+This is dropped overboard. When it strikes the ground the detonator
+fires a charge which emits a report without damaging the message
+container, and at the same time fires a combustible charge emitting
+considerable smoke. The noise attracts anyone in the vicinity of the
+spot where the message has fallen, while at the same time the clouds of
+smoke guide one to the point and enable the cylinder to be recovered.
+This device is extensively used by the German aviators, and has proved
+highly serviceable; a similar contrivance is adopted by French airmen.
+
+There is one phase of aerial activity which remains to be demonstrated.
+This is the utilisation of aerial craft by the defenders of a besieged
+position such as a ring of fortifications or fortified city. The utility
+of the Fourth Arm in this province has been the subject of considerable
+speculation. Expert opinion maintains that the advantage in this
+particular connection would rest with the besiegers. The latter would
+be able to ascertain the character of the defences and the defending
+gun-force, by means of the aerial scout, who would prove of inestimable
+value in directing the fire of the besieging forces.
+
+On the other hand it is maintained that an aerial fleet would be useless
+to the beleaguered. In the first place the latter would experience
+grave difficulties in ascertaining the positions of the attacking
+and fortress-reducing artillery, inasmuch as this could be masked
+effectively, and it is thought that the aerial force of the besieged
+would be speedily reduced to impotence, since it would be subjected to
+an effective concentrated fire from the ring of besieging anti-aircraft
+guns and other weapons. In other words, the theory prevails that an
+aerial fleet, no matter how efficient, would be rendered ineffective for
+the simple reason that it would be the initial object of the besieger's
+attack. Possibly the stem test of experience will reveal the fallacy of
+these contentions as emphatically as it has disproved others. But there
+is one point upon which authorities are unanimous. If the artillery of
+the investing forces is exposed and readily distinguishable, the aerial
+forces of the beleaguered will bring about its speedy annihilation, as
+the defensive artillery will be concentrated upon that of the besiegers.
+
+
+
+CHAPTER IX. THE AIRMAN AND ARTILLERY
+
+There is one field in which the airman has achieved distinctive
+triumphs. This is in the guidance of artillery fire. The modern battle
+depends first and foremost upon the fierce effectiveness of big-gun
+assault, but to ensure this reliable direction is imperative. No force
+has proved so invaluable for this purpose as the man of-the-air, and
+consequently this is the province in which he has been exceptionally and
+successfully active.
+
+It will be recalled that in the Japanese investiture of Port Arthur
+during the Russo-Japanese war, thousands of lives were expended upon the
+retention and assault of 203 Metre Hill. It was the most blood-stained
+spot upon the whole of the Eastern Asiatic battlefield. General Nogi
+threw thousands after thousands of his warriors against this rampart
+while the Russians defended it no less resolutely. It was captured and
+re-captured; in fact, the fighting round this eminence was so intense
+that it appeared to the outsider to be more important to both sides than
+even Port Arthur itself.
+
+Yet if General Nogi had been in the possession of a single aeroplane
+or dirigible it is safe to assert that scarcely one hundred Japanese or
+Russian soldiers would have met their fate upon this hill. Its value to
+the Japanese lay in one sole factor. The Japanese heavy guns shelling
+the harbour and the fleet it contained were posted upon the further
+side of this eminence and the fire of these weapons was more or less
+haphazard. No means of directing the artillery upon the vital points
+were available; 203 Metre Hill interrupted the line of sight. The
+Japanese thereupon resolved to capture the hill, while the Russians,
+equally appreciative of the obstruction it offered to their enemy, as
+valiantly strove to hold it. Once the hill was captured and the fire
+of the Japanese guns could be directed, the fate of the fortress was
+sealed.
+
+Similar conditions have prevailed during the present campaign,
+especially in the western theatre of war, where the ruggedness of the
+country has tended to render artillery fire ineffective and expensive
+unless efficiently controlled. When the German Army attacked the line of
+the British forces so vehemently and compelled the retreat at Mons,
+the devastating fire of the enemy's artillery was directed almost
+exclusively by their airmen, who hovered over the British lines,
+indicating exactly the point where gun-fire could work the maximum
+of havoc. The instant concentration of massed artillery fire upon
+the indicated positions speedily rendered one position after another
+untenable.
+
+The Germans maintained the upper hand until at last the aerial forces of
+the British Expeditionary Army came into action. These airmen attacked
+the Teuton aerial craft without the slightest hesitation, and in a
+short while rendered cloudland absolutely unhealthy. The sequel
+was interesting. As if suddenly blinded, the German artillery fire
+immediately deteriorated. On the other hand, the British artillery,
+now having the benefit of aerial guidance, was able to repay the
+German onslaughts with interest, and speedily compelled that elaborate
+digging-in of the infantry lines which has now become so characteristic
+of the opposing forces.
+
+So far as the British lines are concerned the men in the trenches keep a
+sharp look-out for hostile aeroplanes. The moment one is observed to
+be advancing, all the men seclude themselves and maintain their
+concealment. To do otherwise is to court a raking artillery outburst.
+The German aeroplane, detecting the tendency of the trenches describes
+in the air the location of the vulnerable spot and the precise
+disposition by flying immediately above the line. Twice the manoeuvre
+is repeated, the second movement evidently being in the character of a
+check upon the first observation, and in accordance with instructions,
+whereupon the Tommies, to quote their own words, "know they are in for
+it!" Ere the aeroplane has completed the second manoeuvre the German
+guns ring out.
+
+The facility with which artillery fire can be concentrated through the
+medium of the aeroplane is amazing. In one instance, according to the
+story related to me by an officer, "a number of our men were resting in
+an open field immediately behind the second line of trenches, being in
+fact the reserves intended for the relief of the front lines during the
+following night. An aeroplane hove in sight. The men dropped their kits
+and got under cover in an adjacent wood. The aeroplane was flying at a
+great height and evidently laboured under the impression that the kits
+were men. Twice it flew over the field in the usual manner, and then
+the storm of shrapnel, 'Jack Johnsons' and other tokens from the Kaiser
+rained upon the confined space. A round four hundred shells were dropped
+into that field in the short period of ten minutes, and the range was
+so accurate that no single shell fell outside the space. Had the men not
+hurried to cover not one would have been left alive to tell the tale,
+because every square foot of the land was searched through and through.
+We laughed at the short-sightedness of the airman who had contributed
+to such a waste of valuable shot and shell, but at the same time
+appreciated the narrowness of our own escape."
+
+The above instance is by no means isolated. It has happened time after
+time. The slightest sign of activity in a trench when a "Taube" is
+overhead suffices to cause the trench to be blown to fragments, and time
+after time the British soldiers have had to lie prone in their trenches
+and suffer partial burial as an alternative to being riddled by
+shrapnel.
+
+The method of ascertaining the range of the target from the indications
+given by the aeroplane are of the simplest character. The German method
+is for the aerial craft to fly over the position, and when in vertical
+line therewith to discharge a handful of tinsel, which, in falling,
+glitters in the sunlight, or to launch a smoking missile which answers
+the same purpose as a projectile provided with a tracer. This smoke-ball
+being dropped over the position leaves a trail of black or whitish smoke
+according to the climatic conditions which prevail, the object being to
+enable the signal to be picked up with the greatest facility. The height
+at which the aerial craft is flying being known, a little triangulation
+upon the part of the observer at the firing point enables him to
+calculate the range and to have the guns laid accordingly.
+
+When the aerial craft has been entrusted with the especial duty of
+directing artillery-fire, a system of communication between the aerial
+observer and the officer in charge of the artillery is established,
+conducted, of course, by code. In the British Army, signalling is both
+visual and audible. In daylight visual signalling is carried out by
+means of coloured flags or streamers and smoke-signals, while audible
+communication is effected by means of a powerful horn working upon the
+siren principle and similar to those used by automobiles. Both flags and
+sound-signals, however, are restricted owing to the comparatively short
+distances over which they can be read with any degree of accuracy. The
+smoke-signal therefore appears to be the most satisfactory and reliable,
+as the German airmen have proved conclusively, for the simple reason
+that the trail of smoke may be picked up with comparative ease, even
+at a distance, by means of field glasses. The tinsel too, is readily
+distinguishable, particularly in bright weather, for the glittering
+surface, catching the sun-light, acts some what in the manner of a
+heliograph.
+
+The progress of the airman is followed by two officers at the base from
+which he started. One is equipped with the director, while the
+second takes the range. Directly this has been found as a result of
+calculation, the guns are laid ready for firing. In those cases where
+the enemy's artillery is concealed perhaps behind a hill, the airman is
+of incalculable value, inasmuch as he is able to reveal a position which
+otherwise would have to be found by considerable haphazard firing, and
+which, even if followed by a captive balloon anchored above the firing
+point, might resist correction.
+
+The accuracy of the airman's work in communicating the range has been
+responsible for the high efficiency of the British and French artillery.
+The latter, with the 75 millimetre quick-firing gun, is particularly
+adapted to following up the results of the aeroplane's reconnaissance,
+especially with the system of rafale fire, because the whole position
+can be searched through and through within a minute or two. According
+to information which has been given to me by our artillery officers, the
+British system also has proved disastrous to the enemy. The practice
+is to get the range as communicated by the aeroplane, to bring the
+artillery into position speedily, to discharge salvo after salvo with
+all speed for a few minutes, and then to wheel the artillery away before
+any hostile fire can be returned. The celerity with which the British
+artillery comes into, and goes out of, action has astonished even
+our own authorities. This mobility is of unique value: it is taking
+advantage of a somewhat slow-witted enemy with interest. By the time
+the Germans have opened fire upon the point whence the British guns were
+discharged, the latter have disappeared and are ready to let fly from
+another point, some distance away, so that the hostile fire is abortive.
+Mobility of such a character is decidedly unnerving and baffling even to
+a quick-witted opponent.
+
+In his search for hostile artillery the airman runs grave risks and
+displays remarkable resource. It is invariably decided, before he sets
+out, that he shall always return to a certain altitude to communicate
+signals. Time after time the guns of the enemy have been concealed
+so cunningly from aerial observation as to pass unnoticed. This trait
+became more pronounced as the campaigns of the Aisne progressed.
+Accordingly the airman adopts a daring procedure. He swoops down over
+suspicious places, where he thinks guns may be lurking, hoping that the
+enemy will betray its presence. The ruse is invariably successful. The
+airman makes a sudden dive towards the earth. The soldiers in hiding
+below, who have become somewhat demoralised by the accuracy of the
+British aerial bomb-throwers, have an attack of nerves. They open a
+spirited fusillade in the hope of bringing the airman to earth. But
+their very excitement contributes to his safety. The shots are fired
+without careful aim and expend themselves harmlessly. Sweeping once more
+upwards, the airman regains the pre-determined level, performs a certain
+evolution in the air which warns the observer at his base that he has
+made a discovery, and promptly drops his guiding signal directly over
+the point from which he has drawn fire.
+
+Operations at night are conducted by means of coloured lights or an
+electrical searchlight system. In the former instance three lights
+are generally carried--white, red, and green--each of which has a
+distinctive meaning. If reliance is placed upon the electric light
+signalling lamp, then communications are in code. But night operations
+are somewhat difficult and extremely dangerous, except when the elements
+are propitious. There is the ground mist which blots everything from
+sight, rendering reconnaissance purely speculative. But on a clear night
+the airman is more likely to prove successful. He keeps a vigilant eye
+upon all ground-lights and by close observation is able to determine
+their significance. It is for this reason that no lights of any
+description are permitted in the advance trenches. The striking of a
+match may easily betray a position to the alert eye above.
+
+So far as the British Army is concerned a complete code is in operation
+for communicating between aeroplanes and the ground at night. Very's
+lights are used for this purpose, it being possible to distinguish the
+respective colours at a distance of six miles and from an altitude of
+2,000 feet. The lights are used both by the aeroplane and the battery of
+artillery.
+
+The code is varied frequently, but the following conveys a rough idea of
+how communication is carried out by this means under cover of darkness.
+The aeroplane has located its objective and has returned to the
+pre-arranged altitude. A red light is thrown by the airman. It indicates
+that he is directly over the enemy's position. A similarly coloured
+light is shown by the artillery officer, which intimates to the airman
+that his signal has been observed and that the range has been taken.
+
+In observing the effects of artillery fire a code of signals is employed
+between the airman and the artillery officer to indicate whether the
+shot is "long" or "short," to the right or to the left of the mark,
+while others intimate whether the fuse is correctly timed or otherwise.
+It is necessary to change the code fairly frequently, not only lest
+it should fall into the enemy's hands, but also to baffle the hostile
+forces; otherwise, after a little experience, the latter would be able
+to divine the significance of the signals, and, in anticipation of being
+greeted with a warm fusillade, would complete hurried arrangements
+to mitigate its effects, if not to vacate the position until the
+bombardment had ceased.
+
+Sufficient experience has already been gathered, however, to prove the
+salient fact that the airman is destined to play an important part
+in the direction and control of artillery-fire. Already he has been
+responsible for a re-arrangement of strategy and tactics. The man aloft
+holds such a superior position as to defy subjugation; the alternative
+is to render his work more difficult, if not absolutely impossible.
+
+
+
+CHAPTER X. BOMB-THROWING FROM AIR-CRAFT
+
+During the piping times of peace the utility of aircraft as weapons of
+offence was discussed freely in an academic manner. It was urged
+that the usefulness of such vessels in this particular field would
+be restricted to bomb-throwing. So far these contentions have been
+substantiated during the present campaign. At the same time it was
+averred that even as a bomb-thrower the ship of the air would prove
+an uncertain quantity, and that the results achieved would be quite
+contrary to expectations. Here again theory has been supported by
+practice, inasmuch as the damage wrought by bombs has been comparatively
+insignificant.
+
+The Zeppelin raids upon Antwerp and Britain were a fiasco in the
+military sense. The damage inflicted by the bombs was not at all in
+proportion to the quantity of explosive used. True, in the case of
+Antwerp, it demoralised the civilian population somewhat effectively,
+which perhaps was the desired end, but the military results were nil.
+
+The Zeppelin, and indeed all dirigibles of large size, have one
+advantage over aeroplanes. They are able to throw bombs of larger size
+and charged with greater quantities of high explosive and shrapnel than
+those which can be hurled from heavier-than-air machines. Thus it has
+been stated that the largest Zeppelins can drop single charges exceeding
+one ton in weight, but such a statement is not to be credited.
+
+The shell generally used by the Zeppelin measures about 47 inches in
+length by 8 1/2 inches in diameter, and varies in weight from 200 to
+242 pounds. Where destruction pure and simple is desired, the shell
+is charged with a high explosive such as picric acid or T.N.T., the
+colloquial abbreviation for the devastating agent scientifically known
+as "Trinitrotoluene," the base of which, in common with all the high
+explosives used by the different powers and variously known as lyddite,
+melinite, cheddite, and so forth, is picric acid. Such a bomb, if it
+strikes the objective, a building, for instance, fairly and squarely,
+may inflict widespread material damage.
+
+On the other hand, where it is desired to scatter death, as well as
+destruction, far and wide, an elaborate form of shrapnel shell is
+utilised. The shell in addition to a bursting charge, contains bullets,
+pieces of iron, and other metallic fragments. When the shell bursts,
+their contents, together with the pieces of the shell which is likewise
+broken up by the explosion, are hurled in all directions over a radius
+of some 50 yards or more, according to the bursting charge.
+
+These shells are fired upon impact, a detonator exploding the main
+charge. The detonator, comprising fulminate of mercury, is placed in
+the head or tail of the missile. To secure perfect detonation and to
+distribute the death-dealing contents evenly in all directions, it is
+essential that the bomb should strike the ground almost at right
+angles: otherwise the contents are hurled irregularly and perhaps in
+one direction only. One great objection to the percussion system, as
+the method of impact detonation is called, is that the damage may be
+localised. A bomb launched from a height of say 1,000 feet attains
+terrific velocity, due to the force of gravity in conjunction with its
+own weight, in consonance with the law concerning a falling body, by the
+time it reaches the ground. It buries itself to a certain depth before
+bursting so that the forces of the explosion become somewhat muffled as
+it were. A huge deep hole--a miniature volcano crater--is formed,
+while all the glass in the immediate vicinity of the explosion may be
+shattered by the concussion, and the walls of adjacent buildings be
+bespattered with shrapnel.
+
+Although it is stated that an airship is able to drop a single missile
+weighing one ton in weight, there has been no attempt to prove the
+contention by practice. In all probability the heaviest shell launched
+from a Zeppelin has not exceeded 300 pounds. There is one cogent reason
+for such a belief. A bomb weighing one ton is equivalent to a similar
+weight of ballast. If this were discarded suddenly the equilibrium of
+the dirigible would be seriously disturbed--it would exert a tendency
+to fly upwards at a rapid speed. It is doubtful whether the planes
+controlling movement in the vertical plane would ever be able to
+counteract this enormous vertical thrust. Something would have to submit
+to the strain. Even if the dirigible displaced say 20 tons, and a bomb
+weighing one ton were discharged, the weight of the balloon would be
+decreased suddenly by approximately five per cent, so that it would
+shoot upwards at an alarming speed, and some seconds would elapse before
+control was regained.
+
+The method of launching bombs from airships varies considerably. Some
+are released from a cradle, being tilted into position ready for firing,
+while others are discharged from a tube somewhat reminiscent of that
+used for firing torpedoes, with the exception that little or no
+initial impetus is imparted to the missile; the velocity it attains is
+essentially gravitational.
+
+The French favour the tube-launching method since thereby it is stated
+to be possible to take more accurate aim. The objective is sighted and
+the bomb launched at the critical moment. In some instances the French
+employ an automatic detonator which corresponds in a certain measure to
+the time-fuse of a shrapnel shell fired from a gun.
+
+The bomb-thrower reads the altitude of his airship as indicated by his
+barometer or other recording instrument, and by means of a table at his
+command ascertains in a moment the time which will elapse before the
+bomb strikes the ground. The automatic detonator is set in motion and
+the bomb released to explode approximately at the height to which it
+is set. When it bursts the full force of the explosion is distributed
+downwards and laterally. Owing to the difficulty of ensuring the
+explosion of the bomb at the exact height desired, it is also made to
+explode upon impact so as to make doubly sure of its efficacy.
+
+Firing timed bombs from aloft, however, is not free from excitement and
+danger, as the experience of a French airman demonstrates. His dirigible
+had been commanded to make a night-raid upon a railway station which was
+a strategical junction for the movement of the enemy's troops. Although
+the hostile searchlights were active, the airship contrived to slip
+between the spokes of light without being observed. By descending to a
+comparatively low altitude the pilot was able to pick up the objective.
+
+Three projectiles were discharged in rapid succession and then the
+searchlights, being concentrated, struck the airship, revealing its
+presence to the troops below. Instantly a spirited fusillade broke out.
+The airmen, by throwing ballast and other portable articles overboard
+pell-mell, rose rapidly, pursued by the hostile shells.
+
+In the upward travel the bomb-thrower decided to have a parting shot.
+The airship was steadied momentarily to enable the range to be taken,
+the automatic detonator was set going and the bomb slipped into the
+launching tube. But for some reason or other the missile jambed.
+
+The situation was desperate. In a few seconds the bomb would burst and
+shatter the airship. The bomb-thrower grabbed a tool and climbing into
+the rigging below hacked away at the bomb-throwing tube until the whole
+equipment was cut adrift and fell clear of the vessel. Almost instantly
+there was a terrific explosion in mid-air. The blast of air caused the
+vessel to roll and pitch in a disconcerting manner, but as the airman
+permitted the craft to continue its upward course unchecked, she soon
+steadied herself and was brought under control once more.
+
+The bomb carried by aeroplanes differs consider ably from that used by
+dirigibles, is smaller and more convenient to handle, though considering
+its weight and size it is remarkably destructive. In this instance
+complete reliance is placed upon detonation by impact. The latest types
+of British war-plane bombs have been made particularly formidable, those
+employed in the "raids in force" ranging up to 95 pounds in weight.
+
+The type of bomb which has proved to be the most successful is
+pear-shaped. The tail spindle is given an arrow-head shape, the vanes
+being utilised to steady the downward flight of the missile. In falling
+the bomb spins round, the rotating speed increasing as the projectile
+gathers velocity. The vanes act as a guide, keeping the projectile in as
+vertical a plane as possible, and ensuring that the rounded head shall
+strike the ground. The earlier types of bombs were not fitted with these
+vanes, the result being that sometimes they turned over and over as they
+fell through the air, while more often than not they failed to explode
+upon striking the ground.
+
+The method of launching the bomb also varies considerably, experience
+not having indicated the most efficient method of consummating this
+end. In some cases the bombs are carried in a cradle placed beneath the
+aeroplane and launched merely by tilting them in a kind of sling, one by
+one, to enable them to drop to the ground, this action being controlled
+by means of a lever. In another instance they are dropped over the side
+of the car by the pilot, the tail of the bomb being fitted with a swivel
+and ring to facilitate the operation. Some of the French aviators favour
+a still simpler method. The bomb is attached to a thread and lowered
+over the side. At the critical moment it is released simply by severing
+the thread. Such aeroplane bombs, however, constitute a menace to the
+machine and to the pilot. Should the bomb be struck by hostile rifle or
+shell fire while the machine is aloft, an explosion is probable; while
+should the aero plane make an abrupt descent the missiles are likely to
+be detonated.
+
+A bomb which circumvents this menace and which in fact will explode
+only when it strikes the ground is that devised by Mr. Marten-Hale.
+This projectile follows the usual pear-shape, and has a rotating tail to
+preserve direction when in flight. The detonator is held away from the
+main charge by a collar and ball-bearing which are held in place by the
+projecting end of a screw-releasing spindle. When the bomb is dropped
+the rotating tail causes the spindle to screw upwards until the
+projection moves away from the steel balls, thereby allowing them to
+fall inward when the collar and the detonator are released. In order to
+bring about this action the bomb must have a fall of at least 200 feet.
+
+When the bomb strikes the ground the detonator falls down on the charge,
+fires the latter, and thus brings about the bursting of the bomb. The
+projectile is of the shrapnel type. It weighs 20 pounds complete, is
+charged with some four pounds of T.N.T., and carries 340 steel balls,
+which represent a weight of 5 3/4 pounds.
+
+The firing mechanism is extremely sensitive and the bomb will burst
+upon impact with the hull of an airship, water, or soft soil. This
+projectile, when discharged, speedily assumes the vertical position, so
+that there is every probability that it will strike the ground
+fairly and squarely, although at the same time such an impact is not
+imperative, because it will explode even if the angle of incidence be
+only 5 degrees. It is remarkably steady in its flight, the balancing and
+the design of the tail frustrating completely any tendency to wobble or
+to turn turtle while falling.
+
+Other types of missile may be used. For instance, incendiary bombs have
+been thrown with success in certain instances. These bombs are similar
+in shape to the shrapnel projectile, but are charged with petrol or some
+other equally highly inflammable mixture, and fitted with a detonator.
+When they strike the objective the bursting charge breaks up the shell,
+releasing the contents, and simultaneously ignites the combustible.
+
+Another shell is the smoke-bomb, which, up to the present, has been used
+only upon a restricted scale. This missile is charged with a certain
+quantity of explosive to burst the shell, and a substance which, when
+ignited, emits copious clouds of dense smoke. The scope of such a shell
+is somewhat restricted, it is used only for the purpose of obstructing
+hostile artillery fire. The shells are dropped in front of the artillery
+position and the clouds of smoke which are emitted naturally inter fere
+with the operations of the gunners. These bombs have also been used
+with advantage to denote the position of concealed hostile artillery,
+although their utility in this connection is somewhat uncertain, owing
+to the difficulty of dropping the bomb so accurately as to enable the
+range-finders to pick up the range.
+
+Dropping bombs from aloft appears to be a very simple operation, but
+as a matter of fact it is an extremely difficult matter to strike the
+target, especially from a high altitude. So far as the aeroplane is
+concerned it is somewhat at a disadvantage as compared with the airship,
+as the latter is able to hover over a position, and, if a spring-gun
+is employed to impart an initial velocity to the missile, there is a
+greater probability of the projectile striking the target provided it
+has been well-aimed. But even then other conditions are likely to arise,
+such as air-currents, which may swing the missile to one side of the
+objective. Consequently adequate allowance has to be made for windage,
+which is a very difficult factor to calculate from aloft.
+
+Bomb-dropping from an aeroplane is even more difficult. If for instance
+the aeroplane is speeding along at 60 miles an hour, the bomb when
+released will have a speed in the horizontal plane of 60 miles an hour,
+because momentarily it is travelling at the speed of the aeroplane.
+Consequently the shell will describe a curved trajectory, somewhat
+similar to that shown in Fig. 7.
+
+On the other hand, if the aeroplane is travelling slowly, say at 20
+miles an hour, the curve of the trajectory will be flatter, and if a
+head wind be prevailing it may even be swept backwards somewhat after it
+has lost its forward momentum, and describe a trajectory similar to that
+in Fig. 8.
+
+A bomb released from an altitude of 1000 feet seldom, if ever, makes
+a bee-line for the earth, even if dropped from a stationary airship.
+Accordingly, the airman has to release the bomb before he reaches the
+target below. The determination of the critical moment for the release
+is not easy, inasmuch as the airman has to take into his calculations
+the speed of his machine, his altitude, and the direction and velocity
+of the air-currents.
+
+The difficulty of aiming has been demonstrated upon several occasions at
+aviation meetings and other similar gatherings. Monsieur Michelin,
+who has done so much for aviation in France, offered a prize of
+L1,00--$5,000--in 1912 for bomb-dropping from an aeroplane. The target
+was a rectangular space marked out upon the ground, measuring 170 feet
+long by 40 feet broad, and the missiles had to be dropped from a height
+of 2,400 feet. The prize was won by the well-known American airman,
+Lieutenant Riley E. Scott, formerly of the United States Army. He
+dropped his bombs in groups of three. The first round fell clear of the
+target, but eight of the remaining missiles fell within the area.
+
+In the German competition which was held at Gotha in September of the
+same year the results were somewhat disappointing. Two targets were
+provided. The one represented a military bivouac occupying a superficies
+of 330 square feet, and the other a captive balloon resembling a
+Zeppelin. The prizes offered were L500, L200, and L80--$2,500, $1,000
+and $400--respectively, and were awarded to those who made the greatest
+number of hits. The conditions were by no means so onerous as those
+imposed in the Michelin contest, inasmuch as the altitude limit was set
+at 660 feet, while no machine was to descend within 165 feet. The first
+competitor completely failed to hit the balloon. The second competitor
+flying at 800 feet landed seven bombs within the square, but only one
+other competitor succeeded in placing one bomb within the space.
+
+Bomb-dropping under the above conditions, however, is vastly dissimilar
+from such work under the grim realities of war. The airman has to act
+quickly, take his enemy by surprise, avail himself of any protective
+covering which may exist, and incur great risks. The opposing forces are
+overwhelmingly against him. The modern rifle, if fired vertically into
+the air, will hurl the bullet to a height of about 5,000 feet, while
+the weapons which have been designed to combat aircraft have a range of
+10,000 feet or more.
+
+At the latter altitude aggressive tactics are useless. The airman is
+unable to obtain a clear sharp view of the country beneath owing to the
+interference offered to vision by atmospheric haze, even in the dearest
+of weather. In order to obtain reasonable accuracy of aim the corsair
+of the sky must fly at about 400 feet. In this respect, however, the
+aeroplane is at a decided advantage, as compared with the dirigible. The
+machine offers a considerably smaller target and moves with much greater
+speed. Experience of the war has shown that to attempt to hurl bombs
+from an extreme height is merely a waste of ammunition. True, they do a
+certain amount of damage, but this is due to luck, not judgment.
+
+For success in aerial bomb operations the human element is mainly
+responsible. The daring airman is likely to achieve the greatest
+results, as events have proved, especially when his raid is sudden and
+takes the enemy by surprise. The raids carried out by Marix, Collet,
+Briggs, Babington, Sippe and many others have established this fact
+incontrovertibly. In all these operations the airmen succeeded because
+of their intrepidity and their decision to take advantage of cover,
+otherwise a prevailing mist or low-lying clouds. Flight-Lieutenant
+Collet approached the Zeppelin shed at Dusseldorf at an altitude of
+6,000 feet. There was a bank of mist below, which he encountered at
+1,500 feet. He traversed the depth of this layer and emerged therefrom
+at a height of only 400 feet above the ground. His objective was barely
+a quarter of a mile ahead. Travelling at high speed he launched his
+bombs with what proved to be deadly precision, and disappeared
+into cover almost before the enemy had grasped his intentions.
+Lieutenant-Commander, now Flight-Commander, Marix was even more daring.
+Apparently he had no mist in which to conceal himself but trusted almost
+entirely to the speed of his machine, which probably at times notched 90
+miles per hour. Although his advent was detected and he was greeted with
+a spirited fusillade he clung to his determined idea. He headed straight
+for the Zeppelin shed, launched two bombs and swung into the higher
+reaches of the air without a moment's hesitation. His aim was deadly,
+since both bombs found their mark, and the Zeppelin docked within was
+blown up. The intrepid airman experienced several narrow escapes, for
+his aeroplane was struck twenty times, and one or two of the control
+wires were cut by passing bullets.
+
+The raid carried out by Commanders Briggs and Babington in company with
+Lieutenant Sippe upon the Zeppelin workshops at Friedrichshafen was even
+more daring. Leaving the Allies' lines they ascended to an altitude of
+4,500 feet, and at this height held to the pre-arranged course until
+they encountered a mist, which while protecting them from the alert eyes
+of the enemy below, was responsible for the separation of the raiders,
+so that each was forced to act independently and to trust to the compass
+to bring him out of the ordeal successfully. Lieutenant Sippe sighted
+Lake Constance, and taking advantage of the mist lying low upon the
+water, descended to such an extent that he found himself only a few feet
+above the roofs of the houses. Swinging round to the Lake he descended
+still lower until at last he was practically skimming the surface of the
+Lake, since he flew at the amazingly low height of barely seven feet
+off the water. There is no doubt that the noise of his motor was heard
+plainly by the enemy, but the mist completely enveloped him, and
+owing to the strange pranks that fog plays with sound deceived his
+antagonists.
+
+At last, climbing above the bank of vapour, he found that he had
+overshot the mark, so he turned quickly and sped backwards. At the same
+time he discovered that he had been preceded by Commander Briggs, who
+was bombarding the shed furiously, and who himself was the object of
+a concentrated fire. Swooping down once more, Lieutenant Sippe turned,
+rained his bombs upon the objective beneath, drawing fire upon himself,
+but co-operating with Commander Babington, who had now reached the
+scene, he manoeuvred above the works and continued the bombardment until
+their ammunition was expended, when they sped home-wards under the
+cover of the mist. Considering the intensity of the hostile fire, it
+is surprising that the aeroplanes were not smashed to fragments.
+Undoubtedly the high speed of the machines and the zigzagging courses
+which were followed nonplussed the enemy. Commander Briggs was not
+so fortunate as his colleagues; a bullet pierced his petrol tank,
+compelling a hurried descent.
+
+The most amazing feature of these aerial raids has been the remarkably
+low height at which the airmen have ventured to fly. While such a
+procedure facilitates marksmanship it increases the hazards. The airmen
+have to trust implicitly to the fleetness of their craft and to their
+own nerve. Bearing in mind the vulnerability of the average aeroplane,
+and the general absence of protective armouring against rifle fire at
+almost point-blank range, it shows the important part which the human
+element is compelled to play in bomb-dropping operations.
+
+Another missile which has been introduced by the French airmen, and
+which is extremely deadly when hurled against dense masses of men,
+is the steel arrow, or "flechette" as it is called. It is a fiendish
+projectile consisting in reality of a pencil of solid polished steel, 4
+3/4 inches in length. The lower end has a sharp tapering point, 5/8ths
+of an inch in length. For a distance of 1 1/8th of an inch above this
+point the cylindrical form of the pencil is preserved, but for the
+succeeding three inches to the upper end, the pencil is provided with
+four equally spaced angle flanges or vanes. This flanging of the upper
+end or tail ensures the arrow spinning rapidly as it falls through the
+air, and at the same times preserves its vertical position during its
+descent. The weight of the arrow is two-thirds of an ounce.
+
+The method of launching this fearsome projectile is ingenious. A hundred
+or even more are packed in a vertical position in a special receptacle,
+placed upon the floor of the aeroplane, preferably near the foot of the
+pilot or observer. This receptacle is fitted with a bottom moving in the
+manner of a trap-door, and is opened by pressing a lever. The aviator
+has merely to depress this pedal with his foot, when the box is opened
+and the whole of the contents are released. The fall at first is
+somewhat erratic, but this is an advantage, as it enables the darts to
+scatter and to cover a wide area. As the rotary motion of the arrows
+increases during the fall, the direct line of flight becomes more
+pronounced until at last they assume a vertical direction free from all
+wobbling, so that when they alight upon the target they are quite plumb.
+
+When launched from a height they strike the objective with terrific
+force, and will readily penetrate a soldier's helmet and skull. Indeed,
+when released at a height of 4,000 feet they have been known to pierce a
+mounted soldier's head, and pass vertically through his body and that
+of his horse also. Time after time German soldiers have found themselves
+pinned to the ground through the arrow striking and penetrating their
+feet. Owing to the extremely light weight of the darts they can be
+launched in batches of hundreds at a time, and in a promiscuous manner
+when the objective is a massed body of infantry or cavalry, or a
+transport convoy. They are extremely effective when thrown among horses
+even from a comparatively low altitude, not so much from the fatalities
+they produce, as from the fact that they precipitate a stampede among
+the animals, which is generally sufficiently serious and frantic to
+throw cavalry or a transport-train into wild confusion.
+
+Although aerial craft, when skilfully handled, have proved highly
+successful as weapons of offence, the possibilities of such aggression
+as yet are scarcely realised; aerial tactics are in their infancy.
+Developments are moving rapidly. Great efforts are being centred upon
+the evolution of more formidable missiles to be launched from the
+clouds. The airman is destined to inspire far greater awe than at
+present, to exercise a still more demoralising influence, and to work
+infinitely more destruction.
+
+
+
+CHAPTER XI. ARMOURED AEROPLANES
+
+The stern test of war has served to reveal conclusively the fact that
+aerial craft can be put out of action readily and effectively, when once
+the marksman has picked up the range, whether the gunner be conducting
+his operations with an anti-aircraft gun stationed upon the ground,
+or from a hostile machine. It will be remembered that Flight-Commander
+Briggs, on the occasion of the daring British raid upon the Zeppelin
+sheds at Friedrichshafen, was brought to the ground by a bullet which
+penetrated his fuel tank. Several other vessels, British, German,
+French, and Russian alike, have been thrown out of action in a similar
+manner, and invariably the craft which has been disabled suddenly in
+this way has fallen precipitately to earth in the fatal headlong dive.
+
+Previous to the outbreak of hostilities there was considerable
+divergence of opinion upon this subject. The general opinion was that
+the outspread wings and the stays which constituted the weakest parts of
+the structure were most susceptible to gun-fire, and thus were likely to
+fail. But practice has proved that it is the driving mechanism which is
+the most vulnerable part of the aeroplane.
+
+This vulnerability of the essential feature of the flying machine is a
+decisive weakness, and exposes the aviator to a constant menace. It
+may be quite true that less than one bullet in a thousand may hit the
+machine, but when the lucky missile does find its billet its effect is
+complete. The fact must not be overlooked that the gunners who work the
+batteries of anti-aircraft guns are becoming more and more expert as a
+result of practice, so that as time progresses and improved guns for
+such duty are rendered available, the work of the aviator is likely to
+become more dangerous and difficult. Experience has proved that the high
+velocity gun of to-day is able to hurl its projectile or shell to an
+extreme height--far greater than was previously considered possible--so
+that considerable discretion has to be exercised by the airman, who
+literally bears his life in his hands.
+
+Although elaborate trials were carried out upon the testing ranges with
+the weapons devised especially for firing upon flying machines, captive
+balloons being employed as targets, the data thus obtained were neither
+conclusive nor illuminating. The actual experiences of airmen have given
+us some very instructive facts upon this point for the first time.
+
+It was formerly held that the zone of fire that is to be considered as
+a serious danger was within a height of about 4,500 feet. But this
+estimate was well within the mark. Airmen have found that the modern
+projectiles devised for this phase of operations are able to inflict
+distinctly serious damage at an altitude of 9,000 feet. The shell itself
+may have but little of its imparted velocity remaining at this altitude,
+but it must be remembered that when the missile bursts, the contents
+thereof are given an independent velocity, and a wide cone of
+dispersion, which is quite sufficient to achieve the desired end,
+inasmuch as the mechanism of the modern aeroplane and dirigible is
+somewhat delicate.
+
+It was for this reason that the possibility of armouring the airship was
+discussed seriously, and many interesting experiments in this field were
+carried out. At the same time it was decided that the armouring
+should be effected upon lines analogous to that prevailing in warship
+engineering. The craft should not only be provided with defensive but
+also with aggressive armament. This decision was not viewed with general
+approbation. It was pointed out that questions of weight would arise,
+especially in relation to the speed of the machine. Increased weight,
+unless it were accompanied by a proportionate augmentation of power
+in the motor, would react against the efficiency and utility of the
+machine, would appreciably reduce its speed, and would affect its
+climbing powers very adversely. In some quarters it was maintained
+that as a result the machine would even prove unsuited to military
+operations, inasmuch as high speed is the primary factor in these.
+
+Consequently it was decided by the foremost aviating experts that
+machines would have to be classified and allotted to particular spheres
+of work, just as warships are built in accordance with the special
+duty which they are expected to perform. In reconnaissance, speed is
+imperative, because such work in the air coincides with that of
+the torpedo-boat or scout upon the seas. It is designed to acquire
+information respecting the movements of the enemy, so as to assist the
+heavier arms in the plan of campaign. On the other hand, the fighting
+corsair of the skies might be likened to the cruiser or battleship. It
+need not possess such a high turn of speed, but must be equipped with
+hard-hitting powers and be protected against attacking fire.
+
+One attempt to secure the adequate protection against gun-fire from the
+ground assumed the installation of bullet-proof steel plating, about one
+fifth of an inch thick, below the tank and the motor respectively.
+The disposition of the plating was such as to offer the minimum of
+resistance to the air and yet to present a plane surface to the ground
+below. So far as it went this protection was completely effective, but
+it failed to armour the vital parts against lateral, cross and downward
+fire while aloft. As the latter is more to be feared than the fire from
+the ground, seeing that it may be directed at point blank range, this
+was a decided defect and the armour was subsequently abandoned as
+useless.
+
+The only effective method of achieving the desired end is to armour the
+whole of the carriage or fuselage of the adroplane, and this was the
+principle adopted by the Vickers Company. The Vickers military aeroplane
+is essentially a military machine. It is built of steel throughout.
+The skeleton of the machine is formed of an alloy which combines the
+qualities of aluminium and steel to ensure toughness, strength, and
+lightness. In fact, metal is employed liberally throughout, except in
+connection with the wings, which follow the usual lines of construction.
+The body of the car is sheathed with steel plating which is bullet proof
+against rifle or even shrapnel fire. The car is designed to carry two
+persons; the seats are therefore disposed tandem-wise, with the observer
+or gunner occupying the front seat.
+
+The defensive armament is adequate for ordinary purposes. Being fitted
+with a 100 horse-power motor, fairly high speeds are attainable,
+although the velocity is not equal to that of machines constructed upon
+conventional lines, inasmuch as there is an appreciable increase in
+weight.
+
+The car is short and designed upon excellent stream lines, so that the
+minimum of resistance to the air is offered, while at the same time the
+balancing is perfect. The sides of the car are brought up high enough
+to protect the aviators, only their heads being visible when they are
+seated. The prow of the car follows the lines generally adopted in high
+speed torpedo boat design; there is a sharp knife edge stem with an
+enclosed fo'c's'le, the latter housing the gun.
+
+Another craft, designed for scouting operations, may be likened to
+the mosquito craft of the seas. This machine, while a biplane like
+the military aeroplane, is of lighter construction, everything
+being sacrificed to speed in this instance. It is fitted with a 100
+horse-power motor and is designed to carry an observer if required.
+There is no offensive armament, however. The fuel tank capacity,
+moreover, is limited, being only sufficient for a two or three hours'
+flight. While this is adequate for general reconnoitring, which for the
+most part entails short high speed flights, there are occasions when
+the Staff demands more prolonged observations conducted over a greater
+radius. This requisition can be met by eliminating the observer, whose
+duties in this instance must be assumed by the pilot, and substituting
+in place of the former, a second fuel tank of sufficient capacity for a
+flight of four or five hours, thereby bringing the term of action in the
+air to about 6 1/4 hours. This machine travels at a very high speed and
+is eminently adapted to its specific duty, but it is of limited service
+for general purposes.
+
+The arming of an aeroplane, to enable it to defend itself against
+hostile attack or to participate in raiding operations upon the aerial
+fleet of the enemy, appears to be a simple task, but as a matter of
+fact it is an undertaking beset with difficulties innumerable. This is
+especially the case where the aeroplane is of the tractive type, that is
+to say where the propellers are placed in the forefront of the machine
+and in their revolution serve to draw the machine forward. All other
+considerations must necessarily be sacrificed to the mounting of the
+propeller. Consequently it is by no means easy to allot a position for
+the installation of a gun, or if such should be found there is grave
+risk of the angle of fire being severely restricted. In fact, in many
+instances the mounting of a gun is out of the question: it becomes a
+greater menace to the machine than to the enemy.
+
+The French aeronautical section of the military department devoted
+considerable study to this subject, but found the problem almost
+insurmount able. Monsieur Loiseau met with the greatest measure of
+success, and his system is being practised in the present campaign. This
+principle is essentially adapted to tractor aeroplanes. Forward of the
+pilot a special position is reserved for the gunner. A special mounting
+is provided towards the prow, and upon the upper face of the body of the
+machine. The gun mounting is disposed in such a manner that it is able
+to command a wide arc of fire in the vertical plane over the nose of the
+machine and more particularly in the downward direction.
+
+The marksman is provided with a special seat, but when he comes into
+action he has to stand to manipulate his weapon. The lower part of his
+body is protected by a front shield of steel plate, a fifth of an inch
+in thickness, while a light railing extending upon either side and
+behind enables the gunner to maintain his position when the aeroplane is
+banking and climbing. The machine gun, of the Hotchkiss type, is mounted
+upon a swivel attached to a tripod, while the latter is built into the
+bracing of the car, so as to ensure a fairly steady gun platform.
+
+While the gun in the hands of a trained marksman may be manipulated with
+destructive effect, the drawbacks to the arrangement are obvious. The
+gunner occupies a very exposed position, and, although the bullet-proof
+shield serves to break the effects of wind when travelling at high
+speed which renders the sighting and training of the weapon extremely
+difficult, yet he offers a conspicuous target, more particularly when
+the enemy is able to assume the upper position in the air as a result of
+superior speed in travelling. The gun, however, may be elevated to about
+60 degrees, which elevation may be accentuated by the inclination of the
+aeroplane when climbing, while the facility with which the weapon may be
+moved through the horizontal plane is distinctly favourable.
+
+But the aerial marksman suffers from one very pronounced defect: he has
+a severely restricted survey of everything below, since his vision is
+interrupted by the planes. The result is that an enemy who has lost
+ascendancy of position is comparatively safe if he is able to fly
+immediately below his adversary: the mitrailleuse of the latter cannot
+be trained upon him. On the other hand the enemy, if equipped with
+repeating rifles or automatic pistols, is able to inflict appreciable
+damage upon the craft overhead, the difficulties of firing vertically
+into the air notwithstanding.
+
+In the Vickers system, where the propeller is mounted behind the car,
+the aeroplane thus operating upon the pusher principle, the nose of the
+car is occupied by the arm, which is a rifle calibre machine gun fitted
+upon a special mounting. The prow is provided with an embrasure for
+the weapon and the latter is so installed as to command an angle of 30
+degrees on all sides of the longitudinal axis of the machine when
+in flight. In this instance the marksman is provided with complete
+protection on all sides, inasmuch as his position is in the prow, where
+the hood of the fo'c's'le shields him from overhead attack. The gun
+is protected by a special shield which moves with the gun barrel. This
+shield is provided with mica windows, through which the gunner is able
+to sight his arm, so that he is not inconvenienced in any way by the
+wind draught.
+
+One shortcoming of such methods of arming an aeroplane will be observed.
+Ahead firing only is possible; the weapon cannot be trained astern,
+while similarly the line of fire on either broadside is severely
+limited. This is one reason why the machine-gun armament of aerial craft
+of the heavier-than-air type has not undergone extensive development.
+In many instances the pilot and observer have expressed their preference
+for repeating high velocity rifles over any form of fixed gun mounting,
+and have recourse to the latter only when the conditions are extremely
+favourable to its effective employment.
+
+Efforts are now being made to equip the military type of aeroplane with
+both forward and astern firing guns. The urgency of astern fire has
+been brought home very vividly. Suppose, for instance, two hostile
+aeroplanes, A and B, are in the air. A has the advantage at first, but
+B is speedier and rapidly overhauls A. During the whole period of the
+overhauling movement the gun of B can be directed upon A, while the
+latter, owing to the arc of training being limited to c d cannot reply.
+Obviously in the running fight it would be to the advantage of B,
+although the fleeter machine, to keep behind A (position 1), but the
+latter is making towards its own lines.
+
+Under these circumstances A must be headed off, so B crowds on speed
+to consummate this end. But in the overtaking process B renders his
+gun-fire ineffective, inasmuch as B passes beyond the arc of his gun
+which is represented by e f. But in so doing B comes within the firing
+arc of A (position 9). To minimise this danger B ascends to a higher
+level to obtain the paramount position.
+
+If, however, B were equipped with an astern gun the aeroplane A would
+be within the fire of B when the forward gun of the latter could not
+be used. Similarly if A were also fitted with an astern gun it would be
+able to attack its pursuer the whole time B was to its rear and in
+this event, if its gun-fire were superior, it would be able to keep
+the latter to a safe distance, or compel B to manoeuvre into a superior
+position, which would entail a certain loss of time.
+
+An astern firing gun would be valuable to B in another sense. Directly
+it had passed A or brought the latter within the zone of its astern gun
+it could maintain its fire at the most advantageous range, because owing
+to its speed it would be able to dictate the distance over which shots
+should be exchanged and if mounted with a superior weapon would be able
+to keep beyond the range of A's guns while at the same time it would
+keep A within range of its own gun and consequently rake the latter. In
+the interests of self-preservation A would be compelled to change
+its course; in fact, B would be able to drive it in any direction he
+desired, as he would command A's movements by gun-fire.
+
+The value of combined ahead and astern firing has been appreciated, but
+there is one difficulty which at the moment appears to be insuperable
+the clearance of the propeller. At the moment astern-firing, if such it
+may be called, is maintained by repeating rifles, but this armament
+is not to be compared with machine-gun firing, as the latter with
+its capacity to pour 400 to 600 shots a minute, is far more deadly,
+particularly when the weapon is manipulated by a crack gunner.
+
+Up to the present the offensive armament of aeroplanes has been confined
+to light machine guns such as the Hotchkiss, Berthier, Schwartlose,
+and Maxim weapons. So far as the arming of aeroplanes is concerned the
+indispensable condition is light weight. With airships this factor is
+not so vital, the result being that some dirigibles are mounted with
+guns, throwing one pound bursting shells, fitted either with delay
+action or percussion fuses, the former for preference. These shells are
+given a wide cone of dispersion. Experiments are also being made with a
+gun similar to the pom-pom which proved so useful in South Africa, the
+gun throwing small shells varying from four to eight ounces in weight at
+high velocity and in rapid succession. While such missiles would not be
+likely to inflict appreciable damage upon an armoured aeroplane, they
+would nevertheless be disconcerting to the aviators subjected to
+such fire, and in aerial combats the successful undermining of the
+adversary's moral is of far greater importance than in land operations,
+since immediately ascendancy in the artillery operations is attained the
+final issue is a matter of moments.
+
+But the most devastating arm which has yet been contrived for aerial
+operations is the light machine gun which has recently been perfected.
+The one objective with this weapon is to disable the hostile aircraft's
+machinery. It fires an armour piercing projectile which, striking the
+motor of any aircraft, would instantly put the latter out of action. The
+shell has a diameter of about.75 inch and weighs about four ounces. The
+gun is a hybrid of the mitrailleuse and the French "Soixante-quinze,"
+combining the firing rapidity of the former with the recoil mechanism
+of the latter. This missile has established its ability to penetrate
+the defensive armouring of any aeroplane and the motor of the machine
+at 1,000 yards' range. This offensive arm is now being manufactured, so
+that it is likely to be seen in the near future as the main armament of
+aeroplanes.
+
+At the moment widespread efforts are being made in the direction of
+increasing the offensive efficiency of aircraft. It is one of the phases
+of ingenuity which has been stimulated into activity as a result of the
+war.
+
+
+
+CHAPTER XII. BATTLES IN THE AIR
+
+Ever since the days of Jules Verne no theme has proved so popular in
+fiction as fighting in the air. It was a subject which lent itself to
+vivid imagination and spirited picturesque portrayal. Discussion might
+be provoked, but it inevitably proved abortive, inasmuch as there was a
+complete absence of data based upon actual experience. The novelist
+was without any theory: he avowedly depended upon the brilliance of his
+imagination. The critic could only theorise, and no matter how dogmatic
+his reasonings, they were certainly as unconvincing as those of the
+object of his attack.
+
+But truth has proved stranger than fiction. The imaginative pictures
+of the novelist have not only been fulfilled but surpassed, while the
+theorising critic has been utterly confounded. Fighting in the air has
+become so inseparable from the military operations of to-day that it
+occurs with startling frequency. A contest between hostile aeroplanes,
+hundreds of feet above the earth, is no longer regarded as a dramatic,
+thrilling spectacle: it has become as matter-of-fact as a bayonet melee
+between opposed forces of infantry.
+
+A duel in the clouds differs from any other form of encounter. It is
+fought mercilessly: there can be no question of quarter or surrender.
+The white flag is no protection, for the simple reason that science and
+mechanical ingenuity have failed, so far, to devise a means of taking
+an aeroplane in tow. The victor has no possible method of forcing the
+vanquished to the ground in his own territory except driving. If such a
+move be made there is the risk that the latter will take the advantage
+of a critical opportunity to effect his escape, or to turn the tables.
+For these reasons the fight is fought to a conclusive finish.
+
+To aspire to success in these combats waged in the trackless blue,
+speed, initiative, and daring are essential. Success falls to the swift
+in every instance. An aeroplane travelling at a high speed, and pursuing
+an undulating or irregular trajectory is almost impossible to hit from
+the ground, as sighting is so extremely difficult. Sighting from another
+machine, which likewise is travelling rapidly, and pursuing an irregular
+path, is far more so. Unless the attacker can approach relatively
+closely to his enemy the possibility of hitting him is extremely remote.
+Rifle or gun-fire must be absolutely point blank.
+
+When a marauding aeroplane is espied the attacking corsair immediately
+struggles for the strategical position, which is above his adversary. To
+fire upwards from one aeroplane at another is virtually impossible,
+at least with any degree of accuracy. The marksman is at a hopeless
+disadvantage. If the pilot be unaccompanied and entirely dependent upon
+his own resources he cannot hope to fire vertically above him, for
+the simple reason that in so doing he must relinquish control of his
+machine. A rifle cannot possibly be sighted under such conditions,
+inasmuch as it demands that the rifleman shall lean back so as to obtain
+control of his weapon and to bring it to bear upon his objective. Even
+if a long range Mauser or other automatic pistol of the latest type be
+employed, two hands are necessary for firing purposes, more particularly
+as, under such conditions, the machine, if not kept under control, is
+apt to lurch and pitch disconcertingly.
+
+Even a colleague carried for the express purpose of aggression is
+handicapped. If he has a machinegun, such as a Maxim or a mitrailleuse,
+it is almost out of the question to train it vertically. Its useful
+vertical training arc is probably limited to about 80 degrees, and
+at this elevation the gunner has to assume an extremely uncomfortable
+position, especially upon an aeroplane, where, under the best of
+circumstances, he is somewhat cramped.
+
+On the other hand the man in the aeroplane above holds the dominating
+position. He is immediately above his adversary and firing may be
+carried out with facility. The conditions are wholly in his favour.
+Sighting and firing downwards, even if absolutely vertically, imposes
+the minimum physical effort, with the result that the marksman is able
+to bring a steadier aim upon his adversary. Even if the machine be
+carrying only the pilot, the latter is able to fire upon his enemy
+without necessarily releasing control of his motor, even for a moment.
+
+If he is a skilled sharpshooter, and the exigencies demand, he can
+level, sight, and fire his weapon with one hand, while under such
+circumstances an automatic self-loading pistol can be trained upon the
+objective with the greatest ease. If the warplane be carrying a second
+person, acting as a gunner, the latter can maintain an effective rifle
+fusillade, and, at the same time, manipulate his machine-gun with no
+great effort, maintaining rifle fire until the pilot, by manoeuvring,
+can enable the mitrailleuse or Maxim to be used to the greatest
+advantage.
+
+Hence the wonderful display of tactical operations when two hostile
+aeroplanes sight one another. The hunted at first endeavours to learn
+the turn of speed which his antagonist commands. If the latter is
+inferior, the pursued can either profit from his advantage and race away
+to safety, or at once begin to manoeuvre for position. If he is made of
+stern stuff, he attempts the latter feat without delay. The pursuer, if
+he realises that he is out classed in pace, divines that his quarry will
+start climbing if he intends to show fight, so he begins to climb also.
+
+Now success in this tactical move will accrue to the machine which
+possesses the finest climbing powers, and here again, of course,
+speed is certain to count. But, on the other hand, the prowess of the
+aviator--the human element once more--must not be ignored. The war has
+demonstrated very convincingly that the personal quality of the aviator
+often becomes the decisive factor.
+
+A spirited contest in the air is one of the grimmest and most thrilling
+spectacles possible to conceive, and it displays the skill of the
+aviator in a striking manner. Daring sweeps, startling wheels,
+breathless vol-planes, and remarkable climbs are carried out. One
+wonders how the machine can possibly withstand the racking strains to
+which it is subjected. The average aeroplane demands space in which
+to describe a turn, and the wheel has to be manipulated carefully and
+dexterously, an operation requiring considerable judgment on the part of
+the helmsman.
+
+But in an aerial duel discretion is flung to the winds. The pilot
+jambs his helm over in his keen struggle to gain the superior position,
+causing the machine to groan and almost to heel over. The stem stresses
+of war have served to reveal the perfection of the modern aeroplane
+together with the remarkable strength of its construction. In one or two
+instances, when a victor has come to earth, subsequent examination has
+revealed the enormous strains to which the aeroplane has been subjected.
+The machine has been distorted; wires have been broken--wires which have
+succumbed to the enormous stresses which have been imposed and have
+not been snapped by rifle fire. One well-known British airman, who was
+formerly a daring automobilist, confided to me that a fight in the
+air "is the finest reliability trial for an aeroplane that was ever
+devised!"
+
+In these desperate struggles for aerial supremacy the one party
+endeavours to bring his opponent well within the point-blank range of
+his armament: the other on his part strives just as valiantly to keep
+well out of reach. The latter knows fully well that his opponent is at
+a serious disadvantage when beyond point-blank range, for the simple
+reason that in sighting the rifle or automatic pistol, it is difficult,
+if not impossible while aloft, to judge distances accurately, and to
+make the correct allowances for windage.
+
+If, however, the dominating aviator is armed with a machine gun he
+occupies the superior position, because he can pour a steady hail of
+lead upon his enemy. The employment of such a weapon when the contest is
+being waged over friendly territory has many drawbacks. Damage is likely
+to be inflicted among innocent observers on the earth below; the airman
+is likely to bombard his friends. For this very reason promiscuous
+firing, in the hope of a lucky shot finding a billet in the hostile
+machine, is not practised. Both parties appear to reserve their fire
+until they have drawn within what may be described as fighting distance,
+otherwise point blank range, which may be anything up to 300 yards.
+
+Some of the battles between the German and the French or British
+aeroplanes have been waged with a total disregard of the consequences.
+Both realise that one or the other must perish, and each is equally
+determined to triumph. It is doubtful whether the animosity between the
+opposing forces is manifested anywhere so acutely as in the air. In some
+instances the combat has commenced at 300 feet or so above the
+earth, and has been fought so desperately, the machines climbing and
+endeavouring to outmanoeuvre each other, that an altitude of over 5,000
+feet has been attained before they have come to close grips.
+
+The French aviator is nimble, and impetuous: the German aviator is
+daring, but slow in thought: the British airman is a master of strategy,
+quick in thought, and prepared to risk anything to achieve his end. The
+German airman is sent aloft to reconnoitre the enemy and to communicate
+his information to his headquarters. That is his assigned duty and he
+performs it mechanically, declining to fight, as the welfare of his
+colleagues below is considered to be of more vital importance than his
+personal superiority in an aerial contest. But if he is cornered he
+fights with a terrible and fatalistic desperation.
+
+The bravery of the German airmen is appreciated by the Allies. The
+French flying-man, with his traditional love for individual combat,
+seeks and keenly enjoys a duel. The British airman regards such a
+contest as a mere incident in the round of duty, but willingly accepts
+the challenge when it is offered. It is this manifestation of what may
+be described as acquiescence in any development that enabled the British
+flying corps, although numerically inferior, to gain its mastery of the
+air so unostentatiously and yet so completely.
+
+All things considered an aeroplane duel is regarded as a fairly equal
+combat. But what of a duel between an aeroplane and a dirigible? Which
+holds the advantage? This question has not been settled, at any rate
+conclusively, but it is generally conceded that up to a certain point
+the dirigible is superior. It certainly offers a huge and attractive
+target, but rifle fire at its prominent gas-bag is not going to cause
+much havoc. The punctures of the envelope may represent so many
+vents through which the gas within may effect a gradual escape, but
+considerable time must elapse before the effect of such a bombardment
+becomes pronounced in its result, unless the gas-bag is absolutely
+riddled with machine gun-fire, when descent must be accelerated.
+
+On the other hand, it is to be presumed that the dirigible is armed.
+In this event it has a distinct advantage. It has a steady gun-platform
+enabling the weapons of offence to be trained more easily and an
+enhanced accuracy of fire to be obtained. In order to achieve success
+it is practically imperative that an aeroplane should obtain a position
+above the dirigible, but the latter can ascend in a much shorter space
+of time, because its ascent is vertical, whereas the aeroplane
+must describe a spiral in climbing. Under these circumstances it is
+relatively easy for the airship to outmanoeuvre the aeroplane in the
+vertical plane, and to hold the dominating position.
+
+But even should the aeroplane obtain the upper position it is not
+regarded with fear. Some of the latest Zeppelins have a machine gun
+mounted upon the upper surface of the envelope, which can be trained
+through 360 degrees and elevated to about 80 degrees vertical. Owing to
+the steady gun platform offered it holds command in gun-fire, so that
+the aeroplane, unless the aviator is exceptionally daring, will not
+venture within the range of the dirigible. It is stated, however, that
+this upper gun has proved unsatisfactory, owing to the stresses and
+strains imposed upon the framework of the envelope of the Zeppelin
+during firing, and it has apparently been abandoned. The position,
+however, is still available for a sniper or sharpshooter.
+
+The position in the sky between two such combatants is closely analogous
+to that of a torpedo boat and a Dreadnought. The latter, so long as it
+can keep the former at arm's, or rather gun's, distance is perfectly
+safe. The torpedo boat can only aspire to harass its enemy by buzzing
+around, hoping that a lucky opportunity will develop to enable it to
+rush in and to launch its torpedo. It is the same with the aeroplane
+when arrayed against a Zeppelin. It is the mosquito craft of the air.
+
+How then can a heavier-than-air machine triumph over the unwieldy
+lighter-than-air antagonist? Two solutions are available. If it can
+get above the dirigible the adroplane may bring about the dirigible's
+destruction by the successful launch of a bomb. The detonation of the
+latter would fire the hydrogen within the gas-bag or bags, in which
+event the airship would fall to earth a tangled wreck. Even if the
+airship were inflated with a non-inflammable gas--the Germans claim
+that their Zeppelins now are so inflated--the damage wrought by the bomb
+would be so severe as to destroy the airship's buoyancy, and it would be
+forced to the ground.
+
+The alternative is very much more desperate. It involves ramming the
+dirigible. This is undoubtedly possible owing to the speed and facile
+control of the aeroplane, but whether the operation would be successful
+remains to be proved. The aeroplane would be faced with such a
+concentrated hostile fire as to menace its own existence--its forward
+rush would be frustrated by the dirigible just as a naval vessel parries
+the ramming tactics of an enemy by sinking the latter before she reaches
+her target, while if it did crash into the hull of the dirigible,
+tearing it to shreds, firing its gas, or destroying its equilibrium,
+both protagonists would perish in the fatal dive to earth. For this
+reason ramming in mid-air is not likely to be essayed except when the
+situation is desperate.
+
+What happens when two aeroplanes meet in dire combat in mid-air and one
+is vanquished? Does the unfortunate vessel drop to earth like a stone,
+or does it descend steadily and reach the ground uninjured? So far as
+actual experience has proved, either one of the foregoing contingencies
+may happen. In one such duel the German aeroplane was observed to start
+suddenly upon a vol-plane to the ground. Its descending flight carried
+it beyond the lines of the Allies into the territory of its friends.
+Both came to the conclusion that the aviator had effected his escape.
+But subsequent investigation revealed the fact that a lucky bullet
+from the Allies' aeroplane had lodged in the brain of the German pilot,
+killing him instantly. At the moment when Death over took him the
+aviator had set his plane for the descent to the ground, and the machine
+came to earth in the manner of a glider.
+
+But in other instances the descent has been far more tragic. The
+aeroplane, deprived of its motive power, has taken the deadly headlong
+dive to earth. It has struck the ground with terrific violence, burying
+its nose in the soil, showing incidentally that a flying machine is an
+indifferent plough, and has shattered itself, the debris soaked with
+the escaping fuel becoming ignited. In any event, after such a fall the
+machine is certain to be a wreck. The motor may escape damage, in
+which event it is salvaged, the machine subsequently being purposely
+sacrificed to the flames, thereby rendering it no longer available
+to the enemy even if captured. In many instances the hostile fire has
+smashed some of the stays and wires, causing the aeroplane to lose its
+equilibrium, and sending it to earth in the manner of the proverbial
+stone, the aviators either being dashed to pieces or burned to death.
+
+What are the vulnerable parts of the aeroplane? While the deliberate
+intention of either combatant is to put his antagonist hors de combat,
+the disablement of the machine may be achieved without necessarily
+killing or even seriously wounding the hostile airman. The prevailing
+type of aeroplane is highly susceptible to derangement: it is like a
+ship without armour plate protection. The objective of the antagonist is
+the motor or the fuel-tank, the vital parts of the machine, as much as
+the aviator seated within.
+
+A well-planted shot, which upsets the mechanism of the engine, or a
+missile which perforates the fuel tank, thereby depriving the motor of
+its sustenance, will ensure victory as conclusively as the death of the
+aviator himself. Rifle fire can achieve either of these ends with little
+difficulty. Apart from these two nerve-centres, bombardment is not
+likely to effect the desired disablement, inasmuch as it cannot be
+rendered completely effective. The wings may be riddled like a sieve,
+but the equilibrium of the machine is not seriously imperilled thereby.
+Even many of the stays may be shot away, but bearing in mind the slender
+objective they offer, their destruction is likely to be due more to
+luck than judgment. On the other hand, the motor and fuel tank of the
+conventional machine offer attractive targets: both may be put out of
+action readily, and the disablement of the motive power of an enemy's
+craft, be it torpedo-boat, battleship, or aeroplane, immediately places
+the same at the assailant's mercy.
+
+Nevertheless, of course, the disablement of the airman brings about
+the desired end very effectively. It deprives the driving force of its
+controlling hand; The aeroplane becomes like a ship without a rudder: a
+vessel whose helmsman has been shot down. It is unmanageable, and likely
+to become the sport of the element in which it moves. It is for this
+reason that aviators have been urged to direct their fire upon the men
+and mechanism of a dirigible in the effort to put it out of action.
+An uncontrolled airship is more likely to meet with its doom than an
+aeroplane. The latter will inevitably glide to earth, possibly damaging
+itself seriously in the process, as events in the war have demonstrated,
+but a helpless airship at once becomes the sport of the wind, and anyone
+who has assisted, like myself, in the descent of a vessel charged with
+gas and floating in the air, can appreciate the difficulties experienced
+in landing. An uncontrolled Zeppelin, for instance, would inevitably
+pile up in a tangled twisted ruin if forced to descend in the manner of
+an ordinary balloon. Consequently the pilot of a dirigible realises to
+the full the imperative urgency of keeping beyond the point-blank fire
+of aerial mosquito craft.
+
+The assiduity with which British aviators are prepared to swarm to the
+attack has been responsible for a display of commendable ingenuity
+on the part of the German airman. Nature has provided some of its
+creatures, such as the octopus, for instance, with the ways and means
+of baffling its pursuers. It emits dense clouds of inky fluid when
+disturbed, and is able to effect its escape under cover of this screen.
+
+The German aviator has emulated the octopus. He carries not only
+explosive bombs but smoke balls as well. When he is pursued and he finds
+himself in danger of being overtaken, the Teuton aviator ignites these
+missiles and throws them overboard. The aeroplane becomes enveloped in
+a cloud of thick impenetrable smoke. It is useless to fire haphazard
+at the cloud, inasmuch as it does not necessarily cover the aviator. He
+probably has dashed out of the cloud in such a way as to put the screen
+between himself and his pursuer.
+
+In such tactics he has merely profited by a method which is practised
+freely upon the water. The torpedo boat flotilla when in danger of being
+overwhelmed by superior forces will throw off copious clouds of smoke.
+Under this cover it is able to steal away, trusting to the speed of the
+craft to carry them well beyond gunshot. The "smoke screen," as it is
+called, is an accepted and extensively practised ruse in naval strategy,
+and is now adopted by its mosquito colleagues of the air.
+
+
+
+CHAPTER XIII. TRICKS AND RUSES TO BAFFLE THE AIRMAN
+
+The airman has not been allowed to hold his undisputed sway in military
+operations for long. Desperate situations demand drastic remedies and
+already considerable and illuminating ingenuity is being displayed to
+baffle and mislead the scout of the skies.
+
+It is a somewhat curious and noteworthy fact, that the Germans were
+among the first to realise the scope of the airman's activities, and the
+significance of their relation to the conveyance of intimate information
+and the direction of artillery fire. Consequently, they now spare no
+effort to convey illusory information, in the hope that the hostile
+force may ultimately make a false move which may culminate in disaster.
+
+Thus, for instance, as much endeavour is bestowed upon the fashioning of
+dummy trenches as upon the preparation of the actual lines of defence.
+And every care will be taken to indicate that the former are strongly
+held. The dug-outs are complete and at places are apparently cunningly
+masked. If the airman is flying swiftly, he is likely to fail to
+distinguish the dummy from the real trenches. To him the defences appear
+to be far more elaborate and more strongly held than is the actual case.
+
+The advantage of this delusion is obvious when a retreat is being made.
+It enables the enemy to withdraw his forces deliberately and in perfect
+order, and to assume another and stronger position comparatively at
+leisure. The difficulty of detecting the dummies is emphasised, inasmuch
+as now, whenever the sound of an aeroplane is heard, or a glimpse
+thereof is obtained, the men keep well down and out of sight. Not a sign
+of movement is observable. For all the airman may know to the contrary,
+the trenches may be completely empty, whereas, as a matter of fact,
+they are throbbing with alert infantry, anxious for a struggle with the
+enemy.
+
+This is one instance where the dirigible is superior to the aeroplane.
+The latter can only keep circling round and round over the suspicious
+position; the movement through the air interferes with close continuous
+observation. On the other hand, the dirigible can maintain a stationary
+position aloft for hours on end. Then the issue is resolved into a
+contest of patience, with the advantage to the airman. The soldiers in
+the trenches fret and fume under cover; confined concealment is irksome
+and is a supreme test of the nerves. Unless the soldiers are made of
+very stern stuff, physical endurance succumbs. Some rash act--apparently
+very trivial--may be committed; it suffices for the vigilant
+sentinel overhead. He detects the slender sign of life, forms his own
+conclusions, and returns to his headquarters with the intelligence that
+the enemy is playing "Brer Rabbit."
+
+It has also become increasingly difficult for the airman to gather
+absolutely trustworthy data concerning the disposition and movement of
+troops. Small columns are now strung out along the highways to convey
+the impression that the moving troops are in far greater force than is
+actually the case, while the main body is under the cover offered by
+a friendly wood and is safe from detection. The rapidity with which
+thousands of men are able to disappear when the word "Airman" is passed
+round is astonishing. They vanish as completely and suddenly as
+if swallowed by the earth or dissolved into thin air. They conceal
+themselves under bushes, in ditches, lie prone under hedgerows, dart into
+houses and outbuildings--in short, take every cover which is available,
+no matter how slender it may seem, with baffling alacrity. The
+attenuated column, however, is kept moving along the highway for the
+express purpose of deceiving the airman.
+
+Advancing troops also are now urged to move forward under the shelter
+of trees, even if the task entails marching in single or double file, to
+escape the prying eyes of the man above. By keeping close to the line
+of trunks, thus taking full advantage of the overhanging branches, and
+marching in such a manner as to create little dust, it is possible to
+escape the aerial scout.
+
+The concealment of cavalry, however, is somewhat difficult. An animal,
+especially if he be unaccustomed to the noise of the aeroplane,
+is likely to become startled, and to give vent to a frightened and
+vociferous neighing which invariably provokes a hearty response from
+his equine comrades. The sharp ear of the airman does not fail to
+distinguish this sound above the music of his motor. Again, he has come
+to regard all copses and stretches of undergrowth with suspicion. Such
+may or may not harbour the enemy, but there is no risk in making an
+investigation. He swoops down, and when a short distance above the
+apparently innocent copse, circles round it two or three times. Still
+undecided, he finally hurls a bomb. Its detonation invariably proves
+effective. The horses stampede and the secret is out. Even foot
+soldiers must be severely trained and experienced to resist the natural
+inclination to break cover when such a missile is hurled into their
+midst.
+
+Frequently a force, which has laboured under the impression that it is
+safe from detection, has revealed its presence unwittingly and upon the
+spur of the moment. If the men be steeled against the bomb attack, it
+is almost impossible to resist the inclination to take a shot when the
+airman, swooping down, ventures so temptingly near as to render him
+an enticing target almost impossible to miss. As a rule, however, the
+observer is on the alert for such a betrayal of a force's existence.
+When the bomb fails to scatter the enemy, or the men are proof against
+the temptation to fire a volley, a few rounds from the aeroplane's
+machine gun often proves effective. If the copse indeed be empty no harm
+is done, beyond the abortive expenditure of a few rounds of ammunition:
+if it be occupied, the fruits of the manoeuvre are attractive. Cunning
+is matched against cunning, and the struggle for supremacy in the art of
+craftiness is keen.
+
+The French Flying Corps have had recourse to an ingenious ruse for
+accomplishing two ends--the one to draw concealed artillery fire, and
+the other to pre-occupy the airmen. Two German aerial scouts observed a
+French machine flying at a somewhat venturesome height over their masked
+artillery. Divining the reason for the hostile intrepidity they
+gave chase. Circling round the French machine they assailed it with
+machine-gun fire. The enemy appeared to take no notice but continued his
+gradual descent in a steady line.
+
+Presently the German airmen, having drawn sufficiently near, observed
+that the French aviator was inert. Had he been killed? Everything
+pointed to such a conclusion, especially as they had raked the aeroplane
+fore and aft with bullets. But still suspicious they continued their
+circling movements, their attention so concentrated upon their quarry
+that they had not observed another move. It was the crash of guns from
+their masked artillery which broke in upon their absorption. Looking
+round, they observed three French aeroplanes soaring around and above
+them at high speed. Scarcely had they realised the situation before
+a spirited mitraireuse fire was rained upon them. One of the German
+aeroplanes was speedily disabled. Its fuel tank was riddled and it sank
+rapidly, finally crashing to earth in the deadly dive head foremost,
+and killing both its occupants in the fall. The second aeroplane hurried
+away with its pilot wounded. In the excitement of the aerial melee the
+first French aeroplane had been forgotten. It was now scarcely 100 feet
+above the German artillery. A capture appeared to be imminent, but the
+Germans received a rude surprise. Suddenly the aeroplane exploded and a
+hail of shrapnel burst over the heads of the artillerymen.
+
+The circumstance was decidedly uncanny, but after two or three such
+experiences of exploding aeroplanes the matter was explained. The
+apparently helpless aeroplane was merely a glider, which, instead of
+carrying a man, had a booby-trap aboard.
+
+It appears that the French airmen have found a use for the aeroplanes
+which are considered unsafe for further use. The motor and propeller are
+removed and the dummy of explosives is strapped into position. The
+laden glider is then taken aloft by means of an airship, and in the
+concealment of the clouds is released, the rudder being so set as to
+ensure a gradual vol-plane towards the suspicious position below. The
+explosive cargo is set with a time fuse, the arrangement being that the
+contents will be detonated while the machine is near the ground, unless
+this end is accelerated by a well-planted shell from an anti-aircraft
+gun. The decoy glider is generally accompanied by one or two aeroplanes
+under control, which keep under the cover of the clouds until the
+hostile aviators have been drawn into the air, when they swoop down
+to the attack. The raiders are fully aware that they are not likely to
+become the target of fire from the ground, owing to the fact that the
+enemy's artillery might hit its friends. Consequently the antagonistic
+airmen are left to settle their own account. In the meantime the
+dummy machine draws nearer to the ground to explode and to scatter its
+death-dealing fragments of steel, iron, and bullets in all directions.
+
+Possibly in no other phase of warfare is subterfuge practised so
+extensively as in the concealment of guns. The branches of trees
+constitute the most complete protection and guns are placed in position
+beneath a liberal cover of this character. The branches also offer a
+screen for the artillerymen, who can lurk beneath this shelter until the
+aeroplane has passed. To complete the illusion dummy guns fashioned
+from tree trunks and the wheels of useless limbers are rigged up, and
+partially hidden under branches, the idea being to convey the impression
+to the man aloft that they are the actual artillery.
+
+The aerial scout observes the dummies beneath the sparse covering of
+branches. Congratulating himself upon his sharp eyesight, he returns
+to his base with the intelligence that he has found the enemy's guns
+he indicates their position upon the map, and in some cases returns to
+notify the position of the weapons by smoke-ball or tinsel, when they
+are immediately subjected to a severe bombardment. He follows the
+shell-fire and sees the arms put out of action. He returns to camp
+satisfied with his exploit, oblivious of the smiles and laughter of the
+hostile artillerymen, who have their guns safely in position and
+well masked some distance away. The dummies are imperfectly concealed
+purposely, so that they may be discovered by the aerial scout, while the
+real guns are completely masked and ready to belch forth from another
+point. In one or two cases the dummies have been rigged up in such a
+manner as to convey the impression, when seen from aloft, that a whole
+battery has been put out of action, barrels and wheels as well as broken
+limbers strewing the ground in all directions.
+
+Moving masses of soldiers are also resorting to cunning in order to
+mislead the airman or to escape his observation. At the battle of
+Haelen, during which engagement the German warplanes were exceptionally
+active, the Belgian soldiers covered their heads with bundles of wheat
+snatched from the standing stooks, and under this cover lurked in a
+field where the corn was still standing. From aloft their forms defied
+detection: the improvised headgear completely covered them and blended
+effectively with the surrounding wheat. In another instance the French
+misled a German airman somewhat effectively. What appeared to be
+cavalry was seen to be retreating along the country road, and the airman
+returned hurriedly to report. A German squadron was dispatched in hasty
+pursuit. But as it rounded a copse skirting the road it received a
+murderous fire at close quarters, which decimated the ranks and sent the
+survivors flying for their lives along the road up which they had ridden
+so confidently. Had the aviator been in a position to observe the horses
+more closely, he would have found that what appeared to be riders on
+their backs were in reality sacks stuffed with straw, dressed in old
+uniforms, and that a mere handful of men were driving the animals
+forward. The cavalrymen had purposely dismounted and secreted themselves
+in the wood in anticipation of such a pursuit as was made.
+
+While the Germans do not appear to be so enterprising in this form
+of ingenuity they have not been idle. A French airman flying over the
+Teuton lines observed the outermost trenches to be alive with men whose
+helmets were distinctly visible. The airman reported his observations
+and the trench was subjected to terrific shell fire. Subsequently
+the French made a spirited charge, but to their dismay found that the
+outermost German trench was occupied by dummies fashioned from all sorts
+of materials and crowned with helmets! This ruse had enabled the German
+lines to be withdrawn to another position in safety and comparatively at
+leisure.
+
+Before war was declared the German military experts were emphasising
+the importance of trees for masking troops and guns against aerial
+observation. One of the foremost authorities upon military aviation
+only a few months ago urged the German Military Staff to encourage the
+planting of orchards, not for the purpose of benefiting agriculture or
+in the interests of the farmers, but merely for military exigencies.
+
+He pointed to the extensive orchards which exist in Alsace-Lorraine
+and Baden, the military covering value of which he had determined from
+personal experience, having conducted aerial operations while military
+were moving to and fro under the cover of the trees. He declared that
+the cover was efficient and that under the circumstances the laying
+out of extensive orchards in strategical places should be carried out
+without any delay. This, he urged, was a national and not a private
+obligation. He advocated the bestowal of subsidies on the farmers to
+encourage the planting of fruit trees. He suggested that the trees
+should be provided by the State, and given to all who were prepared to
+plant them; that substantial prizes should be awarded to encourage the
+rapid growth thereof, and that annual prizes should be awarded to the
+man who would undertake their cultivation and pruning, not from the
+fruit-yielding point of view, but for facilitating the movement of
+troops beneath their dense branches.
+
+He even urged the military acquisition of suitable land and its
+determined, skilful, and discreet exploitation by those who loved the
+Fatherland. He emphasised the necessity for keeping such orchards
+under military control, only vouchsafing sufficient powers to the local
+authorities to ensure the desired consummation. He maintained that, if
+the work were prosecuted upon the right lines and sufficient financial
+assistance were given, the purpose in view could be achieved without
+saddling the war department with any unremunerative or excessive burden.
+He admitted that the process of raising fruit trees to the stage
+when they would afford adequate cover would be tedious and somewhat
+prolonged, but argued that the military advantages, such as enabling
+troops to move below the welcome shelter with absolute freedom and
+without physical fatigue, would be an ample compensation.
+
+The utility of such cover to artillery was another factor he did not
+fail to emphasise. He dwelt seriously upon the difficulty of rendering
+permanent gun emplacements and heavy artillery invisible to the airman
+by resort to the usual type of gun shields. The latter may be located
+with ease by alert airmen, whereas if the guns were under cover of fruit
+trees they would be able to accomplish their deadly mission without
+betraying their presence to the aerial scout. Moreover, by pruning the
+trees in such a manner as to ensure free movement beneath, the artillery
+would be able to advance without betraying the fact to the enemy.
+
+This authority vigorously insisted that the work should be carried out
+without a moment's delay as it was vital to the Fatherland. In the
+light of recent events, and the excellent cover which is offered by the
+orchards of the territory he cited as an illustration of his contention,
+such a disclosure is pregnant with meaning. It throws a new light upon
+the thorough methods with which the Germans carried out their military
+preparations, and incidentally shows that they were fully alive to
+every possible development. Fruit-raising as a complement to military
+operations may be a new line of discussion, but it serves to reveal the
+German in his true light, ready for every contingency, and shows how
+thoroughly he appreciates the danger from the man in the clouds.
+
+
+
+CHAPTER XIV. ANTI-AIRCRAFT GUNS. MOBILE WEAPONS.
+
+When the airship and the aeroplane became accepted units of warfare it
+was only natural that efforts should be concentrated upon the evolution
+of ways and means to compass their destruction or, at least, to restrict
+their field of activity. But aircraft appeared to have an immense
+advantage in combat. They possess virtually unlimited space in which to
+manoeuvre, and are able to select the elevation from which to hurl their
+missiles of destruction.
+
+There is another and even more important factor in their favour. A
+projectile fired, or even dropped, from a height, say of 5,000 feet,
+is favourably affected by the force of gravity, with the result that
+it travels towards the earth with accumulating energy and strikes the
+ground with decisive force.
+
+On the other hand, a missile discharged into space from a weapon on the
+earth has to combat this action of gravity, which exercises a powerful
+nullifying influence upon its flight and velocity, far in excess of
+the mere resistance offered by the air. In other words, whereas the
+projectile launched from aloft has the downward pull of the earth or
+gravitational force in its favour, the shell fired from the ground in
+the reverse direction has to contend against this downward pull and its
+decelerating effect.
+
+At the time when aircraft entered the realms of warfare very little
+was known concerning the altitudes to which projectiles could be
+hurled deliberately. Certain conclusive information upon this point was
+available in connection with heavy howitzer fire, based on calculations
+of the respective angles at which the projectile rose into the air and
+fell to the ground, and of the time the missile took to complete its
+flight from the gun to the objective. But howitzer fire against aircraft
+was a sheer impossibility: it was like using a six-inch gun to kill a
+fly on a window pane at a thousand yards' range. Some years ago
+certain experiments in aerial firing with a rifle were undertaken
+in Switzerland. The weapon was set vertically muzzle upwards and
+discharged. From the time which elapsed between the issue of the bullet
+from the muzzle until it struck the earth it was possible to make
+certain deductions, from which it was estimated that the bullet reached
+an altitude of 600 feet or so. But this was merely conjecture.
+
+Consequently when artillerists entered upon the study of fighting
+air-craft with small arms and light guns, they were compelled to
+struggle in the dark to a very pronounced extent, and this darkness was
+never satisfactorily dispelled until the present war, for the simple
+reason that there were no means of getting conclusive information. The
+German armament manufacturers endeavoured to solve the problem by using
+smoking shells or missiles fitted with what are known as tracers. By
+following the ascensional path of the projectiles as revealed by the
+smoke it was possible to draw certain conclusions. But these were by no
+means convincing or illuminating, as so many factors affected the issue.
+
+Despite the peculiar and complex difficulties associated with the
+problem it was attacked some what boldly. In this trying field of
+artillery research the prominent German armament manufacturers, Krupp
+of Essen and Ehrhardt of Dusseldorf, played a leading part, the result
+being that before the airship or the aeroplane was received within the
+military fold, the anti-aircraft gun had been brought into the field
+of applied science. The sudden levelling-up serves to illustrate the
+enterprise of the Germans in this respect as well as their perspicacity
+in connection with the military value of aircraft.
+
+Any gun we can hope to employ against aircraft with some degree of
+success must fulfil special conditions, for it has to deal with a
+difficult and elusive foe. Both the lighter-than-air and the heavier
+than-air craft possess distinctive features and varying degrees of
+mobility. Taking the first-named, the facility with which it can vary
+its altitude is a disconcerting factor, and is perplexing to the most
+skilful gunner, inasmuch as he is called upon to judge and change the
+range suddenly.
+
+On the other hand, the artilleryman is favoured in certain directions.
+The range of utility of the airship is severely limited. If its avowed
+mission is reconnaissance and conclusive information concerning the
+disposition of forces, artillery and so forth is required, experience
+has proved that such work cannot be carried out satisfactorily or with
+any degree of accuracy at a height exceeding 5,000 feet, and a distance
+beyond six miles. But even under these circumstances the climatic
+conditions must be extremely favourable. If the elements are
+unpropitious the airship must venture nearer to its objective. These
+data were not difficult to collect, inasmuch as they were more or
+less available from the results of military observations with captive
+balloons, the conditions being somewhat similar. With the ordinary
+captive balloon it has been found that, in clear weather, a radius of
+about 3 3/4 miles at the maximum elevation constitutes its range of
+reliable utility.
+
+With the aeroplane, however, the conditions are very dissimilar. In the
+first place the machine owing to its diminutive size as compared with
+the airship, offers a small and inconspicuous target. Then there is
+its high independent speed, which is far beyond that of the airship.
+Furthermore its mobility is greater. It can wheel, turn sharply to the
+right or to the left, and pursue an irregular undulating flight in the
+horizontal plane, which renders it well nigh impossible for a gunner to
+pick it up. The machine moves at a higher relative speed than that at
+which the gun can be trained. It is the rapid and devious variation
+which so baffles the gunner, who unless he be highly skilled and
+patient, is apt to commence to fire wildly after striving for a few
+moments, and in vain, to pick up the range; he trusts to luck or depends
+upon blind-shooting, which invariably results in a waste of ammunition.
+
+A gun, to be of tangible destructive efficiency when directed against
+aircraft, especially those depending upon the gas-bag for equilibrium,
+must be of special design. It must be capable of firing at an angle only
+a few degrees less than the absolute vertical, and in order to follow
+the rapid and involved movements of its objective, must be so mobile
+that it can be trained through a complete circle at any angle of
+inclination less than its maximum. At the same time, if the weapon is
+being used in field operations it must be mounted upon a carriage of
+adequate mobility to enable it to follow the airship, and thereby keep
+pace with the latter, so that the aerial craft may be sorely harassed if
+not actually hit. The automobile is the obvious vehicle for this duty,
+and it has accordingly been extensively used in this service.
+
+The automobile and the gun mounted thereon follow widely different
+lines. Some vehicles are designed especially for this duty, while others
+are improvisations, and be it noted, in passing, that many of the latter
+have proved more serviceable than the former. Still, the first-named
+is to be preferred, inasmuch as necessarily it is designed to meet the
+all-round requirements imposed, and consequently is better able to
+stand up to the intended work, whereas the extemporised vehicle is only
+serviceable under favourable conditions.
+
+The Krupp Company has evolved many designs of anti-aircraft motor-driven
+guns--"Archibalds" the British airmen term them with emphatic levity.
+They are sturdily-built vehicles fitted with heavy motors, developing
+from 40 to 50 horse-power, with the chassis not widely dissimilar from
+that adopted for motor-omnibus traffic. Consequently, they are not
+necessarily condemned to the high-roads, but within certain limits
+are able to travel across country, i.e., upon fields or other level
+expanses, where the soil is not unduly soft.
+
+But the very character of the problem rendered the evolution of the
+vehicle a somewhat perplexing matter. There were many factors which had
+to be taken into consideration, and it was possible to meet the imposed
+requirements only within certain limits. In the first place, the weight
+of the gun itself had to be kept down. It was obviously useless to
+overload the chassis. Again, the weight of the projectile and its
+velocity had to be borne in mind. A high velocity was imperative.
+Accordingly, an initial velocity varying from 2,200 to 2,700 feet per
+second, according to the calibre of the gun, was determined.
+
+Moreover, as mobility was an indispensable condition, the gun had to be
+so mounted that it could be fired from the motor-car even if the
+latter were travelling at high speed. This requirement entailed another
+difficulty. The gun had to be mounted in such a manner as to enable the
+gunner to train it easily and readily through the complete circle and
+through its complete range of vertical inclination. As the result
+of prolonged experiments it was ascertained that the most suitable
+arrangement was a pedestal mounting, either within a turret or upon an
+open deck. To meet the weight of the gun, as well as the strains and
+stresses incidental to firing, the chassis was strengthened, especially
+over the rear axle near which the mounting is placed.
+
+The heaviest gun of this type is the 10.5 centimetre (4 1/4-inch)
+quick-firer, throwing a shell weighing nearly forty pounds, with an
+initial velocity of 2,333 feet per second. This "Archibald" is totally
+unprotected. The gun is mounted centrally upon the carriage over the
+rear axle, and occupies the centre of the deck between the driver's seat
+and that of the gun crew behind. The whole of the deck is clear, thereby
+offering no obstruction to the gunner in training the weapon, while the
+space may be widened by dropping down the wings of the vehicle. At the
+rear is a seat to accommodate the gun crew, beneath which the ammunition
+is stowed. When travelling and out of action, the gun lies horizontally,
+the muzzle pointing from the rear of the car.
+
+To reduce the strains arising from firing, the arm is fitted with
+what is known as the "differential recoil." Above the breach is an air
+recuperator and a piston, while there is no hydraulic brake such as is
+generally used. The compressor is kept under compression while the car
+is travelling with the gun out of action, so that the arm is available
+for instant firing. This is a departure from the general practice in
+connection with such weapons. When the gun is loaded the bolt which
+holds the compressor back is withdrawn, either by the hand for manual
+firing, or by the action of the automatic closing of the breech when the
+arm is being used as a quick-firer. In firing the gun is thrown forward
+under the pressure of the released air which occurs at the moment of
+discharge. The energy of the recoil brings the gun back and at the same
+time recharges the compressed air reservoir.
+
+The gun is so mounted upon its pedestal as to enable a maximum vertical
+inclination of 75 degrees to be obtained. The mounting system also
+enables the weapon to be trained in any desired direction up to the
+foregoing maximum elevation throughout a complete circle, and it can
+be handled with ease and celerity. A smaller "Archibald" is the 7.5
+centimetre (3-inch gun) throwing a 14.3 pound shell at an initial
+velocity of about 2,170 feet per second.
+
+The turret anti-aircraft gun carried upon a motor-car differs from the
+foregoing very considerably. This is a protected arm. The gun of 7.1
+centimetres--approximately 2.75 inches--is mounted in the same manner
+upon the car-deck and over the driving axle, but is enclosed within a
+sheet steel turret, which is proof against rifle and machine-gun
+fire. This turret resembles the conning-tower of a battleship, and is
+sufficiently spacious to house the whole of the gun crew, the internal
+diameter being about seven feet. Access to the turret is obtained
+through a rear door. This gun has a maximum elevation of about 75
+degrees, while its operation and mechanism are similar to those of the
+unprotected weapon.
+
+The vehicle itself is practically identical with the armoured motor-car,
+which has played such an important part during the present campaign, the
+driver being protected by a bullet-proof steel screen similar in design
+to the ordinary glass wind-screen fitted to touring automobiles. This is
+carried sufficiently high to offer complete protection to his head when
+seated at the wheel, while through a small orifice in this shield he is
+able to obtain a clear view of the road. The engine and its vital
+parts are also adequately protected. The ammunition is carried in a
+cupboard-like recess forming part of the driver's seat, encased in
+bullet-proof steel sheeting with flap-doors. This device enables the
+shells to be withdrawn readily from the side of the car and passed to
+the crew within the turret. The caisson is of sufficient dimensions to
+receive 69 shells.
+
+The Ehrhardt airship fighting ordnance is similarly adapted to motor-car
+operations, one type being especially powerful. The whole of the vehicle
+is encased in armour-plating impervious to rifle and machine-gun fire.
+The driver is provided with a small orifice through which he is able to
+obtain a clear uninterrupted view of the road ahead, while the armouring
+over the tonneau is carried to a sufficient height to allow head-room to
+the gun crew when standing at the gun. All four wheels are of the disk
+type and fashioned from heavy sheet steel. The motor develops 40-50
+horse-power and, in one type, in order to mitigate the risk of
+breakdown or disablement, all four wheels are driven. The gun, a small
+quick-firer, is mounted on a pedestal in a projecting conning-tower. The
+mounting is placed behind the driver's seat, and is trained and operated
+from the tonneau. The maximum elevation is 75 degrees, and like the
+gun carriage bearing the tube guide it can be moved through a complete
+circle, being free to rotate in the fixed pivot jack to enable this end
+to be attained.
+
+The foregoing may be said to represent the most powerful types of mobile
+anti-aircraft weapons used by the Austro-German forces to-day. Arms of
+similar design, roughly speaking, have also been introduced into the
+French and Russian services. In addition many semi-armoured weapons
+of this character are in operation, some specially built for the work,
+while others have been improvised. In the semi-armoured motor-car the
+carriage follows the usual lines; it has an open top, the armouring
+comprising the body of the tonneau and the diskwheels, which are made of
+light bullet-proof steel. Here again the prevailing practice is to mount
+the gun as nearly above the rear axle as possible, and to work it from
+the tonneau. The maximum elevation is also 75 degrees, with training
+throughout the entire circle.
+
+Another type comprises a very light machine gun of rifle calibre, and
+this is intended for attachment to an ordinary motor car. There is a
+pedestal mounting which can be set within the tonneau, while the weapon
+is pivoted in an outrigger, the latter being free to rotate in its pivot
+jack. This arrangement enables the arm to cover a wide range, while it
+also admits of training through an extensive angle of elevation.
+
+The Allied forces improvised travelling anti-aircraft offences by
+mounting the latest types of Vickers, Hotchkiss, and other machine guns
+in armoured motor cars. Some of these have the domed turret form, with
+the gun projecting through the roof, while others are protected against
+hostile attack from the side only, the carriage being panelled with
+bullet-proof steel sheeting. While such weapons are useful, inasmuch as
+they can maintain a hot fire ranging up to 750 shots per minute, they
+are not to be compared with the "Archibalds," which are able to throw
+heavy shrapnel and incendiary shells, and have a vertical range of about
+6,000 to 8,000 feet.
+
+The improvised motor-gun has not proved a complete success, except
+in those instances when the hostile aircraft has ventured to approach
+somewhat closely to the ground. The more formidable weapons cannot be
+mounted upon ordinary vehicles, inasmuch as the increase in weight,
+which is appreciable, impairs the efficiency of the vehicle, and at the
+same time enhances the possibility of breakdown at a critical moment.
+For such arms a special and substantial chassis is imperative, while the
+motive power and gearing must be adapted to the circumstances.
+
+Motor-mounted anti-aircraft weapons, however, have not proved an
+unqualified success. The fact that the vehicles are condemned to the
+high roads, or at least to comparatively smooth and level ground,
+constitutes a severe handicap. Again, when travelling at high speed, and
+this is essential when pursuing a fast aeroplane, the accurate laying
+of the weapon is extremely difficult, owing to the oscillation of the
+vehicle itself, especially if the road surface is in a bad condition.
+The sighting arrangements are of a wonderfully complete character, as
+described elsewhere, but the irregular rolling movement arising from
+high speed is a nullifying quantity. It is tolerably easy for the
+aircraft, especially an aeroplane, to evade successful pursuit, either
+by rising to an elevation beyond the range of the gun, or by carrying
+out baffling evolutions such as irregular undulating flight, wheeling,
+and climbing. According to the reports of the British and French airmen
+the "Archibald" has failed to establish the glowing reputation which was
+anticipated, for the simple reason that, unless it has a clear straight
+road and can maintain its high speed, it can easily be out-distanced by
+the fleet human bird.
+
+The motor-car suffers from another serious disability. It cannot
+manoeuvre with sufficient celerity. For instance, if it is necessary to
+turn round in a narrow lane, valuable time is lost in the process, and
+this the airman turns to account. In hilly country it is at a still
+greater disadvantage, the inclines, gradients, and sinuosities of the
+roads restricting its effectiveness very pronouncedly. It must also be
+remembered that, relatively speaking, the "Archibald" offers a better
+target to the airman than the aeroplane offers to the man behind the
+anti-aircraft gun on the motor below. A few well-placed bombs are
+sufficient to induce the pursuers to cease their activities. Even if the
+missiles fail to strike the motor-car itself they can wreak disaster in
+directly by rendering the road impassable or dangerous to negotiate
+at high speed. On the whole therefore, the "Archibald" is a greatly
+exaggerated weapon of offence against aircraft, and, so far as is known,
+has failed to fulfil expectations. In fact, the Germans have practically
+abandoned the idea of using it in the manner of a pursuing arm; they
+work the weapon as a fixture, depending upon the car merely as a
+means of moving it from point to point. Thus, in reality, it has been
+converted into a light field-piece, and may almost be included in the
+category of fixed weapons for combating aerial operations.
+
+
+
+CHAPTER XV. ANTI-AIRCRAFT GUNS. IMMOBILE WEAPONS
+
+The immobile anti-aircraft gun, as distinct from that attached to a
+travelling carriage such as a motor-car, may be subdivided into two
+classes. The one is the fixed arm which cannot be moved readily, mounted
+upon a permanent emplacement; the other is the field-piece which, while
+fired from a stationary position, may be moved from point to point
+upon a suitable carriage. The distinction has its parallel in ordinary
+artillery, the first-named weapon coinciding with the heavy siege
+gun, which is built into and forms part and parcel of the defensive or
+offensive scheme, while the second is analogous to the field artillery,
+which may be wheeled from position to position.
+
+In this phase of artillery the Germans led the way, for the simple
+reason that they recognised the military value of aerial navigation
+years in advance of their contemporaries. Again, in this field the
+Krupp Organisation has played a prominent part. It embarked upon actual
+construction of weapons while its rivals in other countries were content
+to prepare their drawings, which were filed against "The Day." But it
+must not be thought that because the German manufacturers of armaments
+were ahead of their contemporaries they dominated the situation. Far
+from it. Their competitors in the market of destruction were every whit
+as keen, as ingenious, and as enterprising. Kruppism saw a commercial
+opportunity to profit from advertisement and seized it: its rivals were
+content to work in secret upon paper, to keep pace with the trend of
+thought, and to perfect their organisations so as to be ready for the
+crisis when it developed.
+
+The first Krupp anti-aircraft field-piece was a 6.5 centimetre (2 9/16
+inch) arm. It possessed many interesting features, the most salient of
+which was the design of the axle of the carriage. The rigid axle for
+the two wheels was replaced by an axle made in two sections, and
+joined together in the form of a universal coupling, so that each
+wheel virtually possessed its own axle, or rather half-axle. This was
+connected with the cradle of the gun in such a manner that the wheels
+were laterally pivoted thereon.
+
+The result is that each axle can be turned forward together with its
+wheel, and thus the wheels have their rims brought into line to form an
+arc of a circle, of which the rear end of the spade of the gun carriage
+constitutes the centre. This acts as a pivot, about which the gun can
+be turned, the pair of wheels forming the runners for the achievement of
+this movement. The setting of the weapon in the firing position or its
+reversion to the travelling position can be easily and speedily effected
+merely by the rotation of a handwheel and gearing.
+
+With this gun a maximum elevation of 60 degrees is possible, owing to
+the trunnions being carried well behind the breech in combination with
+the system of long steady recoil. The balancing spring which encloses
+the elevating screw is contained in a protected box. The recoil brake,
+together with the spring recuperator, follows the usual Krupp practice
+in connection with ordinary field pieces, as does also the automatic
+breech-closing and firing mechanism. In fact there is no pronounced
+deviation from the prevailing Krupp system, and only such modifications
+as are necessary to adapt the arm to its special duty. When the gun
+is elevated to high angles the shell, after insertion the breech is
+prevented from slipping out by means of a special device, so that the
+proper and automatic closing of the breech is not impaired in any way.
+
+In such an arm as this, which is designed essentially for high-angle
+firing, the sighting and training facilities require to be carried
+out upon special lines, inasmuch as the objective is necessarily at a
+considerable altitude above the horizon of the gun. In other words, in
+firing at a high inclination, distance between the gun and the target
+cannot be utilised directly for the back sight. On the other hand, it is
+essential that in proportion as the angle from the horizontal increases,
+the back sight should be lowered progressively in a manner corresponding
+to the distance.
+
+To assist the range-finder in his task of sighting it is necessary that
+he should be provided with firing tables set out in a convenient form,
+which, in conjunction with the telemeter, serve to facilitate training
+for each successive round. In this way it is possible to pick up the
+range quickly and to keep the objective in the line of fire until it
+either has been put hors de combat, or has succeeded in retiring beyond
+the range of the gun.
+
+The sighting arrangements of these Krupp anti-aircraft guns are carried
+out upon these lines. Beneath the barrel of the back-sight is an
+observing glass with an eye-piece for the artillerist, while above
+and behind the observing glass is another eye-piece, to be used in
+conjunction with the manipulation of the back-sight. The eye-piece
+of the observation glass is so made that it can be turned through a
+vertical plane in proportion as the angle of fire increases in relation
+to the horizontal. The determination of the distance from the objective
+and from the corresponding back-sight as well as the observation of
+the altitude is carried out with the aid of the telemeter. This again
+carries an observation glass fitted with an eye-piece which can
+be turned in the vertical plane in the same manner as that of the
+fore-sight. By means of this ingenious sighting device it is possible to
+ascertain the range and angle of fire very easily and speedily.
+
+The weight of the special Krupp anti-aircraft field-piece, exclusive
+of the protecting shield, is approximately identical with that of the
+ordinary light artillery field-piece. It throws a shell weighing 8.8
+pounds with an initial velocity of about 2,066 feet per second.
+
+Although the German armament manufacturers were among the first to enter
+the field with an anti-aircraft gun of this character they were speedily
+followed by the French, who devised a superior weapon. In fact, the
+latter represented such a decisive advance that the German artillerists
+did not hesitate to appropriate their improvements in sundry essential
+details, and to incorporate them with their own weapons. This applies
+especially to the differential recoil system which is utilised in the
+small anti-aircraft guns now mounted upon the roofs of high buildings
+of cities throughout Germany for the express purpose of repelling aerial
+attack.
+
+The French system is admitted by the leading artillery technicians of
+the world to be the finest which has ever been designed, its remarkable
+success being due to the fact that it takes advantage of the laws of
+Nature. In this system the gun is drawn back upon its cradle preparatory
+to firing. In some instances the barrel is compressed against a spring,
+but in the more modern guns it is forced to rest against a cushion of
+compressed air contained within a cylinder. When first bringing the
+gun into action, the barrel is brought into the preliminary position by
+manually compressing the air or spring by means of a lever. Thereafter
+the gun works automatically. When the gun is fired the barrel is
+released and it flies forward. At a critical point in its forward travel
+the charge is fired and the projectile speeds on its way. The kick or
+recoil serves to arrest the forward movement of the barrel and finally
+drives it back again against the strong spring or cushion of compressed
+air within the cylinder to its normal position, when it is ready for the
+introduction of the next shell.
+
+The outstanding feature of this system is that the projectile is given
+a higher initial velocity than is possible with the barrel held rigid at
+the moment of discharge, because the shell is already travelling at the
+moment of firing.
+
+The fixed anti-aircraft guns such as are stationed upon eminences and
+buildings are of the quick firing type, the object being to hurl
+a steady, continuous stream of missiles upon the swiftly moving
+aeroplane. Some of the weapons throw a one-pound shell and are closely
+similar to the pom-pom which proved so effective during the South
+African war. Machine guns also have been extensively adopted for this
+duty by all the combatants, their range of approximately 2,000 yards and
+rapidity of fire being distinctly valuable when hostile aircraft descend
+to an altitude which brings them within the range of the weapon.
+
+The greatest difficulty in connection with this phase of artillery,
+however, is not so much the evolution of a serviceable and efficient
+type of gun, as the determination of the type of projectile which
+is likely to be most effective. While shrapnel is employed somewhat
+extensively it has not proved completely satisfactory. It is
+difficult to set the timing fuse even after the range has been found
+approximately, which in itself is no easy matter when the aircraft is
+moving rapidly and irregularly, but reliance is placed thereon in the
+hope that the machine may happen to be within the cone of dispersion
+when the shell bursts, and that one or more of the pieces of projectile
+and bullets may chance to penetrate either the body of the airman or a
+vital part of the mechanism.
+
+It is this uncertainty which has led to a preference for a direct
+missile such as the bullet discharged from a machine gun. A stream of
+missiles, even of rifle calibre, maintained at the rate of some 400
+shots per minute is certain to be more effective, provided range and aim
+are correct, than shrapnel. But the ordinary rifle-bullet, unless the
+objective is within very close range, is not likely to cause much harm,
+at least not to the mechanism of the aerial vessel.
+
+It is for this reason that greater attention is being devoted,
+especially by the French artillerists, to the Chevalier anti-aircraft
+gun, a weapon perfected by a Swiss technician resident in Great Britain.
+It projects a formidable missile which in fact is an armour-piercing
+bullet 1/2- to 3/4-inch in diameter. It is designed for use with an
+automatic machinegun, which the inventor has devised more or less upon
+the well-known French system. The bullet has a high velocity--about
+2,500 feet per second--and a maximum range of 6,000 to 8,000 feet at
+the maximum elevation. Should such a missile strike the motor or other
+mechanism of the vessel it would wreak widespread havoc, and probably
+cause the machine to come to earth. This arm has been designed for the
+express purpose of disabling the aeroplane, and not for the subjugation
+of the airman, which is a minor consideration, inasmuch as he is
+condemned to a descent when his craft receives a mortal wound.
+
+Attempts have been and still are being made to adapt an explosive
+projectile to this gun, but so far the measure of success achieved has
+not proved very promising. There are immense difficulties connected
+with the design of an explosive shell of this class, charged with a
+high explosive, especially in connection with the timing. So far as
+dependence upon percussive detonation is concerned there is practically
+no difficulty. Should such a missile strike, say, the motor of an
+aeroplane, or even the hull of the craft itself, the latter would be
+practically destroyed. But all things considered, it is concluded that
+more successful results are likely to be achieved by the armour-piercing
+bullet striking the mechanism than by an explosive projectile.
+
+The Krupp company fully realised the difficulties pertaining to the
+projectile problem in attacks upon aerial craft. So far as dirigibles
+are concerned shrapnel is practically useless, inasmuch as even should
+the bag be riddled by the flying fragments, little effective damage
+would be wrought--the craft would be able to regain its haven.
+Accordingly efforts were concentrated upon the perfection of two new
+types of projectiles, both of which were directed more particularly
+against the dirigible. The one is the incendiary shell--obus
+fumigene--while the other is a shell, the contents of which, upon coming
+into contact with the gas contained within the gas-bag, set up certain
+chemical reactions which precipitate an explosion and fire.
+
+The incendiary shells are charged with a certain compound which is
+ignited by means of a fuse during its flight. This fuse arrangement
+coincides very closely with that attached to ordinary shrapnel, inasmuch
+as the timing may be set to induce ignition at different periods, such
+as either at the moment it leaves the gun, before, or when it strikes
+the envelope of the dirigible. The shell is fitted with a "tracer,"
+that is to say, upon becoming ignited it leaves a trail of smoke,
+corresponding with the trail of a rocket, so that its passage through
+the air may be followed with facility. This shell, however, was designed
+to fulfil a dual. Not only will it fire the gaseous contents out of the
+dirigible, but it has an explosive effect upon striking an incombustible
+portion of the aircraft, such as the machinery, propellers or car, when
+it will cause sufficient damage to throw the craft out of action.
+
+The elaborate trials which were carried out with the obus fumigene
+certainly were spectacular so as they went. Two small spherical
+balloons, 10 feet in diameter, and attached to 1,000 feet of cable, were
+sent aloft. The anti-aircraft guns themselves were placed about 5,100
+feet distant. Owing to the inclement weather the balloons were unable
+to attain a height of more than 200 feet in a direct vertical line above
+the ground. The guns were trained and fired, but the one balloon was
+not hit until the second round, while the third escaped injury until the
+fifth round. When struck they collapsed instantly. Though the test was
+not particularly conclusive, and afforded no reliable data, one point
+was ascertained--the trail of smoke emitted by the shell enabled its
+trajectory to be followed with ease. Upon the conclusion of these
+trials, which were the most successful recorded, quick-firing tests
+in the horizontal plane were carried out. The best performance in this
+instance was the discharge of five rounds in eight seconds. In this
+instance the paths of the projectiles were simple and easy to follow,
+the flight of the shell being observed until it fell some 18,670 feet
+away. But the Krupp firm have found that trials upon the testing ground
+with a captive balloon differ very materially from stern tests in the
+field of actual warfare. Practically nothing has been heard of the two
+projectiles during this war, as they have proved an absolute failure.
+
+Some months ago the world was startled by the announcement that the
+leading German armament firm had acquired the whole of the interest in
+an aerial torpedo which had been evolved by the Swedish artillerist,
+Gustave Unge, and it was predicted that in the next war widespread havoc
+would be wrought therewith. Remarkable claims were advanced for this
+projectile, the foremost being that it would travel for a considerable
+distance through the air and alight upon the objective with infallible
+accuracy. The torpedo in question was subjected to exacting tests in
+Great Britain, which failed to substantiate all the claims which were
+advanced, and it is significant to observe that little has been heard
+of it during the present conflict. It is urged in certain technical
+quarters, however, that the aerial torpedo will prove to be the most
+successful projectile that can be used against aircraft. I shall deal
+with this question in a later chapter.
+
+During the early days of the war anti-aircraft artillery appeared to
+be a much overrated arm. The successes placed to its credit were
+insignificant. This was due to the artillerymen being unfamiliar with
+the new arm, and the conditions which prevail when firing into space.
+Since actual practice became possible great advances in marksmanship
+have been recorded, and the accuracy of such fire to-day is striking.
+Fortunately the airman possesses the advantage. He can manoeuvre beyond
+the range of the hostile weapons. At the moment 10,000 feet represents
+the extreme altitude to which projectiles can be hurled from the arms
+of this character which are now in use, and they lack destructiveness at
+that range, for their velocity is virtually expended.
+
+Picking up the range is still as difficult as ever. The practice
+followed by the Germans serves to indicate the Teuton thoroughness of
+method in attacking such problems even if success does not ensue. The
+favourite German principle of disposing anti-aircraft artillery is to
+divide the territory to be protected into equilateral triangles, the
+sides of which have a length of about six miles or less, according to
+the maximum effective range of the pieces at an elevation of 23 1/2
+degrees.
+
+The guns are disposed at the corners of the triangles as indicated
+in Figs. 13-14. Taking the one triangle as an example, the method of
+picking up the range may be explained as follows. The several guns at
+the comers of the triangle, each of which can be trained through the
+360 degrees in the horizontal plane, are in telephonic touch with an
+observer O stationed some distance away. The airman A enters the area
+of the triangle. The observer takes the range and communicates with the
+gunner B, who fires his weapon. The shell bursts at 1 emitting a red
+flame and smoke. The observer notes the altitude and relative position
+of the explosion in regard to the aircraft, while gunner B himself
+observes whether the shell has burst to the right or to the left of the
+objective and corrects accordingly. The observer commands C to fire,
+and another shell is launched which emits a yellow flame and smoke. It
+bursts at 2 according to the observer, while gunner C also notes
+whether it is to the right or to the left of the target and corrects
+accordingly. Now gunner D receives the command to fire and the shell
+which explodes at 3 throws off a white flame and smoke. Gunner D
+likewise observes whether there is any deviation to right or left of
+the target and corrects in a similar manner. From the sum of the three
+rounds the observer corrects the altitude, completes his calculations,
+and communicates his instructions for correction to the three gunners,
+who now merely train their weapons for altitude. The objective is to
+induce the shells hurled from the three corners of the triangle to burst
+at a common point 4, which is considered to be the most critical spot
+for the aviator. The fire is then practically concentrated from the
+three weapons upon the apex of a triangular cone which is held to bring
+the machine within the danger zone.
+
+This method of finding the range is carried out quickly--two or three
+seconds being occupied in the task. In the early days of the war the
+German anti-aircraft artillerymen proved sadly deficient in this work,
+but practice improved their fire to a marvellous degree, with the result
+that at the moment it is dangerous for an aviator to essay his task
+within an altitude of 6,000 feet, which is the range of the average
+anti-aircraft gun.
+
+The country occupied by a belligerent is divided up in this manner
+into a series of triangles. For instance, a machine entering hostile
+territory from the east, enters the triangle A-B-C, and consequently
+comes within the range of the guns posted at the comers of the triangle.
+Directly he crosses the line B-C and enters the adjacent triangle he
+passes beyond the range of gun A but comes within the range of the gun
+posted at D, and while within the triangular area is under fire from the
+guns B-C-D. He turns and crosses the line A-C, but in so doing enters
+another triangle A-C-E, and comes range of the gun posted at E.
+
+The accompanying diagram represents an area of country divided up into
+such triangle and the position of the guns, while the circle round the
+latter indicate the training arc of the weapons, each of which is a
+complete circle, in the horizontal plane. The dotted line represents
+the aviator's line of flight, and it will be seen that no matter how he
+twists and turns he is always within the danger zone while flying over
+hostile territory. The moment he outdistances one gun he comes within
+range of another.
+
+The safety of the aviator under these circumstances depends upon his
+maintaining an altitude exceeding the range of the guns below, the most
+powerful of which have a range of 8,000 to 10,000 feet, or on speed
+combined with rapid twisting and turning, or erratic undulating flight,
+rendering it extremely difficult for the gun-layer to follow his path
+with sufficient celerity to ensure accurate firing.
+
+At altitudes ranging between 4,000 and 6,000 feet the aeroplane comes
+within the range of rifle and machine-gun firing. The former, however,
+unless discharged in volleys with the shots covering a wide area, is not
+particularly dangerous, inasmuch as the odds are overwhelmingly against
+the rifleman. He is not accustomed to following and firing upon a
+rapidly moving objective, the result being that ninety-nine times out
+of a hundred he fails to register a hit. On the other hand the advantage
+accruing from machine-gun fire is, that owing to the continuous stream
+of bullets projected, there is a greater possibility of the gun being
+trained upon the objective and putting it hors de combat.
+
+But, taking all things into consideration, and notwithstanding the
+achievements of the artillerist, the advantages are overwhelmingly
+on the side of the aviator. When one reflects upon the total sum of
+aircraft which have been brought to earth during the present campaign,
+it will be realised that the number of prizes is insignificant in
+comparison with the quantity of ammunition expended.
+
+
+
+CHAPTER XVI. MINING THE AIR
+
+While the anti-aircraft gun represents the only force which has
+been brought to the practical stage for repelling aerial attack, and
+incidentally is the sole offensive weapon which has established its
+effectiveness, many other schemes have been devised and suggested to
+consummate these ends. While some of these schemes are wildly fantastic,
+others are feasible within certain limitations, as for instance when
+directed against dirigibles.
+
+It has been argued that the atmosphere is akin to the salt seas; that
+an aerial vessel in its particular element is confronted with dangers
+identical with those prevailing among the waters of the earth. But such
+an analogy is fallacious: there is no more similarity between the air
+and the ocean than there is between an airship and a man-of-war. The
+waters of the earth conceal from sight innumerable obstructions, such as
+rocks, shoals, sandbanks, and other dangers which cannot by any means be
+readily detected.
+
+But no such impediments are encountered in the ether. The craft of the
+air is virtually a free age in the three dimensions. It can go whither
+it will without let or hindrance so long as the mechanical agencies of
+man are able to cope with the influences of Nature. It can ascend to
+a height which is out of all proportion to the depth to which the
+submarine can descend in safety. It is a matter of current knowledge
+that a submarine cannot sink to a depth of more than 250 feet: an aerial
+vessel is able to ascend to 5,000, 8,000, or even 10,000 feet above the
+earth, and the higher the altitude it attains the greater is its degree
+of safety. The limit of ascension is governed merely by the physical
+capacities of those who are responsible for the aerial vessel's
+movement.
+
+It is for this reason that the defensive measures which are practised in
+the waters of the earth are inapplicable to the atmosphere. Movement
+by, or in, water is governed by the depth of channels, and these may be
+rendered impassable or dangerous to negotiate by the planting of mines.
+A passing ship or submarine may circumvent these explosive obstructions,
+but such a successful manoeuvre is generally a matter of good luck. So
+far as submarines are concerned the fact must not be over looked
+that movements in the sea are carried out under blind conditions: the
+navigator is unable to see where he is going; the optic faculty is
+rendered nugatory. Contrast the disability of the submarine with the
+privileges of its consort in the air. The latter is able to profit from
+vision. The aerial navigator is able to see every inch of his way, at
+least during daylight. When darkness falls he is condemned to the same
+helplessness as his confrere in the waters below.
+
+A well-known British authority upon aviation suggested that advantage
+should be taken of this disability, and that the air should be mined
+during periods of darkness and fog to secure protection against
+aerial invasion. At first sight the proposal appears to be absolutely
+grotesque, but a little reflection will suffice to demonstrate its
+possibilities when the area to be defended is comparatively limited. The
+suggestion merely proposes to profit from one defect of the dirigible.
+The latter, when bent upon a daring expedition, naturally prefers to
+make a bee-line towards its objective: fuel considerations as a matter
+of fact compel it to do so. Consequently it is possible, within certain
+limits, to anticipate the route which an invading craft will follow: the
+course is practically as obvious as if the vessel were condemned to a
+narrow lane marked out by sign-posts. Moreover, if approaching under
+cover of night or during thick weather, it will metaphorically "hug the
+ground." To attempt to complete its task at a great height is to court
+failure, as the range of vision is necessarily so limited.
+
+Under these circumstances the mining of the air could be carried out
+upon the obvious approaches to a threatened area. The mines, comprising
+large charges of high-explosive and combustible material, would be
+attached to small captive balloons similar to the "sounding balloons"
+which are so much used by meteorologists in operations for sounding the
+upper strata of the atmosphere. These pilot balloons would be captive,
+their thin wires being wound upon winches planted at close intervals
+along the coast-line. The balloon-mines themselves would be sent to
+varying heights, ranging from 1,000 to 5,000 feet, and with several
+attached to each cable, the disposition of the mines in the air in
+such an irregular manner being in fact closely similar to the practice
+adopted in the mining of a channel for protection against submarines and
+hostile ships.
+
+The suggestion is that these mines should be sent aloft at dusk or upon
+the approach of thick and foggy weather, and should be wound in at dawn
+or when the atmosphere cleared, inasmuch as in fine weather the floating
+aerial menace would be readily detected by the pilot of a dirigible, and
+would be carefully avoided. If the network were sufficiently intricate
+it would not be easy for an airship travelling at night or in foggy
+weather to steer clear of danger, for the wires holding the balloons
+captive would be difficult to distinguish.
+
+The mines would depend upon detonators to complete their work, and here
+again they would bear a close resemblance to sea-mines. By looping the
+mines their deadliness could be increased. The unsuspicious airship,
+advancing under cover of darkness or thick weather, might foul one of
+the wires, and, driving forward, would tend to pull one or more mines
+against itself. Under the force of the impact, no matter how gentle, or
+slight, one or more of the detonating levers would be moved, causing the
+mine to explode, thus bursting the lifting bag of the vessel, and firing
+its gaseous contents. An alternative method, especially when a cable
+carried only a single mine, would be to wind in the captive balloon
+directly the wire was fouled by an invading aerial craft, the process
+being continued until the mine was brought against the vessel and
+thereby detonated.
+
+Another proposed mining method differs materially in its application. In
+this instance it is suggested that the mines should be sent aloft, but
+should not be of the contact type, and should not be fired by impact
+detonators, but that dependence should be placed rather upon the
+disturbing forces of a severe concussion in the air. The mines would
+be floating aloft, and the advance of the airship would be detected. The
+elevation of the mines in the vicinity of the invading craft would be
+known, while the altitude of the airship in relation thereto could be
+calculated. Then, it is proposed that a mine within d certain radius
+of the approaching craft, and, of course, below it, should be fired
+electrically from the ground. It is maintained that if the charge were
+sufficiently heavy and an adequate sheet of flame were produced as a
+result of the ignition, an airship within a hundred yards thereof would
+be imperilled seriously, while the other mines would also be fired,
+communicating ignition from one to the other. The equilibrium of the
+airship is so delicate that it can be readily upset, and taking into
+account the facts that gas is always exuding from the bag, and that
+hydrogen has a tendency to spread somewhat in the manner of oil upon
+water, it is argued that the gas would be ignited, and would bring about
+the explosion of the airship.
+
+Another method has even been advocated. It is averred in authoritative
+circles that when the aerial invasion in force of Great Britain is
+attempted, the Zeppelins will advance under the cover of clouds. Also
+that the craft will make for one objective--London. Doubtless advantage
+will be taken of clouds, inasmuch as they will extend a measure of
+protection to the craft, and will probably enable the invading fleet
+to elude the vigilance of the aeroplane scouts and patrols. Under these
+circumstances it is suggested that balloon-mines should be sent aloft
+and be concealed in the clouds. It would be impossible to detect the
+wires holding them captive, so that the precise location of the lurking
+danger would not be divined by the invader. Of course, the chances are
+that the invading airship would unconsciously miss the mines; on the
+other hand the possibilities are equally great that it would blunder
+into one of these traps and be blown to atoms.
+
+An English airman has recently suggested a means of mining invading
+Zeppelins which differs completely from the foregoing proposals. His
+idea is that aeroplanes should be equipped with small mines of the
+contact type, charged with high explosives, and that the latter should
+be lowered from the aeroplane and be trawled through the atmosphere. As
+an illustration I will suppose that a hostile aircraft is sighted by a
+patrolling aeroplane. The pilot's companion in the latter immediately
+prepares his aerial mine, fixing the detonator, and attaching the mine
+to the wire. The latter is then dropped overboard, the wire being paid
+out from a winch until it has descended to the level of the hostile
+craft. The airman now manoeuvres in the air circling about the airship,
+dragging his mine behind him, and endeavouring to throw it across or
+to bring it into contact with the airship below. Naturally the latter,
+directly it observed the airman's object, would endeavour to elude the
+pursuing trawling mine, either by crowding on speed or by rising to a
+greater altitude. The aeroplane, however, would have the advantage both
+in point of speed and powers of climbing, while there is no doubt that
+the sight of the mine swinging in the air would exert a decisive moral
+effect upon those in the airship.
+
+Attempts to render the mine harmless by discharging it prematurely with
+the aid of rifle and machine-gun fire would, of course, be made by the
+crew of the airship, but the trawling mine would prove a very difficult
+target to strike. If such a missile were used against an airship of the
+proportions of a Zeppelin the mine would inevitably be trawled across
+the vessel sooner or later. Once the airship had been fouled, the
+aviator would merely have to drive ahead, dragging the wire and its
+charge across the gas-bag until at last one of the contact levers of the
+mine was moved by being dragged against some part of the vessel, when
+the mine would be exploded. In such operations the aviator would run a
+certain risk, as he would be more or less above the airship, and to a
+certain degree within the zone of the ultimate explosion. But there is
+no doubt that he would succeed in his "fishing" exploit within a very
+short time.
+
+This ingenious scheme has already been tested upon a small scale and has
+been found effective, the trawling bomb being drawn across its target
+and fired by contact within a few minutes. The experiment seems to prove
+that it would be simpler and more effectual to attack a hostile aircraft
+such as a Zeppelin in this manner than to drop free bombs at random.
+Moreover, we cannot doubt that the sight of a mine containing even ten
+or twelve pounds of high explosive dangling at the end of a wire would
+precipitate a retreat on the part of an airship more speedily than any
+other combative expedient.
+
+The advocate of this mine-trawling method, who is a well-known aviator,
+anticipates no difficulty in manoeuvring a mine weighing 30 pounds at
+the end of 300 feet of fine wire. Success depends in a great measure on
+the skill of the aviator in maintaining a constant tension upon the line
+until it falls across its objective.
+
+The process calls for a certain manifestation of skill in manoeuvring
+the aeroplane in relation to the airship, judgment of distance, and
+ability to operate the aeroplane speedily. The rapid ascensional
+capability of the airship, as compared with that of the aeroplane, is a
+disadvantage, but on the other hand, the superior mobility and speed of
+the aeroplane would tell decisively for success.
+
+Among the many wonders which the Krupp organisation is stated to have
+perfected, and which it is claimed will create considerable surprise, is
+the aerial torpedo. Many of the Krupp claims are wildly chimerical,
+as events have already proved, but there is no doubt that considerable
+effort has been expended upon this latest missile, for which the firm is
+said to have paid the inventor upwards of L25,000--$125,000. Curiously
+enough the projectile was perfected within gunshot of the British
+aerodrome of Hendon and is stated to have been offered to the British
+Government at the time, and to have met with a chilling reception. One
+fact, however, is well established. The inventor went to Germany, and
+submitted his idea to Krupp, by whom it was tested without delay. Upon
+the completion of the purchase, the great armament manufacturers did not
+fail to publish broadcast the fact that they had acquired a mysterious
+new terror of the skies. That was some three years ago, and in the
+interval the cleverest brains of the German firm have been steadily
+devoting their time and energies to the improvement of the missile, the
+first appearance of which was recorded, in a somewhat hazy manner, in
+the closing days of December.
+
+While the exact mechanism of this missile is a secret, the governing
+principles of its design and operation are known to a select few
+technicians in this country. Strange to say, the projectile was designed
+in the first instance in the interests of peace and humanity, but while
+engaged upon his experiments the inventor suddenly concluded that it
+would be a more profitable asset if devoted to the grim game of war. At
+the time the military significance of the airship and the aeroplane
+were becoming apparent; hence the sudden diversion of the idea into a
+destructive channel.
+
+This aerial torpedo is a small missile carrying a charge of high
+explosive, such as trinitrotoluene, and depends for its detonation upon
+impact or a time fuse. It is launched into the air from a cradle in the
+manner of the ordinary torpedo, but the initial velocity is low. The
+torpedo is fitted with its own motive power, which comes automatically
+into action as the missile climbs into the air. This self-contained
+energy is so devised that the maximum power is attained before the
+missile has lost the velocity imparted in the first instance, the result
+being that it is able to continue its flight in a horizontal direction
+from the moment it attains the highest point in its trajectory, which is
+naturally varied according to requirements. But there is no secret
+about the means of propulsion. The body is charged with a slow-burning
+combustible, in the manner of the ordinary rocket, whereby it is given a
+rapid rotary motion.
+
+Furthermore it is stated to be fitted with a small gyroscope in the
+manner of the torpedo used in the seas, for the purpose of maintaining
+direction during flight, but upon this point there is considerable
+divergence of opinion among technicians, the general idea being that
+the torpedo depends upon an application of the principle of the ordinary
+rocket rather than upon a small engine such as is fitted to the ordinary
+torpedo. The employment of a slow combustible ensures the maintenance
+of the missile in the air for a period exceeding that of the ordinary
+shell. It is claimed by the Germans that this projectile will keep aloft
+for half-an-hour or more, but this is a phantasy. Its maintenance of
+flight is merely a matter of minutes.
+
+The belated appearance of this much-lauded projectile and its restricted
+use suggest that it is unreliable, and perhaps no more effective than
+the aerial torpedo which appeared in the United States during the
+Spanish-American War, and proved a complete failure. An effective and
+reliable means of combating or frustrating a dirigible attack, other
+than by gun-fire or resort to the drastic remedy of ramming the enemy,
+has yet to be devised.
+
+
+
+CHAPTER XVII. WIRELESS IN AVIATION
+
+In a previous chapter the various methods of signalling between the
+ground and the airman aloft have been described. Seeing that wireless
+telegraphy has made such enormous strides and has advanced to such a
+degree of perfection, one naturally would conclude that it constitutes
+an ideal system of communication under such conditions in military
+operations.
+
+But this is not the case. Wireless is utilised only to a very limited
+extent. This is due to two causes. The one is of a technical, the other
+of a strategical character.
+
+The uninitiated, bearing in mind the comparative ease with which
+wireless installations may be established at a relatively small expense,
+would not unreasonably think that no serious difficulties of a technical
+character could arise: at least none which would defy solution. But
+these difficulties exist in two or three different fields, each of which
+is peculiarly complex and demands individual treatment.
+
+In the first place, there is the weight of the necessary installation.
+In the case of the dirigible this may be a secondary consideration,
+but with the aeroplane it is a matter of primary and vital importance.
+Again, under present conditions, the noise of the motor is apt to render
+the intelligent deciphering of messages while aloft a matter of extreme
+difficulty, especially as these are communicated in code. The engine
+noise might be effectively overcome by the use of a muffler such as,
+is used with automobiles, but then there is the further difficulty of
+vibration.
+
+This problem is being attacked in an ingenious manner. It is proposed to
+substitute for audible signals visual interpretations, by the aid of an
+electric lamp, the fluctuations in which would correspond to the dots
+and dashes of the Morse code. Thus the airman would read his messages by
+sight instead of by sound.
+
+This method, however, is quite in its infancy, and although attractive
+in theory and fascinating as a laboratory experiment or when conducted
+under experimental conditions, it has not proved reliable or effective
+in aeronautical operations. But at the same time it indicates a
+promising line of research and development.
+
+Then there are the problems of weight and the aerial. So far as present
+knowledge goes, the most satisfactory form of aerial yet exploited is
+that known as the trailing wire. From 300 to 700 feet of wire are coiled
+upon a reel, and when aloft this wire is paid out so that it hangs below
+the aeroplane. As a matter of fact, when the machine is travelling at
+high speed it trails horizontally astern, but this is immaterial. One
+investigator, who strongly disapproves of the trailing aerial, has
+carried out experiments with a network of wires laid upon and attached
+to the surface of the aeroplane's wings. But the trailing wire is
+generally preferred, and certainly up to the present has proved more
+satisfactory.
+
+The greatest obstacle, however, is the necessary apparatus. The average
+aeroplane designed for military duty is already loaded to the maximum.
+As a rule it carries the pilot and an observer, and invariably includes
+a light arm for defence against an aerial enemy, together with an
+adequate supply of ammunition, while unless short sharp flights are to
+be made, the fuel supply represents an appreciable load. Under these
+circumstances the item of weight is a vital consideration. It must be
+kept within a limit of 100 pounds, and the less the equipment weighs the
+more satisfactory it is likely to prove, other things being equal.
+
+The two most successful systems yet exploited are the Dubilier and the
+Rouget. The former is an American invention, the latter is of French
+origin. Both have been tested by the British Military Aeronautical
+Department, and the French authorities have subjected the French system
+to rigorous trials. Both systems, within their limitations, have proved
+satisfactory.
+
+The outstanding feature of the Dubilier system is the production of sine
+waves of musical frequency from continuous current, thus dispensing
+with the rotary converter. The operating principle is the obtaining of
+a series of unidirectional impulses by a condenser discharge, the
+pulsating currents following one another at regular intervals at a
+frequency of 500 impulses per second, which may be augmented up to 1,000
+impulses per second. The complete weight of such an apparatus is 40
+pounds; the electric generator, which is no larger than the motor used
+for driving the ordinary table ventilating fan, accounts for 16 pounds
+of this total. Under test at sea, upon the deck of a ship, a range of
+250 miles has been obtained. The British Government carried out a series
+of experiments with this system, using a small plant weighing about 30
+pounds, with which communication was maintained up to about 20 miles.
+
+In the French system the Reuget transmitter is employed. The apparatus,
+including the dynamo, which is extremely small, weighs in all 70 pounds.
+A small alternator of 200 watts and 100 volts is coupled direct to the
+aeroplane motor, a new clutch coupler being employed for this purpose.
+By means of a small transformer the voltage is raised to 30,000 volts,
+at which the condenser is charged. In this instance the musical spark
+method is employed.
+
+The whole of the high tension wiring is placed within a small space
+so as not to endanger the pilot, while the transformer is hermetically
+sealed in a box with paraffin. The aerial comprises a trailing wire 100
+feet in length, which, however, can be wound in upon its reel within 15
+seconds. This reeled antenna, moreover, is fitted with a safety device
+whereby the wire can be cut adrift in the event of an accident befalling
+the aeroplane and necessitating an abrupt descent. With this apparatus
+the French authorities have been able to maintain communication over a
+distance of 30 miles.
+
+In maintaining ethereal communication with aeroplanes, however, a
+portable or mobile station upon the ground is requisite, and this
+station must be within the radius of the aerial transmitter, if
+messages are to be received from aloft with any degree of accuracy and
+reliability. Thus it will be recognised that the land station is as
+important as the aeroplane equipment, and demands similar consideration.
+
+A wide variety of systems have been employed to meet these conditions.
+There is the travelling automobile station, in which the installation
+is mounted upon a motor-car. In this instance the whole equipment is
+carried upon a single vehicle, while the antenna is stowed upon the roof
+and can be raised or lowered within a few seconds. If motor traction is
+unavailable, then animal haulage may be employed, but in this instance
+the installation is divided between two vehicles, one carrying the
+transmitting and receiving apparatus and the generating plant, the other
+the fuel supplies and the aerial, together with spare parts.
+
+The motive power is supplied by a small air cooled petrol or gasoline
+motor developing eight horse-power, and coupled direct to a 2-kilo watt
+alternator. At one end of the shaft of the latter the disk discharger is
+mounted, its function being to break up the train of waves into groups
+of waves, so as to impart a musical sound to the note produced in the
+receiver. A flexible cable transmits the electric current from the
+generator to the wagon containing the instruments. The aerial is built
+up of masts carried in sections.
+
+The Germans employ a mobile apparatus which is very similar, but in
+this instance the mast is telescopic. When closed it occupies but little
+space. By turning the winch handle the mast is extended, and can be
+carried to any height up to a maximum of about 100 feet. The capacity
+of these mobile stations varies within wide limits, the range of the
+largest and most powerful installations being about 200 miles. The
+disadvantage of these systems, however, is that they are condemned to
+territories where the ground at the utmost is gently undulating, and
+where there are roads on which four-wheeled vehicles can travel.
+
+For operation in hilly districts, where only trails are to be found,
+the Marconi Company, has perfected what may be described as "pack" and
+"knapsack" installations respectively. In the first named the whole of
+the installation is mounted upon the backs of four horses. The first
+carries the generator set, the second the transmitting instruments, the
+third the receiving equipment, and the fourth the detachable mast and
+stays.
+
+The generator is carried upon the horse's saddle, and is fitted with a
+pair of legs on each side. On one side of the saddle is mounted a
+small highspeed explosion motor, while on the opposite side, in axial
+alignment with the motor, is a small dynamo. When it is desired to
+erect the installation the saddle carrying this set is removed from the
+horse's back and placed upon the ground, the legs acting as the support.
+A length of shaft is then slipped into sockets at the inner ends of the
+motor and dynamo shafts respectively, thus coupling them directly, while
+the current is transmitted through a short length of flexible cable to
+the instruments. The mast itself is made in lengths of about four feet,
+which are slipped together in the manner of the sections of a fishing
+rod, and erected, being supported by means of wire guys. In this manner
+an antenna from 40 to 50 feet in height may be obtained.
+
+The feature of this set is its compactness, the equal division of the
+sections of the installation, and the celerity with which the station
+may be set up and dismantled in extremely mountainous country such as
+the Vosges, where it is even difficult for a pack-horse to climb to
+commanding or suitable positions, there is still another set which has
+been perfected by the Marconi Company. This is the "knapsack" set,
+in which the whole of the installation, necessarily light, small,
+and compact, is divided among four men, and carried in the manner of
+knapsacks upon their backs. Although necessarily of limited radius,
+such an installation is adequate for communication within the restricted
+range of air-craft.
+
+Greater difficulties have to be overcome in the mounting of a wireless
+installation upon a dirigible. When the Zeppelin was finally accepted
+by the German Government, the military authorities emphasised the great
+part which wireless telegraphy was destined to play in connection with
+such craft. But have these anticipations been fulfilled? By no means, as
+a little reflection will suffice to prove.
+
+In the first place, a wireless outfit is about the most dangerous piece
+of equipment which could be carried by such a craft as the Zeppelin
+unless it is exceptionally well protected. As is well known the rigidity
+of this type of airship is dependent upon a large and complicated
+network of aluminium, which constitutes the frame. Such a huge mass
+of metal constitutes an excellent collector of electricity from the
+atmosphere; it becomes charged to the maximum with electricity.
+
+In this manner a formidable contributory source of danger to the airship
+is formed. In fact, this was the reason why "Z-IV" vanished suddenly in
+smoke and flame upon falling foul of the branches of trees during
+its descent. At the time the Zeppelin was a highly charged electrical
+machine or battery as it were, insulated by the surrounding air.
+Directly the airship touched the trees a short circuit was established,
+and the resultant spark sufficed to fire the gas, which is continuously
+exuding from the gas bags.
+
+After this accident minute calculations were made and it was ascertained
+that a potential difference of no less than 100,00 volts existed between
+the framework of the dirigible and the trees. This tension sufficed
+to produce a spark 4 inches in length. It is not surprising that the
+establishment of the electric equilibrium by contact with the trees,
+which produced such a spark should fire the hydrogen inflation charge.
+In fact the heat generated was so intense that the aluminium metallic
+framework was fused. The measurements which were made proved that the
+gas was consumed within 15 seconds and the envelope destroyed within 20
+seconds.
+
+As a result of this disaster endeavours were made to persuade Count
+Zeppelin to abandon the use of aluminium for the framework of his
+balloon but they were fruitless, a result no doubt due to the fact that
+the inventor of the airship of this name has but a superficial
+knowledge of the various sciences which bear upon aeronautics, and fully
+illustrates the truth of the old adage that "a little learning is a
+dangerous thing." Count Zeppelin continues to work upon his original
+lines, but the danger of his system of construction was not lost upon
+another German investigator, Professor Schiitte, who forthwith embarked
+upon the construction of another rigid system, similar to that of
+Zeppelin, at Lanz. In this vessel aluminium was completely abandoned in
+favour of a framework of ash and poplar.
+
+The fact that the aluminium constituted a dangerous collector of
+electricity rendered the installation of wireless upon the Zeppelin not
+only perilous but difficult. Very serious disturbances of an electrical
+nature were set up, with the result that wireless communication between
+the travelling dirigible and the ground below was rendered extremely
+uncertain. In fact, it has never yet been possible to communicate over
+distances exceeding about 150 miles. Apart from this defect, the danger
+of operating the wireless is obvious, and it is generally believed in
+technical circles that the majority of the Zeppelin disasters from fire
+have been directly attributable to this, especially those disasters
+which have occurred when the vessel has suddenly exploded before coming
+into contact with terrestrial obstructions.
+
+In the later vessels of this type the wireless installation is housed
+in a well insulated compartment. This insulation has been carried, to
+an extreme degree, which indicates that at last the authorities have
+recognised the serious menace that wireless offers to the safety of the
+craft, with the result that every protective device to avoid disaster
+from this cause has been freely adopted.
+
+The fact that it is not possible to maintain communication over a
+distance exceeding some 20 miles is a severe handicap to the progressive
+development of wireless telegraphy in this field. It is a totally
+inadequate radius when the operations of the present war are borne in
+mind. A round journey of 200, or even more miles is considered a
+mere jaunt; it is the long distance flight which counts, and which
+contributes to the value of an airman's observations. The general
+impression is that the fighting line or zone comprises merely two or
+three successive stretches of trenches and other defences, representing
+a belt five miles or so in width, but this is a fallacy. The fighting
+zone is at least 20 miles in width; that is to say, the occupied
+territory in which vital movements take place represents a distance of
+20 miles from the foremost line of trenches to the extreme rear, and
+then comes the secondary zone, which may be a further 10 miles or
+more in depth. Consequently the airman must fly at least 30 miles in
+a bee-line to cover the transverse belt of the enemy's field of
+operations. Upon the German and Russian sides this zone is of far
+greater depth, ranging up to 50 miles or so in width. In these
+circumstances the difficulties of ethereal communication 'twixt air and
+earth may be realised under the present limitations of radius from which
+it is possible to transmit.
+
+But there are reasons still more cogent to explain why wireless
+telegraphy has not been used upon a more extensive scale during the
+present campaign. Wireless communication is not secretive. In other
+words, its messages may be picked up by friend and foe alike with
+equal facility. True, the messages are sent in code, which may be
+unintelligible to the enemy. In this event the opponent endeavours to
+render the communications undecipherable to one and all by what is known
+as "jambing." That is to say, he sends out an aimless string of
+signals for the purpose of confusing senders and receivers, and this
+is continued without cessation and at a rapid rate. The result is that
+messages become blurred and undecipherable.
+
+But there is another danger attending the use of wireless upon the
+battlefield. The fact that the stations are of limited range is well
+known to the opposing forces, and they are equally well aware of the
+fact that aerial craft cannot communicate over long distances. For
+instance, A sends his airmen aloft and conversation begins between the
+clouds and the ground. Presently the receivers of B begin to record
+faint signals. They fluctuate in intensity, but within a few seconds B
+gathers that an aeroplane is aloft and communicating with its base. By
+the aid of the field telephone B gets into touch with his whole string
+of wireless stations and orders a keen look-out and a listening ear to
+ascertain whether they have heard the same signals. Some report that the
+signals are quite distinct and growing louder, while others declare that
+the signals are growing fainter and intermittent. In this manner B is
+able to deduce in which direction the aeroplane is flying. Thus if those
+to the east report that signals are growing stronger, while the stations
+on the west state that they are diminishing, it is obvious that the
+aeroplane is flying west to east, and vice versa when the west hears
+more plainly at the expense of the east. If, however, both should report
+that signals are growing stronger, then it is obvious that the aircraft
+is advancing directly towards them.
+
+It was this ability to deduce direction from the sound of the signals
+which led to the location of the Zeppelin which came down at Luneville
+some months previous to the war, and which threatened to develop into a
+diplomatic incident of serious importance. The French wireless stations
+running south-east to north-west were vigilant, and the outer station on
+the north-west side picked up the Zeppelin's conversation. It maintained
+a discreet silence, but communicated by telephone to its colleagues
+behind.
+
+Presently No. 2 station came within range, followed by Nos. 3, 4, 5, 6,
+and so on in turn. Thus the track of the Zeppelin was dogged silently
+through the air by its wireless conversation as easily and as positively
+as if its flight had been followed by the naked eye. The Zeppelin
+travellers were quite ignorant of this action upon the part of the
+French and were surprised when they were rounded-up to learn that they
+had been tracked so ruthlessly. Every message which the wireless of the
+Zeppelin had transmitted had been received and filed by the French.
+
+Under these circumstances it is doubtful whether wireless telegraphy
+between aircraft and the forces beneath will be adopted extensively
+during the present campaign. Of course, should some radical improvement
+be perfected, whereby communication may be rendered absolutely
+secretive, while no intimation is conveyed to the enemy that ethereal
+conversation is in progress, then the whole situation will be changed,
+and there may be remarkable developments.
+
+
+
+CHAPTER XVIII. AIRCRAFT AND NAVAL OPERATIONS
+
+When once the flying machine had indicated its possibilities in
+connection with land operations it was only natural that endeavours
+should be made to adapt it to the more rigorous requirements of the
+naval service. But the conditions are so vastly dissimilar that only a
+meagre measure of success has been recorded. Bomb-throwing from
+aloft upon the decks of battleships appeals vividly to the popular
+imagination, and the widespread destruction which may be caused by
+dropping such an agent down the funnel of a vessel into the boiler-room
+is a favourite theme among writers of fiction and artists. But hitting
+such an objective while it is tearing at high speed through the water,
+from a height of several thousand feet is a vastly different task from
+throwing sticks and balls at an Aunt Sally on terra firma: the target is
+so small and elusive.
+
+Practically it is impossible to employ the flying machine, whether it
+be a dirigible or an aeroplane, in this field. Many factors militate
+against such an application. In the first place there is a very wide
+difference between dry land and a stretch of water as an area over which
+to manoeuvre. So far as the land is concerned descent is practicable at
+any time and almost anywhere. But an attempt to descend upon the open
+sea even when the latter is as calm as the proverbial mill-pond is
+fraught with considerable danger. The air-currents immediately above the
+water differ radically from those prevailing above the surface of
+the land. Solar radiation also plays a very vital part. In fact the
+dirigible dare not venture to make such a landing even if it be provided
+with floats. The chances are a thousand to one that the cars will become
+water-logged, rendering re-ascent a matter of extreme difficulty, if not
+absolutely impossible. On the other hand, the aeroplane when equipped
+with floats, is able to alight upon the water, and to rest thereon for
+a time. It may even take in a new supply of fuel if the elements be
+propitious, and may be able to re-ascend, but the occasions are rare
+when such operations can be carried out successfully.
+
+In operations over water the airman is confronted with one serious
+danger--the risk of losing his bearings and his way. For instance, many
+attempts have been made to cross the North Sea by aeroplane, but only
+one has proved successful so far. The intrepid aviator did succeed in
+passing from the shore of Britain to the coast of Scandinavia. Many
+people suppose that because an airman is equipped with a compass he must
+be able to find his way, but this is a fallacy. The aviator is in the
+same plight as a mariner who is compelled from circumstances to rely
+upon his compass alone, and who is debarred by inclement weather from
+deciding his precise position by taking the sun. A ship ploughing the
+waters has to contend against the action of cross currents, the speed
+of which varies considerably, as well as adverse winds. Unless absolute
+correction for these influences can be made the ship will wander
+considerably from its course. The airman is placed in a worse position.
+He has no means of determining the direction and velocity of the
+currents prevailing in the atmosphere, and his compass cannot give him
+any help in this connection, because it merely indicates direction.
+
+Unless the airman has some means of determining his position, such as
+landmarks, he fails to realise the fact that he is drifting, or, even
+if he becomes aware of this fact, it is by no means a simple
+straightforward matter for him to make adequate allowance for the
+factor. Side-drift is the aviator's greatest enemy. It cannot be
+determined with any degree of accuracy. If the compass were an
+infallible guide the airman would be able to complete a given journey
+in dense fog just as easily as in clear weather. It is the action of the
+cross currents and the unconscious drift which render movement in the
+air during fog as impracticable with safety as manoeuvring through the
+water under similar conditions. More than one bold and skilful aviator
+has essayed the crossing of the English Channel and, being overtaken by
+fog, has failed to make the opposite coast. His compass has given him
+the proper direction, but the side-drift has proved his undoing, with
+the result that he has missed his objective.
+
+The fickle character of the winds over the water, especially over such
+expanses as the North Sea, constitutes another and seriously adverse
+factor. Storms, squalls, gales, and, in winter, blizzards, spring up
+with magical suddenness, and are so severe that no aircraft could hope
+to live in them. But such visitations are more to be dreaded by the
+lighter-than-air than by the heavier-than-air machines. The former
+offers a considerable area of resistance to the tempest and is caught up
+by the whirlwind before the pilot fully grasps the significant chance
+of the natural phenomenon. Once a dirigible is swept out of the hands of
+its pilot its doom is sealed.
+
+On the other hand, the speed attainable by the aeroplane constitutes its
+safety. It can run before the wind, and meantime can climb steadily and
+rapidly to a higher altitude, until at last it enters a contrary wind or
+even a tolerably quiescent atmosphere. Even if it encounters the tempest
+head on there is no immediate danger if the aviator keep cool. This
+fact has been established times out of number and the airman has been
+sufficiently skilful and quick-witted to succeed in frustrating the
+destructive tactics of his natural enemy.
+
+Only a short while ago in France, British airmen who went aloft in a
+gale found the latter too strong for them. Although the machine was
+driven full speed ahead it was forced backwards at the rate of 10 miles
+per hour because the independent speed of the aeroplane was less
+than the velocity of the wind. But a dirigible has never succeeded
+in weathering a gale; its bulk, area, and weight, combined with its
+relatively slow movement, are against it, with the result that it is
+hurled to destruction. All things considered, the dirigible is regarded
+as an impracticable acquisition to a fleet, except in the eyes of the
+Germans, who have been induced to place implicit reliance upon their
+monsters. The gullible Teuton public confidently believes that their
+Dreadnoughts of the air will complete the destruction of the British
+fleet, but responsible persons know full well that they will not play
+such a part, but must be reserved for scouting. Hitherto, in naval
+operations, mosquito water-craft, such as torpedo-boats, have been
+employed in this service. But these swift vessels suffer from one
+serious disability. The range of vision is necessarily limited, and a
+slight mist hanging over the water blinds them; the enemy may even pass
+within half-a-mile of them and escape detection.
+
+The Zeppelin from its position 1,000 feet or more above the water, in
+clear weather, has a tremendous range of vision; the horizon is about 40
+miles distant, as compared with approximately 8 miles in the case of the
+torpedo-boat. Of course an object, such as a battleship, may be detected
+at a far greater range. Consequently the German naval programme is to
+send the Zeppelin a certain distance ahead of the battleship squadron.
+The dirigible from its coign of vantage would be able to sight a hostile
+squadron if it were within visual range and would communicate the fact
+to the commander of the fleet below. The latter would decide his course
+according to information received; thus he would be enabled to elude
+his enemy, or, if the tidings received from the aerial scout should
+be favourable, to dispose his vessels in the most favourable array for
+attack.
+
+The German code of naval tactics does not foreshadow the use of
+dirigible aircraft as vessels of attack. Scouting is the primary and
+indeed the only useful duty of the dirigible, although it is quite
+possible that the aerial craft might participate in a subsequent naval
+engagement, as, indeed, has been the case. Its participation, however,
+would be governed entirely by climatic conditions. The fact that
+the dirigible is a weak unit of attack in naval operations is fully
+appreciated by all the belligerents.
+
+The picture of a sky "black with Zeppelins" may appeal to the popular
+imagination, and may induce the uninitiated to cherish the belief that
+such an array would strike terror into the hearts of the foe, but the
+naval authorities are well aware that no material advantage would accrue
+from such a force. In the first place they would constitute an ideal
+target for the enemy's vessels. They would be compelled to draw within
+range in order to render their own attack effective, and promiscuous
+shooting from below would probably achieve the desired end. One or
+more of the hostile aircraft would be hit within a short while. Such
+disasters would undoubtedly throw the aerial fleet into confusion,
+and possibly might interfere with the tactical developments of its own
+friends upon the water below.
+
+The shells hurled from the Zeppelins would probably inflict but little
+damage upon the warships beneath. Let it be conceded that they weigh
+about 500 pounds, which is two-thirds of the weight of the projectile
+hurled from the Krupp 128-centimetre howitzer. Such a missile would have
+but little destructive effect if dropped from a height of 1,000 feet.
+To achieve a result commensurate with that of the 28-centimetre howitzer
+the airship would have to launch the missile from a height of about
+7,000 feet. To take aim from such an altitude is impossible, especially
+at a rapidly moving target such as a battle-cruiser.
+
+The fact must not be forgotten that Count Zeppelin himself has expressed
+the opinion, the result of careful and prolonged experiments, that his
+craft is practically useless at a height exceeding 5,000 feet. Another
+point must not be overlooked. In a spirited naval engagement the
+combatants would speedily be obliterated from the view of those aloft by
+the thick pall of smoke--the combination of gun-fire and emission from
+the furnaces and a blind attack would be just as likely to damage friend
+as foe.
+
+Even if the aircraft ventured to descend as low as 5,000 feet it would
+be faced with another adverse influence. The discharge of the heavy
+battleship guns would bring about such an agitation of the air above as
+to imperil the delicate equilibrium of an airship. Nor must one overlook
+the circumstance that in such an engagement the Zeppelins would become
+the prey of hostile aeroplanes. The latter, being swifter and nimbler,
+would harry the cumbersome and slow-moving dirigible in the manner of
+a dog baiting a bear to such a degree that the dirigible would be
+compelled to sheer off to secure its own safety. Desperate bravery and
+grim determination may be magnificent physical attributes, ut they
+would have to be superhuman to face the stinging recurrent attacks of
+mosquito-aeroplanes.
+
+The limitations of the Zeppelin, and in fact of all dirigible aircraft,
+were emphasised upon the occasion of the British aerial raid upon
+Cuxhaven. Two Zeppelins bravely put out to overwhelm the cruisers and
+torpedo boats which accompanied and supported the British sea-planes,
+but when confronted with well-placed firing from the guns of the vessels
+below they quickly decided that discretion was the better part of valour
+and drew off. In naval operations the aeroplane is a far more formidable
+foe, although here again there are many limitations. The first and most
+serious is the severely limited radius of action. The aeroplane motor is
+a hungry engine, while the fuel capacity of the tank is restricted. The
+German military authorities speedily realised the significance of this
+factor and its bearing upon useful operations, and forth with carried
+out elaborate endurance tests. In numerable flights were made with the
+express purpose of determining how long a machine could remain in the
+air upon a single fuel supply.
+
+The results of these flights were collated and the achievements of each
+machine in this direction carefully analysed, a mean average drawn
+up, and then pigeon-holed. The results were kept secret, only the more
+sensational records being published to the world. As the policy of
+standardisation in the construction of aeroplanes was adopted the radius
+of action of each type became established. It is true that variations
+of this factor even among vessels exactly similar in every respect are
+inevitable, but it was possible to establish a reliable mean average for
+general guidance.
+
+The archives of the Berlin military department are crowded with facts
+and figures relating to this particular essential, so that the radius of
+action, that is the mileage upon a single fuel charge, of any class and
+type of machine may be ascertained in a moment. The consequence is that
+the military authorities are able to decide the type of aeroplane which
+is best suited to a certain projected task. According to the dossier
+in the pigeon-hole, wherein the results of the type are filed, the
+aeroplane will be able to go so far, and upon arriving at that point
+will be able to accomplish so much work, and then be able to return
+home. Consequently it is dispatched upon the especial duty without any
+feeling of uncertainty.
+
+Unfortunately, these experimental processes were too methodical to prove
+reliable. The endurance data were prepared from tests carried out in
+the aerodrome and from cross-country trials accomplished under ideal or
+fair-weather conditions. The result is that calculations have been often
+upset somewhat rudely by weather conditions of a totally unexpected
+character, which bring home vividly the striking difference between
+theory and practice.
+
+The British and French aviation authorities have not adopted such
+methodical standardisation or rule of thumb inferences, but rather
+have fostered individual enterprise and initiative. This stimulation of
+research has been responsible for the creation of a type of aeroplane
+specially adapted to naval service, and generically known as the water
+plane, the outstanding point of difference from the aeroplane being the
+substitution of canoes or floats for the wheeled chassis peculiar to
+the land machine. The flier is sturdily built, while the floats are
+sufficiently substantial to support the craft upon the water in calm
+weather. Perhaps it was the insular situation of the British nation
+which was responsible for this trend of development, because so far as
+Britain is concerned the sea-going aeroplane is in dispensable. But the
+salient fact remains that to-day the waterplane service of Great Britain
+is the most efficient in the world, the craft being speedy, designed and
+built to meet the rough weather conditions which are experienced around
+these islands, and ideal vessels for patrol and raiding duties.
+
+So far as the British practice is concerned the waterplane is designed
+to operate in conjunction with, and not apart from, the Navy. It has
+been made the eyes of the Navy in the strictest interpretation of the
+term. In any such combination the great difficulty is the establishment
+of what may be termed a mobile base, inasmuch as the waterplane must
+move with the fleet. This end has been achieved by the evolution of
+a means of carrying a waterplane upon, and launching it from, a
+battleship, if necessary.
+
+For this purpose a docking cradle or way has been provided aft where
+the aeroplane may be housed until the moment arrives for its employment.
+Several vessels have been devoted to this nursing duty and are known as
+parent ships to the waterplane service. All that is requisite when the
+time arrives for the use of the seaplane is to lift it bodily by derrick
+or crane from its cradle and to lower it upon the water. It will be
+remembered that the American naval authorities made an experiment with a
+scheme for directly launching the warplane from the deck of a battleship
+in the orthodox, as well as offering it a spot upon which to alight upon
+returning from a flight, while Wing-Commander Samson, R.N., D.S.O., the
+famous British airman, repeated the experiment by flying from a similar
+launching way installed upon H.M.S. Hibernia. But this practice has many
+shortcomings. So far as the British and French navies are concerned, the
+former process is preferred. Again, when the waterplane returns from a
+flight it is admitted that it is simpler, quicker, and safer for it to
+settle upon the water near the parent ship and to be lifted on board.
+
+As a sea-scout the waterplane is overwhelmingly superior to the
+dirigible as events have conclusively proved. Its greater mobility and
+speed stand it in excellent stead because it is able to cover a
+larger area within a shorter space of time than its huge and unwieldy
+contemporary. Furthermore, it is a difficult target to hit and
+accordingly is not so likely to be brought down by hostile fire. There
+is another point in its favour. The experience of the war has proved
+that the numerically inferior enemy prefers to carry out his naval
+operations under the cover of the mist and haze which settle upon the
+water, and yet are of sufficient depth to conceal his identity and
+composition. Such mists as a rule comprise a relatively thin bank of
+low-lying vapour, which while enveloping the surface of the water in an
+impenetrable pall, yet permits the mast-heads of the vessels to stand
+out clearly, although they cannot be detected from the water-level
+or even from the control and fighting tops of a warship. A scouting
+waterplane, however, is able to observe them and note their movement,
+and accordingly can collect useful information concerning the apparent
+composition of the hidden force, the course it is following, its
+travelling speed, and so forth, which it can convey immediately to its
+friends.
+
+The aeroplane has established its value in another manner. Coal-burning
+vessels when moving at any pronounced speed invariably throw off large
+quantities of smoke, which may be detected easily from above, even when
+the vessels themselves are completely hidden in the mist. It was this
+circumstance which revealed the presence of the British squadron in the
+affair of the Bight of Heligoland.
+
+The German airman on patrol duty from the adjacent base on the island of
+Heligoland detected the presence of this smoke, above the low-lying bank
+of fog, although there were no other visible signs of any vessels. Fully
+cognisant of the fact that the German Fleet was at anchor in a safe
+place he naturally divined that the smoke proceeded from a hostile
+squadron, evidently bent upon a raid. He returned to his headquarters,
+conveyed the intelligence he had collected to his superior officers,
+upon receipt of which a German cruiser squadron was sent out and engaged
+the British vessels to its own discomfiture. But for the airman's
+vigilance and smartness there is no doubt that the British squadron
+would have accomplished a great coup.
+
+This incident, however, served to reveal that the aerial scout is prone
+to suffer from over-keenness and to collect only a partial amount
+of information. Upon this occasion the German watchman detected the
+presence of the British torpedo-boat and light cruiser force. Had
+he continued his investigations and made a wider sweep he would have
+discovered the proximity of the British battle-cruiser squadron
+which routed the German force, the latter having acted on incomplete
+information.
+
+While the low-lying sea-fog is the navigator's worst enemy, it is the
+airman's greatest friend and protection. It not only preserves him
+against visual discovery from below, but is an excellent insulator
+of sound, so that his whereabouts is not betrayed by the noise of his
+motor. It is of in calculable value in another way. When a fog prevails
+the sea is generally as smooth as the pro verbial mirror, enabling the
+waterplanes to be brought up under cover to a suitable point from which
+they may be dispatched. Upon their release by climbing to a height of a
+few hundred feet the airmen are able to reach a clear atmosphere, where
+by means of the compass it is possible to advance in approximately the
+desired direction, safe from discovery from below owing to the fog.
+If they are "spotted" they can dive into its friendly depths, complete
+their work, and make for the parent ship.
+
+Low-lying sea-fogs are favourable to aerial raids provided the scout is
+able to catch sight of the upper parts of landmarks to enable him to
+be sure of the correctness of his line of flight-in cases where
+the distance is very short compass direction is sufficiently
+reliable-because the bank of vapour not only constitutes a perfect
+screen, but serves as a blanket to the motor exhaust, if not completely,
+at least sufficiently to mislead those below. Fogs, as every mariner
+will testify, play strange tricks with the transmission of sound. Hence,
+although those on the vessels below might detect a slight hum, it might
+possibly be so faint as to convey the impression that the aviator was
+miles away, when, as a matter of fact, he was directly overhead. This
+confusion arising from sound aberration is a useful protection in
+itself, as it tends to lure a naval force lying in or moving through the
+fog into a false sense of security.
+
+The development of the submarine revealed the incontrovertible fact
+that this arm would play a prominent part in future operations upon the
+water: a presage which has been adequately fulfilled during the
+present conflict. The instinct of self-preservation at once provoked
+a discussion of the most effective ways and means of disguising its
+whereabouts when it travels submerged. To this end the German naval
+authorities conducted a series of elaborate and interesting experiments
+off the island of Heligoland. As is well known, when one is directly
+above a stretch of shallow water, the bottom of the latter can be seen
+quite distinctly. Consequently, it was decided to employ aerial craft
+as detectives. Both the aeroplane and the dirigible took part in these
+experiments, being flown at varying heights, while the submarine was
+maneouvred at different depths immediately below. The sum of these
+investigations proved conclusively that a submarine may be detected from
+aloft when moving at a depth of from 30 to 40 feet. The outline of the
+submerged craft is certainly somewhat blurred, but nevertheless it is
+sufficiently distinct to enable its identity to be determined really
+against the background or bottom of the sea. To combat this detection
+from an aerial position it will be necessary inter alia to evolve a
+more harmonious or protective colour-scheme for the submarine. Their
+investigations were responsible for the inauguration of the elaborate
+German aerial patrol of harbours, the base for such aerial operations
+being established upon the island of Heligoland.
+
+So far the stern test of war as applied to the science of aeronautics
+has emphasised the fact that as a naval unit the dirigible is a complete
+failure. Whether experience will bring about a modification of these
+views time alone will show, but it is certain that existing principles
+of design will have to undergo a radical revision to achieve any notable
+results. The aeroplane alone has proved successful in this domain, and
+it is upon this type of aerial craft that dependence will have to be
+placed.
+
+
+
+CHAPTER XIX. THE NAVIES of THE AIR
+
+Less than three years ago the momentous and spectacular race among
+the Powers of Europe for the supremacy of the air began. At first the
+struggle was confined to two rivals--France and Germany--but as time
+progressed and the importance of aerial fleets was recognised, other
+nations, notably Great Britain, entered the field.
+
+Germany obtained an advantage. Experiment and research were taken up at
+a point which had been reached by French effort; further experiments and
+researches were carried out in German circles with secret and feverish
+haste, with the result that within a short time a pronounced degree of
+efficiency according to German ideals had been attained. The degree of
+perfection achieved was not regarded with mere academic interest; it
+marked the parting of the ways: the point where scientific endeavour
+commanded practical appreciation by turning the success of the laboratory
+and aerodrome into the channel of commercial manufacture. In other
+words, systematic and wholesale production was undertaken upon an
+extensive scale. The component parts were standardised and arrangements
+were completed with various establishments possessed of the most
+suitable machinery to perfect a programme for turning out aeronautical
+requirements in a steady, continuous stream from the moment the crisis
+developed.
+
+The wisdom of completing these arrangements in anticipation is now
+apparent. Upon the outbreak of hostilities many German establishments
+devoted to the production of articles required in the infinite
+ramifications of commerce found themselves deprived of their markets,
+but there was no risk that their large plants would be brought to a
+standstill: the Government ordered the manufacture of aeroplane parts
+and motors upon an extensive scale. In this manner not only were
+the industrial establishments kept going, but their production of
+aeronautical requirements relieved those organisations devoted to the
+manufacture of armaments, so that the whole resources and facilities of
+these could be concentrated upon the supply of munitions of war.
+
+In France the air-fleet, although extensive upon the outbreak of war,
+was somewhat heterogeneous. Experiment was still being pursued: no type
+had met with definite official recognition, the result being that
+no arrangements had been completed for the production of one or more
+standard types upon an elaborate scale comparable with that maintained
+by Germany. In fact some six months after the outbreak of war there was
+an appreciable lack of precision on this point in French military.
+Many of the types which had established their success were forbidden by
+military decree as mentioned in a previous chapter, while manufacturing
+arrangements were still somewhat chaotic.
+
+Great Britain was still more backward in the new movement. But this
+state of affairs was in a measure due to the division of the Fourth Arm
+among the two services. A well-organised Government manufactory for
+the production of aeroplanes and other aircraft necessities had been
+established, while the private manufacturers had completed preparations
+for wholesale production. But it was not until the Admiralty accepted
+responsibility for the aerial service that work was essayed in grim
+earnest.
+
+The allocation of the aerial responsibilities of Great Britain to
+the Admiralty was a wise move. Experience has revealed the advantages
+accruing from the perfection of homogeneous squadrons upon the water,
+that is to say groups of ships which are virtually sister-craft of
+identical speed, armament, and so on, thus enabling the whole to act
+together as a complete effective unit. As this plan had proved so
+successful upon the water, the Admiralty decided to apply it to the
+fleet designed for service in the air above.
+
+At the time this plan of campaign was definitely settled Great Britain
+as an aerial power was a long way behind her most formidable rival, but
+strenuous efforts were made to reduce the handicap, and within a
+short while the greater part of this leeway had been made up. Upon the
+outbreak of war Great Britain undoubtedly was inferior to Germany
+in point of numbers of aircraft, but the latter Power was completely
+outclassed in efficiency, and from the point of view of PERSONNEL. The
+British had developed the waterplane as an essential auxiliary to naval
+operations, and here was in advance of her rival, who had practically
+neglected this line of experiment and evolution, resting secure in the
+assurance of her advisers that the huge dirigibles would be adequate for
+all exigencies on the water.
+
+Indeed, when war was declared, all the Powers were found more or less
+wanting so far as their aerial fleets were concerned. If Germany's huge
+aerial navy had been in readiness for instant service when she invaded
+Belgium, she would have overcome that little country's resistance in a
+far shorter time and with much less waste of life. It was the Belgians
+who first brought home to the belligerents the prominent part that
+aircraft were destined to play in war, and the military possibilities of
+the aeroplane. True, the Belgians had a very small aerial navy, but
+it was put to work without delay and accomplished magnificent results,
+ascertaining the German positions and dispositions with unerring
+accuracy and incredible ease, and thus enabling the commander of the
+Belgian Army to dispose his relatively tiny force to the best advantage,
+and to offer the most effective resistance.
+
+Great Britain's aerial navy, while likewise some what small, was also
+ready for instant service. The British Expeditionary force was supported
+by a very efficient aerial fleet, the majority of the vessels forming
+which flew across the Channel at high speed to the British headquarters
+in France so as to be available directly military preparations were
+begun, and the value of this support proved to be inestimable, since it
+speedily demoralised the numerically superior enemy.
+
+France, like Germany, was somewhat dilatory, but this was attributable
+rather to the time occupied in the mobilisation of the Fourth Arm than
+to lack of energy. There were a round 1,500 aeroplanes ostensibly
+ready for service, in addition to some 26 dirigibles. But the fleet
+was somewhat scattered, while many of the craft were not immediately
+available, being in the shops or in dock for repairs and overhaul.
+During the period of mobilisation the so-called standing military force
+was augmented by about 500 machines which were acquired from private
+owners. The aeroplane factories were also, overhauled and re-organised
+so as to be in a position to remedy the inevitable wastage, but these
+organisation efforts were somewhat handicapped by the shortage of labour
+arising from the call to arms. France, moreover, imperilled her aerial
+strength by forbidding the use of 558 machines which were ready for
+service.
+
+Germany's aerial fleet was of similar proportions to that of her Gallic
+neighbour, but curiously enough, and in strange contrast, there appeared
+to be a lack of readiness in this ramification of the Teuton
+war machine. The military establishment possessed about 1,000
+machines--active and reserve--of which it is estimated 700 were
+available for instant service. During the period of mobilisation a
+further 450 machines were added to the fleet, drawn for the most
+part from private owners. So far as the dirigibles were concerned 14
+Zeppelins were ready for duty, while others were under construction
+or undergoing overhaul and repair. A few other types were also in
+commission or acquired during mobilisation, bringing the dirigible force
+to 40 machines all told.
+
+But the greatest surprise was probably offered by Russia. Very little
+was known concerning Russian activities in this particular field,
+although it was stated that large orders for machines had been placed
+with various foreign manufactories. Certain factories also had been
+established within the Empire, although the character of their work and
+its results and achievements were concealed from prying eyes. In Russia,
+however, an appreciable number of private aeroplanes were in operation,
+and these, of course, were placed at the disposal of the authorities the
+moment the crisis developed.
+
+The British and French aeroplane manufacturers had been busy upon
+Russian orders for many months previous to the outbreak of hostilities,
+while heavy shipments of component parts had been made, the assembling
+and completion of the machines being carried out in the country. It is
+generally believed that upon the outbreak of war Russia had a fleet of
+800 aeroplanes in hand, of which total 150 were contributed from private
+sources. Even the dirigible had not been overlooked, there being nearly
+20 of these craft attached to the Russian Army, although for the most
+part they are small vessels.
+
+In comparison with the foregoing large aerial navies, that of Great
+Britain appeared to be puny. At the moment Great Britain possesses about
+500 machines, of which about 200 are waterplanes. In addition, according
+to the Secretary of the Admiralty, 15 dirigibles should be in service.
+Private enterprise is supported by the Government, which maintains a
+factory for the manufacture of these craft.
+
+During the two years preceding the outbreak of war the various Powers
+grew remarkably reticent concerning the composition and enlargement of
+their respective aerial fleets. No official figures were published.
+But at the same time it is a well-known fact that during the year 1913
+France augmented her flying force by no fewer than 544 aeroplanes.
+Germany was no less energetic, the military acquisition in this branch,
+and during the self-same year, approaching 700 machines according to the
+semi-official reports published in that country.
+
+The arrangements concluded for the manufacture of additional craft
+during the war are equally remarkable. The principal factory in Germany,
+(now devoting its energies to the production of these craft, although in
+happier days its normal complement of 4,000 men were responsible for
+the production of another commercial article) possesses facilities for
+turning out 30 complete aeroplanes per week, according to the statement
+of its managing director. But it is averred that this statement is
+purposely misleading, inasmuch as during the first fortnight of the
+campaign it was producing over 50 aeroplanes per week. It must be
+remembered that Germany is responsible for the supply of the majority of
+such craft for the Austrian armies, that country purchasing these vessels
+in large numbers, because in the early days of the conflict it was
+notoriously weak in this arm. Since the declaration of war strenuous
+efforts have been made to remedy this state of affairs, particularly
+upon the unexpected revelation of Russia's aerial strength.
+
+It is computed that upon the outbreak of war the various Powers were in
+the position to show an aggregate of 4,980 aircraft of all descriptions,
+both for active service and reserve. This is a colossal fleet, but it
+serves to convey in a graphic manner the importance attached to the
+adrial vessel by the respective belligerents. So far as Germany is
+concerned she is sorely in need of additional machines. Her fleet of the
+air has lost its formidable character, owing to the fact that it has to
+be divided between two frontiers, while she has been further weakened by
+the enormous lengths of the two battle-fronts.
+
+Russia has been able to concentrate her aerial force, which has proved
+of incalculable value to the Grand Duke Nicholas, who has expressed his
+appreciation of the services rendered by his fliers. The French likewise
+have been favoured by Fortune in this respect. Their aerial navy is
+likewise concentrated upon a single frontier, although a pronounced
+proportion has been reserved for service upon the Mediterranean
+sea-board for co-operation with the fleet. France suffers, however, to
+a certain degree from the length of her battle-line, which is over 200
+miles in length. The French aerial fleet has been particularly active
+in the Vosges and the Argonne, where the difficult, mountainous, and
+densely wooded country has rendered other systems of observation of
+the enemy's movements a matter of extreme difficulty. The Germans have
+laboured under a similar handicap in this territory, and have likewise
+been compelled to centre a considerable proportion of their aerial fleet
+upon this corner of the extended battlefield.
+
+It is in this region that the greatest wastage has been manifest. I
+have been informed by one correspondent who is fighting in this sternly
+contested area, that at one time a daily loss of ten German machines
+was a fair average, while highwater mark was reached, so far as his own
+observations and ability to glean information were concerned by the loss
+of 19 machines during a single day. The French wastage, while not so
+heavy upon the average, has been considerable at times.
+
+The term wastage is somewhat misleading, if not erroneous. It does not
+necessarily imply the total loss of a machine, such as its descent
+upon hostile territory, but includes damage to machines, no matter how
+slight, landing within their own lines. In the difficult country of the
+Vosges many aeroplanes have come to earth somewhat heavily, and have
+suffered such damage as to render them inoperative, compelling their
+removal from the effective list until they have undergone complete
+overhaul or reconstruction. Upon occasions this wastage has been so
+pronounced that the French aviators, including some of the foremost
+fliers serving with the forces, have been without a machine and have
+been compelled to wait their turn.
+
+I am informed that one day four machines, returning from a
+reconnaissance in force, crashed successively to the ground, and each
+had to be hauled away to the repair sheds, necessitating withdrawal
+from service for several days. Unfortunately the French, owing to their
+decision to rule out certain machines as unsuited to military service,
+have not yet perfected their organisation for making good this wastage,
+although latterly it has been appreciably reduced by greater care among
+the aviators in handling their vessels.
+
+The fast vessels of the French aerial fleet have proved exceptionally
+valuable. With these craft speeds of 95 and 100 miles or more per hour
+have been attained under favourable conditions, and pace has proved
+distinctly advantageous, inasmuch as it gives the French aviators a
+superiority of about 40 per cent over the average German machine. It
+was the activity and daring of the French fliers upon these high speed
+machines which induced the German airmen to change their tactics.
+Individual effort and isolated raiding operations were abandoned in
+favour of what might be described as combined or squadron attack. Six
+or eight machines advancing together towards the French lines somewhat
+nonplussed these fleet French mosquito craft, and to a certain degree
+nullified their superiority in pace. Speed was discounted, for the
+simple reason that the enemy when so massed evinced a disposition to
+fight and to follow harassing tactics when one of the slowest French
+machines ventured into the air.
+
+It is interesting to observe that aerial operations, now that they are
+being conducted upon what may be termed methodical lines as distinct
+from corsair movements, are following the broad fundamental principles
+of naval tactics. Homogeneous squadrons, that is, squadrons composed
+of vessels of similar type and armament, put out and follow roughly
+the "single line ahead" formation. Upon sighting the enemy there is the
+manoeuvring for position advantage which must accrue to the speedier
+protagonist. One then, witnesses what might almost be described as an
+application of the process of capping the line or "crossing the 'T.'"
+This tends to throw the slower squadron into confusion by bending it
+back upon itself, meanwhile exposing it to a demoralizing fire.
+
+The analogy is not precisely correct but sufficiently so to indicate
+that aerial battles will be fought much upon the same lines, as
+engagements between vessels upon the water. If the manoeuvres accomplish
+nothing beyond breaking up and scattering the foe, the result is
+satisfactory in as much as in this event it is possible to exert a
+driving tendency and to force him back upon the lines of the superior
+force, when the scattered vessels may be brought within the zone of
+spirited fire from the ground.
+
+Attacks in force are more likely to prove successful than individual
+raiding tactics, as recent events upon the battlefield of Europe have
+demonstrated more or less convincingly. An attack in force is likely to
+cause the defenders upon the ground beneath to lose their heads and to
+fire wildly and at random, with the result that the airmen may achieve
+their object with but little damage to themselves. This method of
+attacking in force was essayed for the first time by the British aerial
+fleet, which perhaps is not surprising, seeing that the machines are
+manned and the operations supervised by officers who have excelled in
+naval training, and who are skilled in such movements.
+
+No doubt this practice, combined with the daring of the British
+aviators, contributed very materially to the utter demoralisation of the
+German aerial forces, and was responsible for that hesitancy to attack
+a position in the vicinity of the British craft which became so manifest
+in the course of a few weeks after the outbreak of hostilities.
+
+One of the foremost military experts of the United States, who passed
+some time in the fighting zone, expressed his opinion that the
+British aerial force is the most efficient among the belligerents when
+considered as a unit, the French flier being described by the same
+authority as most effective when acting individually, owing to personal
+intrepidity. As a scout the French aviator is probably unequalled,
+because he is quick to perceive and to collect the data required, and
+when provided with a fast machine is remarkably nimble and venturesome
+in the air. The British aviators, however, work as a whole, and in the
+particular phases where such tactics are profitable have established
+incontestable superiority. At first the German aerial force appeared
+to possess no settled system of operation. Individual effort was
+pronounced, but it lacked method. The Germans have, however, profited
+from the lessons taught by their antagonists, and now are emulating
+their tactics, but owing to their imperfect training and knowledge the
+results they achieve appear to be negligible.
+
+The dirigible still remains an unknown quantity in these activities,
+although strange to relate, in the early days of the war, the work
+accomplished by the British craft, despite their comparatively low speed
+and small dimensions, excelled in value that achieved by the
+warplanes. This was particularly noticeable in matters pertaining to
+reconnaissance, more especially at night, when the British vessels often
+remained for hours together in the air, manoeuvring over the hostile
+lines, and gathering invaluable information as to the disposition and
+movements of the opposing forces.
+
+But it is probably in connection with naval operations that the British
+aerial fleet excels. The waterplanes have established their supremacy
+over the naval dirigible in a striking manner. British endeavour
+fostered the waterplane movement and has carried it to a high degree
+of perfection. The waterplane is not primarily designed to perform long
+flights, although such may be carried out if the exigencies demand. The
+practice of deputing certain vessels to art as "parent ships" to a
+covey of waterplanes has proved as successful in practice, as in theory.
+Again, the arrangements for conveying these machines by such means to a
+rendezvous, and there putting them into the water to complete a certain
+duty, have been triumphantly vindicated. At the time this idea was
+embraced it met with a certain degree of hostile criticism: it was
+argued that the association of the two fighting, machines would tend
+towards confusion, and impair the efficiency of both.
+
+Practice has refuted this theory. The British aerial raids upon Cuxhaven
+and other places would have been impossible, and probably valueless as
+an effective move, but for the fact that it was possible to release the
+machines from a certain point upon the open sea, within easy reach of
+the cooperating naval squadron. True, the latter was exposed to hostile
+attack from submarines, but as results proved this was easy to repel.
+The aircraft were enabled to return to their base, as represented by the
+rendezvous, to be picked up, and to communicate the intelligence gained
+from their flight to the authorities in a shorter period of time than
+would have been possible under any other circumstances, while the risk
+to the airmen was proportionately reduced.
+
+The fact that the belligerents have built up such huge aerial navies
+conclusively proves that the military value of the Fourth Arm has been
+fully appreciated. From the results so far achieved there is every
+indication that activity in this direction will be increased rather than
+diminished.
+
+
+
+
+
+End of the Project Gutenberg EBook of Aeroplanes and Dirigibles of War, by 
+Frederick A. Talbot
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+
+Aeroplanes and Dirigibles of War
+Frederick A. Talbot
+
+
+
+PREFACE
+
+Ever since the earliest days of the great conquest of the air,
+first by the dirigible balloon and then by the aeroplane, their
+use in time of war has been a fruitful theme for discussion.  But
+their arrival was of too recent a date, their many utilities too
+unexplored to provide anything other than theories, many
+obviously untenable, others avowedly problematical.
+
+Yet the part airships have played in the Greatest War has come as
+a surprise even to their most convinced advocates.  For every
+expectation shattered, they have shown a more than compensating
+possibility of usefulness.
+
+In this volume an endeavour has been made to record their
+achievements, under the stern test of trial, as an axiom of war,
+and to explain, in untechnical language, the many services to
+which they have been and may be applied.
+
+In the preparation of the work I have received assistance from
+many sources--British, French, Russian and German--from official
+reports and from men who have played a part in the War in the
+Air.  The information concerning German military aircraft has
+been obtained from Government documents, most of which were
+placed at my disposal before the outbreak of war.
+
+The use of aircraft has changed the whole art and science of
+warfare.  With its disabilities well in hand, with its strength
+but half revealed, the aerial service has revolutionised strategy
+and shorn the unexpected attack of half its terrors.  The Fourth
+Arm is now an invaluable part of the complex military machine.
+
+F. A. TALBOT.
+
+
+
+                     CONTENTS
+CHAPTER
+I.     The introduction of aircraft into military operations
+II.    The military uses of the captive balloon
+III.   Germany's rise to military airship supremacy
+IV.    Airships of war
+V.     Germany's aerial dreadnought fleet
+VI.    The military value of Germany's aerial fleet
+VII.   Aeroplanes of war
+VIII.  Scouting from the skies
+IX.    The airman and artillery
+X.     Bomb-throwing from air-craft
+XI.    Armoured aeroplanes
+XII.   Battles in the air
+XIII.  Tricks and ruses to baffle the airman
+XIV.   Anti-aircraft guns. Mobile weapons
+XV.    Anti-aircraft guns. Immobile weapons
+XVI.   Mining the air
+XVII.  Wireless in aviation
+XVIII. Aircraft and naval operations
+XIX.   The navies of the air
+
+
+
+CHAPTER I
+THE INTRODUCTION OF AIRCRAFT INTO MILITARY OPERATIONS
+
+It is a curious circumstance that an invention, which is hailed
+as being one of the greatest achievements ever recorded in the
+march of civilisation, should be devoted essentially to the
+maiming of humanity and the destruction of property.  In no
+other trend of human endeavour is this factor so potently
+demonstrated as in connection with Man's Conquest of the Air.
+
+The dogged struggle against the blind forces of Nature was waged
+tenaciously and perseveringly for centuries.  But the measure of
+success recorded from time to time was so disappointing as to
+convey the impression, except in a limited circle, that the
+problem was impossible of solution.  In the meantime wondrous
+changes had taken place in the methods of transportation by land
+and sea.  The steam and electric railway, steam propulsion of
+vessels, and mechanical movement along the highroads had been
+evolved and advanced to a high standard of perfection, to the
+untold advantage of the community.  Consequently it was argued,
+if only a system of travel along the aerial highways could be
+established, then all other methods of mechanical transportation
+would be rendered, if not entirely obsolete, at least antiquated.
+
+At last man triumphed over Nature--at least to such a degree as
+to inspire the confidence of the world at large, and to bring
+aerial travel and transportation within range of realisation.  
+But what has been the result?  The discovery is not devoted to
+the interests of peace and economic development, but to
+extermination and destruction.
+
+At the same time this development may be explained.  The airship
+and aeroplane in the present stage of evolution possess no
+economic value.  True, cross-country cruises by airship have been
+inaugurated, and, up to a point, have proved popularly, if not
+commercially, successful, while tentative efforts have been made
+to utilise the aeroplane as a mail-carrier.  Still, from the
+view-point of the community at large aerial travel is as remote
+as it was centuries ago.
+
+It is somewhat interesting to observe how history is repeating
+itself.  When the Montgolfiers succeeded in lifting themselves
+into the air by means of a vessel inflated with hot air, the new
+vehicle was hailed not so much as one possessed of commercial
+possibilities, but as an engine of war! When the indomitable
+courage and perseverance of Count von Zeppelin in the face of
+discouraging disasters and flagrant failures, at last commanded
+the attention of the German Emperor, the latter regarded the
+Zeppelin craft, not from the interests of peace, but as a
+military weapon, and the whole of the subsequent efforts of the
+Imperial admirer were devoted to the perfection of the airship in
+this one direction.
+
+Other nations, when they embarked on an identical line of
+development, considered the airship from a similar point of view.
+In fact, outside Germany, there was very little private
+initiative in this field.  Experiments and developments were
+undertaken by the military or naval, and in some instances by
+both branches, of the respective Powers.  Consequently the aerial
+craft, whether it be a dirigible airship, or an aeroplane, can
+only be regarded from the military point of view.
+
+Despite the achievements which have been recorded by human
+endeavour in the field of aerial travel, the balloon per se has
+by no means been superseded.  It still remains an invaluable
+adjunct to the fighting machine.  In Great Britain its value in
+this direction has never been ignored: of late, indeed, it has
+rather been developed.  The captive balloon is regarded as an
+indispensable unit to both field and sea operations.  This fact
+was emphasised very strongly in connection with the British naval
+attacks upon the German forces in Flanders, and it contributed to
+the discomfiture of the German hordes in a very emphatic manner.
+
+The captive balloon may be operated from any spot where
+facilities exist for anchoring the paying out cable together with
+winding facilities for the latter.  Consequently, if exigencies 
+demand, it maybe operated from the deck of a warship so long as the
+latter is stationary, or even from an automobile.  It is of small
+cubic capacity, inasmuch as it is only necessary for the bag to
+contain sufficient gas to lift one or two men to a height of about
+500 or 600 feet.
+
+When used in the field the balloon is generally inflated at the
+base, to be towed or carried forward by a squad of men while
+floating in the air, perhaps at a height of 10 feet.  A dozen men
+will suffice for this duty as a rule, and in calm weather little
+difficulty is encountered in moving from point to point.  This
+method possesses many advantages.  The balloon can be inflated
+with greater ease at the base, where it is immune from
+interference by hostile fire.  Moreover, the facilities for
+obtaining the requisite inflating agent--hydrogen or coal gas--
+are more convenient at such a point.  If the base be far removed
+from the spot at which it is desired to operate the balloon, the
+latter is inflated at a convenient point nearer the requisite
+position, advantage being taken of the protective covering
+offered by a copse or other natural obstacle.
+
+As is well known, balloons played an important part during the
+siege of Paris in 1870-1, not only in connection with daring
+attempts to communicate with the outer world, but in
+reconnoitring the German positions around the beleaguered city.  
+But this was not the first military application of the aerial
+vessel; it was used by the French against the Austrians in the
+battle of Fleurus, and also during the American Civil War.  These
+operations, however, were of a sporadic character; they were not
+part and parcel of an organised military section.
+
+It is not generally known that the British War office virtually
+pioneered the military use of balloons, and subsequently the
+methods perfected in Britain became recognised as a kind of
+"standard" and were adopted generally by the Powers with such
+modifications as local exigencies seemed to demand.
+
+The British military balloon department was inaugurated at
+Chatham under Captain Templer in 1879.  It was devoted
+essentially to the employ ment of captive balloons in war, and in
+1880 a company of the Royal Engineers was detailed to the care of
+this work in the field.  Six years previously the French military
+department had adopted the captive balloon under Colonel
+Laussedat, who was assisted among others by the well-known
+Captain Renard.  Germany was somewhat later in the field; the
+military value of captive balloons was not appreciated and taken
+into serious consideration here until 1884.  But although British
+efforts were preceded by the French the latter did not develop
+the idea upon accepted military lines.
+
+The British authorities were confronted with many searching
+problems.  One of the earliest and greatest difficulties
+encountered was in connection with the gas for inflation.  Coal
+gas was not always readily available, so that hydrogen had to be
+depended upon for the most part.  But then another difficulty
+arose.  This was the manufacture of the requisite gas.  Various
+methods were tested, such as the electrolytic decomposition of
+water, the decomposition of sulphuric acid by means of iron, the
+reaction between slaked lime and zinc, and so forth.
+
+But the drawbacks to every process, especially upon the field of
+battle, when operations have to be conducted under extreme
+difficulties and at high pressure, were speedily recognised.
+While other nations concentrated their energies upon the
+simplification of hydrogen-manufacturing apparatus for use upon
+the battle-field, Great Britain abandoned all such processes in
+toto.  Our military organisation preferred to carry out the
+production of the necessary gas at a convenient manufacturing
+centre and to transport it, stored in steel cylinders under
+pressure, to the actual scene of operations.  The method proved a
+great success, and in this way it was found possible to inflate a
+military balloon in the short space of 20 minutes, whereas, under
+the conditions of making gas upon the spot, a period of four
+hours or more was necessary, owing to the fact that the
+manufacturing process is relatively slow and intricate.  The
+practicability of the British idea and its perfection served to
+establish the captive balloon as a military unit.
+
+The British military ballooning department has always ranked as
+the foremost of its type among the Powers, although its work has
+been carried out so unostentatiously that the outside world has
+gleaned very little information concerning its operations.  
+Captain Templer was an indefatigable worker and he brought the
+ballooning section to a high degree of efficiency from the
+military point of view.
+
+But the British Government was peculiarly favoured, if such a
+term may be used.  Our little wars in various parts of the world
+contributed valuable information and experience which was fully
+turned to account.  Captive balloons for reconnoitring purposes
+were used by the British army for the first time at Suakim in
+1885, and the section established its value very convincingly.  
+The French military balloon department gained its first
+experience in this field in the previous year, a balloon
+detachment having been dispatched to Tonkin in 1884.  In both the
+Tonkin and Soudan campaigns, invaluable work was accomplished by
+the balloon sections, with the result that this aerial vehicle
+has come to be regarded as an indispensable military adjunct.  
+Indeed the activity of the German military ballooning section was
+directly attributable to the Anglo-French achievements therewith.
+
+In this work, however, the British force speedily displayed its
+superiority and initiative.  The use of compressed hydrogen was
+adopted, and within the course of a few years the other Powers,
+realising the advantages which the British department had thus
+obtained, decided to follow its example.  The gas is stored in
+cylinders under a pressure varying from six to ten or more
+atmospheres; in other words from about 80 to 140 or more pounds 
+per square inch.  Special military wagons have been designed for
+the transport of these cylinders, and they are attached to the
+balloon train.
+
+The balloon itself is light, and made of such materials as to
+reduce the weight thereof to the minimum.  The British balloons
+are probably the smallest used by any of the Powers, but at the
+same time they are the most expensive.  They are made of
+goldbeater's skin, and range in capacity from 7,000 to 10,000
+cubic feet, the majority being of the former capacity.  The
+French balloon on the other hand has a capacity exceeding 18,000
+cubic feet, although a smaller vessel of 9,000 cubic feet
+capacity, known as an auxiliary, and carrying a single observer,
+is used.
+
+The Germans, on the other hand, with their Teutonic love of the
+immense, favour far larger vessels.  At the same time the
+military balloon section of the German Army eclipses that of any
+other nations is attached to the Intelligence Department, and is
+under the direct control of the General Staff.  Balloon stations 
+are dotted all over thecountry, including Heligoland and Kiel,
+while regular sections are attached to the Navy for operating
+captive balloons from warships.  Although the Zeppelin and
+aeroplane forces have come to the front in Germany, and have
+relegated the captive balloon somewhat to the limbo of things
+that were, the latter section has never been disbanded; in fact,
+during the present campaign it has undergone a somewhat spirited
+revival.
+
+The South African campaign emphasised the value of the British
+balloon section of the Army, and revealed services to which it
+was specially adapted, but which had previously more or less been
+ignored.  The British Army possessed indifferent maps of the
+Orange Free State and the Transvaal.  This lamentable deficiency
+was remedied in great measure by recourse to topographical
+photographs taken from the captive balloons.  The guides thus
+obtained were found to be of extreme value.
+
+During the early stages of the war the hydrogen was shipped in
+cylinders from the homeland, but subsequently a manufacturing
+plant of such capacity as to meet all requirements was
+established in South Africa.  The cylinders were charged at
+this point and dispatched to the scene of action, so that it
+became unnecessary to transport the commodity from Britain.  The
+captive balloon revealed the impregnability of Spion Kop, enabled
+Lord Roberts to ascertain the position of the Boer guns at the
+Battle of Paardeburg, and proved of invaluable assistance to the
+forces of General White during the siege of Ladysmith.
+
+
+
+CHAPTER II
+THE MILITARY USES of THE CAPTIVE BALLOON
+
+Although the captive balloon is recognised as indispensable in
+military operations, its uses are somewhat limited.  It can be
+employed only in comparatively still weather.  The reason is
+obvious.  It is essential that the balloon should assume a
+vertical line in relation to its winding plant upon the ground
+beneath, so that it may attain the maximum elevation possible: in
+other words, the balloon should be directly above the station
+below, so that if 100 yards of cable are paid out the aerostat
+may be 100 yards above the ground.  If a wind is blowing, the
+helpless craft is certain to be caught thereby and driven
+forwards or backwards, so that it assumes an angle to its
+station.  If this become acute the vessel will be tilted,
+rendering the position of the observers somewhat precarious, and
+at the same time observing efficiency will be impaired.
+
+This point may be appreciated more easily by reference to the
+accompanying diagram.  A represents the ground station and B
+the position of the captive balloon when sent aloft in calm
+weather, 300 feet of cable being paid out.  A wind arises and
+blows the vessel forward to the position C.  At this point the
+height of the craft in relation to the ground has been reduced,
+and the reduction must increase proportionately as the strength
+of the wind increases and forces the balloon still more towards
+the ground.  At the same time, owing to the tilt given to the
+car, observation is rendered more difficult and eventually
+becomes extremely dangerous.
+
+A wind, if of appreciable strength, develops another and graver
+danger.  Greater strain will be imposed upon the cable, while if
+the wind be gusty, there is the risk that the vessel will be torn
+away from its anchoring rope and possibly lost.  Thus it will be
+seen that the effective utilisation of a captive balloon is
+completely governed by meteorological conditions, and often it is
+impossible to use it in weather which exercises but little
+influence upon dirigibles or aeroplanes.
+
+The captive balloon equipment comprises the balloon, together
+with the observer's basket, the wire-cable whereby it is anchored
+and controlled, and the winding apparatus.  Formerly a steam
+engine was necessary for the paying in and out of the cable, but
+nowadays this is accomplished by means of a petrol-driven motor,
+an oil-engine, or even by the engine of an automobile.  The
+length of cable varies according to the capacity of the balloon
+and the maximum operating height.
+
+The average British balloon is able to lift about 290 or 300
+pounds, which may be taken to represent the weight of two
+observers.  On the other hand, the French and German balloons are
+able to carry four times this weight, with the exception of the
+French auxiliaries, which are designed to lift one observer only.
+The balloons of the two latter Powers have also a greater maximum
+altitude; it is possible to ascend to a height of some 2,000 feet
+in one of these.
+
+The observing station is connected with the winding crew below
+either by a telephone, or some other signalling system, the
+method practised varying according to circumstances.  In turn the
+winding station is connected with the officer in charge of the
+artillery, the fire of which the captive balloon is directing.  
+The balloon observer is generally equipped with various
+instruments, such as telescope, photographic cameras, and so
+forth, so as to be able, if necessary, to prepare a topographical
+survey of the country below.  By this means the absence of
+reliable maps may be remedied, or if not regarded, as
+sufficiently correct they may be checked and counter-checked by
+the data gained aloft.
+
+Seeing that the gas has to be transported in cylinders, which are
+weighty, it is incumbent that the waste of this commodity should
+be reduced to the minimum.  The balloon cannot be deflated at
+night and re-inflated in the morning--it must be maintained in
+the inflated condition the whole time it is required for
+operation.
+
+There are various methods of consummating this end.  One method
+is to haul in the balloon and to peg it down on all sides,
+completing the anchorage by the attachment of bags filled with
+earth to the network.  While this process is satisfactory in calm
+weather, it is impracticable in heavy winds, which are likely to
+spring up suddenly.  Consequently a second method is practised.  
+This is to dig a pit into the ground of sufficient size to
+receive the balloon.  When the latter is hauled in it is lowered
+into this pit and there pegged down and anchored.  Thus it is
+perfectly safe during the roughest weather, as none of its bulk
+is exposed above the ground level.  Furthermore it is not a
+conspicuous object for the concentration of hostile fire.
+
+In some instances, and where the military department is possessed
+of an elaborate equipment such as characterises the German army,
+when reconnaissance is completed and the balloon is to be removed
+to another point, the gas is pumped back into the cylinders for
+further use.  Such an economical proceeding is pretty and well
+adapted to manoeuvres, but it is scarcely feasible in actual
+warfare, for the simple reason that the pumping takes time.
+Consequently the general procedure, when the balloon has
+completed its work, is to permit the gas to escape into the air
+in the usual manner, and to draw a fresh supply of gas from
+further cylinders when the occasion arises for re-inflation.
+
+Although the familiar spherical balloon has proved perfectly
+adequate for reconnoitring in the British and French armies, the
+German authorities maintained that it was not satisfactory in
+anything but calm weather.  Accordingly scientific initiative was
+stimulated with a view to the evolution of a superior vessel.  
+These endeavours culminated in the Parseval-Siegsfeld captive
+balloon, which has a quaint appearance.  It has the form of a
+bulky cylinder with hemispherical extremities.  At one end of the
+balloon there is a surrounding outer bag, reminiscent of a
+cancerous growth.  The lower end of this is open.  This
+attachment serves the purpose of a ballonet.  The wind blowing
+against the opening, which faces it, charges the ballonet with
+air.  This action, it is claimed, serves to steady the main
+vessel, somewhat in the manner of the tail of a kite, thereby
+enabling observations to be made as easily and correctly in rough
+as in calm weather.  The appearance of the balloon while aloft is
+certainly curious.  It appears to be rearing up on end, as if the
+extremity saddled with the ballonet were weighted.
+
+British and French captive balloon authorities are disposed to
+discount the steadying effect of this attachment, and, indeed, to
+maintain that it is a distinct disadvantage.  It may hold the
+vessel steadier for the purpose of observation, but at the same
+time it renders the balloon a steadier target for hostile fire.  
+On the other hand, the swaying of a spherical balloon with the
+wind materially contributes to its safety.  A moving object,
+particularly when its oscillations are irregular and
+incalculable, is an extremely difficult object at which to take
+effective aim.
+
+Seeing that even a small captive balloon is of appreciable
+dimensions--from 25 to 33 feet or more in diameter--one might
+consider it an easy object to hit.  But experience has proved
+otherwise.  In the first place the colour of the balloon is
+distinctly protective.  The golden or yellowish tinge harmonises
+well with the daylight, even in gloomy weather, while at
+night-time it blends excellently with the moonlight.  For
+effective observations a high altitude is undesirable.  At a
+height of 600 feet the horizon is about 28 miles from the
+observer, as compared with the 3 miles constituting the range of
+vision from the ground over perfectly flat country.  Thus it will
+be seen that the "spotter" up aloft has the command of a
+considerable tract.
+
+Various ways and means of finding the range of a captive balloon
+have been prepared, and tables innumerable are available for
+committal to memory, while those weapons especially designed for
+aerial targets are fitted with excellent range-finders and other
+instruments.  The Germans, with characteristic thoroughness, have
+devoted considerable attention to this subject, but from the
+results which they have achieved up to the present this guiding
+knowledge appears to be more spectacular and impressive than
+effective.
+
+To put a captive balloon out of action one must either riddle the
+envelope, causing it to leak like a sieve, blow the vessel to
+pieces, or ignite the highly inflammable gas with which it is
+inflated.  Individual rifle fire will inflict no tangible damage.
+A bullet, if it finds its billet, will merely pass through the
+envelope and leave two small punctures.  True, these vents will
+allow the gas to escape, but this action will proceed so slowly
+as to permit the vessel to remain aloft long enough to enable the
+observer to complete his work.  A lucky rifle volley, or the
+stream of bullets from a machine gun may riddle the envelope,
+precipitating a hurried descent, owing to the greater number of
+perforations through which the gas is able to escape, but as a
+rule the observer will be able to land safely.
+
+Consequently the general practice is to shatter the aerostat, and
+to this end either shrapnel, high explosive, or incendiary shells
+will be used.  The former must explode quite close to the balloon
+in order to achieve the desired end, while the incendiary shell
+must actually strike it, so as to fire the gas.  The high
+explosive shell may explode effectually some feet away from the
+vessel, inasmuch as in this instance dependence is placed upon
+the terrific concussion produced by the explosion which, acting
+upon the fragile fabric of the balloon, brings about a complete
+collapse of the envelope.  If a shrapnel is well placed and
+explodes immediately above the balloon, the envelope will be torn
+to shreds and a violent explosion of the gas will be precipitated.
+But as a matter of fact, it is extremely difficult to place a
+shrapnel shell so as to consummate this end.  The range is not
+picked up easily, while the timing of the fuse to bring about the
+explosion of the shell at the critical moment is invariably a
+complex problem.
+
+One favourite method of finding the range of a balloon is shown
+in the accompanying diagrams.  The artillery battery is at B
+and the captive balloon, C, is anchored at A.  On either
+side of B and at a specified distance, observers O1 and O2 
+respectively are stationed.  First a shell is fired at "long"
+range, possibly the maximum range of the gun.  It bursts at D.  
+As it has burst immediately in the line of sight of B, but with
+the smoke obscured by the figure of the balloon C, it is obvious
+to B that the explosion has occurred behind the objective, but at
+what distance he cannot tell.  To O1 and O2,however, it is seen
+to have burst at a considerable distance behind C though to the
+former it appears to have burst to the left and to the second
+observer to the right of the target.
+
+Another shell, at "short" range, is now fired, and it bursts at
+E.  The explosion takes place in the line of sight of B, who
+knows that he has fired short of the balloon because the latter
+is eclipsed by the smoke.  But the two observers see that it is
+very short, and here again the explosion appears to O1 to have
+occurred to the right of the target, while to O2 it has evidently
+burst to the left of the aerostat, as revealed by the relation of
+the position of the balloon to the bursting of the shell shown in
+Fig. 3.
+
+A third round is fired, and the shell explodes at F.  In this
+instance the explosion takes place below the balloon.  Both the
+observers and the artillery man concur in their deductions upon
+the point at which the shell burst.  But the shell must explode
+above the balloon, and accordingly a fourth round is discharged
+and the shell bursts at G.
+
+This appears to be above the balloon, inasmuch as the lines of
+sight of the two observers and B converge at this point.  But
+whether the explosion occurs immediately above the vessel as is
+desired, it is impossible to say definitely, because it may
+explode too far behind to be effective.  Consequently, if this
+shell should prove abortive, the practice is to decrease the
+range gradually with each succeeding round until the explosion
+occurs at the critical point, when, of course, the balloon is
+destroyed.  An interesting idea of the difficulty of picking up
+the range of a captive balloon may be gathered from the fact that
+some ten minutes are required to complete the operation.
+
+But success is due more to luck than judgment.  In the foregoing
+explanation it is premised that the aerial vessel remains
+stationary, which is an ex tremely unlikely contingency.  While
+those upon the ground are striving to pick up the range, the
+observer is equally active in his efforts to baffle his
+opponents.  The observer follows each successive, round with keen
+interest, and when the shells appear to be bursting at
+uncomfortably close quarters naturally he intimates to his
+colleagues below that he desires his position to be changed,
+either by ascending to a higher point or descending.  In fact, he
+may be content to come to the ground.  Nor must the fact be
+overlooked that while the enemy is trying to place the observer
+hors de combat, he is revealing the position of his artillery,
+and the observer is equally industrious in picking up the range
+of the hostile guns for the benefit of his friends below.
+
+When the captive balloon is aloft in a wind the chances of the
+enemy picking up the range thereof are extremely slender, as it
+is continually swinging  to and fro.  While there is always the
+possibility of a shell bursting at such a lucky moment as to
+demolish the aerial target, it is generally conceded to be
+impossible to induce a shell to burst within 100 yards of a
+balloon, no matter how skilfully the hostile battery may be
+operated.
+
+The value of the captive balloon has been demonstrated very
+strikingly throughout the attack upon the entrenched German
+positions in Flanders.  Owing to the undulating character of the
+dunes the "spotters" upon the British monitors and battle ships
+are unable to obtain a sweeping view of the country.  Accordingly
+captive balloons are sent aloft in some cases from the deck of
+the monitors, and in others from a suitable point upon the beach
+itself.  The aerial observer from his point of vantage is able to
+pick up the positions of the German forces and artillery with
+ease and to communicate the data thus gained to the British
+vessels, although subjected to heavy and continuous hostile fire.
+The difficulty of hitting a captive balloon has been graphically
+emphasised, inasmuch as the German artillerists have failed to
+bring down a solitary balloon.  On the other hand the observer in
+the air is able to signal the results of each salvo fired from
+the British battleships as they manoeuvre at full speed up and
+down the coastline, while he keeps the fire of the monitors
+concentrated upon the German positions until the latter have been
+rendered untenable or demolished.  The accuracy of the British
+gun-fire has astonished even the Germans, but it has been
+directly attributable to the rangefinder perched in the car of
+the captive balloon and his rapid transmission of information to
+the vessels below.
+
+The enthusiastic supporters of aerial navigation maintained that
+the dirigible and the aeroplane would supersede the captive
+balloon completely.  But as a matter of fact the present conflict
+has established the value of this factor more firmly than ever.
+There is not the slightest possibility that the captive balloon
+sections of the belligerents will be disbanded, especially those
+which have the fruits of experience to guide them.  The airship
+and the aeroplane have accomplished wonders, but despite their
+achievements the captive balloon has fully substantiated its
+value as a military unit in its particular field of operations.
+
+
+
+CHAPTER III
+GERMANY'S RISE TO MILITARY AIRSHIP SUPREMACY
+
+Two incidents in the history of aviation stand out with
+exceptional prominence.  The one is the evolution of the Zeppelin
+airship--a story teeming with romance and affording striking and
+illuminating glimpses of dogged perseverance, grim determination
+in the face of repeated disasters, and the blind courageous faith
+of the inventor in the creation of his own brain.  The second is
+the remarkable growth of Germany's military airship organisation,
+which has been so rapid and complete as to enable her to assume
+supremacy in this field, and that within the short span of a
+single decade.
+
+The Zeppelin has always aroused the world's attention, although
+this interest has fluctuated.  Regarded at first as a wonderful
+achievement of genius, afterwards as a freak, then as the ready
+butt for universal ridicule, and finally with awe, if not with
+absolute terror--such in brief is the history of this craft of
+the air.
+
+Count von Zeppelin can scarcely be regarded as an ordinary man.
+He took up the subject of flight at an age which the majority of
+individuals regard as the opportune moment for retirement from
+activity, and, knowing nothing about mechanical engineering, he
+concentrated his energies upon the study of this science to
+enable him to master the difficulties of a mechanical character
+incidental to the realisation of his grand idea.  His energy and
+indomitable perseverance are equalled by his ardent patriotism,
+because, although the Fatherland discounted his idea when other
+Powers were ready to consider it, and indeed made him tempting
+offers for the acquisition of his handiwork, he stoutly declined
+all such solicitations, declaring that his invention, if such it
+may be termed, was for his own country and none other.
+
+Count von Zeppelin developed his line of study and thought for
+one reason only.  As an old campaigner and a student of military
+affairs he realised the shortcomings of the existing methods of
+scouting and reconnoitring.  He appreciated more than any other
+man of the day perhaps, that if the commander-in-chief of an army
+were provided with facilities for gazing down upon the scene of
+operations, and were able to take advantage of all the
+information accruing to the man above who sees all, he would  
+hold a superior position, and be able to dispose his forces and
+to arrange his plan of campaign to the most decisive advantage.  
+In other words, Zeppelin conceived and developed his airship for
+one field of application and that alone-military operations.  
+Although it has achieved certain successes in other directions
+these have been subsidiary to the primary intention, and have
+merely served to emphasise its military value.
+
+Von Zeppelin was handicapped in his line of thought and
+investigation from the very first.  He dreamed big things upon a
+big scale.  The colossal always makes a peculiar and irresistible
+appeal to the Teutonic nature.  So he contemplated the perfection
+of a big dirigible, eclipsing in every respect anything ever
+attempted or likely to be attempted by rival countries.
+Unfortunately, the realisation of the "colossal" entails an
+equally colossal financial reserve, and the creator of this form
+of airship for years suffered from financial cramp in its worst
+ manifestation.  Probably it was to the benefit of the world at
+large that Fortune played him such sorry tricks.  It retarded the
+growth of German ambitions in one direction very effectively.
+
+As is well known Zeppelin evolved what may be termed an
+individual line of thought in connection with his airship
+activities.  He adopted what is known as the indeformable
+airship: that is to say the rigid, as opposed to the semi-rigid
+and flexible craft.  As a result of patient experiment and
+continued researches he came to the conclusion that a huge outer
+envelope taking the form of a polygonal cylinder with
+hemispherical ends, constructed upon substantial lines with a
+metallic skeleton encased within an impermeable skin, and charged
+with a number of smaller balloon-shaped vessels containing the
+lifting agent--hydrogen gas--would fulfil his requirements to the
+greatest advantage.  Model after model was built upon these
+lines.  Each was subjected to searching tests with the invariable
+result attending such work with models.  Some fulfilled the
+expectations of the inventor, others resolutely declined to
+illustrate his reasonings in any direction.
+
+The inevitable happened.  When a promising model was completed
+finally the inventor learned to his sorrow what every inventor
+realises in time.  His fortune and the resources of others had
+been poured down the sink of experiment.  To carry the idea from
+the model to the practical stage required more money, and it was
+not forthcoming.  The inventor sought to enlist the practical
+sympathy of his country, only to learn that in Germany, as in
+other lands, the axiom concerning the prophet, honour, and
+country prevails.  No exuberant inventor received such a cold
+douche from a Government as did Count Zeppelin from the Prussian
+authorities.  For two years further work was brought practically
+to a standstill: nothing could be done unless the sinews of war
+were forthcoming.  His friends, who had assisted him financially
+with his models, now concluded that their aid had been misplaced.
+
+The inventor, though disappointed, was by no means cast down.  He
+clung tenaciously to his pet scheme and to such effect that in
+1896 a German Engineering Society advanced him some funds to
+continue his researches.  This support sufficed to keep things
+going for another two years, during which time a full-sized
+vessel was built.  The grand idea began to crystallise rapidly,
+with the result that when a public company was formed in 1898,
+sufficient funds were rendered available to enable the first
+craft to be constructed.  It aroused considerable attention, as
+well it might, seeing that it eclipsed anything which had
+previously been attempted in connection with dirigibles.  It was
+no less than 420 feet in length, by 38 feet in diameter, and was
+fitted with two cars, each of which carried a sixteen horse-power
+motor driving independent propellers rigidly attached to the body
+of the vessel.  The propellers were both vertical and horizontal,
+for the purpose of driving the ship in the two planes--vertical
+and horizontal respectively.
+
+The vessel was of great scientific interest, owing to the
+ingenuity of its design and construction.  The metallic skeleton
+was built up from aluminium and over this was stretched the
+fabric of the envelope, care being observed to reduce skin
+friction, as well as to achieve impermeability.  But it was the
+internal arrangement of the gas-lifting balloons which provoked
+the greatest concern.  The hull was divided into compartments,
+each complete in itself, and each containing a small balloon
+inflated with hydrogen.  It was sub-division as practised in
+connection with vessels ploughing the water applied to aerial
+craft, the purpose being somewhat the same.  As a ship of the
+seas will keep afloat so long as a certain number of its
+subdivisions remain watertight, so would the Zeppelin keep aloft
+if a certain number of the gas compartments retained their
+charges of hydrogen.  There were no fewer than seventeen of these
+gas-balloons arranged in a single line within the envelope. 
+Beneath the hull and extending the full length of the latter was
+a passage which not only served as a corridor for communication
+between the cars, but also to receive a weight attached to a
+cable worked by a winch.  By the movement of this weight the bow
+or stem of the vessel could be tilted to assist ascent and
+descent.
+
+The construction of the vessel subsequently proved to be the
+easiest and most straightforward part of the whole undertaking. 
+There were other and more serious problems to be solved.  How
+would such a monster craft come to earth?  How could she be
+manipulated upon the ground?  How could she be docked?  Upon
+these three points previous experience was silent.  One German
+inventor who likewise had dreamed big things, and had carried
+them into execution, paid for his temerity and ambitions with his
+life, while his craft was reduced to a mass of twisted and torn
+metal.  Under these circumstances Count Zeppelin decided to carry
+out his flights over the waters of the Bodensee and to house his
+craft within a floating dock.  In this manner two uncertain
+factors might be effectively subjugated.
+
+Another problem had been ingeniously overcome.  The outer
+envelope presented an immense surface to the atmosphere, while
+temperature was certain to play an uncertain part in the
+behaviour of the craft.  The question was to reduce to the
+minimum the radiation of heat and cold to the bags containing the
+gas.  This end was achieved by leaving a slight air space between
+the inflated gas balloons and the inner surface of the hull.
+
+The first ascent was made on July 2nd, 1900, but was
+disappointing, several breakdowns of the mechanism occurring
+while the vessel was in mid-air, which rendered it unmanageable,
+although a short flight was made which sufficed to show that an
+independent speed of 13 feet per second could be attained.  The
+vessel descended and was made fast in her dock, the descent being
+effected safely, while manoeuvring into dock was successful.  At
+least three points about which the inventor had been in doubt
+appeared to be solved--his airship could be driven through the air
+and could be steered; it could be brought to earth safely; and it
+could be docked.
+
+The repairs to the mechanism were carried out and on October 17th
+and 21st of the same year further flights were made.  By this
+time certain influential Teuton aeronautical experts who had
+previously ridiculed Zeppelin's idea had made a perfect
+volte-face.  They became staunch admirers of the system, while
+other meteorological savants participated in the trials for the
+express purpose of ascertaining just what the ship could do.  As
+a result of elaborate trigonometrical calculations it was
+ascertained that the airship attained an independent speed
+of 30 feet per second, which exceeded anything previously
+achieved.  The craft proved to be perfectly manageable in the
+air, and answered her helm, thus complying with the terms of
+dirigibility.  The creator was flushed with his triumph, but at
+the same time was doomed to experience misfortune.  In its
+descent the airship came to "earth" with such a shock that it was
+extensively damaged.  The cost of repairing the vessel was so
+heavy that the company declined to shoulder the liability, and as
+the Count was unable to defray the expense the wreck was
+abandoned.
+
+Although a certain meed of success had been achieved the outlook
+seemed very black for the inventor.  No one had any faith in his
+idea.  He made imploring appeals for further money, embarked upon
+lecturing campaigns, wrote aviation articles for the Press, and
+canvassed possible supporters in the effort to raise funds for
+his next enterprise.  Two years passed, but the fruits of the
+propaganda were meagre.  It was at this juncture, when everything
+appeared to be impossible, that Count Zeppelin discovered his
+greatest friend.  The German Emperor, with an eye ever fixed upon
+new developments, had followed Zeppelin's uphill struggle, and at
+last, in 1902, came to his aid by writing a letter which ran:--
+
+"Since your varied flights have been reported to me it is a great
+pleasure to me to express my acknowledgment of your patience and
+your labours, and the endurance with which you have pressed on
+through manifold hindrances till success was near.  The
+advantages of your system have given your ship the greatest
+attainable speed and dirigibility, and the important results you
+have obtained have produced an epoch-making step forward in the
+construction of airships and leave laid down a valuable basis for
+future experiments."
+
+This Imperial appreciation of what had been accomplished proved
+to be the turning point in the inventor's fortunes.  It
+stimulated financial support, and the second airship was taken in
+hand.  But misfortune still pursued him.  Accidents were of
+almost daily occurrence.  Defects were revealed here and
+weaknesses somewhere else.  So soon as one trouble was overcome
+another made itself manifest.  The result was that the whole of
+the money collected by his hard work was expended before the ship
+could take to the air.  A further crash and blasting of cherished
+hopes appeared imminent, but at this moment another Royal
+personage came to the inventor's aid.
+
+The King of Wurtemberg took a personal interest in his subject's
+uphill struggle, and the Wurtemberg Government granted him the
+proceeds of a lottery.  With this money, and with what he
+succeeded in raising by hook and by crook, and by mortgaging
+his remaining property, a round L20,000 was obtained.  With this
+capital a third ship was taken in hand, and in 1905 it was
+launched.  It was a distinct improvement upon its predecessors. 
+The airship was 414 feet in length by 38 feet in diameter, was
+equipped with 17 gas balloons having an aggregate capacity of
+367,000 cubic feet of hydrogen, was equipped with two 85
+horse-power motors driving four propellers, and displaced 9 tons. 
+All the imperfections incidental to the previous craft had been
+eliminated, while the ship followed improved lines in its
+mechanical and structural details.
+
+The trials with this vessel commenced on November 30th, 1905, but
+ill-luck had not been eluded.  The airship was moored upon a raft
+which was to be towed out into the lake to enable the dirigible
+to ascend.  But something went wrong with the arrangements.  A
+strong wind caught the ungainly airship, she dipped her nose into
+the water, and as the motor was set going she was driven deeper
+into the lake, the vessel only being saved by hurried deflation.
+
+Six weeks were occupied in repairs, but another ascent was made
+on January 17th, 1906.  The trials were fairly satisfactory, but
+inconclusive.  One of the motors went wrong, and the longitudinal
+stability was found to be indifferent.  The vessel was brought
+down, and was to be anchored, but the Fates ruled otherwise.  A
+strong wind caught her during the night and she was speedily
+reduced to indistinguishable scrap.
+
+Despite catastrophe the inventor wrestled gamely with his
+project.  The lessons taught by one disaster were taken to heart,
+and arrangements to prevent the recurrence thereof incorporated
+in the succeeding craft.  Unfortunately, however, as soon as
+one defect was remedied another asserted itself.  It was this
+persistent revelation of the unexpected which caused another
+period of indifference towards his invention.  Probably nothing
+more would have been heard of the Zeppelin after this last
+accident had it not been for the intervention of the Prussian
+Government at the direct instigation of the Kaiser, who had now
+taken Count Zeppelin under his wing.  A State lottery was
+inaugurated, the proceeds of which were handed over to the
+indefatigable inventor, together with an assurance that if he
+could keep aloft 24 hours without coming to earth in the
+meantime, and could cover 450 miles within this period, the
+Government would repay the whole of the money he had lavished
+upon his idea, and liquidate all the debts he had incurred
+in connection therewith.
+
+Another craft was built, larger than its predecessors, and
+equipped with two motors developing 170 horse-power.  Upon
+completion it was submitted to several preliminary flights, which
+were so eminently successful that the inventor decided to make a
+trial trip under conditions closely analogous to those imposed
+for the Government test.  On June 20th, 1908, at 8:26 a.m.  the
+craft ascended and remained aloft for 12 hours, during which time
+it made an encouraging circular tour.  Flushed with this success,
+the Count considered that the official award was within reach,
+and that all his previous disasters and misfortunes were on the
+eve of redemption.
+
+The crucial test was essayed on August 5th, 1908.  Accompanied by
+twelve observers the vessel ascended and travelled without
+incident for eight hours.  Then a slight mishap demanded
+attention, but was speedily repaired, and was ignored officially
+as being too trivial to influence the main issue.  Victory
+appeared within measurable distance: the arduous toil of many
+patient years was about to be rewarded.  The airship was within
+sight of home when it had to descend owing to the development of
+another motor fault.  But as it approached the ground, Nature, as
+if infuriated at the conquest, rose up in rebellion.  A sudden
+squall struck the unwieldy monster.  Within a few moments it
+became unmanageable, and through some inscrutable cause, it
+caught fire, with the result that within a few moments it was
+reduced to a tangled mass of metallic framework.
+
+It was a catastrophe that would have completely vanquished many
+an inventor, but the Count was saved the gall of defeat.  His
+flight, which was remarkable, inasmuch as he had covered 380
+miles within 24 hours, including two unavoidable descents, struck
+the Teuton imagination.  The seeds so carefully planted by the
+"Most High of Prussia" now bore fruit.  The German nation
+sympathised with the indomitable inventor, appreciated his
+genius, and promptly poured forth a stream of subscriptions to
+enable him to build another vessel.  The intimation that other
+Powers had approached the Count for the acquisition of his idea
+became known far and wide, together with the circumstance that
+he had unequivocally refused all offers.  He was striving for the
+Fatherland, and his unselfish patriotism appealed to one and all.
+Such an attitude deserved hearty national appreciation, and the
+members of the great German public emptied their pockets to such
+a degree that within a few weeks a sum of L300,000 or $1,500,000
+was voluntarily subscribed.
+
+All financial embarrassments and distresses were now completely
+removed from the Count's mind.  He could forge ahead untrammelled
+by anxiety and worry.  Another Zeppelin was built and it created
+a world's record.  It remained aloft for 38 hours, during which
+time it covered 690 miles, and, although it came to grief upon
+alighting, by colliding with a tree, the final incident passed
+unnoticed.  Germany was in advance of the world.  It had an
+airship which could go anywhere, irrespective of climatic
+conditions, and in true Teuton perspective the craft was viewed
+from the military standpoint.  Here was a means of obtaining the
+mastery of the air: a formidable engine of invasion and aerial
+attack had been perfected.  Consequently the Grand Idea must be
+supported with unbounded enthusiasm.  The Count was hailed by his
+august master as "The greatest German of the twentieth century,"
+and in this appreciation the populace wholeheartedly concurred.
+Whether such a panegyric from such an auspicious quarter is praise
+indeed or the equivalent of complete condemnation, history alone
+will be able to judge, but when one reflects, at this moment, upon
+the achievements of this aircraft during the present conflagration,
+the unprejudiced will be rather inclined to hazard the opinion
+that Imperial Teuton praise is a synonym for damnation.
+
+Although the Zeppelin was accepted as a perfect machine it has
+never been possible to disperse the atmosphere of disaster with
+which it has been enveloped from the first.  Vessel after vessel
+has gone up in smoke and flame: few craft of this type have
+enjoyed more than an evanescent existence; and each successive
+catastrophe has proved more terrible than its predecessor.  But
+the Teutonic nation has been induced to pin its whole faith on
+this airship, notwithstanding that the more levelheaded engineers
+of other countries have always maintained the craft to be a
+"mechanical monstrosity" condemned from its design and principles
+of construction to disaster.  Unshaken by this adverse criticism,
+Germany rests assured that by means of its Zeppelins it will
+achieve that universal supremacy which it is convinced is its
+Destiny.
+
+This blind child-like faith has been responsible for the
+establishment and development of the Zeppelin factories.  At
+Friedrichshafen the facilities are adequate to produce two of
+these vessels per month, while another factory of a similar
+capacity has been established at Berlin.  Unfortunately such big
+craft demand large docks to accommodate them, and in turn a large
+structure of this character constitutes an easy mark for hostile
+attack, as the raiding airmen of the Allies have proved very
+convincingly.
+
+But the Zeppelin must not be under-rated.  Magnificent
+performances have been recorded by these vessels, such as the
+round 1,000 miles' trip in 1909, and several other equally
+brilliant feats since that date.  It is quite true that each
+astounding achievement has been attended by an equally stupendous
+accident, but that is accepted as a mere incidental detail by the
+faithful Teutonic nation.  Many vivid prophecies of the
+forthcoming flights by Zeppelin have been uttered, and it is
+quite probable that more than one will be fulfilled, but success
+will be attributable rather to accident than design.
+
+Although the Zeppelin is the main stake of the German people in
+matters pertaining to aerial conquest, other types of airships
+have not been ignored, as related in another chapter.  They have
+been fostered upon a smaller but equally effective scale.  The
+semi-rigid Parseval and Gross craft have met with whole-hearted
+support, since they have established their value as vessels of
+the air, which is tantamount to the acceptance of their military
+value.
+
+The Parseval is pronounced by experts to be the finest expression
+of aeronautical engineering so far as Teuton effort is concerned. 
+Certainly it has placed many notable flights to its credit.  The
+Gross airship is an equally serviceable craft, its lines of
+design and construction closely following those of the early
+French supple airships.  There are several other craft which have
+become more or less recognised by the German nation as
+substantial units of war, such as the Ruthemberg,
+Siemens-Schukert, and so forth, all of which have proved their
+serviceability more or less conclusively.  But in the somewhat
+constricted Teuton mind the Zeppelin and the Zeppelin only
+represents the ultima Thule of aerial navigation and the means
+for asserting the universal character of Pan-Germanism as well as
+"Kultur."
+
+
+
+CHAPTER IV
+AIRSHIPS OF WAR
+
+So much has been said and written concerning the Zeppelin
+airship, particularly in its military aspect, that all other
+developments in this field have sunk into insignificance so far
+as the general public is concerned.  The Zeppelin dirigible has
+come to be generally regarded as the one and only form of
+practical lighter-than-air type of aircraft.  Moreover, the name
+has been driven home with such effect that it is regarded as the
+generic term for all German airships.
+
+These are grievous fallacies.  The Zeppelin is merely one of a
+variety of types, even in Germany, although at the moment it
+probably ranks as the solitary survivor of the rigid system of
+construction.  At one time, owing to the earnestness with which
+the advantages of this form of design were discussed, and in view
+of the fact that the Zeppelin certainly appeared to triumph when
+all other designs failed, Great Britain was tempted to embrace
+the rigid form of construction.  The building of an immense
+vessel of this class was actively supported and it was aptly
+christened the "May-fly."  Opponents of the movement tempered
+their emphatic condemnatory criticism so far as to remark that it
+MAY FLY, but as events proved it never did.  The colossal craft
+broke its back before it ever ventured into the air, and this
+solitary experience proving so disastrous, the rigid form of
+construction was abandoned once and for all.  The venture was not
+in vain; it brought home to the British authorities more
+convincingly than anything else that the Zeppelin was a
+mechanical monstrosity.  The French never even contemplated the
+construction of such a craft at that time, estimating it at its
+true value, and the British failure certainly served to support
+French antagonism to the idea.  Subsequently, however, an attempt
+at rigid construction was made in France with the "Spiess"
+airship, mainly as a concession to public clamour.
+
+Even in Germany itself the defects of the Zeppelin were
+recognised and a decided effort to eliminate them was made by
+Professor Schutte in co-operation with a manufacturer of
+Mannheim named Lanz.  The joint product of their ambitions, the
+Schutte-Lanz, is declared to be superior to the Zeppelin, but so
+far it has failed to justify any of the claims of its designers. 
+This vessel, which also favours the colossal, is likewise of the
+rigid type, but realising the inherent dangers accruing from the
+employment of metal for the framework, its constructors have used
+wood, reinforced and strengthened where necessary by metallic
+angle-iron, plates, and bracing; this utilisation of metal is,
+however, carried out very sparingly.  The first vessel of this
+class was a huge failure, while subsequent craft have not proved
+much more successful.
+
+In fact, one of the largest German airships ever designed, L4,
+is, or rather was, a Schutte-Lanz, with a capacity of 918,000
+cubic feet, but over 6,000 pounds lighter than a Zeppelin of
+almost similar dimensions.  I say "was" since L4 is no more.  The
+pride of its creators evinced a stronger preference for Davy
+Jones' Locker than its designed realm.  Yet several craft of this
+type have been built and have been mistaken for Zeppelins owing
+to the similarity of the broad principles of design and their
+huge dimensions.  In one vital respect they are decidedly
+inferior to their contemporary--they are not so speedy.
+
+The most successful of the German lighter-than-air machines are
+those known respectively as the semi rigid and non-rigid types,
+the best examples of which are the Gross and Parseval craft. 
+Virtually they are Teutonic editions of the successful French
+craft of identical design by which they were anticipated.  The
+Lebaudy is possibly the most famous of the French efforts in this
+direction.  The gas-bag has an asymmetrical shape, and is pointed
+at both ends, although the prow is blunter or rounder than the
+stem.  The gas-bag comprises a single chamber for the inflating
+agent, the distended shape of the envelope being sustained by
+means of an air-ballonet.  By varying the contents of the latter
+through the agency of a pump the tension of the gas in the
+lifting envelope can be maintained, and the shape of the inflated
+balloon preserved under all conditions.
+
+Beneath the gas-bag is a long strengthened girder, and from this
+in turn the car is suspended.  It is the introduction of this
+rigid girder which is responsible for the descriptive generic
+term of "semi-rigid."  On the other hand the "non-rigid" type may
+be roughly described as a pisciform balloon fitted with
+propelling machinery, inasmuch as the car containing the driving
+machinery is suspended from the balloon in the manner of the car
+in the ordinary drifting vessel.  So far as the French effort is
+concerned the Bayard-Clement type is the best example of the
+non-rigid system; it is represented in Germany by the Parseval
+class.
+
+The Gross airship has been definitely adopted as a military
+machine by the German authorities, and figures in the "M" class. 
+The "M-IV" completed in 1913 is the largest of this type, and
+differs from its prototypes in that it carries two cars, each
+fitted with motors, whereas the earlier machines were equipped
+with a single gondola after the French pattern.  This vessel
+measures 320 feet in length, has a maximum diameter of 44 1/2
+feet, displaces 13 tons, and is fitted with motors developing 450
+horse-power, which is sufficient to give it a speed of 47 miles
+per hour.  This vessel represents a huge advance upon its
+predecessors of this design, inasmuch as thelatter were about 245
+feet in length by 36 1/4 feet in diameter, and displaced only six
+tons, while the single car was provided with a motor developing
+only 150 horse-power, the speed being 28 miles per hour.  Thus it
+will be seen that a huge development has suddenly taken place, a
+result due no doubt to the co-operation of the well-known
+engineer Basenach.  The "M-IV" is essentially an experiment and
+great secrecy has been maintained in regard to the trials which
+have been carried out therewith, the authorities merely
+vouchsafing the fact that the airship has proved completely
+successful in every respect; conclusive testimony of this is
+offered by the inclusion of the vessel in the active aerial fleet
+of Germany.
+
+But it is the Parseval which is regarded as the finest type of
+airship flying the German flag.  This vessel is the product of
+slow evolution, for it is admitted to be a power-driven balloon. 
+Even the broad lines of the latter are preserved, the shape being
+that of a cylinder with rounded ends.  It is the direct outcome
+of the "Drachen-Balloon," perfected by Parseval and Siegsfeld,
+the captive balloon which is an indispensable part of the German
+military equipment.
+
+The complete success of the suspension system in this captive
+balloon prompted Parseval to continue his researches and
+experiments in regard to the application of power to the vessel,
+so as to induce it to move independently of the wind.  The
+suspension system and the car are the outstanding features of the
+craft.  It is non-rigid in the strictest interpretation of the
+term, although, owing to the incorporation of the steadying
+hollow "mattress" (as it is called by its inventor), the strength
+of the suspension system, and the substantial character of the
+car, it conveys an impression of great solidity.  The thinnest
+rope, both manilla and steel, in the suspension system is as
+thick as a man's finger, while the car, measuring 30 feet in
+length by 6 feet in width, carried out in wood, is a striking
+example of the maximum of strength with the minimum of weight,
+being as steady and as solid as a boat's deck.  The propellers
+are collapsible, although in the latest craft of this class they
+are semi-rigid.
+
+The mechanical equipment is also interesting.  There are two
+propellers, and two motors, each nominally driving one propeller. 
+But should one motor break down, or motives of economy, such as
+husbanding of fuel, render it advisable to run upon one engine,
+then the two propellers may be driven by either of the motors.
+
+The inventor has perfected an ingenious, simple, and highly
+efficient coupling device to attain this end, but to ensure that
+the propeller output is of the maximum efficiency in relation to
+the engine, the pitch of the propellers may be altered and even
+reversed while the engine is running.  When one motor only is
+being used, the pitch is lowered until the propellers revolve at
+the speed which they would attain if both engines were in
+operation.  This adjustment of the propeller pitch to the most
+economical engine revolutions is a distinctive characteristic,
+and contributes to the efficiency and reliability of the Parseval
+dirigible to a very pronounced degree.
+
+Steering in the vertical plane is also carried out upon
+distinctive lines.  There are no planes for vertical steering,
+but movement is accomplished by tilting the craft and thus
+driving the gas from one end of the balloon to the other.  This
+is effected by the manipulation of the air-ballonets, one of
+which is placed at the prow and stem of the gas bag respectively. 
+If it is desired to descend the gas is driven from the forward to
+the after end of the envelope, merely by inflating the bow
+ballonet with air by means of a pump placed in the car.  If
+ascent is required, the after-ballonet is inflated, thereby
+driving the gas to the forward end of the balloon, the buoyancy
+of which is thus increased.  The outstanding feature of the
+"Drachen-Balloon" is incorporated in the airship.  This is the
+automatic operation of the safety valve on the gas-bag directly
+by the air ballonets.  If these ballonets empty owing to the
+pressure of the gas within the envelope, a rope system disposed
+within the balloon and connecting the ballonets and the gas-valve
+at the top is stretched taut, thereby opening the gas-valve.  In
+this manner the gas-pressure becomes reduced until the ballonets
+are enabled to exercise their intended function.  This is a
+safety precaution of inestimable value.
+
+The Parseval is probably the easiest dirigible to handle,
+inasmuch as it involves no more skill or knowledge than that
+required for an ordinary free balloon.  Its movements in the
+vertical plane are not dissimilar to those of  the aeroplane,
+inasmuch as ascent and descent are normally conducted in a
+"screwing" manner, the only exception being of course in abrupt
+descent caused by the ripping of the emergency-valve.  On one
+occasion, it is stated, one of the latest machines of this type,
+when conducting experimental flights, absolutely refused to
+descend, producing infinite amusement both among the crowd and
+those on board.
+
+The development of the Parseval is directly attributable to the
+influence and intimate interest of the Kaiser, and undoubtedly
+this represents the wisest step he ever made in the realm of
+aeronautics.  It certainly has enabled the German military
+machine to become possessed of a significant fleet of what may be
+described as a really efficient and reliable type of dirigible. 
+The exact number of military Parsevals in commission is unknown,
+but there are several classes thereof, in the nature of aerial
+cruisers and vedettes.
+
+The largest and most powerful class are those known as the B
+type, measuring about 240 feet in length by 40 feet maximum
+diameter, of 223,000 cubic feet capacity, and fitted with two
+motorsand two propellers.  This vessel carries about 10
+passengers, can climb to a maximum height of approximately 8,500
+feet, and is capable of remaining in the air for twenty hours
+upon a single fuel charge.  While this is the largest and most
+serviceable type of Parseval designed for military duties, there
+is another, the A class, 200 feet in length with accommodation
+for six passengers in addition to the crew of three, which is
+capable of attaining a maximum altitude of 6,700 feet, and has an
+endurance capacity of 15 hours.  This class also is fitted with
+twin propellers and motors.  In addition there are the C and
+E classes, carrying from four to eight passengers, while the
+vedettes are represented by the D and F classes, which have a
+maximum altitude of 2,000 feet and can remain aloft for only five
+hours upon a single fuel charge.  These smaller vessels, however,
+have the advantage of requiring only one or two men to handle
+them.  The present military Parseval dirigible is made in one of
+these five standardised classes, experience having established
+their efficiency for the specified military services for which
+they are built.  In point of speed they compare favourably with
+the latest types of Zeppelin, the speeds of the larger types
+ranging from 32 to 48 miles per hour with a motor effort of 360
+to 400 horse-power.
+
+So far as the French airships of war are concerned, the fleet is
+somewhat heterogeneous, although the non-rigid type prevails. 
+The French aerial navy is represented by the Bayard-Clement,
+Astra, Zodiac, and the Government-built machines.  Although the
+rigid type never has met with favour in France, there is yet a
+solitary example of this system of construction--the Spiess,
+which is 460 feet in length by 47 feet in diameter and has a
+displacement of 20 tons.  The semi-rigid craft are represented
+by the Lebaudy type, the largest of which measures 293 feet in
+length by 51 feet in diameter, and has a displacement of 10 tons.
+
+One may feel disposed to wonder why the French should be
+apparently backward in this form of aerial craft, but this may be
+explained by the fact that the era of experiment had not been
+concluded at the time war was declared, with the result that it
+has been somewhat difficult to determine which type would meet
+the military requirements of the country to the best advantage. 
+Moreover, the French military authorities evinced a certain
+disposition to relegate the dirigible to a minor position,
+convinced that it had been superseded by the heavierthan-air
+machine.  Taken on the whole, the French airship fleet is
+inferior to the German in point of speed, if not numerically, but
+this deficiency is more than counterbalanced by the skill and
+ability of the men manning their craft, who certainly are
+superior to their contemporaries in Germany, combined with the
+proved character of such craft as are in service.
+
+The same criticism may be said to apply to Great Britain.  That
+country was backward in matters pertaining to the airship,
+because its experiments were carried out spasmodically while
+dependence was reposed somewhat too much upon foreign effort. 
+The British airships are small and of low speed comparatively
+speaking.  Here again it was the advance of the aeroplane which
+was responsible for the manifestation of a somewhat indifferent
+if not lethargic feeling towards the airship.  Undoubtedly the
+experiments carried out in Great Britain were somewhat
+disappointing.  The one and only attempt to out-Zeppelin the
+Zeppelin resulted in disaster to the craft before she took to the
+air, while the smaller craft carried out upon far less ambitious
+lines were not inspiritingly successful.  Latterly the non-rigid
+system has been embraced exclusively, the craft being virtually
+mechanically driven balloons.  They have proved efficient and
+reliable so far as they go, but it is the personal element in
+this instance also which has contributed so materially to any
+successes achieved with them.
+
+But although Great Britain and France apparently lagged behind
+the Germans, appreciable enterprise was manifested in another
+direction.  The airship was not absolutely abandoned: vigilance
+was maintained for a superior type of craft.  It was an instance
+of weighing the advantages against the disadvantages of the
+existing types and then evolving for a design which should
+possess the former without any of the latter.  This end appears
+to be achieved with the Astra type of dirigible, the story of the
+development of which offers an interesting chapter in the annals
+of aeronautics.
+
+In all lighter-than-air machines the resistance to the air
+offered by the suspension ropes is considerable, and the
+reduction of this resistance has proved one of the most
+perplexing problems in the evolution of the dirigible.  The air
+is broken up in such a manner by the ropes that it is converted
+into a brake or drag with the inevitable result that the speed
+undergoes a severe diminution.  A full-rigged airship such as the
+Parseval, for instance, may present a picturesque appearance, but
+it is severely unscientific, inasmuch as if it were possible to
+eliminateor to reduce the air-resistance offered by the ropes,
+the speed efficiency might be raised by some sixty per cent and
+that without any augmentation of the propelling effort.  As a
+matter of fact Zeppelin solved this vexatious problem
+unconsciously.  In his monster craft the resistance to the air is
+reduced to a remarkable degree, which explains why these vessels,
+despite all their other defects are able to show such a turn of
+speed.
+
+It was this feature of the Zeppelin which induced Great Britain
+to build the May-fly and which likewise induced the French
+Government to stimulate dirigible design and construction among
+native manufacturers, at the same time, however, insisting that
+such craft should be equal at least in speed to the Zeppelins. 
+The response to this invitation was the Spiess, which with its
+speed of 45 miles per hour ranked, until 1914, as one of the
+fastest dirigibles in the French service.
+
+In the meantime a Spanish engineer, Senor Torres, had been
+quietly working out a new idea.  He realised the shortcomings of
+the prevailing types of airships some eleven years ago, and
+unostentatiously and painstakingly set out to eliminate them by
+the perfection of a new type of craft.  He perfected his idea,
+which was certainly novel, and then sought the assistance of the
+Spanish Government.  But his fatherland was not adapted to the
+prosecution of the project.  He strove to induce the authorities
+to permit even a small vessel to be built, but in vain.  He then
+approached the French Astra Company.  His ambition was to build a
+vessel as large as the current Zeppelin, merely to emphasise the
+value of his improvement upon a sufficiently large scale, and to
+enable comparative data concerning the two designs to be
+obtained.  But the bogey of expense at first proved insuperable. 
+However, the French company, decided to give the invention a
+trial, and to this end a small "vedette" of about 53,000 cubic
+feet displacement was built.
+
+Although an unpretentious little vessel, it certainly served to
+emphasise the importance of the Torres idea.  It was pitted
+against the "Colonel Renard," the finest ship at that time in the
+French aerial service, which had proved the fastest airship in
+commission, and which also was a product of the Astra Company. 
+But this fine craft was completely outclassed by the puny
+Astra-Torres.
+
+The builders and the inventor were now additionally anxious
+to illustrate more emphatically the features of this design and
+to build a far larger vessel.  The opportunity was offered by the
+British Government, which had been following the experiments with
+the small Astra-Torres in France.  An order was given for a
+vessel of 282,500 cubic feet displacement; in this instance it
+was ranged against another formidable rival--the Parseval.  But
+the latter also failed to hold its own against the Spanish
+invention, inasmuch as the Astra-Torres built for the British
+authorities exceeded a speed of 50 miles per hour in the official
+tests.  This vessel is still doing valuable duty, being attached
+to the British air-service in France.
+
+The achievements of the British vessel were not lost upon the
+French Government, which forthwith placed an order for a huge
+vessel of 812,200 cubic feet capacity, equipped with motors
+developing 1,000 horse-power, which it was confidently expected
+would enable a speed of 60 miles per hour to be attained.  Thus
+France would be able to meet the Germans upon fairly level terms,
+inasmuch as the speed of the latest Zeppelins does not exceed 60
+miles per hour.  So confident were the authorities that a second
+order for an even larger vessel was placed before the first large
+craft was completed.
+
+This latter vessel is larger than any Zeppelin yet built, seeing
+that it displaces 38 tons, and is fitted with motors developing
+1,000 horse-power.  It has recently been completed, and although
+the results of the trials, as well as the dimensions of the craft
+have not been published, it is well known that the speed has
+exceeded 60 miles per hour, so that France now possesses the
+speediest dirigible in the world.
+
+The Torres invention has been described as wonderful,
+scientifically perfect and extremely simple.  The vessel belongs
+to the non-rigid class, but the whole of the suspension system is
+placed within the gas-bag, so that the air-resistance offered by
+ropes is virtually eliminated in its entirety, for the simple
+reason that practically no ropes are placed outside the envelope. 
+The general principle of design may be gathered from the
+accompanying diagram.  It is as if three sausage-shaped balloons
+were disposed pyramidally--two lying side by side with one
+super-imposed, with the bags connected at the points where the
+circular sections come into contact.  Thus the external
+appearance of the envelope is decidedly unusual, comprising three
+symmetrical ridges.  At the points where the three bags come into
+contact cloth bands are stretched across the arcs, thereby
+forming a cord.  The suspension system is attached to the upper
+corners of the inverted triangle thus formed, and converges in
+straight lines through the gas space.  The bracing terminates in
+collecting rings from which a short vertical cable extends
+downwards through a special accordion sleeve to pass through the
+lower wall of the envelope.  These sleeves are of special design,
+the idea being to permit the gas to escape under pressure arising
+from expansion and at the same time to provide ample play for the
+cable which is necessary in a flexible airship.
+
+This cable emerges from the envelope only at the point or points
+where the car or cars is or are placed.  In the British airship
+of this type there is only one car, but the larger French vessels
+are equipped with two cars placed tandem-wise.  The vertical
+cable, after extending downwards a certain distance, is divided,
+one rope being attached to one, and the second to the other side
+of the car.  The two-bladed propellers are disposed on either
+side of the car, in each of which a 500 horse-power motor is
+placed.
+
+The Astra-Torres type of dirigible may be said to represent the
+latest expression in airship design and construction.  The
+invention has given complete satisfaction, and has proved
+strikingly successful.  The French Government has completed
+arrangements for the acquisition of larger and more powerful
+vessels of this design, being now in the position to contest
+every step that is made by Germany in this field.  The type has
+also been embraced by the Russian military authorities.  The
+Astra-Torres airship has a rakish appearance, and although the
+lines of the gas-bag are admitted to increase frictional
+resistance, this is regarded as a minor defect, especially when
+the many advantages of the invention are taken into
+consideration.
+
+
+
+CHAPTER V
+GERMANY'S AERIAL DREADNOUGHT FLEET
+
+Although Germany, as compared with France, was relatively slow to
+recognise the immense possibilities of aircraft, particularly
+dirigibles, in the military sense, once the Zeppelin had received
+the well-wishes of the Emperor William, Teuton activities were so
+pronounced as to enable the leeway to be made up within a very
+short while.  While the Zeppelin commanded the greatest attention
+owing to the interesting co-operation of the German Emperor, the
+other types met with official and royal recognition and
+encouragement as already mentioned.  France, which had held premier
+position in regard to the aerial fleet of dirigibles for so long,
+was completely out-classed, not only in dimensions but also in
+speed, as well as radius of action and strategical distribution of
+the aerial forces.
+
+The German nation forged ahead at a great pace and was able to
+establish a distinct supremacy, at least on paper.  In the light
+of recent events it is apparent that the German military
+authorities realised that the dawn of "The Day" was approaching
+rapidly, and that it behoved them to be as fully prepared in the
+air as upon the land.  It was immaterial that the Zeppelin was
+the synonym for disaster.  By standardisation its cost could be
+reduced while construction could be expedited.  Furthermore, when
+the matter was regarded in its broadest aspect, the fact was
+appreciated that forty Zeppelins could be built at the cost of
+one super-Dreadnought, so that adequate allowance could be made
+for accidents now and then, since a Zeppelin catastrophe, no
+matter how complete it may be, is regarded by the Teuton as a
+mere incident inseparable from progressive development.
+
+At the beginning of the year 1914 France relied upon being
+strengthened by a round dozen new dirigibles.  Seven of these
+were to be of 20,000 cubic metres' capacity and possessed of a
+speed of 47 miles per hour.  While the existing fleet was
+numerically strong, this strength was more apparent than real,
+for the simple reason that a large number of craft were in
+dry-dock undergoing repair or overhaul while many of the units
+were merely under test and could not be regarded therefore as in
+the effective fleet.  True, there were a certain number of
+private craft which were liable to be commandeered when the
+occasion arose, but they could not be considered as decided
+acquisitions for the simple reason that many were purely
+experimental units.
+
+Aerial vessels, like their consorts upon the water, have been
+divided into distinctive classes.  Thus there are the aerial
+cruisers comprising vessels exceeding 282,000 cubic feet in
+capacity; scouts which include those varying between 176,600 and
+282,000 cubic feet capacity; and vedettes, which take in all the
+small or mosquito craft.  At the end of 1913, France possessed
+only four of the first-named craft in actual commission and thus
+immediately available for war, these being the Adjutant Vincenot,
+Adjutant Reau, Dupuy de Lome, and the Transaerien.  The first
+three are of 197,800 cubic feet.  All, however, were privately
+owned.
+
+On the other hand, Germany had no fewer than ten huge vessels,
+ranging from 353,000 to 776,900 cubic feet capacity, three of
+which, the Victoria Luise, Suchard, and Hansa, though owned
+privately, were immediately available for war.  Of these the
+largest was the Zeppelin naval vessel "L-1" 525 feet in length,
+by 50 feet diameter, of 776,900 cubic feet capacity, equipped
+with engines developing 510 horse-power, and with a speed of 51.8
+miles per hour.
+
+At the end of 1913 the effective aerial fleet of Germany
+comprised twenty large craft, so far in advance of the French
+aerial cruisers as to be worthy of the name bestowed upon them--
+"Aerial Dreadnoughts."  This merely represented the fleet
+available for immediate use and did not include the four gigantic
+Suchard-Schutte craft, each of 847,500 cubic feet, which were
+under construction, and which were being hurried forward to come
+into commission early in 1914.
+
+But the most interesting factor, apart from the possession of
+such a huge fleet of dirigible air-craft, was their distribution
+at strategical points throughout the Empire as if in readiness
+for the coming combat.  They were literally dotted about the
+country.  Adequate harbouring facilities had been provided at
+Konigsberg, Berlin, Posen, Breslau, Kiel, Hamburg, Wilhelmshaven,
+Dusseldorf, Cologne, Frankfort, Metz, Mannheim, Strasburg, and
+other places, with elaborate headquarters, of course, at
+Friedrichshafen upon Lake Constance.  The Zeppelin workshops,
+harbouring facilities, and testing grounds at the latter point
+had undergone complete remodelling, while tools of the latest
+type had been provided to facilitate the rapid construction and
+overhaul of the monster Zeppelin dirigibles.  Nothing had been
+left to chance; not an item was perfunctorily completed.  The
+whole organisation was perfect, both in equipment and
+operation.  Each of the above stations possessed provision for   
+an aerial Dreadnought as well as one or more aerial cruisers,
+in addition to scouts or vedettes.
+
+Upon the outbreak of hostilities Germany's dirigible fleet was in
+a condition of complete preparedness, was better organised, and
+better equipped than that of any of her rivals.  At the same time
+it constituted more of a paper than a fighting array for reasons
+which I will explain later.  But there was another point which
+had escaped general observation.  Standardisation of parts and
+the installation of the desired machinery had accomplished one
+greatly desired end--the construction of new craft had been
+accelerated.  Before the war an interesting experiment was
+carried out to determine how speedily a vessel could be built. 
+The result proved that a dirigible of the most powerful type
+could be completed within eight weeks and forthwith the various
+constructional establishments were brought into line so as to
+maintain this rate of building.
+
+The growth of the Zeppelin, although built upon disaster, has
+been amazing.  The craft of 1906 had a capacity of 430,000 cubic
+feet and a speed of 36 miles per hour.  In 1911 the creator of
+this type launched a huge craft having a capacity of 627,000
+cubic feet.  In the meantime speed had likewise been augmented by
+the use of more powerful motors until 52 miles an hour was
+attained.  But this by no means represented the limit.  The
+foregoing vessels had been designed for land service purely and
+simply, but now the German authorities demanded similar craft for
+naval use, possessed of high speed and greater radius of action. 
+Count Zeppelin rose to the occasion, and on October 7th, 1912,
+launched at Friedrichshafen the monster craft "L-I," 525 feet in
+length, 50 feet in diameter, of 776,900 cubic feet capacity, a
+displacement of 22 tons and equipped with three sets of motors
+aggregating more than 500 horse-power, and capable of imparting a
+speed of 52 miles per hour.
+
+The appearance of this craft was hailed with intense delight by
+the German nation, while the naval department considered her to
+be a wonderful acquisition, especially after the searching
+reliability trial.  In charge of Count Zeppelin and manned by a
+crew of 22 officers and men together with nearly three tons of
+fuel--the fuel capacity conveys some idea of her possible radius
+of action--she travelled from Friedrichshafen to Johannisthal in
+32 hours.  On this remarkable journey another point was
+established which was of far-reaching significance.  The vessel
+was equipped with wireless telegraphy and therewith she kept in
+touch with the earth below throughout the journey, dropping and
+picking up wireless stations as she progressed with complete
+facility.  This was a distinct achievement, inasmuch as the vessel
+having been constructed especially for naval operations she would
+be able to keep in touch with the warships below, guiding them
+unerringly during their movement.
+
+The cross-country trip having proved so completely successful the
+authorities were induced to believe that travelling over water
+would be equally satisfactory.  Accordingly the "L-I" was
+dispatched to the island of Heligoland, the intention being to
+participate in naval manoeuvres in order to provide some reliable
+data as to the value of these craft operating in conjunction with
+warships.  But in these tests German ambition and pride received
+a check.  The huge Zeppelin was manoeuvring over the North Sea
+within easy reach of Heligoland, when she was caught by one of
+those sudden storms peculiar to that stretch of salt water.  In a
+moment she was stricken helpless; her motive power was
+overwhelmed by the blind forces of Nature.  The wind caught her
+as it would a soap-bubble and hurled her into the sea,
+precipitating the most disastrous calamity in the annals of
+aeronautics, since not only was the ship lost, but fifteen of her
+crew of 22 officers and men were drowned.
+
+The catastrophe created consternation in German aeronautical
+circles.  A searching inquiry was held to explain the disaster,
+but as usual it failed to yield much material information.  It is
+a curious circumstance, but every successive Zeppelin disaster,
+and their number is legion, has been attributable to a new cause. 
+In this instance the accident was additionally disturbing,
+inasmuch as the ship had been flying across country continuously
+for about twelve months and had covered more miles than any
+preceding craft of her type.  No scientific explanation for the
+disaster was forthcoming, but the commander of the vessel, who
+sank with his ship, had previously ventured his personal opinion
+that the vessel was over-loaded to meet the calls of ambition,
+was by no means seaworthy, and that sooner or later she would be
+caught by a heavy broadside wind and rendered helpless, or that
+she would make a headlong dive to destruction.  It is a
+significant fact that he never had any faith in the airship, at
+least for sea duty, though in response to official command he
+carried out his duties faithfully and with a blind resignation to
+Fate.
+
+Meantime, owing to the success of the "L-I" in cross-country
+operations, another and more powerful craft, the "L-II" had been
+taken in hand, and this was constructed also for naval use. 
+While shorter than her consort, being only 487 feet over all,
+thisvessel had a greater beam--55 feet.  This latter increase was
+decided because it was conceded to be an easier matter to provide
+for greater beam than enhanced length in the existing air-ship
+harbours.  The "L-II" displaced 27 tons--five tons in excess of
+her predecessor.  In this vessel many innovations were
+introduced, such as the provision of the passage-way connecting
+the cars within the hull, instead of outside the latter as had
+hitherto been the practice, while the three cars were placed more
+closely together than formerly.  The motors were of an improved
+type, giving an aggregate output of 900 horse-power, and were
+divided into four separate units, housed in two engine-rooms, the
+front car being a replica in every detail of the navigating
+bridge of a warship.
+
+This vessel was regarded as a distinct improvement upon the
+"L-I," although the latter could boast some great achievements. 
+But her glory was short-lived.  In the course of the Government
+trials, while some 900 feet aloft, the huge vessel suddenly
+exploded and was burned in the air, a mass of broken and twisted
+metal-work falling to the ground.  Of the 28 officers and men,
+including members of the Admiralty Board who were conducting the
+official trials, all but one were killed outright, and the
+solitary exception was so terribly burned as to survive the fall
+for only a few hours.
+
+The accident was remarkable and demonstrated very convincingly
+that although Count Zeppelin apparently had made huge strides in
+aerial navigation through the passage of years, yet in reality he
+had made no progress at all.  He committed the identical error
+that characterised the effort of Severo Pax ten years previously,
+and the disaster was directly attributable to the self-same cause
+as that which overwhelmed the Severo airship.  The gas, escaping 
+from the balloons housed in the hull, collected in the confined
+passage-way communicating with the cars, came into contact with a
+naked light, possibly the exhaust from the motors, and instantly
+detonated with terrific force, blowing the airship to fragments
+and setting fire to all the inflammable materials.
+
+In this airship Zeppelin committed an unpardonable blunder.  
+He had ignored the factor of "internal safety," and had
+deliberately flown in the face of the official rule which had
+been laid down in France after the Severo disaster, which
+absolutely forbade the inclusion of such confined spaces as
+Zeppelin had incorporated.  This catastrophe coming so closely as
+it did upon the preceding disaster to the pride of the German
+aerial fleet somewhat shook public confidence in these craft,
+while aeronautical authorities of other countries described the
+Zeppelin more vehemently than ever as a "mechanical monstrosity"
+and a "scientific curiosity."
+
+The Zeppelin has come to be feared in a general manner, but this
+result is due rather to stories sedulously circulated, and which
+may be easily traced to Teutonic sources.  Very few data of a
+reliable character have been allowed to filter through official
+circles.  We have been told somewhat verbosely of what it can
+accomplish and of its high degree of efficiency and speed.  But
+can credence be placed in these statements?
+
+When Zeppelin IV made its unexpected descent at Luneville, and
+was promptly seized by the French authorities, the German War
+office evinced distinct signs of uneasiness.  The reason was
+speedily forth coming.  The captain of the craft which had been
+captured forgot to destroy his log and other records of data
+concerning the vessel which had been scientifically collected
+during the journey.  All this information fell into the hands of
+the French military department, and it proved a wondrous
+revelation.  It enabled the French to value the Zeppelin at its
+true worth, which was by no means comparable to the estimate
+based on reports skilfully circulated for the benefit of the
+world at large.
+
+Recently the French military department permitted the results of
+their expert official examination to be made public.  From close
+investigation of the log-book and the diagrams which had been
+prepared, it was found that the maximum speed attained by
+Zeppelin IV during this momentous flight was only 45 miles per
+hour!  It was ascertained, moreover, that the load was 10,560
+pounds, and the ascensional effort 45,100 pounds.  The fuel
+consumption had averaged 297 pounds per hour, while the fuel
+tanks carried sufficient for a flight of about seven hours.  The
+airship had attained a maximum height of about 6,230 feet, to
+reach which 6,600 pounds of ballast had to be discarded. 
+Moreover, it was proved that a Zeppelin, if travelling under
+military conditions with full armament and ammunition aboard,
+could carry sufficient fuel for only ten hours at the utmost,
+during which, if the slightest head-wind prevailed, it could not
+cover more than 340 miles on the one fuel charge.
+
+This information has certainly proved a revelation and has
+contributed to the indifference with which the Parisians regard a
+Zeppelin raid.  At the outbreak of war the Zeppelin station
+nearest to Paris was at Metz, but to make the raid from that
+point the airship was forced to cover a round 500 miles.  It is
+scarcely to be supposed that perfectly calm weather would prevail
+during the whole period of the flight, so that a raid would be
+attended by considerable risk.  That this handicap was recognised
+in German military circles is borne out by the fact that a
+temporary Zeppelin hangar was established at a point considerably
+nearer the French capital, for the purpose of enabling a raid to
+be carried out with a greater possibility of success.
+
+The capture of Zeppelin IV revealed another important fact.  The
+critical flying height of the airship is between 3,300 and 4,000
+feet.  To attempt a raid at such an altitude would be to court
+certain disaster, inasmuch as the vessel would have to run the
+gauntlet of the whole of the French artillery, which it is
+admitted has a maximum range exceeding the flying altitude of the
+Zeppelin.  That the above calculation is within reason is
+supported by the statements of Count Zeppelin himself, who has
+declared that his airships are useless at a height exceeding
+5,000 feet.  Confirmatory evidence upon this point is offered by
+the raid upon the British East Coast towns, when it is stated
+that the aircraft were manoeuvring at a height not exceeding
+2,000 feet.
+
+
+
+CHAPTER VI
+THE MILITARY VALUE OF GERMANY'S AERIAL FLEET
+
+Although the Zeppelin undoubtedly has been over-rated by the
+forces to which it is attached, at the same time it must not be
+under-estimated by its detractors.  Larger and more powerful
+vessels of this type have been, and still are being, constructed,
+culminating, so far as is known, in the "L-5," which is stated to
+have a capacity of about 1,000,000 cubic feet, and to possess an
+average speed of 65 miles per hour.
+
+While it is generally maintained that the Zeppelins will prove
+formidable in attack, greater reliance is being placed upon the
+demoralising or terrifying effect which they are able to
+exercise.  Owing to the fact that from 3 to 5 tons of fuel--say
+900 to 1,500 gallons of gasoline or petrol--can be carried
+aboard, giving them a wide radius of action, it is doubtful
+whether they could travel from Cologne to London and back upon a
+single fuel charge, since such a raid would entail a journey of
+about 600 miles.  The latest types of this craft are said to
+possess a high ascensional speed, which offers a distinct
+protection against aeroplane attack.  According to such official
+information as has been vouchsafed, a Zeppelin, when hard
+pressed, is able to rise vertically 3,500 feet in about three
+minutes.  This is far in excess of the ascensional speed of even
+the speediest aeroplane.  of course, the penalty for such a
+factor has to be paid: the loss of gas is appreciable and may
+lead to the craft's ultimate undoing.  At the same time, however,
+it is able to maintain the superior position as compared with
+the aeroplane for a considerable period: the upper reaches of the
+air are its sanctuary.
+
+Nor must the nocturnal activities of the Zeppelin be overlooked. 
+So far as night operations by these vessels are concerned, little
+has leaked out, so that the possibilities of the airship in this
+direction are still somewhat hypothetical.  The fact remains,
+however, that it is night movements which perhaps are the most to
+be dreaded by the enemy.  According to official German sources of
+information the latest types of Zeppelins are engined by
+"noiseless" motors.  There is nothing remarkable in this feature,
+since the modern motor-car virtually answers to this description,
+although in this instance quietness is obtained for the most part
+by recourse to the sleeve-valve engine.  Still, the ordinary
+Otto-cycle internal combustion engine can be rendered almost
+silent by the utilisation of adequate muffling devices, which, in
+the Zeppelin, are more possible of incorporation than in the
+aeroplane, because the extra weight imposed by this acquisition
+is a minor consideration in comparison with the lifting power of
+the vessel.
+
+Night operations, however, have not proved eminently successful. 
+The very darkness which protects the aerial prowler also serves a
+similar purpose in connection with its prey.  But aerial
+operations under the cover of darkness are guided not so much by
+the glare of lights from below as betrayal by sound.  The
+difference between villages and cities may be distinguished from
+aloft, say at 1,500 to 3,000 feet, by the hum which life and
+movement emit, and this is the best guide to the aerial scout or
+battleship.  The German authorities have made a special study of
+this peculiar problem, and have conducted innumerable tests upon
+the darkest nights, when even the sheen of the moon has been
+unavailable, for the express purpose of training the aerial
+navigators to discover their position from the different sounds
+reaching them from below.  In other words, the corsair in the
+skies depends more upon compass and sound than upon compass and
+vision when operating after dark.  The searchlights with which
+the Zeppelins are equipped are provided merely for illuminating
+a supposed position.  They are not brought into service until
+the navigator concludes that he has arrived above the desired
+point: the ray of light which is then projected is merely to
+assist the crew in the discharge of the missiles of destruction.
+
+The Zeppelin, however, owing to its speed, both in the horizontal
+and vertical planes, is essentially a unit for daylight
+operations.  The other airships which Germany possesses, and
+which for the most part are of the non-rigid type, are condemned
+to daylight operations from the character of their design.  Owing
+to their low speeds they may be dismissed as impossible aerial
+vessels for hazardous work and are not regarded by the German
+authorities as all-round airships of war.
+
+Craft of the air are judged in Germany from the one standard
+only.  This may be a Teutonic failing, but it is quite in keeping
+with the Teutonic spirit of militarism.  Commercialism is a
+secondary factor.  To the German Emperor an airship is much what
+a new manufacturing process or machine is to the American. 
+Whereas the latter asks, "How much will it save me on the
+dollar?" to the War Lord of Germany--and an airship
+notwithstanding its other recommendatory features is judged
+solely from this standpoint--the question is "What are its
+military qualifications?"
+
+When the semi-rigid airship "V-I" was brought before the notice
+of the German military department the pressing point concerning
+its military recommendations arose at once.  The inventor had
+foreseen this issue and was optimistic.  Thereupon the
+authorities asked if the inventor were prepared to justify his
+claims.  The retort was positive.  Forthwith the Junkers decided
+to submit it to the test.
+
+This ship is of quite a distinctive type.  It is an aerial
+cruiser, and the inventor claims that it combines all the
+essential qualifications of the Zeppelin and of the competitors
+of the latter, in addition to the advantage of being capable of
+dissection, transportation in parts, and rapid re-erection at any
+desired spot.  The length of the vessel is about 270 feet;
+maximum diameter approximately 42 feet, and capacity about
+300,000 cubic feet.  The outstanding feature is a rigid
+keel-frame forming a covered passage way below the envelope or
+gas-bag, combined with easy access to all parts of the craft
+while under way, together with an artificial stiffening which
+dispenses with the necessity of attaching any additional cars. 
+The frame is so designed that the load, as well as the ballast
+and fuel tanks, may be distributed as desired, and at the same
+time it ensures an advantageous disposition of the steering
+mechanism, far removed from the centre of rotation at the stern,
+without any overloading of the latter.
+
+The lifting part of the airship comprises a single gas bag fitted
+with two ballonets provided to ensure the requisite gas-tension
+in the main envelope, while at the same time permitting, in times
+of emergency, a rapid change of altitude.  Self-contained blowers
+contribute to the preservation of the shape of the envelope, the
+blowers and the ballonets being under the control of the pilot. 
+Planes resembling Venetian blinds facilitate vertical steering,
+while the suspension of the keel is carried out in such a manner
+as to secure uniformity of weight upon the gas bag.  The
+propelling power comprises two sets of internal combustion
+engines, each developing 130 horse-power, the transmission being
+through rubber belting.  The propellers, built of wood, make 350
+revolutions per minute, and are set as closely as possible to the
+centre of resistance.
+
+But the most salient characteristic of this machine is its
+portability.  It can be dismantled and transported by wagons to
+any desired spot, the suspension frame being constructed in
+units, each of which is sufficiently small to be accommodated in
+an ordinary vehicle.  Upon arrival the parts may be put together
+speedily and easily.  The authorities submitted the airship to
+exacting trials and were so impressed by its characteristics and
+the claims of the inventor that undoubtedly it will be brought
+into service during the present crisis.
+
+At the same time the whole faith of the German military staff so
+far as airship operations are concerned, is pinned to the
+Zeppelin.  Notwithstanding its many drawbacks it is the vessel
+which will be used for the invasion of Great Britain.  Even the
+harbour question, which is admitted to be somewhat acute, has
+been solved to a certain degree.  At strategical points permanent
+harbours or airship sheds have been established.  Seeing that the
+airships demand considerable skill in docking and undocking, and
+that it is impossible to achieve these operations against the
+wind, swinging sheds have been adopted.
+
+On water the practice is to anchor a floating harbour at one end,
+leaving the structure to swing round with the wind.  But on dry
+land such a dock is impossible.  Accordingly turntable sheds
+have been adopted.  The shed is mounted upon a double turn-table,
+there being two circular tracks the one near the centre of the
+shed and the other towards its extremities.  The shed is mounted
+upon a centre pivot and wheels engaged with these inner and outer
+tracks.  In this manner the shed may be swung round to the most
+favourable point of the compass according to the wind.
+
+In the field, however, such practices are impossible, and the
+issue in this connection has been overcome by recourse to what
+may be termed portable harbours.  They resemble the tents of
+peripatetic circuses and travelling exhibitions.  There is a
+network of vertical steel members which may be set with facility
+and speed and which are stayed by means of wire guys.  At the top
+of the outer vertical posts pulleys are provided whereby the
+outer skin or canvas forming the walls may be hauled into
+position, while at the apex of the roof further pulleys ensure
+the proper placing of the roofing.  The airship is able to enter
+or leave from either end according to conditions.  The material
+is fireproofed as a precautionary measure, but at the same time
+the modern aerial bomb is able to penetrate the roofing without
+any difficulty and to explode against the airship anchored
+within.
+
+The one great objection to the Zeppelin harbour is the huge
+target it offers to hostile attack, which, in the event of a
+vessel being moored within, is inevitably serious.  Thus, for
+instance, upon the occasion of the air raids conducted by
+Lieutenant Collet and of Squadron Commander Briggs and his
+colleagues at Dusseldorf and Friedrichshafen respectively,
+little difficulty was experienced in destroying the airships
+riding at anchor.  The target offered by the shed is so extensive
+that it would be scarcely possible for a flying enemy to miss it. 
+A bomb dropped from a reasonable height, say 500 feet, would be
+almost certain to strike some part of the building, and a
+Zeppelin is an easy vessel to destroy.  The firing of one balloon
+is sufficient to detonate the whole, for the simple reason that
+hydrogen gas is continuously oozing through the bags in which it
+is contained.  According to a recent statement the Germans are
+said to be utilising an inert or non-inflammable gas, equal in
+lifting power to hydrogen, for the inflation of military craft,
+but scientific thought does not entertain this statement with any
+degree of seriousness.  No gas as light as hydrogen and
+non-explosive is known to commerce.
+
+Will Germany invade Great Britain by air?  This is the absorbing
+topic of the moment--one which has created intense interest and a
+certain feeling of alarm among the timorous.  Although sporadic
+raids are considered to be possible and likely to be carried out
+with a varying measure of success--such as that made upon the
+British East Coast--eminent authorities ridicule an invasion in
+force.  The risk would be enormous, although there is no doubt
+that Germany, which has always maintained that an invasion of
+this character will be made, will be compelled to essay such a
+task, in order to satisfy public opinion, and to justify official
+statements.  It is a moot point, however, whether the invaders
+ever will succeed in making good their escape, unless Nature
+proves exceptionally kind.
+
+The situation is best summed up in the unbiassed report of
+General George P. Scriven, Chief Signal officer of the United
+States Army to the U.S. Secretary of War.  In this report, which
+deals exhaustively with the history, construction and
+achievements of airships, such an invasion is described as
+fantastic and impracticable.  Writing on November 10th, 1914,
+the officer declares that "he is not prepared to recommend the
+American Army to take up seriously the question of
+constructing dirigibles, as they are not worth their cost as
+offensive machines, while for reconnaissance or defence they are
+of far less value than aeroplanes."  In his words, "Dirigibles
+are seemingly useless in defence against the aeroplane or
+gun-fire."
+
+In order to be able to make an invasion in force upon Great
+Britain's cities extremely favourable weather must prevail, and
+the treacherous nature of the weather conditions of the North Sea
+are known fully well both to British and Teuton navigators. 
+Seeing that the majority of the Zeppelin pilots are drawn from
+the Navy and mercantile marine, and thus are conversant with the
+peculiarities and characteristics of this stretch of salt water,
+it is only logical to suppose that their knowledge will exert a
+powerful influence in any such decision, the recommendations
+of the meteorological savants not withstanding.
+
+When the Zeppelin pride of the German Navy "L-1" was hurled to
+destruction by a typical North Sea squall, Captain Blew of the
+Victoria Luise, a Zeppelin with many great achievements to her
+credit, whose navigator was formerly in the Navy, and thus is
+familiar with the whole issue, explained that this atmospheric
+liveliness of the North Sea prevails for the most part in the
+latitude of Norway, but that it frequently extends as far south
+as the gate of the Channel.  He related furthermore that the rain
+squalls are of tropical violence, while the vertical thrusts of
+air are such that no dirigible as yet constructed could ever hope
+to live in them.  Under such conditions, he continued, the gas is
+certain to cool intensely, and the hull must then become
+waterlogged, not to mention the downward thrust of the rain. 
+Under such conditions buoyancy must be imperilled to such a
+degree as to demand the jettisoning of every piece of ballast,
+fuel and other removable weight, including even the steadying and
+vertical planes.  When this has been done, he pointed out,
+nothing is left with which to combat the upward vertical thrusts
+of the air.  To attempt to run before the wind is to court
+positive disaster, as the wind is certain to gain the mastery. 
+Once the airship loses steering way and is rendered
+uncontrollableit becomes the sport of the forces of Nature, with
+the result that destruction is merely a matter of minutes, or
+even seconds.
+
+Every navigator who knows the North Sea will support these
+conclusions.  Squalls and blizzards in winter, and thunderstorms
+in summer, rise with startling suddenness and rage with terrific
+destructive fury.  Such conditions must react against the attempt
+of an aerial invasion in force, unless it be made in the
+character of the last throw by a desperate gambler, with good
+fortune favouring the dash to a certain degree.  But lesser and
+more insignificant Zeppelin raids are likely to be somewhat
+frequent, and to be made at every favourable climatic
+opportunity.
+
+
+
+CHAPTER VII
+AEROPLANES OF WAR
+
+Owing to the fertility of inventors and the resultant
+multiplicity of designs it is impossible to describe every type
+of heavier-than-air machine which has been submitted to the
+exacting requirements of military duty.  The variety is infinite
+and the salient fact has already been established that many
+of the models which have proved reliable and efficient under
+normal conditions are unsuited to military operations.  The early
+days of the war enabled those of doubtful value to be eliminated,
+the result being that those machines which are now in use
+represent the survival of the fittest.  Experience has
+furthermore emphasised the necessity of reducing the number of
+types to the absolute minimum.  This weeding-out process is being
+continued and there is no doubt that by the time the war is
+concluded the number of approved types of aeroplanes of military
+value will have been reduced to a score or less.  The
+inconveniences and disadvantages arising from the utilisation of
+a wide variety of different types are manifold, the greatest
+being the necessity of carrying a varied assortment of spare
+parts, and confusion in the repair and overhauling shops.
+
+The methodical Teuton was the first to grasp the significance of
+these drawbacks; he has accordingly carried standardisation to a
+high degree of efficiency, as is shown in another chapter.  At a
+later date France appreciated the wisdom of the German practice,
+and within a short time after the outbreak of hostilities
+promptly ruled out certain types of machines which were regarded
+as unsuitable.  In this instance the process of elimination
+created considerable surprise, inasmuch as it involved an embargo
+on the use of certain machines, which under peace conditions had
+achieved an international reputation, and were held to represent
+the finest expression of aeronautical science in France as far as
+aeroplane developments are concerned.
+
+Possibly the German machine which is most familiar, by name, to
+the general public is the Taube, or, as it is sometimes called,
+the Etrich monoplane, from the circumstance that it was evolved
+by the Austrian engineer Igo Etrich in collaboration with his
+colleague Wels.  These two experimenters embarked on the study of
+dynamic flight contemporaneously with Maxim, Langley, Kress, and
+many other well-known pioneers, but it was not until 1908 that
+their first practical machine was completed.  Its success was
+instantaneous, many notable flights being placed to its credit,
+while some idea of the perfection of its design may be gathered
+from the fact that the machine of to-day is substantially
+identical with that used seven years ago, the alterations which
+have been effected meanwhile being merely modifications in minor
+details.
+
+The design of this machine follows very closely the lines of a
+bird in flight--hence its colloquial description, "Taube," or
+"dove."  Indeed the analogy to the bird is so close that the ribs
+of the frame resemble the feathers of a bird.  The supporting
+plane is shaped in the manner of a bird's distended wing, and is
+tipped up at the rear ends to ensure stability.  The tail also
+resembles that of a bird very closely.
+
+This aeroplane, especially the latest type, is very speedy, and
+it has proved extremely reliable.  It is very sharp in turning
+and extremely sensitive to its rudder, which renders it a
+first-class craft for reconnoitring duty.  The latest machines
+are fitted  with motors developing from 120 to 150 horse-power.
+
+The "Taube" commanded attention in Germany for the reason that
+it indicated the first departure from the adherence to the French
+designs which up to that time had been followed somewhat
+slavishly, owing to the absence of native initiative.
+
+The individuality of character revealed in the "Taube" appealed
+to the German instinct, with the result that the machine achieved
+a greater reputation than might have been the case had it been
+pitted against other types of essentially Teutonic origin.  The
+Taube was subsequently tested both in France and Great Britain,
+but failed to raise an equal degree of enthusiasm, owing to the
+manifestation of certain defects which marred its utility.  This
+practical experience tended to prove that the Taube, like the
+Zeppelin, possessed a local reputation somewhat of the paper
+type.  The Germans, however, were by no means disappointed
+by such adverse criticism, but promptly set to work to eliminate
+defects with a view to securing an all-round improvement.
+
+The most successful of these endeavours is represented in the
+Taube-Rumpler aeroplane, which may be described as an improved
+edition of Etrich's original idea.  As a matter of fact the
+modifications were of so slight, though important, a character
+that many machines generically described as Taubes are in reality
+Rumplers, but the difference is beyond detection by the ordinary
+and unpractised observer.
+
+In the Rumpler machine the wings, like those of the Taube, assume
+broadly the form and shape of those of the pigeon or dove in
+flight.  The early Rumpler machines suffered from sluggish
+control, but in the later types this defect has been overcome.
+In the early models the wings were flexible, but in the present
+craft they are rigid, although fitted with tips or ailerons.  The
+supporting truss beneath the wings, which was such an outstanding
+feature of its prototype, has been dispensed with, the usual
+I-beam longitudinals being used in its stead.  The latest
+machines fitted with 100-120 horse-power Mercedes motors have a
+fine turn of speed, possess an enhanced ascensional effort, and
+are far simpler to control
+
+Other German machines which are used in the military service are
+the Gotha and the Albatross.  The former is a monoplane, and here
+again the influence of Etrich upon German aeroplane developments
+is strongly manifested, the shape of the bird's wing being
+retained.  In the Gotha the truss which Etrich introduced is a
+prominent characteristic.  The Albatross is a biplane, but this
+craft has proved to be somewhat slow and may be said to be
+confined to what might be described as the heavier aerial
+military duties, where great endurance and reliability are
+essential.  As the war proceeds, doubtless Teuton ingenuity will
+be responsible for the appearance of new types, as well as
+certain modifications in the detail construction of the existing
+machines, but there is every indication that the broad lines of
+Etrich's conception will be retained in all monoplanes.
+
+There is one point in which Germany has excelled.  Wood is not
+employed in the construction of these heavier-than-air craft. 
+Steel and the lighter tough alloys are exclusively used.  In this
+way the minimum of weight consistent with the maximum of strength
+policy is carried out.  Moreover the manufacture of component
+parts is facilitated and accelerated to a remarkable degree by
+the use of metal, while the tasks of fitting and repairing are
+notably expedited by the practice of standardisation.  Germany is
+also manifesting commendable enterprise in the perfection of
+light powerful motors for these dynamic machines.  The latest
+types of explosion-motors range from 100 to 150 horse-power; the
+advantages of these are obvious.
+
+Upon the outbreak of hostilities the French possessed an enormous
+number and variety of aeroplanes and this aerial fleet had been
+brought to a high standard of organisation.  The aerial fleet is
+sub-divided into squadrons called "escadrilles," each of which
+comprises six machines and pilots.  These units are kept up to
+strength, wastage being made up from reserves, so as to maintain
+the requisite homogeneity.
+
+But ere the war had been in progress many weeks an official order
+was issued forbidding the employment of the Bleriot, Deperdussin,
+Nieuport, and R.E.P. monoplanes.  Those which received official
+approval included the Caudron, Henry, and Maurice Farman,
+Morane-Saulnier, and Voisin machines.
+
+This drastic order came somewhat as a thunderbolt, and the
+reason for the decree has not been satisfactorily revealed.  
+Suffice to say that in one stroke the efficiency and numerical
+strength of the French aerial navy were reduced very appreciably. 
+For instance, it is stated that there were thirty escadrilles of
+Bleriot monoplanes together with pilots at the front, in addition
+to thirty mixed escadrilles of the other prohibited types with
+their fliers.  Moreover a round 33 escadrilles of all the various
+types were in reserve.  The effect of the military order was to
+reduce the effective strength by no fewer than 558 aeroplanes.
+
+Seeing that the French aerial force was placed at a great
+disadvantage numerically by this action, there seems to be ample
+justification for the hostile criticism which the decree of
+prohibition aroused in certain circles, especially when it is
+remembered that there was not an equal number of the accepted
+machines available to take the place of those which had been
+ruled out of court.  One effect of this decree was to throw some
+400 expert aviators upon the waiting list for the simple reason
+that machines were unavailable.  Some of the best aviation skill
+and knowledge which France possesses were affected by the order. 
+It is stated that accomplished aviators, such as Vedrines, were
+unable to obtain machines.
+
+It will be seen that the ultimate effect of the French military
+decree was to reduce the number of types to about four, each of
+which was allotted a specific duty.  But whereas three different
+bi-planes are on the approved list there is only one monoplane--
+the Morane-Saulaier.  This machine, however, has a great turn of
+speed, and it is also able to climb at a very fast pace.  In
+these respects it is superior to the crack craft of Germany, so
+that time after time the latter have refused battle in the skies,
+and have hurried back to their lines.
+
+The Morane-Saulnier is the French mosquito craft of the air and
+like the insect, it is avowedly aggressive.  In fact, its duties
+are confined to the work of chasing and bringing down the enemy,
+for which work its high manoeuvring capacity is excellently
+adapted.  Its aggressive armament comprises a mitrailleuse. 
+Unfortunately, however, the factory responsible for the
+production of this machine is at present handicapped by the
+limitations of its manufacturing plant, which when pushed to the
+utmost extent cannot turn out more than about ten machines per
+week.  No doubt this deficiency will be remedied as the war
+proceeds by extension of the works or by allotting orders to
+other establishments, but at the time of the decree the
+manufacturing capacity was scarcely sufficient to make good the
+wastage, which was somewhat heavy.
+
+As far as biplanes are concerned the Caudron is the fastest in
+flight and is likewise extremely quick in manoeuvring.  It is a
+very small machine and is extremely light, but the fact that it
+can climb at the rate of over 330 feet per minute is a distinct
+advantage in its favour.  It supplements the Morane-Saulnier
+monoplane in the specific duty of the latter, while it is also
+employed for discovering the enemy's artillery and communicating
+the range of the latter to the French and British artillery.  In
+this latter work it has played a very prominent part and to
+it is due in no small measure that deadly accuracy of the
+artillery of the Allies which has now become so famous.  This
+applies especially to those tactics, where the field artillery
+dashes up to a position, discharges a number of rounds in rapid
+succession, or indulges in rafale firing, and then limbering up,
+rushes away before the enemy can reply.
+
+As is well known the Farman biplanes possess high endurance
+qualities.  They can remain aloft for many hours at a stretch and
+are remarkably reliable.  Owing to these qualities they are
+utilised for prolonged and searching reconnoitring duties such as
+strategical reconnaissances as distinct from the hurried and
+tactical reconnaissances carried out by fleeter machines.  While
+they are not so speedy as the monoplanes of the German military
+establishment, endurance in this instance is preferable to pace. 
+A thorough survey of the enemy's position over the whole of his
+military zone, which stretches back for a distance of 30 miles or
+so from the outer line of trenches, is of incalculable value to a
+commander who is contemplating any decisive movement or who is
+somewhat in doubt as to the precise character of his antagonist's
+tactics.
+
+The French aerial fleet has been particularly active in its work
+of raiding hostile positions and submitting them to a fusillade
+of bombs from the clouds.  The machine which is allotted this
+specific task is the Voisin biplane.  This is due to the fact  
+that this machine is able to carry a great weight.  It was
+speedily discovered that in bomb-raids it is essential for
+an aeroplane to be able to carry a somewhat large supply of
+missiles, owing to the high percentage of misses which attends
+these operations.  A raid by a machine capable of carrying only,
+say, half-a-dozen projectiles, is virtually a waste of fuel, and
+the endurance limitations of the fast machines reacts against
+their profitable use in this work.  On the other hand, the fact
+that the Voisin machine is able to carry a large supply of bombs
+renders it an ideal craft for this purpose; hence the official
+decision to confine it to this work.
+
+So far as the British efforts in aerial work are concerned there
+is no such display of rigid selection as characterises the
+practice of the French and German military authorities. 
+Britain's position in the air has been extensively due to private
+enterprise, and this is still being encouraged.  Moreover at the
+beginning of the war Britain was numerically far inferior both to
+her antagonist and to her ally.  Consequently it was a wise move
+to encourage the private manufacture of machines which had
+already established their value.  The consequence is that a
+variety of machines figure in the British aerial navy.  Private
+initiative is excellently seconded by the Government
+manufacturing aeroplane factory, while the training of pilots
+is likewise being carried out upon a comprehensive scale.
+British manufacture may be divided into two broad classes--the
+production of aeroplanes and of waterplanes respectively.
+Although there is a diversity of types there is a conspicuous
+homogeneity for the most part, as was evidenced by the British
+raid carried out on February 11-12, when a fleet of 34 machines
+raided the various German military centres established along the
+coast of Flanders.
+
+Considerable secrecy has been displayed by the British Government
+concerning the types of machines that are being utilised,
+although ample evidence exists from the producing activity of the
+various establishments that all available types which have
+demonstrated their reliability and efficiency are being turned to
+useful purpose.  The Avro and Sopwith warplanes with their very
+high speeds have proved remarkably successful.
+
+So far as manufacturing is concerned the Royal Aerial Factory may
+be said to constitute the back bone of the British aerial fleet. 
+This factory fulfils various purposes.  It is not only engaged in
+the manufacture of machines, and the development of aeroplanes
+for specific duties, but also carries out the inspection and
+testing of machines built by private firms.  Every machine is
+submitted to an exacting test before it is passed into the
+service.
+
+Three broad types of Government machines are manufactured at this
+establishment.  There is that designed essentially for scouting
+operations, in which speed is the all-important factor and which
+is of the tractor type.  Another is the "Reconnoitring" machine
+known officially as the "R.E." to-day, but formerly as the "B.E"
+(Bleriot-Experimental), a considerable number of which are in
+commission.
+
+This machine is also of the tractor type, carrying a pilot and an
+observer, and has a maximum speed of 40-50 miles per hour.  If
+required it can further be fitted with an automatic gun for
+defence and attack.  The third craft is essentially a fighting
+machine.  Owing to the introduction of the machine-gun which is
+fixed in the prow, with the marksman immediately behind it, the
+screw is placed at the rear.  The pilot has his seat behind the
+gunner.  The outstanding feature of these machines is the high
+factor of safety, which attribute has astonished some of the
+foremost aviation experts in the world.
+
+Great Britain lagged behind her Continental rivals in the
+development of the Fourth Arm, especially in matters pertaining
+to motive power.  For some time reliance was placed upon foreign
+light highspeed explosion motors, but private enterprise was
+encouraged, with the result that British Motors comparing
+favourably in every respect with the best productions upon the
+Continent are now available.  Development is still proceeding,
+and there is every evidence that in the near future entire
+reliance will be placed upon the native motor.
+
+Undoubtedly, as the war progresses, many valuable lessons will
+be learned which will exercise an important bearing upon the
+design and construction of warplanes.  The ordeals to which the
+machines are submitted in military duties are far more severe
+than any imposed by the conditions of commerce.  Accordingly
+there is every indication that the conflict upon the Continent
+will represent a distinctive epoch in aeroplane design and
+construction.  Many problems still await solution, such as the
+capacity to hover over a position, and it is quite possible
+that these complex and baffling questions will be settled
+definitely as the result of operations in the field.  The
+aeroplane has reached a certain stage of evolution: further
+progress is virtually impossible unless something revolutionary
+is revealed, perfected, and brought to the practical stage.
+
+
+
+CHAPTER VIII
+SCOUTING FROM THE SKIES
+
+From the moment when human flight was lifted from the rut of
+experiment to the field of practical application, many theories,
+interesting and illuminating, concerning the utility of the
+Fourth Arm as a military unit were advanced.  The general
+consensus of expert opinion was that the flying machine would be
+useful to glean information concerning the movements of an enemy,
+rather than as a weapon of offence.
+
+The war is substantiating this argument very completely. 
+Although bomb-dropping is practised somewhat extensively, the
+results achieved are rather moral than material in their effects. 
+Here and there startling successes have been recorded especially
+upon the British side, but these triumphs are outnumbered by the
+failures in this direction, and merely serve to emphasise the
+views of the theorists.
+
+The argument was also advanced that, in this particular work, the
+aeroplane would prove more valuable than the dirigible, but
+actual campaigning has proved conclusively that the dirigible and
+the heavier-than-air machines have their respective fields of
+utility in the capacity of scouts.  In fact in the very earliest
+days of the war, the British airships, though small and slow in
+movement, proved more serviceable for this duty than their
+dynamic consorts.  This result was probably due to the fact that
+military strategy and tactics were somewhat nonplussed by the
+appearance of this new factor.  At the time it was an entirely
+unknown quantity.  It is true that aircraft had been employed in
+the Balkan and the Italo-Ottoman campaigns, but upon such a
+limited scale as to afford no comprehensive idea of their
+military value and possibilities.
+
+The belligerents, therefore, were caught somewhat at a
+disadvantage, and an appreciable period of time elapsed before
+the significance of the aerial force could be appreciated, while
+means of counter acting or nullifying its influences had to be
+evolved simultaneously, and according to the exigencies of the
+moment.  At all events, the protagonists were somewhat loth to
+utilise the dirigible upon an  elaborate scale or in an
+aggressive manner.  It was employed more after the fashion of a
+captive balloon, being sent aloft from a point well behind the
+front lines of the force to which it was attached, and well out
+of the range of hostile guns.  Its  manoeuvres were somewhat
+circumscribed, and were carried out at a safe distance from the
+enemy, dependence being placed upon the advantages of an
+elevated position for the gathering of information.
+
+But as the campaign progressed, the airships became more daring. 
+Their ability to soar to a great height offered them complete
+protection against gun-fire, and accordingly sallies over the
+hostile lines were carried out.  But even here a certain
+hesitancy became manifest.  This was perfectly excusable, for the
+simple reason that the dirigible, above all, is a fair-weather
+craft, and disasters, which had overtaken these vessels time
+after time, rendered prudence imperative.  Moreover, but little
+was known of the range and destructiveness of anti-aircraft guns.
+
+In the duty of reconnoitring the dirigible possesses one great
+advantage over its heavier-than-air rival.  It can remain
+virtually stationary in the air, the propellers revolving at just
+sufficient speed to off-set the wind and tendencies to drift.  In
+other words, it has the power of hovering over a position,
+thereby enabling the observers to complete their task carefully
+and with deliberation.
+
+On the other hand, the means of enabling an aeroplane to hover
+still remain to be discovered.  It must travel at a certain speed
+through the air to maintain its dynamic equilibrium, and this
+speed is often too high to enable the airman to complete his
+reconnaissance with sufficient accuracy to be of value to the
+forces below.  All that the aeroplane can do is to circle above a
+certain position until the observer is satisfied with the data he
+has collected.
+
+But hovering on the part of the dirigible is not without
+conspicuous drawbacks.  The work of observation cannot be
+conducted with any degree of accuracy at an excessive altitude. 
+Experience has proved that the range of the latest types of anti-
+aircraft weapons is in excess of anticipations.  The result is
+that the airship is useless when hovering beyond the zone of
+fire.  The atmospheric haze, even in the clearest weather,
+obstructs the observer's vision.  The caprices of this obstacle
+are extraordinary, as anyone who has indulged in ballooning
+knows fully well.  On a clear summer's day I have been able to
+see the ground beneath with perfect distinctness from a height of
+4,500 feet, yet when the craft had ascended a further two or
+three hundred feet, the panorama was blurred.  A film of haze
+lies between the balloon and the ground beneath.  And the
+character of this haze is continually changing, so that the
+aerial observer's task is rendered additionally difficult.  Its
+effects are particularly notice able when one attempts to
+photograph the view unfolded below.  Plate after plate may be
+exposed and nothing will be revealed.  Yet at a slightly lower
+altitude the plates may be exposed and perfectly sharp and
+well-defined images will be obtained.
+
+Seeing that the photographic eye is keener and more searching
+than the human organ of sight, it is obvious that this haze
+constitutes a very formidable obstacle.  German military
+observers, who have accompanied the Zeppelins and Parsevals on
+numerous aerial journeys under varying conditions of weather,
+have repeatedly drawn attention to this factor and its caprices,
+and have not hesitated to venture the opinion that it would
+interfere seriously with military aerial reconnaissances, and
+also that it would tend to render such work extremely hazardous
+at times.
+
+When these conditions prevail the dirigible must carry out its
+work upon the broad lines of the aeroplane.  It must descend to
+the level where a clear view of the ground may be obtained, and
+in the interests of safety it has to keep on the move.  To
+attempt to hover within 4,000 feet of the ground is to court
+certain disaster, inasmuch as the vessel offers a magnificent and
+steady target which the average gunner, equipped with the latest
+sighting devices and the most recent types of guns, scarcely
+could fail to hit.
+
+But the airman in the aeroplane is able to descend to a
+comparatively low level in safety.  The speed and mobility of his
+machine constitute his protection.  He can vary his altitude,
+perhaps only thirty or forty feet, with ease and rapidity, and
+this erratic movement is more than sufficient to perplex the
+marksmen below, although the airman is endangered if a rafale is
+fired in such a manner as to cover a wide zone.
+
+Although the aeroplane may travel rapidly it is not too fleet for
+a keen observer who is skilled in his peculiar task.  He may only
+gather a rough idea of the disposition of troops, their
+movements, the lines of communication, and other details which
+are indispensable to his commander, but in the main the
+intelligence will be fairly accurate.  Undulating flight enables
+him to determine speedily the altitude at which he is able to
+obtain the clearest views of the country beneath.  Moreover,
+owing to his speed he is able to complete his task in far less
+time than his colleague operating in the dirigible, the result
+being that the information placed at the disposal of his superior
+officers is more to the moment, and accordingly of greater value.
+
+Reconnoitring by aeroplane may be divided into two broad
+categories, which, though correlated to a certain degree, are
+distinctive, because each constitutes a specific phase in
+military operations.  They are known respectively as "tactical"
+and "strategical" movements.  The first is somewhat limited in
+its scope as compared with the latter, and has invariably to be
+carried out rapidly, whereas the strategical reconnaissance may
+occupy several hours.
+
+The tactical reconnaissance concerns the corps or divisional
+commander to which the warplane is attached, and consequently its
+task is confined to the observation of the line immediately
+facing the particular corps or division.  The aviator does not
+necessarily penetrate beyond the lines of the enemy, but, as a
+rule limits his flight to some distance from his outermost
+defences.  The airman must possess a quick eye, because
+his especial duty is to note the disposition of the troops
+immediately facing him, the placing of the artillery, and any
+local movements of the forces that may be in progress. 
+Consequently the aviator engaged on this service may be absent
+from his lines for only a few minutes, comparatively speaking;
+the intelligence he acquires must be speedily communicated to the
+force to which he is attached, because it may influence a local
+movement.
+
+The strategical reconnaissance, on the other hand, affects the
+whole plan of campaign.  The aviators told off for this duty are
+attached to the staff of the Commander-in-Chief, and the work has
+to be carried out upon a far more comprehensive and elaborate
+scale, while the airmen are called upon to penetrate well into
+the hostile territory to a point thirty, forty, or more miles
+beyond the outposts.
+
+The procedure is to instruct the flier either to carry out his
+observations of the territory generally, or to report at length
+upon a specified stretch of country.  In the latter event he may
+fly to and fro over the area in question until he has acquired
+all the data it is possible to collect.  His work not only
+comprises the general disposition of troops, defences, placing of
+artillery, points where reserves are being held, high-roads,
+railways, base camps, and so forth, but he is also instructed to
+bring back as correct an idea as possible of what the enemy
+proposes to do, so that his Commander-in-Chief may adjust his
+moves accordingly.  In order to perform this task with the
+requisite degree of thoroughness it is often necessary for the
+airman to remain in the air for several hours continuously, not
+returning, in fact, until he has completed the allotted duty.
+
+The airman engaged in strategical aerial reconnaissance must
+possess, above all things, what is known as a "military" eye
+concerning the country he traverses.  He must form tolerably
+correct estimates of the forces beneath and their character.  He
+must possess the ability to read a map rapidly as he moves
+through the air and to note upon it all information which is
+likely to be of service to the General Staff.  The ability to
+prepare military sketches rapidly and intelligibly is a valuable
+attribute, and skill in aerial photography is a decidedly useful
+acquisition.
+
+Such men must be of considerable stamina, inasmuch as great
+demands are made upon their powers of endurance.  Being aloft for
+several hours imposes a severe tax upon the nervous system, while
+it must also be borne in mind that all sorts and conditions of
+weather are likely to be encountered, more particularly during
+the winter.  Hail, rain, and blizzards may be experienced in
+turn, while the extreme cold which often prevails in the higher
+altitudes during the winter season is a fearful enemy to combat. 
+Often an airman upon his return from such a reconnaissance has
+been discovered to be so numbed and dazed as a result of the
+prolonged exposure, that considerable time has elapsed before he
+has been sufficiently restored to set forth the results of his
+observations in a coherent, intelligible manner for the benefit
+of the General Staff.  Under these circumstances it is not
+surprising that the most skilful and experienced aviators are
+generally reserved for this particular work.  In addition to the
+natural accidents to which the strategical aerial observer is
+exposed, the dangers arising from hostile gun-fire must not be
+overlooked.  He is manoeuvring the whole time over the enemy's
+firing zone, where anti-aircraft weapons are disposed
+strategically, and where every effort is made by artillery to
+bring him down, or compel him to repair to such a height as to
+render observation with any degree of accuracy well-nigh
+impossible.
+
+The methods practised by the German aerial scout vary widely, and
+are governed in no small measure by the intrepidity and skill of
+the airman himself.  One practice is to proceed alone upon long
+flights over the enemy's lines, penetrating just as far into
+hostile territory as the pilot considers advisable, and keeping,
+of course, within the limits of the radius of action of the
+machine, as represented by the fuel supply, the while carefully
+taking mental stock of all that he observes below.  It is a kind
+of roving commission without any definite aim in view beyond the
+collection of general intelligence.
+
+This work, while productive and valuable to a certain degree, is
+attended with grave danger, as the German airmen have repeatedly
+found to their cost.  Success is influenced very materially by
+the accuracy of the airman's judgment.  A slight miscalculation
+of the velocity and direction of the wind, or failure to detect
+any variations in the climatic conditions, is sufficient to prove
+his undoing.  German airmen who essayed journeys of discovery in
+this manner, often failed to regain their lines because they
+ventured too far, misjudged the speed of the wind which was
+following them on the outward run, and ultimately were forced to
+earth owing to the exhaustion of the fuel supply during the
+homeward trip; the increased task imposed upon the motor, which
+had to battle hard to make headway, caused the fuel consumption
+per mile to exceed calculations.
+
+Then the venturesome airman cannot neglect another factor which
+is adverse to his success.  Hostile airmen lie in wait, and a
+fleet of aeroplanes is kept ready for instant service.  They
+permit the invader to penetrate well into their territory and
+then ascend behind him to cut off his retreat.  True, the invader
+has the advantage of being on the wing, while the ether is wide
+and deep, without any defined channels of communication.  But 
+nine times out of ten the adventurous scout is trapped.  His
+chances of escape are slender, because his antagonists dispose
+themselves strategically in the air.  The invader outpaces one,
+but in so doing comes within range of another.  He is so harassed
+that he either has to give fight, or, finding his retreat
+hopelessly cut off, he makes a determined dash, trusting to his
+high speed to carry him to safety.  In these driving tactics the
+French and British airmen have proved themselves adepts, more
+particularly the latter, as the chase appeals to their sporting
+instincts.  There is nothing so exhilarating as a quarry who
+displays a determination to run the gauntlet.
+
+The roving Teuton scout was considerably in evidence in the early
+days of the war, but two or three weeks' experience emphasised
+the sad fact that, in aerial strategy, he was hopelessly
+outmatched by his opponents.  His advantage of speed was
+nullified by the superior tactical and strategical acumen of his
+antagonists, the result being that the German airman, who has
+merely been trained along certain lines, who is in many cases
+nothing more than a cog-wheel in a machine, and who is
+proverbially slow-witted, has concluded that he is no match for
+the airmen of the Allies.  He found from bitter experience that
+nothing afforded the Anglo-French military aviators such keen
+delight as to lie in wait for a "rover," and then to swoop into
+the air to round him up.
+
+The proportion of these individual scouts who were either brought
+down, or only just succeeded in reaching safety within their own
+lines, and who were able to exhibit serious wounds as evidence of
+the severity of the aerial tussle, or the narrowness of the
+escape, has unnerved the Teuton airmen as a body to a very
+considerable extent.  Often, even when an aeroplane descended
+within the German lines, it was found that the roving airman had
+paid the penalty for his rashness with his life, so that his
+journey had proved in vain, because all the intelligence he had
+gained had died with him, or, if committed to paper, was so
+unintelligible as to prove useless.
+
+It was the success of the British airmen in this particular field
+of duty which was responsible for the momentous declaration in
+Field-Marshal Sir John French's famous despatch:--"The British
+Flying Corps has succeeded in establishing an individual
+ascendancy, which is as serviceable to us as it is damaging to
+the enemy . . . . The enemy have been less enterprising in
+their flights.  Something in the direction of the mastery of the
+air has already been gained."
+
+The methods of the British airmen are in vivid contrast to the
+practice of the venturesome Teuton aerial rovers described above. 
+While individual flights are undertaken they are not of unknown
+duration or mileage.  The man is given a definite duty to perform
+and he ascends merely to fulfil it, returning with the
+information at the earliest possible moment.  It is aerial
+scouting with a method.  The intelligence is required and
+obtained for a specific purpose, to govern a contemplated move in
+the grim game of war.
+
+Even then the flight is often undertaken by two or more airmen
+for the purpose of checking and counterchecking information
+gained, or to ensure such data being brought back to
+headquarters, since it is quite possible that one of the party
+may fall a victim to hostile fire.  By operating upon these
+lines there is very little likelihood of the mission proving
+a complete failure.  Even when raids upon certain places
+such as Dusseldorf, Friedrichshafen or Cuxhaven are planned,
+complete dependence is not placed on one individual.  The machine
+is accompanied, so that the possibility of the appointed task
+being consummated is transformed almost into a certainty.
+
+The French flying men work upon broadly similar lines.  Their
+fleet is divided into small squadrons each numbering four, six,
+or more machines, according to the nature of the contemplated
+task.  Each airman is given an area of territory which is to be
+reconnoitred thoroughly.  In this way perhaps one hundred or more
+miles of the enemy's front are searched for information at one
+and the same time.  The units of the squadron start out, each
+taking the appointed direction according to the preconceived
+plan, and each steering by the aid of compass and map.  They are
+urged to complete the work with all speed and to return to a
+secret rendezvous.
+
+Later the air is alive with the whirring of motors.  The machines
+are coming back and all converging to one point.  They vol-plane
+to the earth and gracefully settle down within a short distance
+of each other at the rendezvous.  The pilots collect and each
+relates the intelligence he has gained.  The data are collated
+and in this manner the General Staff is able to learn exactly
+what is transpiring over a long stretch of the hostile lines, and
+a considerable distance to the rear of his advance works. 
+Possibly five hundred square miles have been reconnoitred in this
+manner.  Troops have been massed here, lines of communication
+extend somewhere else, while convoys are moving at a third place. 
+But all has been observed, and the commanding officer is in a
+position to re-arrange his forces accordingly.  It is a
+remarkable example of method in military tactics and strategy,
+and conveys a striking idea of the degree to which aerial
+operations have been organised.
+
+After due deliberation it is decided that the convoys shall be
+raided, or that massed troops shall be thrown into confusion, if
+not dispersed.  The squadron is ordered to prepare for another
+aerial journey.  The roads along which the convoys are moving are
+indicated upon the map, or the position of the massed troops in
+bivouac is similarly shown.  The airmen load their machines with
+a full charge of bombs.  When all is ready the leader ascends,
+followed in rapid succession by the other units, and they whirr
+through the air in single file.  It now becomes a grim game of
+follow-my-leader.
+
+The leader detects the convoy, swoops down, suddenly launches his
+missiles, and re-ascends.  He does not deviate a foot from his
+path to observe the effects of his discharge, as the succeeding
+aeroplane is close behind him.  If the leader has missed then the
+next airman may correct his error.  One after another the
+machines repeat the manoeuvre, in precisely the same manner as
+the units of a battleship squadron emulate the leading vessel
+when attacking the foe.  The tactical evolutions have been laid
+down, and there is rigid adherence thereto, because only thereby
+may success be achieved.  When the last war-plane has completed
+its work, the leader swings round and repeats the dash upon the
+foe.  A hail of bullets may scream around the men in the air, but
+one and all follow faithfully in the leader's trail.  One or more
+machines may fail in the attack, and may even meet with disaster,
+but nothing interferes with the movements of the squadron as a
+whole.  It is the homogeneity of the attacking fleet which tells,
+and which undermines the moral of the enemy, even if it does not
+wreak decisive material devastation.  The work accomplished to
+the best of their ability, the airmen speed back to their lines
+in the same formation.
+
+At first sight reconnoitring from aloft may appear a simple
+operation, but a little reflection will reveal the difficulties
+and arduousness of the work.  The observer, whether he be
+specially deputed, or whether the work be placed in the hand of
+the pilot himself--in this event the operation is rendered
+additionally trying, as he also has to attend to his machine
+must keep his eyes glued to the ground beneath and at the same
+time be able to read the configuration of the panorama revealed
+to him.  He must also keep in touch with his map and compass, so
+as to be positive of his position and direction.  He must be a
+first-class judge of distances and heights.
+
+When flying rapidly at a height of 4,000 feet or more, the
+country below appears as a perfect plane, or flat stretch,
+although as a matter of fact it may be extremely undulating. 
+Consequently, it is by no means a simple matter to distinguish
+eminences and depressions, or to determine the respective and
+relative heights of hills.
+
+If a rough sketch is required, the observer must be rapid in
+thought, quick in determination, and facile with his pencil, as
+the machine, no matter how it may be slowed down, is moving at a
+relatively high speed.  He must consult his map and compass
+frequently, since an airman who loses his bearings is useless to
+his commander-in-chief.  He must have an eagle eye, so as to be
+able to search the country unfolded below, in order to gather all
+the information which is likely to be of value to his superior
+officers.  He must be able to judge accurately the numbers of
+troops arrayed beneath him, the lines of the defensive works, to
+distinguish the defended from the dummy lines which are thrown up
+to baffle him, and to detect instantly the movement of the troops
+and the direction, as well as the roads, along which they are
+proceeding.  Reserves and their complement, artillery,
+railway-lines, roads, and bridges, if any, over streams and
+railways must be noted--in short he must obtain an eye photograph
+of the country he observes and grasp exactly what is happening
+there.  In winter, with the thermometer well down, a
+blood-freezing wind blowing, wreaths of clouds drifting below and
+obscuring vision for minutes at a time, the rain possibly pelting
+down as if presaging a second deluge, the plight of the vigilant
+human eye aloft is far from enviable.
+
+Upon the return of the machine to its base, the report must be
+prepared without delay.  The picture recorded by the eye has to
+be set down clearly and intelligibly with the utmost speed.  The
+requisite indications must be made accurately upon the map. 
+Nothing of importance must be omitted: the most trivial detail is
+often of vital importance.
+
+A facile pencil is of inestimable value in such operations. 
+While aloft the observer does not trust to his memory or his eye
+picture, but commits the essential factors to paper in the form
+of a code, or what may perhaps be described more accurately as a
+shorthand pictorial interpretation of the things he has
+witnessed.  To the man in the street such a record would be
+unintelligible, but it is pregnant with meaning, and when worked
+out for the guidance of the superior officers is a mass of
+invaluable detail.
+
+At times it so happens that the airman has not been able to
+complete his duty within the time anticipated by those below. 
+But he has gathered certain information which he wishes to
+communicate without coming to earth.  Such data may be dropped
+from the clouds in the form of maps or messages.  Although
+wireless telegraphy is available for this purpose, it suffers
+from certain drawbacks.  If the enemy possesses an equipment
+which is within range of that of the air-craft and the force to
+which it belongs, communications may be nullified by the enemy
+throwing out a continuous stream of useless signals which "jamb"
+the intelligence of their opponents.
+
+If a message--written in code--or a map is to be dropped from
+aloft it is enclosed within a special metallic cylinder, fitted
+with a vane tail to ensure direction of flight when launched, and
+with a detonating head.  This is dropped overboard.  When it
+strikes the ground the detonator fires a charge which emits a
+report without damaging the message container, and at the same
+time fires a combustible charge emitting considerable smoke.  The
+noise attracts anyone in the vicinity of the spot where the
+message has fallen, while at the same time the clouds of smoke
+guide one to the point and enable the cylinder to be recovered. 
+This device is extensively used by the German aviators, and has
+proved highly serviceable; a similar contrivance is adopted by
+French airmen.
+
+There is one phase of aerial activity which remains to be
+demonstrated.  This is the utilisation of aerial craft by the
+defenders of a besieged position such as a ring of fortifications
+or fortified city.  The utility of the Fourth Arm in this
+province has been the subject of considerable speculation. 
+Expert opinion maintains that the advantage in this particular
+connection would rest with the besiegers.  The latter would be
+able to ascertain the character of the defences and the defending
+gun-force, by means of the aerial scout, who would prove of
+inestimable value in directing the fire of the besieging forces.
+
+On the other hand it is maintained that an aerial fleet would be
+useless to the beleaguered.  In the first place the latter would
+experience grave difficulties in ascertaining the positions of
+the attacking and fortress-reducing artillery, inasmuch as this
+could be masked effectively, and it is thought that the aerial
+force of the besieged would be speedily reduced to impotence,
+since it would be subjected to an effective concentrated fire
+from the ring of besieging anti-aircraft guns and other weapons. 
+In other words, the theory prevails that an aerial fleet, no
+matter how efficient, would be rendered ineffective for the
+simple reason that it would be the initial object of the
+besieger's attack.  Possibly the stem test of experience will
+reveal the fallacy of these contentions as emphatically as it has
+disproved others.  But there is one point upon which authorities
+are unanimous.  If the artillery of the investing forces is
+exposed and readily distinguishable, the aerial forces of the
+beleaguered will bring about its speedy annihilation, as the
+defensive artillery will be concentrated upon that of the
+besiegers.
+
+
+
+CHAPTER IX
+THE AIRMAN AND ARTILLERY
+
+There is one field in which the airman has achieved distinctive
+triumphs.  This is in the guidance of artillery fire.  The modern
+battle depends first and foremost upon the fierce effec tiveness
+of big-gun assault, but to ensure this reliable direction is
+imperative.  No force has proved so invaluable for this purpose
+as the man of-the-air, and consequently this is the province in
+which he has been exceptionally and successfully active.
+
+It will be recalled that in the Japanese investiture of Port
+Arthur during the Russo-Japanese war, thousands of lives were
+expended upon the retention and assault of 203 Metre Hill.  It
+was the most blood-stained spot upon the whole of the Eastern
+Asiatic battlefield.  General Nogi threw thousands after
+thousands of his warriors against this rampart while the Russians
+defended it no less resolutely.  It was captured and re-captured;
+in fact, the fighting round this eminence was so intense that it
+appeared to the outsider to be more important to both sides than
+even Port Arthur itself.
+
+Yet if General Nogi had been in the possession of a single
+aeroplane or dirigible it is safe to assert that scarcely one
+hundred Japanese or Russian soldiers would have met their fate
+upon this hill.  Its value to the Japanese lay in one sole
+factor.  The Japanese heavy guns shelling the harbour and the
+fleet it contained were posted upon the further side of this
+eminence and the fire of these weapons was more or less
+haphazard.  No means of directing the artillery upon the vital
+points were available; 203 Metre Hill interrupted the line of
+sight.  The Japanese thereupon resolved to capture the hill,
+while the Russians, equally appreciative of the obstruction it
+offered to their enemy, as valiantly strove to hold it.  Once the
+hill was captured and the fire of the Japanese guns could be
+directed, the fate of the fortress was sealed.
+
+Similar conditions have prevailed during the present campaign,
+especially in the western theatre of war, where the ruggedness of
+the country has tended to render artillery fire ineffective and
+expensive unless efficiently controlled.  When the German Army
+attacked the line of the British forces so vehemently and
+compelled the retreat at Mons, the devastating fire of the
+enemy's artillery was directed almost exclusively by their
+airmen, who hovered over the British lines, indicating exactly 
+the point where gun-fire could work the maximum of havoc.  The
+instant concentration of massed artillery fire upon the indicated
+positions speedily rendered one position after another untenable.
+
+The Germans maintained the upper hand until at last the aerial
+forces of the British Expeditionary Army came into action.  These
+airmen attacked the Teuton aerial craft without the slightest
+hesitation, and in a short while rendered cloudland absolutely
+unhealthy.  The sequel was interesting.  As if suddenly blinded,
+the German artillery fire immediately deteriorated.  On the other
+hand, the British artillery, now having the benefit of aerial 
+guidance, was able to repay the German onslaughts with interest,
+and speedily compelled that elaborate digging-in of the infantry
+lines which has now become so characteristic of the opposing
+forces.
+
+So far as the British lines are concerned the men in the trenches
+keep a sharp look-out for hostile aeroplanes.  The moment one is
+observed to be advancing, all the men seclude themselves and 
+maintain their concealment.  To do otherwise is to court a raking
+artillery outburst.  The German aeroplane, detecting the tendency
+of the trenches describes in the air the location of the
+vulnerable spot and the precise disposition by flying immediately 
+above the line.  Twice the manoeuvre is repeated, the second
+movement evidently being in the character of a check upon the
+first observation, and in accordance with instructions, whereupon 
+the Tommies, to quote their own words, "know they are in for it!" 
+Ere the aeroplane has completed the second manoeuvre the German
+guns ring out.
+
+The facility with which artillery fire can be concentrated
+through the medium of the aeroplane is amazing.  In one instance,
+according to the story related to me by an officer, "a number of
+our men were resting in an open field immediately behind the 
+second line of trenches, being in fact the reserves intended for
+the relief of the front lines during the following night.  An
+aeroplane hove in sight.  The men dropped their kits and got
+under cover in an adjacent wood.  The aeroplane was flying at a
+great height and evidently laboured under the impression that the
+kits were men.  Twice it flew over the field in the usual manner,
+and then the storm of shrapnel, 'Jack Johnsons' and other tokens
+from the Kaiser rained upon the confined space.  A round four
+hundred shells were dropped into that field in the short period
+of ten minutes, and the range was so accurate that no single
+shell fell outside the space.  Had the men not hurried to cover
+not one would have been left alive to tell the tale, because
+every square foot of the land was searched through and through. 
+We laughed at the short-sightedness of the airman who had
+contributed to such a waste of valuable shot and shell, but at
+the same time appreciated the narrowness of our own escape."
+
+The above instance is by no means isolated.  It has happened time
+after time.  The slightest sign of activity in a trench when a
+"Taube" is overhead suffices to cause the trench to be blown to
+fragments, and time after time the British soldiers have had to
+lie prone in their trenches and suffer partial burial as an
+alternative to being riddled by shrapnel.
+
+The method of ascertaining the range of the target from the
+indications given by the aeroplane are of the simplest character. 
+The German method is for the aerial craft to fly over the
+position, and when in vertical line therewith to discharge a
+handful of tinsel, which, in falling, glitters in the sunlight,
+or to launch a smoking missile which answers the same purpose as
+a projectile provided with a tracer.  This smoke-ball being
+dropped over the position leaves a trail of black or whitish
+smoke according to the climatic conditions which prevail, the
+object being to enable the signal to be picked up with the
+greatest facility.  The height at which the aerial craft is
+flying being known, a little triangulation upon the part of the
+observer at the firing point enables him to calculate the range
+and to have the guns laid accordingly.
+
+When the aerial craft has been entrusted with the especial duty
+of directing artillery-fire, a system of communication between
+the aerial observer and the officer in charge of the artillery is
+established, conducted, of course, by code.  In the British Army,
+signalling is both visual and audible.  In daylight visual
+signalling is carried out by means of coloured flags or streamers
+and smoke-signals, while audible communication is effected by
+means of a powerful horn working upon the siren principle and
+similar to those used by automobiles.  Both flags and
+sound-signals, however, are restricted owing to the comparatively
+short distances over which they can be read with any degree of
+accuracy.  The smoke-signal therefore appears to be the most
+satisfactory and reliable, as the German airmen have proved
+conclusively, for the simple reason that the trail of smoke may
+be picked up with comparative ease, even at a distance, by means
+of field glasses.  The tinsel too, is readily distinguishable,
+particularly in bright weather, for the glittering surface,
+catching the sun-light, acts some what in the manner of a
+heliograph.
+
+The progress of the airman is followed by two officers at the
+base from which he started.  One is equipped with the director,
+while the second takes the range.  Directly this has been found
+as a result of calculation, the guns are laid ready for firing. 
+In those cases where the enemy's artillery is concealed perhaps
+behind a hill, the airman is of incalculable value, inasmuch as
+he is able to reveal a position which otherwise would have to be
+found by considerable haphazard firing, and which, even if
+followed by a captive balloon anchored above the firing point,
+might resist correction.
+
+The accuracy of the airman's work in communicating the range has
+been responsible for the high efficiency of the British and
+French artillery.  The latter, with the 75 millimetre
+quick-firing gun, is particularly adapted to following up the
+results of the aeroplane's reconnaissance, especially with the
+system of rafale fire, because the whole position can be searched
+through and through within a minute or two.  According to
+information which has been given to me by our artillery officers,
+the British system also has proved disastrous to the enemy.  The
+practice is to get the range as communicated by the aeroplane, to
+bring the artillery into position speedily, to discharge salvo
+after salvo with all speed for a few minutes, and then to wheel
+the artillery away before any hostile fire can be returned.  The
+celerity with which the British artillery comes into, and goes
+out of, action has astonished even our own authorities.  This
+mobility is of unique value: it is taking advantage of a somewhat
+slow-witted enemy with interest.  By the time the Germans have
+opened fire upon the point whence the British guns were
+discharged, the latter have disappeared and are ready to let fly
+from another point, some distance away, so that the hostile fire
+is abortive.  Mobility of such a character is decidedly unnerving
+and baffling even to a quick-witted opponent.
+
+In his search for hostile artillery the airman runs grave risks
+and displays remarkable resource.  It is invariably decided,
+before he sets out, that he shall always return to a certain
+altitude to communicate signals.  Time after time the guns of the
+enemy have been concealed so cunningly from aerial observation as
+to pass unnoticed.  This trait became more pronounced as the
+campaigns of the Aisne progressed.  Accordingly the airman adopts
+a daring procedure.  He swoops down over suspicious places, where
+he thinks guns may be lurking, hoping that the enemy will betray
+its presence.  The ruse is invariably successful.  The airman
+makes a sudden dive towards the earth.  The soldiers in hiding
+below, who have become somewhat demoralised by the accuracy of
+the British aerial bomb-throwers, have an attack of nerves.  They
+open a spirited fusillade in the hope of bringing the airman to
+earth.  But their very excitement contributes to his safety.  The
+shots are fired without careful aim and expend themselves
+harmlessly.  Sweeping once more upwards, the airman regains the
+pre-determined level, performs a certain evolution in the air
+which warns the observer at his base that he has made a
+discovery, and promptly drops his guiding signal directly over
+the point from which he has drawn fire.
+
+Operations at night are conducted by means of coloured lights or
+an electrical searchlight system.  In the former instance three
+lights are generally carried--white, red, and green--each of
+which has a distinctive meaning.  If reliance is placed upon the
+electric light signalling lamp, then communications are in code. 
+But night operations are somewhat difficult and extremely
+dangerous, except when the elements are propitious.  There is the
+ground mist which blots everything from sight, rendering
+reconnaissance purely speculative.  But on a clear night the
+airman is more likely to prove successful.  He keeps a vigilant
+eye upon all ground-lights and by close observation is able to
+determine their significance.  It is for this reason that no
+lights of any description are permitted in the advance trenches. 
+The striking of a match may easily betray a position to the alert
+eye above.
+
+So far as the British Army is concerned a complete code is in
+operation for communicating between aeroplanes and the ground at
+night.  Very's lights are used for this purpose, it being
+possible to distinguish the respective colours at a distance of
+six miles and from an altitude of 2,000 feet.  The lights are
+used both by the aeroplane and the battery of artillery.
+
+The code is varied frequently, but the following conveys a rough
+idea of how communication is carried out by this means under
+cover of darkness.  The aeroplane has located its objective and
+has returned to the pre-arranged altitude.  A red light is thrown
+by the airman.  It indicates that he is directly over the enemy's
+position.  A similarly coloured light is shown by the artillery
+officer, which intimates to the airman that his signal has been
+observed and that the range has been taken.
+
+In observing the effects of artillery fire a code of signals is
+employed between the airman and the artillery officer to indicate
+whether the shot is "long" or "short," to the right or to the
+left of the mark, while others intimate whether the fuse is
+correctly timed or otherwise.  It is necessary to change the code
+fairly frequently, not only lest it should fall into the enemy's
+hands, but also to baffle the hostile forces; otherwise, after a
+little experience, the latter would be able to divine the
+significance of the signals, and, in anticipation of being
+greeted with a warm fusillade, would complete hurried
+arrangements to mitigate its effects, if not to vacate the
+position until the bombardment had ceased.
+
+Sufficient experience has already been gathered, however, to
+prove the salient fact that the airman is destined to play an
+important part in the direction and control of artillery-fire. 
+Already he has been responsible for a re-arrangement of strategy
+and tactics.  The man aloft holds such a superior position as to
+defy subjugation; the alternative is to render his work more
+difficult, if not absolutely impossible.
+
+
+
+CHAPTER X
+BOMB-THROWING FROM AIR-CRAFT
+
+During the piping times of peace the utility of aircraft as
+weapons of offence was discussed freely in an academic manner. 
+It was urged that the usefulness of such vessels in this
+particular field would be restricted to bomb-throwing.  So far
+these contentions have been substantiated during the present
+campaign.  At the same time it was averred that even as a
+bomb-thrower the ship of the air would prove an uncertain
+quantity, and that the results achieved would be quite contrary
+to expectations.  Here again theory has been supported by
+practice, inasmuch as the damage wrought by bombs has been
+comparatively insignificant.
+
+The Zeppelin raids upon Antwerp and Britain were a fiasco in the
+military sense.  The damage inflicted by the bombs was not at all
+in proportion to the quantity of explosive used.  True, in the
+case of Antwerp, it demoralised the civilian population somewhat
+effectively, which perhaps was the desired end, but the military
+results were nil.
+
+The Zeppelin, and indeed all dirigibles of large size, have one
+advantage over aeroplanes.  They are able to throw bombs of
+larger size and charged with greater quantities of high explosive
+and shrapnel than those which can be hurled from heavier-than-air
+machines.  Thus it has been stated that the largest Zeppelins can
+drop single charges exceeding one ton in weight, but such a
+statement is not to be credited.
+
+The shell generally used by the Zeppelin measures about 47 inches
+in length by 8 1/2 inches in diameter, and varies in weight from
+200 to 242 pounds.  Where destruction pure and simple is desired,
+the shell is charged with a high explosive such as picric acid or
+T.N.T., the colloquial abbreviation for the devastating agent
+scientifically known as "Trinitrotoluene," the base of which, in
+common with all the high explosives used by the different powers
+and variously known as lyddite, melinite, cheddite, and so forth,
+is picric acid.  Such a bomb, if it strikes the objective, a
+building, for instance, fairly and squarely, may inflict
+widespread material damage.
+
+On the other hand, where it is desired to scatter death, as well
+as destruction, far and wide, an elaborate form of shrapnel shell
+is utilised.  The shell in addition to a bursting charge,
+contains bullets, pieces of iron, and other metallic fragments.
+When the shell bursts, their contents, together with the pieces
+of the shell which is likewise broken up by the explosion, are
+hurled in all directions over a radius of some 50 yards or more,
+according to the bursting charge.
+
+These shells are fired upon impact, a detonator exploding the
+main charge.  The detonator, comprising fulminate of mercury, is
+placed in the head or tail of the missile.  To secure perfect
+detonation and to distribute the death-dealing contents evenly in
+all directions, it is essential that the bomb should strike the
+ground almost at right angles: otherwise the contents are hurled
+irregularly and perhaps in one direction only.  One great
+objection to the percussion system, as the method of impact
+detonation is called, is that the damage may be localised.  A
+bomb launched from a height of say 1,000 feet attains terrific
+velocity, due to the force of gravity in conjunction with its own
+weight, in consonance with the law concerning a falling body, by
+the time it reaches the ground.  It buries itself to a certain
+depth before bursting so that the forces of the explosion become
+somewhat muffled as it were.  A huge deep hole--a miniature
+volcano crater--is formed, while all the glass in the immediate
+vicinity of the explosion may be shattered by the concussion, and
+the walls of adjacent buildings be bespattered with shrapnel.
+
+Although it is stated that an airship is able to drop a single
+missile weighing one ton in weight, there has been no attempt to
+prove the contention by practice.  In all probability the
+heaviest shell launched from a Zeppelin has not exceeded 300
+pounds.  There is one cogent reason for such a belief.  A bomb
+weighing one ton is equivalent to a similar weight of ballast. 
+If this were discarded suddenly the equilibrium of the dirigible 
+would be seriously disturbed--it would exert a tendency to fly
+upwards at a rapid speed.  It is doubtful whether the planes
+controlling movement in the vertical plane would ever be able to
+counteract this enormous vertical thrust.  Something would have
+to submit to the strain.  Even if the dirigible displaced say 20
+tons, and a bomb weighing one ton were discharged, the weight of
+the balloon would be decreased suddenly by approximately five 
+per cent, so that it would shoot upwards at an alarming speed,
+and some seconds would elapse before control was regained.
+
+The method of launching bombs from airships varies considerably. 
+Some are released from a cradle, being tilted into position ready
+for firing, while others are discharged from a tube somewhat
+reminiscent of that used for firing torpedoes, with the exception
+that little or no initial impetus is imparted to the missile; the
+velocity it attains is essentially gravitational.
+
+The French favour the tube-launching method since thereby it is
+stated to be possible to take more accurate aim.  The objective
+is sighted and the bomb launched at the critical moment.  In some 
+instances the French employ an automatic detonator which
+corresponds in a certain measure to the time-fuse of a shrapnel
+shell fired from a gun.
+
+The bomb-thrower reads the altitude of his airship as indicated
+by his barometer or other recording instrument, and by means of a
+table at his command ascertains in a moment the time which will
+elapse before the bomb strikes the ground.  The automatic
+detonator is set in motion and the bomb released to explode
+approximately at the height to which it is set.  When it bursts
+the full force of the explosion is distributed downwards and
+laterally.  Owing to the difficulty of ensuring the explosion of
+the bomb at the exact height desired, it is also made to explode
+upon impact so as to make doubly sure of its efficacy.
+
+Firing timed bombs from aloft, however, is not free from
+excitement and danger, as the experience of a French airman
+demonstrates.  His dirigible had been commanded to make a
+night-raid upon a railway station which was a strategical
+junction for the movement of the enemy's troops.  Although the
+hostile searchlights were active, the airship contrived to slip
+between the spokes of light without being observed.  By
+descending to a comparatively low altitude the pilot was able to
+pick up the objective.
+
+Three projectiles were discharged in rapid succession and then
+the searchlights, being concentrated, struck the airship,
+revealing its presence to the troops below.  Instantly a spirited
+fusillade broke out.  The airmen, by throwing ballast and other
+portable articles overboard pell-mell, rose rapidly, pursued by
+the hostile shells.
+
+In the upward travel the bomb-thrower decided to have a parting
+shot.  The airship was steadied momentarily to enable the range
+to be taken, the automatic detonator was set going and the bomb
+slipped into the launching tube.  But for some reason or other
+the missile jambed.
+
+The situation was desperate.  In a few seconds the bomb would
+burst and shatter the airship.  The bomb-thrower grabbed a tool
+and climbing into the rigging below hacked away at the bomb-
+throwing tube until the whole equipment was cut adrift and fell
+clear of the vessel.  Almost instantly there was a terrific
+explosion in mid-air.  The blast of air caused the vessel to roll
+and pitch in a disconcerting manner, but as the airman permitted
+the craft to continue its upward course unchecked, she soon
+steadied herself and was brought under control once more.
+
+The bomb carried by aeroplanes differs consider ably from that
+used by dirigibles, is smaller and more convenient to handle,
+though considering its weight and size it is remarkably
+destructive.  In this instance complete reliance is placed upon
+detonation by impact.  The latest types of British war-plane
+bombs have been made particularly  formidable, those employed in
+the "raids in force" ranging up to 95 pounds in weight.
+
+The type of bomb which has proved to be the most successful is
+pear-shaped.  The tail spindle is given an arrow-head shape, the
+vanes being utilised to steady the downward flight of the
+missile.  In falling the bomb spins round, the rotating speed
+increasing as the projectile gathers velocity.  The vanes act as
+a guide, keeping the projectile in as vertical a plane as
+possible, and ensuring that the rounded head shall strike the
+ground.  The earlier types of bombs were not fitted with these
+vanes, the result being that sometimes they turned over and over
+as they fell through the air, while more often than not they
+failed to explode upon striking the ground.
+
+The method of launching the bomb also varies considerably,
+experience not having indicated the most efficient method of
+consummating this end.  In some cases the bombs are carried in a
+cradle placed beneath the aeroplane and launched merely by
+tilting them in a kind of sling, one by one, to enable them to
+drop to the ground, this action being controlled by means of a
+lever.  In another instance they are dropped over the side of the
+car by the pilot, the tail of the bomb being fitted with a swivel
+and ring to facilitate the operation.  Some of the French
+aviators favour a still simpler method.  The bomb is attached to
+a thread and lowered over the side.  At the critical moment it is
+released simply by severing the thread.  Such aeroplane bombs,
+however, constitute a menace to the machine and to the pilot. 
+Should the bomb be struck by hostile rifle or shell fire while
+the machine is aloft, an explosion is probable; while should the
+aero plane make an abrupt descent the missiles are likely to be
+detonated.
+
+A bomb which circumvents this menace and which in fact will
+explode only when it strikes the ground is that devised by Mr.
+Marten-Hale.  This projectile follows the usual pear-shape, and
+has a rotating tail to preserve direction when in flight.  The
+detonator is held away from the main charge by a collar and
+ball-bearing which are held in place by the projecting end of a
+screw-releasing spindle.  When the bomb is dropped the rotating
+tail causes the spindle to screw upwards until the projection
+moves away from the steel balls, thereby allowing them to fall
+inward when the collar and the detonator are released.  In order
+to bring about this action the bomb must have a fall of at least
+200 feet.
+
+When the bomb strikes the ground the detonator falls down on the
+charge, fires the latter, and thus brings about the bursting of
+the bomb.  The projectile is of the shrapnel type.  It weighs 20
+pounds complete, is charged with some four pounds of T.N.T., and
+carries 340 steel balls, which represent a weight of 5 3/4
+pounds.
+
+The firing mechanism is extremely sensitive and the bomb will
+burst upon impact with the hull of an airship, water, or soft
+soil.  This projectile, when discharged, speedily assumes the
+vertical position, so that there is every probability that it
+will strike the ground fairly and squarely, although at the same
+time such an impact is not imperative, because it will explode
+even if the angle of incidence be only 5 degrees.  It is
+remarkably steady in its flight, the balancing and the design of
+the tail frustrating completely any tendency to wobble or to turn
+turtle while falling.
+
+Other types of missile may be used.  For instance, incendiary
+bombs have been thrown with success in certain instances.  These
+bombs are similar in shape to the shrapnel projectile, but are
+charged with petrol or some other equally highly inflammable
+mixture, and fitted with a detonator.  When they strike the
+objective the bursting charge breaks up the shell, releasing the
+contents, and simultaneously ignites the combustible.
+
+Another shell is the smoke-bomb, which, up to the present, has
+been used only upon a restricted scale.  This missile is charged
+with a certain quantity of explosive to burst the shell, and a
+substance which, when ignited, emits copious clouds of dense
+smoke.  The scope of such a shell is somewhat restricted, it is
+used only for the purpose of obstructing hostile artillery fire. 
+The shells are dropped in front of the artillery position and the
+clouds of smoke which are emitted naturally inter fere with the
+operations of the gunners.  These bombs have also been used with
+advantage to denote the position of concealed hostile artillery,
+although their utility in this connection is somewhat uncertain,
+owing to the difficulty of dropping the bomb so accurately as to
+enable the range-finders to pick up the range.
+
+Dropping bombs from aloft appears to be a very simple operation,
+but as a matter of fact it is an extremely difficult matter to
+strike the target, especially from a high altitude.  So far as
+the aeroplane is concerned it is somewhat at a disadvantage as
+compared with the airship, as the latter is able to hover over a
+position, and, if a spring-gun is employed to impart an initial
+velocity to the missile, there is a greater probability of the
+projectile striking the target provided it has been well-aimed. 
+But even then other conditions are likely to arise, such as
+air-currents, which may swing the missile to one side of the
+objective.  Consequently adequate allowance has to be made for
+windage, which is a very difficult factor to calculate from
+aloft.
+
+Bomb-dropping from an aeroplane is even more difficult.  If for
+instance the aeroplane is speeding along at 60 miles an hour, the
+bomb when released will have a speed in the horizontal plane of
+60 miles an hour, because momentarily it is travelling at the
+speed of the aeroplane.  Consequently the shell will describe a
+curved trajectory, somewhat similar to that shown in Fig. 7.
+
+On the other hand, if the aeroplane is travelling slowly, say at
+20 miles an hour, the curve of the trajectory will be flatter,
+and if a head wind be prevailing it may even be swept backwards
+somewhat after it has lost its forward momentum, and describe a
+trajectory similar to that in Fig. 8.
+
+A bomb released from an altitude of 1000 feet seldom, if ever,
+makes a bee-line for the earth, even if dropped from a stationary
+airship.  Accordingly, the airman has to release the bomb before
+he reaches the target below.  The determination of the critical
+moment for the release is not easy, inasmuch as the airman has to
+take into his calculations the speed of his machine, his
+altitude, and the direction and velocity of the air-currents.
+
+The difficulty of aiming has been demonstrated upon several
+occasions at aviation meetings and other similar gatherings. 
+Monsieur Michelin, who has done so much for aviation in France,
+offered a prize of L1,00--$5,000--in 1912 for bomb-dropping from
+an aeroplane.  The target was a rectangular space marked out upon
+the ground, measuring 170 feet long by 40 feet broad, and the
+missiles had to be dropped from a height of 2,400 feet.  The
+prize was won by the well-known American airman, Lieutenant Riley
+E.  Scott, formerly of the United States Army.  He dropped his
+bombs in groups of three.  The first round fell clear of the
+target, but eight of the remaining missiles fell within the area.
+
+In the German competition which was held at Gotha in September of
+the same year the results were somewhat disappointing.  Two
+targets were provided.  The one represented a military bivouac
+occupying a superficies of 330 square feet, and the other a
+captive balloon resembling a Zeppelin.  The prizes offered were
+L500, L200, and L80--$2,500, $1,000 and $400--respectively, and
+were awarded to those who made the greatest number of hits.  The
+conditions were by no means so onerous as those imposed in the
+Michelin contest, inasmuch as the altitude limit was set at 660
+feet, while no machine was to descend within 165 feet.  The first
+competitor completely failed to hit the balloon.  The second
+competitor flying at 800 feet landed seven bombs within the
+square, but only one other competitor succeeded in placing one
+bomb within the space.
+
+Bomb-dropping under the above conditions, however, is vastly
+dissimilar from such work under the grim realities of war.  The
+airman has to act quickly, take his enemy by surprise, avail
+himself of any protective covering which may exist, and incur
+great risks.  The opposing forces are overwhelmingly against him. 
+The modern rifle, if fired vertically into the air, will hurl the
+bullet to a height of about 5,000 feet, while the weapons which
+have been designed to combat aircraft have a range of 10,000 feet
+or more.
+
+At the latter altitude aggressive tactics are useless.  The
+airman is unable to obtain a clear sharp view of the country
+beneath owing to the interference offered to vision by
+atmospheric haze, even in the dearest of weather.  In order to
+obtain reasonable accuracy of aim the corsair of the sky must fly
+at about 400 feet.  In this respect, however, the aeroplane is at
+a decided advantage, as compared with the dirigible.  The machine
+offers a considerably smaller target and moves with much greater
+speed.  Experience of the war has shown that to attempt to hurl
+bombs from an extreme height is merely a waste of ammunition. 
+True, they do a certain amount of damage, but this is due to
+luck, not judgment.
+
+For success in aerial bomb operations the human element is mainly
+responsible.  The daring airman is likely to achieve the greatest
+results, as events have proved, especially when his raid is
+sudden and takes the enemy by surprise.  The raids carried out by
+Marix, Collet, Briggs, Babington, Sippe and many others have
+established this fact incontrovertibly.  In all these operations
+the airmen succeeded because of their intrepidity and their
+decision to take advantage of cover, otherwise a prevailing mist
+or low-lying clouds.  Flight-Lieutenant Collet approached the
+Zeppelin shed at Dusseldorf at an altitude of 6,000 feet.  There
+was a bank of mist below, which he encountered at 1,500 feet.  He
+traversed the depth of this layer and emerged therefrom at a
+height of only 400 feet above the ground.  His objective was
+barely a quarter of a mile ahead.  Travelling at high speed he
+launched his bombs with what proved to be deadly precision, and
+disappeared into cover almost before the enemy had grasped his
+intentions.  Lieutenant-Commander, now Flight-Commander, Marix
+was even more daring.  Apparently he had no mist in which to
+conceal himself but trusted almost entirely to the speed of his
+machine, which probably at times notched 90 miles per hour. 
+Although his advent was detected and he was greeted with a
+spirited fusillade he clung to his determined idea.  He headed
+straight for the Zeppelin shed, launched two bombs and swung into
+the higher reaches of the air without a moment's hesitation.  His
+aim was deadly, since both bombs found their mark, and the
+Zeppelin docked within was blown up.  The intrepid airman
+experienced several narrow escapes, for his aeroplane was struck
+twenty times, and one or two of the control wires were cut by
+passing bullets.
+
+The raid carried out by Commanders Briggs and Babington in
+company with Lieutenant Sippe upon the Zeppelin workshops at
+Friedrichshafen was even more daring.  Leaving the Allies' lines
+they ascended to an altitude of 4,500 feet, and at this height
+held to the pre-arranged course until they encountered a mist,
+which while protecting them from the alert eyes of the enemy
+below, was responsible for the separation of the raiders, so that
+each was forced to act independently and to trust to the compass
+to bring him out of the ordeal successfully.  Lieutenant Sippe
+sighted Lake Constance, and taking advantage of the mist lying
+low upon the water, descended to such an extent that he found
+himself only a few feet above the roofs of the houses.  Swinging
+roundto the Lake he descended still lower until at last he was
+practically skimming the surface of the Lake, since he flew at
+the amazingly low height of barely seven feet off the water. 
+There is no doubt that the noise of his motor was heard plainly
+by the enemy, but the mist completely enveloped him, and owing to
+the strange pranks that fog plays with sound deceived his
+antagonists.
+
+At last, climbing above the bank of vapour, he found that he had
+overshot the mark, so he turned quickly and sped backwards.  At
+the same time he discovered that he had been preceded by
+Commander Briggs, who was bombarding the shed furiously, and who
+himself was the object of a concentrated fire.  Swooping down
+once more, Lieutenant Sippe turned, rained his bombs upon the
+objective beneath, drawing fire upon himself, but co-operating
+with Commander Babington, who had now reached the scene, he
+manoeuvred above the works and continued the bombardment until
+their ammunition was expended, when they sped home-wards under
+the cover of the mist.  Considering the intensity of the hostile
+fire, it is surprising that the aeroplanes were not smashed to
+fragments.  Undoubtedly the high speed of the machines and the
+zigzagging courses which were followed nonplussed the enemy.  
+Commander Briggs was not so fortunate as his colleagues; a bullet
+pierced his petrol tank, compelling a hurried descent.
+
+The most amazing feature of these aerial raids has been the
+remarkably low height at which the airmen have ventured to fly. 
+While such a procedure facilitates marksmanship it increases the
+hazards.  The airmen have to trust implicitly to the fleetness of
+their craft and to their own nerve.  Bearing in mind the
+vulnerability of the average aeroplane, and the general absence
+of protective armouring against rifle fire at almost point-blank
+range, it shows the important part which the human element is
+compelled to play in bomb-dropping operations.
+
+Another missile which has been introduced by the French airmen,
+and which is extremely deadly when hurled against dense masses of
+men, is the steel arrow, or "flechette" as it is called.  It is a
+fiendish projectile consisting in reality of a pencil of solid
+polished steel, 4 3/4 inches in length.  The lower end has a
+sharp tapering point, 5/8ths of an inch in length.  For a
+distance of 1 1/8th of an inch above this point the cylindrical
+form of the pencil is preserved, but for the succeeding three
+inches to the upper end, the pencil is provided with four equally
+spaced angle flanges or vanes.  This flanging of the upper end or
+tail ensures the arrow spinning rapidly as it falls through the
+air, and at the same times preserves its vertical position during
+its descent.  The weight of the arrow is two-thirds of an ounce.
+
+The method of launching this fearsome projectile is ingenious.  A
+hundred or even more are packed in a vertical position in a
+special receptacle, placed upon the floor of the aeroplane,
+preferably near the foot of the pilot or observer.  This
+receptacle is fitted with a bottom moving in the manner of a
+trap-door, and is opened by pressing a lever.  The aviator has
+merely to depress this pedal with his foot, when the box is
+opened and the whole of the contents are released.  The fall at
+first is somewhat erratic, but this is an advantage, as it
+enables the darts to scatter and to cover a wide area.  As the
+rotary motion of the arrows increases during the fall, the direct
+line of flight becomes more pronounced until at last they assume
+a vertical direction free from all wobbling, so that when they
+alight upon the target they are quite plumb.
+
+When launched from a height they strike the objective with
+terrific force, and will readily penetrate a soldier's helmet and
+skull.  Indeed, when released at a height of 4,000 feet they have
+been known to pierce a mounted soldier's head, and pass
+vertically through his body and that of his horse also.  Time
+after time German soldiers have found themselves pinned to the
+ground through the arrow striking and penetrating their feet. 
+Owing to the extremely light weight of the darts they can be
+launched in batches of hundreds at a time, and in a promiscuous
+manner when the objective is a massed body of infantry or
+cavalry, or a transport convoy.  They are extremely effective
+when thrown among horses even from a comparatively low altitude,
+not so much from the fatalities they produce, as from the fact
+that they precipitate a stampede among the animals, which is
+generally sufficiently serious and frantic to throw cavalry or a
+transport-train into wild confusion.
+
+Although aerial craft, when skilfully handled, have proved highly
+successful as weapons of offence, the possibilities of such
+aggression as yet are scarcely realised; aerial tactics are in
+their infancy.  Developments are moving rapidly.  Great efforts
+are being centred upon the evolution of more formidable missiles
+to be launched from the clouds.  The airman is destined to
+inspire far greater awe than at present, to exercise a still more
+demoralising influence, and to work infinitely more destruction.
+
+
+
+CHAPTER XI
+ARMOURED AEROPLANES
+
+The stern test of war has served to reveal conclusively the fact
+that aerial craft can be put out of action readily and
+effectively, when once the marksman has picked up the range,
+whether the gunner be conducting his operations with an anti-
+aircraft gun stationed upon the ground, or from a hostile
+machine.  It will be remembered that Flight-Commander Briggs, on
+the occasion of the daring British raid upon the Zeppelin sheds
+at Friedrichshafen, was brought to the ground by a bullet which
+penetrated his fuel tank.  Several other vessels, British,
+German, French, and Russian alike, have been thrown out of action
+in a similar manner, and invariably the craft which has been
+disabled suddenly in this way has fallen precipitately to earth
+in the fatal headlong dive.
+
+Previous to the outbreak of hostilities there was considerable
+divergence of opinion upon this subject.  The general opinion was
+that the outspread wings and the stays which constituted the
+weakest parts of the structure were most susceptible to gun-fire,
+and thus were likely to fail.  But practice has proved that it is
+the driving mechanism which is the most vulnerable part of the
+aeroplane.
+
+This vulnerability of the essential feature of the flying machine
+is a decisive weakness, and exposes the aviator to a constant
+menace.  It may be quite true that less than one bullet in a
+thousand may hit the machine, but when the lucky missile does
+find its billet its effect is complete.  The fact must not be
+overlooked that the gunners who work the batteries of
+anti-aircraft guns are becommg more and more expert as a result
+of practice, so that as time progresses and improved guns for
+such duty are rendered available, the work of the aviator is
+likely to become more dangerous and difficult.  Experience has
+proved that the high velocity gun of to-day is able to hurl its
+projectile or shell to an extreme height--far greater than was
+previously considered possible--so that considerable discretion
+has to be exercised by the airman, who literally bears his life
+in his hands.
+
+Although elaborate trials were carried out upon the testing
+ranges with the weapons devised especially for firing upon flying
+machines, captive balloons being employed as targets, the data
+thus obtained were neither conclusive nor illuminating.  The
+actual experiences of airmen have given us some very instructive
+facts upon this point for the first time.
+
+It was formerly held that the zone of fire that is to be
+considered as a serious danger was within a height of about 4,500
+feet.  But this estimate was well within the mark.  Airmen have
+found that the modern projectiles devised for this phase of
+operations are able to inflict distinctly serious damage at an
+altitude of 9,000 feet.  The shell itself may have but little of
+its imparted velocity remaining at this altitude, but it must be
+remembered that when the missile bursts, the contents thereof are
+given an independent velocity, and a wide cone of dispersion,
+which is quite sufficient to achieve the desired end, inasmuch as
+the mechanism of the modern aeroplane and dirigible is somewhat
+delicate.
+
+It was for this reason that the possibility of armouring the
+airship was discussed seriously, and many interesting experiments
+in this field were carried out.  At the same time it was decided
+that the armouring should be effected upon lines analogous to
+that prevailing in warship engineering.  The craft should not
+only be provided with defensive but also with aggressive
+armament.  This decision was not viewed with general approbation. 
+It was pointed out that questions of weight would arise,
+especially in relation to the speed of the machine.  Increased
+weight, unless it were accompanied by a proportionate
+augmentation of power in the motor, would react against the
+efficiency and utility of the machine, would appreciably reduce
+its speed, and would affect its climbing powers very adversely.
+In some quarters it was maintained that as a result the machine
+would even prove unsuited to military operations, inasmuch as
+high speed is the primary factor in these.
+
+Consequently it was decided by the foremost aviating experts that
+machines would have to be classified and allotted to particular
+spheres of work, just as warships are built in accordance with
+the special duty which they are expected to perform.  In
+reconnaissance, speed is imperative, because such work in the air
+coincides with that of the torpedo-boat or scout upon the seas. 
+It is designed to acquire information respecting the movements of
+the enemy, so as to assist the heavier arms in the plan of
+campaign.  On the other hand, the fighting corsair of the skies
+might be likened to the cruiser or battleship.  It need not
+possess such a high turn of speed, but must be equipped with
+hard-hitting powers and be protected against attacking fire.
+
+One attempt to secure the adequate protection against gun-fire
+from the ground assumed the installation of bullet-proof steel
+plating, about one fifth of an inch thick, below the tank and the
+motor respectively.  The disposition of the plating was such as
+to offer the minimum of resistance to the air and yet to present
+a plane surface to the ground below.  So far as it went this
+protection was completely effective, but it failed to armour the
+vital parts against lateral, cross and downward fire while aloft. 
+As the latter is more to be feared than the fire from the ground,
+seeing that it may be directed at point blank range, this was a
+decided defect and the armour was subsequently abandoned as
+useless.
+
+The only effective method of achieving the desired end is to
+armour the whole of the carriage or fuselage of the adroplane,
+and this was the principle adopted by the Vickers Company.  The
+Vickers military aeroplane is essentially a military machine.  It
+is built of steel throughout.  The skeleton of the machine is
+formed of an alloy which combines the qualities of aluminium and
+steel to ensure toughness, strength, and lightness.  In fact,
+metal is employed liberally throughout, except in connection with
+the wings, which follow the usual lines of construction.  The
+body of the car is sheathed with steel plating which is bullet
+proof against rifle or even shrapnel fire.  The car is designed
+to carry two persons; the seats are therefore disposed
+tandemwise, with the observer or gunner occupying the front seat.
+
+The defensive armament is adequate for ordinary purposes.  Being
+fitted with a 100 horse-power motor, fairly high speeds are
+attainable, although the velocity is not equal to that of
+machines constructed upon conventional lines, inasmuch as there
+is an appreciable increase in weight.
+
+The car is short and designed upon excellent stream lines, so
+that the minimum of resistance to the air is offered, while at
+the same time the balancing is perfect.  The sides of the car are
+brought up high enough to protect the aviators, only their heads
+being visible when they are seated.  The prow of the car follows
+the lines generally adopted in high speed torpedo boat design;
+there is a sharp knife edge stem with an enclosed fo'c's'le, the
+latter housing the gun.
+
+Another craft, designed for scouting operations, may be likened
+to the mosquito craft of the seas.  This machine, while a biplane
+like the military aeroplane, is of lighter construction,
+everything being sacrificed to speed in this instance.  It is
+fitted with a 100 horse-power motor and is designed to carry an
+observer if required.  There is no offensive armament, however. 
+The fuel tank capacity, moreover, is limited, being only
+sufficient for a two or three hours' flight.  While this is
+adequate for general reconnoitring, which for the most part
+entails short high speed flights, there are occasions when the
+Staff demands more prolonged observations conducted over a
+greater radius.  This requisition can be met by eliminating the
+observer, whose duties in this instance must be assumed by the
+pilot, and substituting in place of the former, a second fuel
+tank of sufficient capacity for a flight of four or five hours,
+thereby bringing the term of action in the air to about 6 1/4
+hours.  This machine travels at a very high speed and is
+eminently adapted to its specific duty, but it is of limited
+service for general purposes.
+
+The arming of an aeroplane, to enable it to defend itself against
+hostile attack or to participate in raiding operations upon the
+aerial fleet of the enemy, appears to be a simple task, but as a
+matter of fact it is an undertaking beset with difficulties
+innumerable.  This is especially the case where the aeroplane is
+of the tractive type, that is to say where the propellers are
+placed in the forefront of the machine and in their revolution
+serve to draw the machine forward.  All other considerations must
+necessarily be sacrificed to the mounting of the propeller. 
+Consequently it is by no means easy to allot a position for the
+installation of a gun, or if such should be found there is grave
+risk of the angle of fire being severely restricted.  In fact, in
+many instances the mounting of a gun is out of the question: it
+becomes a greater menace to the machine than to the enemy.
+
+The French aeronautical section of the military department
+devoted considerable study to this subject, but found the problem
+almost insurmount able.  Monsieur Loiseau met with the greatest
+measure of success, and his system is being practised in the
+present campaign.  This principle is essentially adapted to
+tractor aeroplanes.  Forward of the pilot a special position is
+reserved for the gunner.  A special mounting is provided towards
+the prow, and upon the upper face of the body of the machine. 
+The gun mounting is disposed in such a manner that it is able to
+command a wide arc of fire in the vertical plane over the nose of
+the machine and more particularly in the downward direction.
+
+The marksman is provided with a special seat, but when he comes
+into action he has to stand to manipulate his weapon.  The lower
+part of his body is protected by a front shield of steel plate, a
+fifth of an inch in thickness, while a light railing extending
+upon either side and behind enables the gunner to maintain his
+position when the aeroplane is banking and climbing.  The machine
+gun, of the Hotchkiss type, is mounted upon a swivel attached to
+a tripod, while the latter is built into the bracing of the car,
+so as to ensure a fairly steady gun platform.
+
+While the gun in the hands of a trained marksman may be
+manipulated with destructive effect, the drawbacks to the
+arrangement are obvious.  The gunner occupies a very exposed
+position, and, although the bullet-proof shield serves to break
+the effects of wind when travelling at high speed which renders
+the sighting and training of the weapon extremely difficult, yet
+he offers a conspicuous target, more particularly when the enemy
+is able to assume the upper position in the air as a result of
+superior speed in travelling.  The gun, however, may be elevated
+to about 60 degrees, which elevation may be accentuated by the
+inclination of the aeroplane when climbing, while the facility
+with which the weapon may be moved through the horizontal plane
+is distinctly favourable.
+
+But the aerial marksman suffers from one very pronounced defect:
+he has a severely restricted survey of everything below, since
+his vision is interrupted by the planes.  The result is that an
+enemy who has lost ascendancy of position is comparatively safe
+if he is able to fly immediately below his adversary: the
+mitrailleuse of the latter cannot be trained upon him.  On the
+other hand the enemy, if equipped with repeating rifles or
+automatic pistols, is able to inflict appreciable damage upon the
+craft overhead, the difficulties of firing vertically into the 
+air notwithstanding.
+
+In the Vickers system, where the propeller is mounted behind the
+car, the aeroplane thus operating upon the pusher principle, the
+nose of the car is occupied by the arm, which is a rifle calibre
+machine gun fitted upon a special mounting.  The prow is provided
+with an embrasure for the weapon and the latter is so installed
+as to command an angle of 30 degrees on all sides of the
+longitudinal axis of the machine when in flight.  In this
+instance the marksman is provided with complete protection on all
+sides, inasmuch as his position is in the prow, where the hood of
+the fo'c's'le shields him from overhead attack.  The gun is
+protected by a special shield which moves with the gun barrel. 
+This shield is provided with mica windows, through which the
+gunner is able to sight his arm, so that he is not inconvenienced
+in any way by the wind draught.
+
+One shortcoming of such methods of arming an aeroplane will be
+observed.  Ahead firing only is possible; the weapon cannot be
+trained astern, while similarly the line of fire on either
+broadside is severely limited.  This is one reason why the
+machine-gun armament of aerial craft of the heavier-than-air type
+has not undergone extensive development.  In many instances the
+pilot and observer have expressed their preference for repeating
+high velocity rifles over any form of fixed gun mounting, and
+have recourse to the latter only when the conditions are
+extremely favourable to its effective employment.
+
+Efforts are now being made to equip the military type of
+aeroplane with both forward and astern firing guns.  The urgency
+of astern fire has been brought home very vividly.  Suppose, for
+instance, two hostile aeroplanes, A and B, are in the air.  A has
+the advantage at first, but B is speedier and rapidly overhauls
+A.  During the whole period of the overhauling movement the
+gun of B can be directed upon A, while the latter, owing to the
+arc of training being limited to c d cannot reply.  Obviously in
+the running fight it would be to the advantage of B, although the
+fleeter machine, to keep behind A (position 1), but the latter is
+making towards its own lines.
+
+Under these circumstances A must be headed off, so B crowds on
+speed to consummate this end.  But in the overtaking process B
+renders his gun-fire ineffective, inasmuch as B passes beyond the
+arc of his gun which is represented by e f.  But in so doing B
+comes within the firing arc of A (position 9).  To minimise this
+danger B ascends to a higher level to obtain the paramount
+position.
+
+If, however, B were equipped with an astern gun the aeroplane A
+would be within the fire of B when the forward gun of the latter
+could not be used.  Similarly if A were also fitted with an
+astern gun it would be able to attack its pursuer the whole
+time B was to its rear and in this event, if its gun-fire were
+superior, it would be able to keep the latter to a safe distance,
+or compel B to manoeuvre into a superior position, which would
+entail a certain loss of time.
+
+An astern firing gun would be valuable to B in another sense. 
+Directly it had passed A or brought the latter within the zone of
+its astern gun it could maintain its fire at the most
+advantageous range, because owing to its speed it would be able
+to dictate the distance over which shots should be exchanged and
+if mounted with a superior weapon would be able to keep beyond
+the range of A's guns while at the same time it would keep A
+within range of its own gun and consequently rake the latter.  In
+the interests of self-preservation A would be compelled to
+change its course; in fact, B would be able to drive it in any
+direction he desired, as he would command A's movements by
+gun-fire.
+
+The value of combined ahead and astern firing has been
+appreciated, but there is one difficulty which at the moment
+appears to be insuperable the clearance of the propeller.  At the
+moment astern-firing, if such it may be called, is maintained by
+repeating rifles, but this armament is not to be compared with
+machine-gun firing, as the latter with its capacity to pour 400
+to 600 shots a minute, is far more deadly, particularly when the
+weapon is manipulated by a crack gunner.
+
+Up to the present the offensive armament of aeroplanes has been
+confined to light machine guns such as the Hotchkiss, Berthier,
+Schwartlose, and Maxim weapons.  So far as the arming of
+aeroplanes is concerned the indispensable condition is light
+weight.  With airships this factor is not so vital, the result
+being that some dirigibles are mounted with guns, throwing one
+pound bursting shells, fitted either with delay action or
+percussion fuses, the former for preference.  These shells are
+given a wide cone of dispersion.  Experiments are also being made
+with a gun similar to the pom-pom which proved so useful in South
+Africa, the gun throwing small shells varying from four to eight
+ounces in weight at high velocity and in rapid succession.  While
+such missiles would not be likely to inflict appreciable damage
+upon an armoured aeroplane, they would nevertheless be
+disconcerting to the aviators subjected to such fire, and in
+aerial combats the successful undermining of the adversary's
+moral is of far greater importance than in land operations, since
+immediately ascendancy in the artillery operations is attained
+the final issue is a matter of moments.
+
+But the most devastating arm which has yet been contrived for
+aerial operations is the light machine gun which has recently
+been perfected.  The one objective with this weapon is to disable
+the hostile aircraft's machinery.  It fires an armour piercing
+projectile which, striking the motor of any aircraft, would
+instantly put the latter out of action.  The shell has a diameter
+of about .75 inch and weighs about four ounces.  The gun is a
+hybrid of the mitrailleuse and the French "Soixante-quinze,"
+combining the firing rapidity of the former with the recoil
+mechanism of the latter.  This missile has established its
+ability to penetrate the defensive armouring of any aeroplane and
+the motor of the machine at 1,000 yards' range.  This offensive
+arm is now being manufactured, so that it is likely to be seen in
+the near future as the main armament of aeroplanes.
+
+At the moment widespread efforts are being made in the direction
+of increasing the offensive efficiency of aircraft.  It is one of
+the phases of ingenuity which has been stimulated into activity
+as a result of the war.
+
+
+
+CHAPTER XII
+BATTLES IN THE AIR
+
+Ever since the days of Jules Verne no theme has proved so popular
+in fiction as fighting in the air.  It was a subject which lent
+itself to vivid imagination and spirited picturesque portrayal. 
+Discussion might be provoked, but it inevitably proved abortive,
+inasmuch as there was a complete absence of data based upon
+actual experience.  The novelist was without any theory: he
+avowedly depended upon the brilliance of his imagination.  The
+critic could only theorise, and no matter how dogmatic his
+reasonings, they were certainly as unconvincing as those of the
+object of his attack.
+
+But truth has proved stranger than fiction.  The imaginative
+pictures of the novelist have not only been fulfilled but
+surpassed, while the theorising critic has been utterly
+confounded.  Fighting in the air has become so inseparable from
+the military operations of to-day that it occurs with startling
+frequency.  A contest between hostile aeroplanes, hundreds of
+feet above the earth, is no longer regarded as a dramatic,
+thrilling spectacle: it has become as matter-of-fact as a bayonet
+melee between opposed forces of infantry.
+
+A duel in the clouds differs from any other form of encounter. 
+It is fought mercilessly: there can be no question of quarter or
+surrender.  The white flag is no protection, for the simple
+reason that science and mechanical ingenuity have failed, so far,
+to devise a means of taking an aeroplane in tow.  The victor has
+no possible method of forcing the vanquished to the ground in his
+own territory except driving.  If such a move be made there is
+the risk that the latter will take the advantage of a critical
+opportunity to effect his escape, or to turn the tables.  For
+these reasons the fight is fought to a conclusive finish.
+
+To aspire to success in these combats waged in the trackless
+blue, speed, initiative, and daring are essential.  Success falls
+to the swift in every instance.  An aeroplane travelling at a
+high speed, and pursuing an undulating or irregular trajectory is
+almostimpossible to hit from the ground, as sighting is so
+extremely difficult.  Sighting from another machine, which
+likewise is travelling rapidly, and pursuing an irregular path,
+is far more so.  Unless the attacker can approach relatively
+closely to his enemy the possibility of hitting him is extremely
+remote.  Rifle or gun-fire must be absolutely point blank.
+
+When a marauding aeroplane is espied the attacking corsair
+immediately struggles for the strategical position, which is
+above his adversary.  To fire upwards from one aeroplane at
+another is virtually impossible, at least with any degree of
+accuracy.  The marksman is at a hopeless disadvantage.  If the
+pilot be unaccompanied and entirely dependent upon his own
+resources he cannot hope to fire vertically above him, for the
+simple reason that in so doing he must relinquish control of his
+machine.  A rifle cannot possibly be sighted under such
+conditions, inasmuch as it demands that the rifleman shall lean
+back so as to obtain control of his weapon and to bring it to
+bear upon his objective.  Even if a long range Mauser or other
+automatic pistol of the latest type be employed, two hands are
+necessary for firing purposes, more particularly as, under such
+conditions, the machine, if not kept under control, is apt to
+lurch and pitch disconcertingly.
+
+Even a colleague carried for the express purpose of aggression is
+handicapped.  If he has a machinegun, such as a Maxim or a
+mitrailleuse, it is almost out of the question to train it
+vertically.  Its useful vertical training arc is probably limited
+to about 80 degrees, and at this elevation the gunner has to
+assume an extremely uncomfortable position, especiauy upon an
+aeroplane, where, under the best of circumstances, he is somewhat
+cramped.
+
+On the other hand the man in the aeroplane above holds the
+dominating position.  He is immediately above his adversary and
+firing may be carried out with facility.  The conditions are
+wholly in his favour.  Sighting and firing downwards, even if
+absolutely vertically, imposes the minimum physical effort, with
+the result that the marksman is able to bring a steadier aim upon
+his adversary.  Even if the machine be carrying only the pilot,
+the latter is able to fire upon his enemy without necessarily
+releasing control of his motor, even for a moment.
+
+If he is a skilled sharpshooter, and the exigencies demand, he
+can level, sight, and fire his weapon with one hand, while under
+such circumstances an automatic self-loading pistol can be
+trained upon the objective with the greatest ease.  If the
+warplane be carrying a second person, acting as a gunner, the
+latter can maintain an effective rifle fusillade, and, at the
+same time, manipulate his machine-gun with no great effort,
+maintaining rifle fire until the pilot, by manoeuvring, can
+enable the mitrailleuse or Maxim to be used to the greatest
+advantage.
+
+Hence the wonderful display of tactical operations when two
+hostile aeroplanes sight one another.  The hunted at first
+endeavours to learn the turn of speed which his antagonist
+commands.  If the latter is inferior, the pursued can either
+profit from his advantage and race away to safety, or at once
+begin to manoeuvre for position.  If he is made of stern stuff,
+he attempts the latter feat without delay.  The pursuer, if he
+realises that he is out classed in pace, divines that his quarry
+will start climbing if he intends to show fight, so he begins to
+climb also.
+
+Now success in this tactical move will accrue to the machine
+which possesses the finest climbing powers, and here again, of
+course, speed is certain to count.  But, on the other hand, the
+prowess of the aviator--the human element once more--must not be
+ignored.  The war has demonstrated very convincingly that the
+personal quality of the aviator often becomes the decisive
+factor.
+
+A spirited contest in the air is one of the grimmest and most
+thrilling spectacles possible to conceive, and it displays the
+skill of the aviator in a striking manner.  Daring sweeps,
+startling wheels, breathless vol-planes, and remarkable climbs
+are carried out.  One wonders how the machine can possibly
+withstand the racking strains to which it is subjected.  The
+average aeroplane demands space in which to describe a turn, and
+the wheel has to be manipulated carefully and dexterously, an
+operation requiring considerable judgment on the part of the
+helmsman.
+
+But in an aerial duel discretion is flung to the winds.  The
+pilot jambs his helm over in his keen struggle to gain the
+superior position, causing the machine to groan and almost to
+heel over.  The stem stresses of war have served to reveal the
+perfection of the modern aeroplane together with the remarkable
+strength of its construction.  In one or two instances, when a
+victor has come to earth, subsequent examination has revealed the
+enormous strains to which the aeroplane has been subjected.  The
+machine has been distorted; wires have been broken--wires which
+have succumbed to the enormous stresses which have been imposed
+and have not been snapped by rifle fire.  One well-known British
+airman, who was formerly a daring automobilist, confided to me
+that a fight in the air "is the finest reliability trial for an
+aeroplane that was ever devised!"
+
+In these desperate struggles for aerial supremacy the one party
+endeavours to bring his opponent well within the point-blank
+range of his armament: the other on his part strives just as
+valiantly to keep well out of reach.  The latter knows fully well
+that his opponent is at a serious disadvantage when beyond
+point-blank range, for the simple reason that in sighting the
+rifle or automatic pistol, it is difficult, if not impossible
+while aloft, to judge distances accurately, and to make the
+correct allowances for windage.
+
+If, however, the dominating aviator is armed with a machine gun
+he occupies the superior position, because he can pour a steady
+hail of lead upon his enemy.  The employment of such a weapon
+when the contest is being waged over friendly territory has many
+drawbacks.  Damage is likely to be infficted among innocent
+observers on the earth below; the airman is likely to bombard his
+friends.  For this very reason promiscuous firing, in the hope
+of a lucky shot finding a billet in the hostile machine, is not
+practised.  Both parties appear to reserve their fire until they
+have drawn within what may be described as fighting distance,
+otherwise point blank range, which may be anything up to 300
+yards.
+
+Some of the battles between the German and the French or British
+aeroplanes have been waged with a total disregard of the
+consequences.  Both realise that one or the other must perish,
+and each is equally determined to triumph.  It is doubtful
+whether the animosity between the opposing forces is manifested
+anywhere so acutely as in the air.  In some instances the combat
+has commenced at 300 feet or so above the earth, and has been
+fought so desperately, the machines climbing and endeavouring to
+outmanoeuvre each other, that an altitude of over 5,000 feet has
+been attained before they have come to close grips.
+
+The French aviator is nimble, and impetuous: the German aviator
+is daring, but slow in thought: the British airman is a master of
+strategy, quick in thought, and prepared to risk anything to
+achieve his end.  The German airman is sent aloft to reconnoitre
+the enemy and to communicate his information to his headquarters. 
+That is his assigned duty and he performs it mechanically,
+declining to fight, as the welfare of his colleagues below is
+considered to be of more vital importance than his personal
+superiority in an aerial contest.  But if he is cornered he
+fights with a terrible and fatalistic desperation.
+
+The bravery of the German airmen is appreciated by the Allies. 
+The French flying-man, with his traditional love for individual
+combat, seeks and keenly enjoys a duel.  The British airman
+regards such a contest as a mere incident in the round of
+duty, but willingly accepts the challenge when it is offered.  It
+is this manifestation of what may be described as acquiescence in
+any development that enabled the British flying corps, although
+numerically inferior, to gain its mastery of the air so
+unostentatiously and yet so completely.
+
+All things considered an aeroplane duel is regarded as a fairly
+equal combat.  But what of a duel between an aeroplane and a
+dirigible?  Which holds the advantage?  This question has not
+been settled, at any rate conclusively, but it is generally
+conceded that up to a certain point the dirigible is superior.
+It certainly offers a huge and attractive target, but rifle fire
+at its prominent gas-bag is not going to cause much havoc.  The
+punctures of the envelope may represent so many vents through
+which the gas within may effect a gradual escape, but
+considerable time must elapse before the effect of such a
+bombardment becomes pronounced in its result, unless the gas-bag
+is absolutely riddled with machine gun-fire, when descent must be
+accelerated.
+
+On the other hand, it is to be presumed that the dirigible is
+armed.  In this event it has a distinct advantage.  It has a
+steady gun-platform enabling the weapons of offence to be trained
+more easily and an enhanced accuracy of,fire to be obtained.  In
+order to achieve success it is practically imperative that an
+aeroplane should obtain a position above the dirigible, but the
+latter can ascend in a much shorter space of time, because its
+ascent is vertical, whereas the aeroplane must describe a spiral
+in climbing.  Under these circumstances it is relatively easy for
+the airship to outmanoeuvre the aeroplane in the vertical plane,
+and to hold the dominating position.
+
+But even should the aeroplane obtain the upper position it is not
+regarded with fear.  Some of the latest Zeppelins have a machine
+gun mounted upon the upper surface of the envelope, which can
+be trained through 360 degrees and elevated to about 80 degrees
+vertical.  Owing to the steady gun platform offered it holds
+command in gun-fire, so that the aeroplane, unless the aviator is
+exceptionally daring, will not venture within the range of
+the dirigible.  It is stated, however, that this upper gun has
+proved unsatisfactory, owing to the stresses and strains imposed
+upon the framework of the envelope of the Zeppelin during firing,
+and it has apparently been abandoned.  The position, however, is
+still available for a sniper or sharpshooter.
+
+The position in the sky between two such combatants is closely
+analogous to that of a torpedo boat and a Dreadnought.  The
+latter, so long as it can keep the former at arm's, or rather
+gun's, distance is perfectly safe.  The torpedo boat can only
+aspire to harass its enemy by buzzing around, hoping that a lucky
+opportunity will develop to enable it to rush in and to launch
+its torpedo.  It is the same with the aeroplane when arrayed
+against a Zeppelin.  It is the mosquito craft of the air.
+
+How then can a heavier-than-air machine triumph over the unwieldy
+lighter-than-air antagonist?  Two solutions are available.  If it
+can get above the dirigible the adroplane may bring about the
+dirigible's destruction by the successful launch of a bomb.  The
+detonation of the latter would fire the hydrogen within the
+gas-bag or bags, in which event the airship would fall to earth a
+tangled wreck.  Even if the airship were inflated with a
+non-inflammable gas--the Germans claim that their Zeppelins now
+are so inflated--the damage wrought by the bomb would be so
+severe as to destroy the airship's buoyancy, and it would be
+forced to the ground.
+
+The alternative is very much more desperate.  It involves ramming
+the dirigible.  This is undoubtedly possible owing to the speed
+and facile control of the aeroplane, but whether the operation
+would be successful remains to be proved.  The aeroplane would be
+faced with such a concentrated hostile fire as to menace its own
+existence--its forward rush would be frustrated by the dirigible
+just as a naval vessel parries the ramming tactics of an enemy by
+sinking the latter before she reaches her target, while if it did
+crash into the hull of the dirigible, tearing it to shreds,
+firing its gas, or destroying its equilibrium, both protagonists
+would perish in the fatal dive to earth.  For this reason ramming
+in mid-air is not likely to be essayed except when the situation
+is desperate.
+
+What happens when two aeroplanes meet in dire combat in mid-air
+and one is vanquished?  Does the unfortunate vessel drop to earth
+like a stone, or does it descend steadily and reach the ground
+uninjured?  So far as actual experience has proved, either one of
+the foregoing contingencies may happen.  In one such duel the
+German aeroplane was observed to start suddenly upon a vol-plane
+to the ground.  Its descending flight carried it beyond the lines
+of the Allies into the territory of its friends.  Both came to
+the conclusion that the aviator had effected his escape.  But
+subsequent investigation revealed the fact that a lucky bullet
+from the Allies' aeroplane had lodged in the brain of the German
+pilot, killing him instantly.  At the moment when Death over took
+him the aviator had set his plane for the descent to the ground,
+and the machine came to earth in the manner of a glider.
+
+But in other instances the descent has been far more tragic.  The
+aeroplane, deprived of its motive power, has taken the deadly
+headlong dive to earth.  It has struck the ground with terrific
+violence, burying its nose in the soil, showing incidentally that
+a flying machine is an indifferent plough, and has shattered
+itself, the debris soaked with the escaping fuel becoming
+ignited.  In any event, after such a fall the machine is certain
+to be a wreck.  The motor may escape damage, in which event it
+is salvaged, the machine subsequently being purposely sacrificed
+to the flames, thereby rendering it no longer available to the
+enemy even if captured.  In many instances the hostile fire has
+smashed some of the stays and wires, causing the aeroplane to
+lose its equilibrium, and sending it to earth in the manner of
+the proverbial stone, the aviators either being dashed to pieces
+or burned to death.
+
+What are the vulnerable parts of the aeroplane?  While the
+deliberate intention of either combatant is to put his antagonist
+hors de combat, the disablement of the machine may be achieved
+without necessarily killing or even seriously wounding the
+hostile airman.  The prevailing type of aeroplane is highly
+susceptible to derangement: it is like a ship without armour
+plate protection.  The objective of the antagonist is the motor
+or the fuel-tank, the vital parts of the machine, as much as the
+aviator seated within.
+
+A well-planted shot, which upsets the mechanism of the engine, or
+a missile which perforates the fuel tank, thereby depriving the
+motor of its sustenance, will ensure victory as conclusively as
+the death of the aviator himself.  Rifle fire can achieve either
+of these ends with little difficulty.  Apart from these two
+nerve-centres, bombardment is not likely to effect the desired
+disablement, inasmuch as it cannot be rendered completely
+effective.  The wings may be riddled like a sieve, but the
+equilibrium of the machine is not seriously imperilled thereby. 
+Even many of the stays may be shot away, but bearing in mind the
+slender objective they offer, their destruction is likely to be
+due more to luck than judgment.  On the other hand, the motor and
+fuel tank of the conventional machine offer attractive targets:
+both may be put out of action readily, and the disablement of the
+motive power of an enemy's craft, be it torpedo-boat, battleship,
+or aeroplane, immediately places the same at the assailant's
+mercy.
+
+Nevertheless, of course, the disablement of the airman brings
+about the desired end very effectively.  It deprives the driving
+force of its controlling hand; The aeroplane becomes like a ship
+without a rudder: a vessel whose helmsman has been shot down.  It
+is unmanageable, and likely to become the sport of the element in
+which it moves.  It is for this reason that aviators have been
+urged to direct their fire upon the men and mechanism of a
+dirigible in the effort to put it out of action.  An uncontrolled
+airship is more likely to meet with its doom than an aeroplane. 
+The latter will inevitably glide to earth, possibly damaging
+itself seriously in the process, as events in the war have
+demonstrated, but a helpless airship at once becomes the sport of
+the wind, and anyone who has assisted, like myself, in the
+descent of a vessel charged with gas and floating in the air, can
+appreciate the difficulties experienced in landing.  An
+uncontrolled Zeppelin, for instance, would inevitably pile up in
+a tangled twisted ruin if forced to descend in the manner of an
+ordinary balloon.  Consequently the pilot of a dirigible realises
+to the full the imperative urgency of keeping beyond the
+point-blank fire of aerial mosquito craft.
+
+The assiduity with which British aviators are prepared to swarm
+to the attack has been responsible for a display of commendable
+ingenuity on the part of the German airman.  Nature has provided
+some of its creatures, such as the octopus, for instance, with
+the ways and means of baffling its pursuers.  It emits dense
+clouds of inky fluid when disturbed, and is able to effect its
+escape under cover of this screen.
+
+The German aviator has emulated the octopus.  He carries not only
+explosive bombs but smoke balls as well.  When he is pursued and
+he finds himself in danger of being overtaken, the Teuton aviator
+ignites these missiles and throws them overboard.  The aeroplane
+becomes enveloped in a cloud of thick impenetrable smoke.  It is
+useless to fire haphazard at the cloud, inasmuch as it does not
+necessarily cover the aviator.  He probably has dashed out of the
+cloud in such a way as to put the screen between himself and his
+pursuer.
+
+In such tactics he has merely profited by a method which is
+practised freely upon the water.  The torpedo boat flotilla when
+in danger of being overwhelmed by superior forces will throw off
+copious clouds of smoke.  Under this cover it is able to steal
+away, trusting to the speed of the craft to carry them well
+beyond gunshot.  The "smoke screen," as it is called, is an
+accepted and extensively practised ruse in naval strategy, and is
+now adopted by its mosquito colleagues of the air.
+
+
+
+CHAPTER XIII
+TRICKS AND RUSES TO BAFFLE THE AIRMAN
+
+The airman has not been allowed to hold his undisputed sway in
+military operations for long.  Desperate situations demand
+drastic remedies and already considerable and illuminating
+ingenuity is being displayed to baffle and mislead the scout of
+the skies.
+
+It is a somewhat curious and noteworthy fact, that the Germans
+were among the first to realise the scope of the airman's
+activities, and the significance of their relation to the
+conveyance of intimate information and the direction of artillery
+fire.  Consequently, they now spare no effort to convey illusory
+information, in the hope that the hostile force may ultimately
+make a false move which may culminate in disaster.
+
+Thus, for instance, as much endeavour is bestowed upon the
+fashioning of dummy trenches as upon the preparation of the
+actual lines of defence.  And every care will be taken to
+indicate that the former are strongly held.  The dug-outs are
+complete and at places are apparently cunningly masked.  If the
+airman is flying swiftly, he is likely to fail to distinguish the
+dummy from the real trenches.  To him the defences appear to be
+far more elaborate and more strongly held than is the actual
+case.
+
+The advantage of this delusion is obvious when a retreat is being
+made.  It enables the enemy to withdraw his forces deliberately
+and in perfect order, and to assume another and stronger position
+comparatively at leisure.  The difficulty of detecting the
+dummies is emphasised, inasmuch as now, whenever the sound of an
+aeroplane is heard, or a glimpse thereof is obtained, the men
+keep well down and out of sight.  Not a sign of movement is
+observable.  For all the airman may know to the contrary, the
+trenches may be completely empty, whereas, as a matter of fact,
+they are throbbing with alert infantry, anxious for a struggle
+with the enemy.
+
+This is one instance where the dirigible is superior to the
+aeroplane.  The latter can only keep circling round and round
+over the suspicious position;  the movement through the air
+interferes with close continuous observation.  On the other hand,
+the dirigible can maintain a stationary position aloft for hours
+on end.  Then the issue is resolved into a contest of patience,
+with the advantage to the airman.  The soldiers in the trenches
+fret and fume under cover; confined concealment is irksome and is
+a supreme test of the nerves.  Unless the soldiers are made of
+very stern stuff, physical endurance succumbs.  Some rash act--
+apparently very trivial--may be committed; it suffices for the
+vigilant sentinel overhead.  He detects the slender sign of life,
+forms his own conclusions, and returns to his headquarters with
+the intelligence that the enemy is playing "Brer Rabbit."
+
+It has also become increasingly difficult for the airman to
+gather absolutely trustworthy data concerning the disposition and
+movement of troops.  Small columns are now strung out along the
+highways to convey the impression that the moving troops are in
+far greater force than is actually the case, while the main body
+is under the cover offered by a friendly wood and is safe from
+detection.  The rapidity with which thousands of men are able
+to disappear when the word "Airman" is passed round is
+astonishing.  They vanish as completely and suddenly as if
+swallowed by the earth or dissolved into thin air.  They conceal
+themselves under bushes,in ditches, lie prone under hedgerows,
+dart into houses and outbuildings--in short, take every cover
+which is available, no matter how slender it may seem, with
+baffling alacrity.  The attenuated column, however, is kept
+moving along the highway for the express purpose of deceiving the
+airman.
+
+Advancing troops also are now urged to move forward under the
+shelter of trees, even if the task entails marching in single or
+double file, to escape the prying eyes of the man above.  By
+keeping close to the line of trunks, thus taking full advantage
+of the overhanging branches, and marching in such a manner as to
+create little dust, it is possible to escape the aerial scout.
+
+The concealment of cavalry, however, is somewhat difficult.  An
+animal, especially if he be unaccustomed to the noise of the
+aeroplane, is likely to become startled, and to give vent to a
+frightened and vociferous neighing which invariably provokes a
+hearty response from his equine comrades.  The sharp ear of the
+airman does not fail to distinguish this sound above the music of
+his motor.  Again, he has come to regard all copses and stretches
+of undergrowth with suspicion.  Such may or may not harbour the
+enemy, but there is no risk in making an investigation.  He
+swoops down, and when a short distance above the apparently
+innocent copse, circles round it two or three times.  Still
+undecided, he finally hurls a bomb.  Its detonation invariably
+proves effective.  The horses stampede and the secret is out. 
+Even foot soldiers must be severely trained and experienced to
+resist the natural inclination to break cover when such a missile
+is hurled into their midst.
+
+Frequently a force, which has laboured under the impression that
+it is safe from detection, has revealed its presence unwittingly
+and upon the spur of the moment.  If the men be steeled against
+the bomb attack, it is almost impossible to resist the
+inclination to take a shot when the airman, swooping down,
+ventures so temptingly near as to render him an enticing target
+almost impossible to miss.  As a rule, however, the observer is
+on the alert for such a betrayal of a force's existence.  When
+the bomb fails to scatter the enemy, or the men are proof against
+the temptation to fire a volley, a few rounds from the
+aeroplane's machine gun often proves effective.  If the copse
+indeed be empty no harm is done, beyond the abortive expenditure
+of a few rounds of ammunition: if it be occupied, the fruits of
+the manoeuvre are attractive.  Cunning is matched against
+cunning, and the struggle for supremacy in the art of craftiness
+is keen.
+
+The French Flying Corps have had recourse to an ingenious ruse
+for accomplishing two ends--the one to draw concealed artillery
+fire, and the other to pre-occupy the airmen.  Two German aerial
+scouts observed a French machine flying at a somewhat venturesome
+height over their masked artillery.  Divining the reason for the
+hostile intrepidity they  gave chase.  Circling round the French
+machine they assailed it with machine-gun fire.  The enemy
+appeared to take no notice but continued his gradual descent in a
+steady line.
+
+Presently the German airmen, having drawn sufficiently near,
+observed that the French aviator was inert.  Had he been killed? 
+Everything pointed to such a conclusion, especially as they had
+raked the aeroplane fore and aft with bullets.  But still
+suspicious they continued their circling movements, their
+attention so concentrated upon their quarry that they had not
+observed another move.  It was the crash of guns from their
+masked artillery which broke in upon their absorption.  Looking
+round, they observed three French aeroplanes soaring around and
+above them at high speed.  Scarcely had they realised the
+situation before a spirited mitraireuse fire was rained upon
+them.  One of the German aeroplanes was speedily disabled.  Its
+fuel tank was riddled and it sank rapidly, finally crashing to
+earth in the deadly dive head foremost, and killing both its
+occupants in the fall.  The second aeroplane hurried away with
+its pilot wounded.  In the excitement of the aerial melee the
+first French aeroplane had been forgotten.  It was now scarcely
+100 feet above the German artillery.  A capture appeared to be
+imminent, but the Germans received a rude surprise.  Suddenly the
+aeroplane exploded and a hail of shrapnel burst over the heads of
+the artillerymen.
+
+The circumstance was decidedly uncanny, but after two or three
+such experiences of exploding aeroplanes the matter was
+explained.  The apparently helpless aeroplane was merely a
+glider, which, instead of carrying a man, had a booby-trap
+aboard.
+
+It appears that the French airmen have found a use for the
+aeroplanes which are considered unsafe for further use.  The
+motor and propeller are removed and the dummy of explosives is
+strapped into position.  The laden glider is then taken aloft by
+means of an airship, and in the concealment of the clouds is
+released, the rudder being so set as to ensure a gradual
+vol-plane towards the suspicious position below.  The explosive
+cargo is set with a time fuse, the arrangement being that the
+contents will be detonated while the machine is near the ground,
+unless this end is accelerated by a well-planted shell from an
+anti-aircraft gun.  The decoy glider is generally accompanied by
+one or two aeroplanes under control, which keep under the cover
+of the clouds until the hostile aviators have been drawn into the
+air, when they swoop down to the attack.  The raiders are fully
+aware that they are not likely to become the target of fire from
+the ground, owing to the fact that the enemy's artillery might
+hit its friends.  Consequently the antagonistic airmen are left
+to settle their own account.  In the meantime the dummy machine
+draws nearer to the ground to explode and to scatter its
+death-dealing fragments of steel, iron, and bullets in all
+directions.
+
+Possibly in no other phase of warfare is subterfuge practised so
+extensively as in the concealment of guns.  The branches of trees
+constitute the most complete protection and guns are placed in
+position beneath a liberal cover of this character.  The branches
+also offer a screen for the artillerymen, who can lurk beneath
+this shelter until the aeroplane has passed.  To complete the
+illusion dummy guns fashioned from tree trunks and the wheels of
+useless limbers are rigged up, and partially hidden under
+branches, the idea being to convey the impression to the man
+aloft that they are the actual artillery.
+
+The aerial scout observes the dummies beneath the sparse covering
+of branches.  Congratulating himself upon his sharp eyesight, he
+returns to his base with the intelligence that he has found the
+enemy's guns he indicates their position upon the map, and in
+some cases returns to notify the position of the weapons by
+smoke-ball or tinsel, when they are immediately subjected to a
+severe bombardment.  He follows the shell-fire and sees the arms
+put out of action.  He returns to camp satisfied with his
+exploit, oblivious of the smiles and laughter of the hostile
+artillerymen, who have their guns safely in position and well
+masked some distance away.  The dummies are imperfectly concealed
+purposely, so that they may be discovered by the aerial scout,
+while the real guns are completely masked and ready to belch
+forth from another point.  In one or two cases the dummies have
+been rigged up in such a manner as to convey the impression, when
+seen from aloft, that a whole battery has been put out of action,
+barrels and wheels as well as broken limbers strewing the ground
+in all directions.
+
+Moving masses of soldiers are also resorting to cunning in order
+to mislead the airman or to escape his observation.  At the
+battle of Haelen, during which engagement the German warplanes
+were exceptionally active, the Belgian soldiers covered their
+heads with bundles of wheat snatched from the standing stooks,
+and under this cover lurked in a field where the corn was still
+standing.  From aloft their forms defied detection: the
+improvised headgear completely covered them and blended
+effectively with the surrounding wheat.  In another instance the
+French misled a German airman somewhat effectively.  What
+appeared to be cavalry was seen to be retreating along the
+country road, and the airman returned hurriedly to report.  A
+German squadron was dispatched in hasty pursuit.  But as it
+rounded a copse skirting the road it received a murderous fire at
+close quarters, which decimated the ranks and sent the survivors
+flying for their lives along the road up which they had ridden so
+confidently.  Had the aviator been in a position to observe the
+horses more closely, he would have found that what appeared to be
+riders on their backs were in reality sacks stuffed with straw,
+dressed in old uniforms, and that a mere handful of men were
+driving the animals forward.  The cavalrymen had purposely
+dismounted and secreted themselves in the wood in anticipation of
+such a pursuit as was made.
+
+While the Germans do not appear to be so enterprising in this
+form of ingenuity they have not been idle.  A French airman
+flying over the Teuton lines observed the outermost trenches to
+be alive with men whose helmets were distinctly visible.  The
+airman reported his observations and the trench was subjected to
+terrific shell fire.  Subsequently the French made a spirited
+charge, but to their dismay found that the outermost German
+trench was occupied by dummies fashioned from all sorts of
+materials and crowned with helmets!  This ruse had enabled the
+German lines to be withdrawn to another position in safety and
+comparatively at leisure.
+
+Before war was declared the German military experts were
+emphasising the importance of trees for masking troops and guns
+against aerial observation.  One of the foremost authorities upon
+military aviation only a few months ago urged the German Military
+Staff to encourage the planting of orchards, not for the purpose
+of benefiting agriculture or in the interests of the farmers, but
+merely for military exigencies.
+
+He pointed to the extensive orchards which exist in
+Alsace-Lorraine and Baden, the military covering value of which
+he had determined from personal experience, having conducted
+aerial operations while military were moving to and fro under the
+cover of the trees.  He declared that the cover was efficient and
+that under the circumstances the laying out of extensive orchards
+in strategical places should be carried out without any delay.
+This, he urged, was a national and not a private obligation.  He
+advocated the bestowal of subsidies on the farmers to encourage
+the planting of fruit trees.  He suggested that the trees should
+be provided by the State, and given to all who were prepared to
+plant them; that substantial prizes should be awarded to
+encourage the rapid growth thereof, and that annual prizes should
+be awarded to the man who would undertake their cultivation and
+pruning, not from the fruit-yielding point of view, but for
+facilitating the movement of troops beneath their dense branches.
+
+He even urged the military acquisition of suitable land and its
+determined, skilful, and discreet exploitation by those who loved
+the Fatherland.  He emphasised the necessity for keeping such
+orchards under military control, only vouchsafing sufficient
+powers to the local authorities to ensure the desired
+consummation.  He maintained that, if the work were prosecuted
+upon the right lines and sufficient financial assistance were
+given, the purpose in view could be achieved without saddling the
+war department with any unremunerative or excessive burden.  He
+admitted that the process of raising fruit trees to the stage
+when they would afford adequate cover would be tedious and
+somewhat prolonged, but argued that the military advantages, such
+as enabling troops to move below the welcome shelter with
+absolute freedom and without physical fatigue, would be an ample
+compensation.
+
+The utility of such cover to artillery was another factor he did
+not fail to emphasise.  He dwelt seriously upon the difficulty of
+rendering permanent gun emplacements and heavy artillery
+invisible to the airman by resort to the usual type of gun
+shields.  The latter may be located with ease by alert airmen,
+whereas if the guns were under cover of fruit trees they would be
+able to accomplish their deadly mission without betraying their
+presence to the aerial scout.  Moreover, by pruning the trees in
+such a manner as to ensure free movement beneath, the artillery
+would be able to advance without betraying the fact to the enemy.
+
+This authority vigorously insisted that the work should be
+carried out without a moment's delay  as it was vital to the
+Fatherland.  In the light of recent events, and the excellent
+cover which is offered by the orchards of the territory he cited
+as an illustration of his contention, such a disclosure is
+pregnant with meaning.  It throws a new light upon the thorough
+methods with which the Germans carried out their military
+preparations, and incidentally shows that they were fully alive
+to every possible development.  Fruit-raising as a complement to
+military operations may be a new line of discussion, but it
+serves to reveal the German in his true light, ready for every
+contingency, and shows how thoroughly he appreciates the danger
+from the man in the clouds.
+
+
+
+CHAPTER XIV
+ANTI-AIRCRAFT GUNS.  MOBILE WEAPONS.
+
+When the airship and the aeroplane became accepted units of
+warfare it was only natural that efforts should be concentrated
+upon the evolution of ways and means to compass their destruction
+or, at least, to restrict their field of activity.  But aircraft
+appeared to have an immense advantage in combat.  They possess
+virtually unlimited space in which to manoeuvre, and are able to
+select the elevation from which to hurl their missiles of
+destruction.
+
+There is another and even more important factor in their favour. 
+A projectile fired, or even dropped, from a height, say of 5,000
+feet, is favourably affected by the force of gravity, with the
+result that it travels towards the earth with accumulating energy
+and strikes the ground with decisive force.
+
+On the other hand, a missile discharged into space from a weapon
+on the earth has to combat this action of gravity, which
+exercises a powerful nullifying influence upon its flight and
+velocity, far in excess of the mere resistance offered by the
+air.  In other words, whereas the projectile launched from
+aloft has the downward pull of the earth or gravitational force
+in its favour, the shell fired from the ground in the reverse
+direction has to contend against this downward pull and its
+decelerating effect.
+
+At the time when aircraft entered the realms of warfare very
+little was known concerning the altitudes to which projectiles
+could be hurled deliberately.  Certain conclusive information
+upon this point was available in connection with heavy howitzer
+fire, based on calculations of the respective angles at which the
+projectile rose into the air and fell to the ground, and of the
+time the missile took to complete its flight from the gun to the
+objective.  But howitzer fire against aircraft was a sheer
+impossibility: it was like using a six-inch gun to kill a fly on
+a window pane at a thousand yards' range.  Some years ago certain
+experiments in aerial firing with a rifle were undertaken in
+Switzerland.  The weapon was set vertically muzzle upwards and
+discharged.  From the time which elapsed between the issue of the
+bullet from the muzzle until it struck the earth it was possible
+to make certain deductions, from which it was estimated that the
+bullet reached an altitude of 600 feet or so.  But this was
+merely conjecture.
+
+Consequently when artillerists entered upon the study of fighting
+air-craft with small arms and light guns, they were compelled to
+struggle in the dark to a very pronounced extent, and this
+darkness was never satisfactorily dispelled until the present
+war, for the simple reason that there were no means of getting
+conclusive information.  The German armament manufacturers
+endeavoured to solve the problem by using smoking shells or
+missiles fitted with what are known as tracers.  By following the
+ascensional path of the projectiles as revealed by the smoke it
+was possible to draw certain conclusions.  But these were by no
+means convincing or illuminating, as so many factors affected the
+issue.
+
+Despite the peculiar and complex difficulties associated with the
+problem it was attacked some what boldly.  In this trying field
+of artillery research the prominent German armament
+manufacturers, Krupp of Essen and Ehrhardt of Dusseldorf, played
+a leading part, the result being that before the airship or the
+aeroplane was received within the military fold, the
+anti-aircraft gun had been brought into the field of applied
+science.  The sudden levelling-up serves to illustrate the
+enterprise of the Germans in this respect as well as their
+perspicacity in connection with the military value of aircraft.
+
+Any gun we can hope to employ against aircraft with some degree
+of success must fulfil special conditions, for it has to deal
+with a difficult and elusive foe.  Both the lighter-than-air and
+the heavier than-air craft possess distinctive features and
+varying degrees of mobility.  Taking the first-named, the
+facility with which it can vary its altitude is a disconcerting
+factor, and is perplexing to the most skilful gunner, inasmuch as
+he is called upon to judge and change the range suddenly.
+
+On the other hand, the artilleryman is favoured in certain
+directions.  The range of utility of the airship is severely
+limited.  If its avowed mission is reconnaissance and conclusive
+information concerning the disposition of forces, artillery and
+so forth is required, experience has proved that such work cannot
+be carried out satisfactorily or with any degree of accuracy at a
+height exceeding 5,000 feet, and a distance beyond six miles. 
+But even under these circumstances the climatic conditions must
+be extremely favourable.  If the elements are unpropitious the
+airship must venture nearer to its objective.  These data were
+not difficult to collect, inasmuch as they were more or less
+available from the results of military observations with captive
+balloons, the conditions being somewhat similar.  With the
+ordinary captive balloon it has been found that, in clear
+weather, a radius of about 3 3/4 miles at the maximum elevation
+constitutes its range of reliable utility.
+
+With the aeroplane, however, the conditions are very dissimilar. 
+In the first place the machine owing to its diminutive size as
+compared with the airship, offers a small and inconspicuous
+target.  Then there is its high independent speed, which is far
+beyond that of the airship.  Furthermore its mobility is greater. 
+It can wheel, turn sharply to the right or to the left, and
+pursue an irregular undulating flight in the horizontal plane,
+which renders it well nigh impossible for a gunner to pick it up. 
+The machine moves at a higher relative speed than that at which
+the gun can be trained.  It is the rapid and devious variation
+which so baffles the gunner, who unless he be highly skilled and
+patient, is apt to commence to fire wildly after striving for a
+few moments, and in vain, to pick up the range; he trusts to luck
+or depends upon blind-shooting, which invariably results in a
+waste of ammunition.
+
+A gun, to be of tangible destructive efficiency when directed
+against aircraft, especially those depending upon the gas-bag for
+equilibrium, must be of special design.  It must be capable of
+firing at an angle only a few degrees less than the absolute
+vertical, and in order to follow the rapid and involved movements
+of its objective, must be so mobile that it can be trained
+through a complete circle at any angle of inclination less than
+its maximum.  At the same time, if the weapon is being used in
+field operations it must be mounted upon a carriage of adequate
+mobility to enable it to follow the airship, and thereby keep
+pace with the latter, so that the aerial craft may be sorely
+harassed if not actually hit.  The automobile is the obvious
+vehicle for this duty, and it has accordingly been extensively
+used in this service.
+
+The automobile and the gun mounted thereon follow widely
+different lines.  Some vehicles are designed especially for this
+duty, while others are improvisations, and be it noted, in
+passing, that many of the latter have proved more serviceable
+than the former.  Still, the first-named is to be preferred,
+inasmuch as necessarily it is designed to meet the all-round
+requirements imposed, and consequently is better able to stand up
+to the intended work, whereas the extemporised vehicle is only
+serviceable under favourable conditions.
+
+The Krupp Company has evolved many designs of anti-aircraft
+motor-driven guns--"Archibalds" the British airmen term them with
+emphatic levity.  They are sturdily-built vehicles fitted with
+heavy motors, developing from 40 to 50 horse-power, with the
+chassis not widely dissimilar from that adopted for motor-omnibus
+traffic.  Consequently, they are not necessarily condemned to the
+high-roads, but within certain limits are able to travel across
+country, i.e., upon fields or other level expanses, where the
+soil is not unduly soft.
+
+But the very character of the problem rendered the evolution of
+the vehicle a somewhat perplexing matter.  There were many
+factors which had to be taken into consideration, and it was
+possible to meet the imposed requirements only within certain
+limits.  In the first place, the weight of the gun itself had to
+be kept down.  It was obviously useless to overload the chassis. 
+Again, the weight of the projectile and its velocity had to be
+borne in mind.  A high velocity was imperative.  Accordingly, an
+initial velocity varying from 2,200 to 2,700 feet per second,
+according to the calibre of the gun, was determined.
+
+Moreover, as mobility was an indispensable condition, the gun had
+to be so mounted that it could be fired from the motor-car even
+if the latter were travelling at high speed.  This requirement
+entailed another difficulty.  The gun had to be mounted in such a
+manner as to enable the gunner to train it easily and readily
+through the complete circle and through its complete range of
+vertical inclination.  As the result of prolonged experiments it
+was ascertained that the most suitable arrangement was a pedestal
+mounting, either within a turret or upon an open deck.  To meet
+the weight of the gun, as well as the strains and stresses
+incidental to firing, the chassis was strengthened, especially 
+over the rear axle near which the mounting is placed.
+
+The heaviest gun of this type is the 10.5 centimetre (4 1/4-inch)
+quick-firer, throwing a shell weighing nearly forty pounds, with
+an initial velocity of 2,333 feet per second.  This "Archibald"
+is totally unprotected.  The gun is mounted centrally upon the
+carriage over the rear axle, and occupies the centre of the deck
+between the driver's seat and that of the gun crew behind.  The
+whole of the deck is clear, thereby offering no obstruction to
+the gunner in training the weapon, while the space may be widened
+by dropping down the wings of the vehicle.  At the rear is a seat
+to accommodate the gun crew, beneath which the ammunition is
+stowed.  When travelling and out of action, the gun lies
+horizontally, the muzzle pointing from the rear of the car.
+
+To reduce the strains arising from firing, the arm is fitted with
+what is known as the "differential recoil."  Above the breach is
+an air recuperator and a piston, while there is no hydraulic
+brake such as is generally used.  The compressor is kept under
+compression while the car is travelling with the gun out of
+action, so that the arm is available for instant firing.  This is
+a departure from the general practice in connection with such
+weapons.  When the gun is loaded the bolt which holds the
+compressor back is withdrawn, either by the hand for manual
+firing, or by the action of the automatic closing of the
+breech when the arm is being used as a quick-firer.  In firing
+the gun is thrown forward under the pressure of the released air
+which occurs at the moment of discharge.  The energy of the
+recoil brings the gun back and at the same time recharges the
+compressed air reservoir.
+
+The gun is so mounted upon its pedestal as to enable a maximum
+vertical inclination of 75 degrees to be obtained.  The mounting
+system also enables the weapon to be trained in any desired
+direction up to the foregoing maximum elevation throughout a
+complete circle, and it can be handled with ease and celerity.  A
+smaller "Archibald" is the 7.5 centimetre (3-inch gun) throwing a
+14.3 pound shell at an initial velocity of about 2,170 feet per
+second.
+
+The turret anti-aircraft gun carried upon a motor-car differs
+from the foregoing very considerably.  This is a protected arm. 
+The gun of 7.1 centimetres--approximately 2.75 inches--is mounted
+in the same manner upon the car-deck and over the driving axle,
+but is enclosed within a sheet steel turret, which is proof
+against rifle and machine-gun fire.  This turret resembles the
+conning-tower of a battleship, and is sufficiently spacious to
+house the whole of the gun crew, the internal diameter being
+about seven feet.  Access to the turret is obtained through a
+rear door.  This gun has a maximum elevation of about 75 degrees,
+while its operation and mechanism are similar to those of the
+unprotected weapon.
+
+The vehicle itself is practically identical with the armoured
+motor-car, which has played such an important part during the
+present campaign, the driver being protected by a bullet-proof
+steel screen similar in design to the ordinary glass wind-screen
+fitted to touring automobiles.  This is carried sufficiently high
+to offer complete protection to his head when seated at the
+wheel, while through a small orifice in this shield he is able to
+obtain a clear view of the road.  The engine and its vital parts
+are also adequately protected.  The ammunition is carried in a
+cupboard-like recess forming part of the driver's seat, encased
+in bullet-proof steel sheeting with flap-doors.  This device
+enables the shells to be withdrawn readily from the side of the
+car and passed to the crew within the turret.  The caisson is of
+sufficient dimensions to receive 69 shells.
+
+The Ehrhardt airship fighting ordnance is similarly adapted to
+motor-car operations, one type being especially powerful.  The
+whole of the vehicle is encased in armour-plating impervious to
+rifle and machine-gun fire.  The driver is provided with a small
+orifice through which he is able to obtain a clear uninterrupted
+view of the road ahead, while the armouring over the tonneau is
+carried to a sufficient height to allow head-room to the gun crew
+when standing at the gun.  All four wheels are of the disk type
+and fashioned from heavy sheet steel.  The motor develops 40-50
+horse-power and, in one type, in order to mitigate the risk of
+breakdown or disablement, all four wheels are driven.  The gun, a
+small quick-firer, is mounted on a pedestalin a projecting
+conning-tower.  The mounting is placed behind the driver's seat,
+and is trained and operated from the tonneau.  The maximum
+elevation is 75 degrees, and like the gun carriage bearing the
+tube guide it can be moved through a complete circle, being free
+to rotate in the fixed pivot jack to enable this end to be
+attained.
+
+The foregoing may be said to represent the most powerful types of
+mobile anti-aircraft weapons used by the Austro-German forces
+to-day.  Arms of similar design, roughly speaking, have also been
+introduced into the French and Russian services.  In addition
+many semi-armoured weapons of this character are in operation,
+some specially built for the work, while others have been
+improvised.  In the semi-armoured motor-car the carriage follows
+the usual lines; it has an open top, the armouring comprising the
+body of the tonneau and the diskwheels, which are made of light
+bullet-proof steel.  Here again the prevailing practice is to
+mount the gun as nearly above the rear axle as possible, and
+to work it from the tonneau.  The maximum elevation is also 75
+degrees, with training throughout the entire circle.
+
+Another type comprises a very light machine gun of rifle calibre,
+and this is intended for attachment to an ordinary motor car. 
+There is a pedestal mounting which can be set within the tonneau,
+while the weapon is pivoted in an outrigger, the latter being
+free to rotate in its pivot jack.  This arrangement enables the
+arm to cover a wide range,while it also admits of training
+through an extensive angle of elevation.
+
+The Allied forces improvised travelling anti-aircraft offences
+by mounting the latest types of Vickers, Hotchkiss, and other
+machine guns in armoured motor cars.  Some of these have the
+domed turret form, with the gun projecting through the roof,
+while others are protected against hostile attack from the side
+only, the carriage being panelled with bullet-proof steel
+sheeting.  While such weapons are useful, inasmuch as they can
+maintain a hot fire ranging up to 750 shots per minute, they are
+not to be compared with the "Archibalds," which are able to throw
+heavy shrapnel and incendiary shells, and have a vertical range
+of about 6,000 to 8,000 feet.
+
+The improvised motor-gun has not proved a complete success,
+except in those instances when the hostile aircraft has ventured
+to approach somewhat closely to the ground.  The more formidable
+weapons cannot be mounted upon ordinary vehicles, inasmuch as the
+increase in weight, which is appreciable, impairs the efficiency
+of the vehicle, and at the same time enhances the possibility of
+breakdown at a critical moment.  For such arms a special and
+substantial chassis is imperative, while the motive power and
+gearing must be adapted to the circumstances.
+
+Motor-mounted anti-aircraft weapons, however, have not proved an
+unqualified success.  The fact that the vehicles are condemned to
+the high roads, or at least to comparatively smooth and level
+ground, constitutes a severe handicap.  Again, when travelling at
+high speed, and this is essential when pursuing a fast aeroplane,
+the accurate laying of the weapon is extremely difficult, owing
+to the oscillation of the vehicle itself, especially if the road
+surface is in a bad condition.  The sighting arrangements are of
+a wonderfully complete character, as described elsewhere, but the
+irregular rolling movement arising from high speed is a
+nullifying quantity.  It is tolerably easy for the aircraft,
+especially an aeroplane, to evade successful pursuit, either by
+rising to an elevation beyond the range of the gun, or by
+carrying out baffling evolutions such as irregular undulating
+flight, wheeling, and climbing.  According to the reports of the
+British and French airmen the "Archibald" has failed to establish
+the glowing reputation which was anticipated, for the simple
+reason that, unless it has a clear straight road and can maintain
+its high speed, it can easily be out-distanced by the fleet human
+bird.
+
+The motor-car suffers from another serious disability.  It cannot
+manoeuvre with sufficient celerity.  For instance, if it is
+necessary to turn round in a narrow lane, valuable time is lost
+in the process, and this the airman turns to account.  In hilly
+country it is at a still greater disadvantage, the inclines,
+gradients, and sinuosities of the roads restricting its
+effectiveness very pronouncedly.  It must also be remembered
+that, relatively speaking, the "Archibald" offers a better target
+to the airman than the aeroplane offers to the man behind the
+anti-aircraft gun on the motor below.  A few well-placed bombs
+are sufficient to induce the pursuers to cease their activities. 
+Even if the missiles fail to strike the motor-car itself they can
+wreak disaster in directly by rendering the road impassable or
+dangerous to negotiate at high speed.  On the whole therefore,
+the "Archibald" is a greatly exaggerated weapon of offence
+against aircraft, and, so far as is known, has failed to fulfil
+expectations.  In fact, the Germans have practically abandoned
+the idea of using it in the manner of a pursuing arm; they work
+the weapon as a fixture, depending upon the car merely as a means
+of moving it from point to point.  Thus, in reality, it has been
+converted into a light field-piece, and may almost be included in
+the category of fixed weapons for combating aerial operations.
+
+
+
+CHAPTER XV
+ANTI-AIRCRAFT GUNS.  IMMOBILE WEAPONS
+
+The immobile anti-aircraft gun, as distinct from that attached to
+a travelling carriage such as a motor-car, may be subdivided into
+two classes.  The one is the fixed arm which cannot be moved
+readily, mounted upon a permanent emplacement; the other is the
+field-piece which, while fired from a stationary position, may be
+moved from point to point upon a suitable carriage.  The
+distinction has its parallel in ordinary artillery, the
+first-named weapon coinciding with the heavy siege gun, which is
+built into and forms part and parcel of the defensive or
+offensive scheme, while the second is analogous to the field
+artillery, which may be wheeled from position to position.
+
+In this phase of artillery the Germans led the way, for the
+simple reason that they recognised the military value of aerial
+navigation years in advance of their contemporaries.  Again, in
+this field the Krupp Organisation has played a prominent part.
+It embarked upon actual construction of weapons while its rivals
+in other countries were content to prepare their drawings, which
+were filed against "The Day."  But it must not be thought that
+because the German manufacturers of armaments were ahead of
+their contemporaries they dominated the situation.  Far from it. 
+Their competitors in the market of destruction were every whit as
+keen, as ingenious, and as enterprising.  Kruppism saw a
+commercial opportunity to profit from advertisement and seized
+it: its rivals were content to work in secret upon paper, to keep
+pace with the trend of thought, and to perfect their
+organisations so as to be ready for the crisis when it developed.
+
+The first Krupp anti-aircraft field-piece was a 6.5 centimetre (2
+9/16 inch) arm.  It possessed many interesting features, the most
+salient of which was the design of the axle of the carriage.  The
+rigid axle for the two wheels was replaced by an axle made in two
+sections, and joined together in the form of a universal
+coupling, so that each wheel virtually possessed its own axle, or
+rather half-axle.  This was connected with the cradle of the gun
+in such a manner that the wheels were laterally pivoted thereon.
+
+The result is that each axle can be turned forward together with
+its wheel, and thus the wheels have their rims brought into line
+to form an arc of a circle, of which the rear end of the spade of
+the gun carriage constitutes the centre.  This acts as a pivot,
+about which the gun can be turned, the pair of wheels forming the
+runners for the achievement of this movement.  The setting of the
+weapon in the firing position or its reversion to the travelling
+position can be easily and speedily effected merely by the
+rotation of a handwheel and gearing.
+
+With this gun a maximum elevation of 60 degrees is possible,
+owing to the trunnions being carried well behind the breech in
+combination with the system of long steady recoil.  The balancing
+spring which encloses the elevating screw is contained in a
+protected box.  The recoil brake, together with the spring
+recuperator, follows the usual Krupp practice in connection with
+ordinary field pieces, as does also the automatic breech-closing
+and firing mechanism.  In fact there is no pronounced deviation
+from theprevailing Krupp system, and only such modifications as
+are necessary to adapt the arm to its special duty.  When the gun
+is elevated to high angles the shell, after insertioin the
+breech, is prevented from slipping out by means of a special
+device, so that the proper and automatic closing of the breech is
+not impaired in any way.
+
+In such an arm as this, which is designed essentially for
+high-angle firing, the sighting and training facilities require
+to be carried out upon special lines, inasmuch as the objective
+is necessarily at a considerable altitude above the horizon of
+the gun.  In other words, in firing at a high inclination,
+distance between the gun and the target cannot be utilised
+directly for the back sight.  On the other hand, it is essential
+that in proportion as the angle from the horizontal increases,
+the back sight should be lowered progressively in a manner
+corresponding to the distance.
+
+To assist the range-finder in his task of sighting it is
+necessary that he should be provided with firing tables set out
+in a convenient form, which, in conjunction with the telemeter,
+serve to facilitate training for each successive round.  In this
+way it is possible to pick up the range quickly and to keep the
+objective in the line of fire until it either has been put hors
+de combat, or has succeeded in retiring beyond the range of the
+gun.
+
+The sighting arrangements of these Krupp anti-aircraft guns are
+carried out upon these lines.  Beneath the barrel of the
+back-sight is an observing glass with an eye-piece for the
+artillerist, while above and behind the observing glass is
+another eye-piece, to be used in conjunction with the
+manipulation of the back-sight.  The eye-piece of the observation
+glass is so made that it can be turned through a vertical plane
+in proportion as the angle of fire increases in relation to the
+horizontal.  The determination of the distance from the objective
+and from the corresponding back-sight as well as the observation
+of the altitude is carried out with the aid of the telemeter. 
+This again carries an observation glass fitted with an eye-piece
+which can be turned in the vertical plane in the same manner as
+that of the fore-sight.  By means of this ingenious sighting
+device it is possible to ascertain the range and angle of fire
+very easily and speedily.
+
+The weight of the special Krupp anti-aircraft field-piece,
+exclusive of the protecting shield, is approximately identical
+with that of the ordinary light artillery field-piece.  It throws
+a shell weighing 8.8 pounds with an initial velocity of about
+2,066 feet per second.
+
+Although the German armament manufacturers were among the first
+to enter the field with an anti-aircraft gun of this character
+they were speedily followed by the French, who devised a superior
+weapon.  In fact, the latter represented such a decisive advance
+that the German artillerists did  not hesitate to appropriate
+their improvements in sundry essential details, and to
+incorporate them with their own weapons.  This applies especially
+to the differential recoil system which is utilised in the small
+anti-aircraft guns now mounted upon the roofs of high buildings
+of cities throughout Germany for the express purpose of repelling
+aerial attack.
+
+The French system is admitted by the leading artillery
+technicians of the world to be the finest which has ever been
+designed, its remarkable success being due to the fact that it
+takes advantage of the laws of Nature.  In this system the gun is
+drawn back upon its cradle preparatory to firing.  In some
+instances the barrel is compressed against a spring, but in the
+more modern guns it is forced to rest against a cushion of
+compressed air contained within a cylinder.  When first bringing
+the gun into action, the barrel is brought into the preliminary
+position by manually compressing the air or spring by means of a
+lever.  Thereafter the gun works automatically.  When the gun is
+fired the barrel is released and it flies forward.  At a critical
+point in its forward travel the charge is fired and the
+projectile speeds on its way.  The kick or recoil serves to
+arrest the forward movement of the barrel and finally drives it
+back again against the strong spring or cushion of compressed air
+within the cylinder to its normal position, when it is ready for
+the introduction of the next shell.
+
+The outstanding feature of this system is that the projectile is
+given a higher initial velocity than is possible with the barrel
+held rigid at the moment of discharge, because the shell is
+already travelling at the moment of firing.
+
+The fixed anti-aircraft guns such as are stationed upon eminences
+and buildings are of the quick firing type, the object being to
+hurl a steady, con tinuous stream of missiles upon the swiftly
+moving aeroplane.  Some of the weapons throw a one-pound shell
+and are closely similar to the pom-pom which proved so effective
+during the South African war.  Machine guns also have been
+extensively adopted for this duty by all the combatants, their
+range of approximately 2,000 yards and rapidity of fire being
+distinctly valuable when hostile aircraft descend to an altitude
+which brings them within the range of the weapon.
+
+The greatest difficulty in connection with this phase of
+artillery, however, is not so much the evolution of a serviceable
+and efficient type of gun, as the determination of the type of
+projectile which is likely to be most effective.  While shrapnel
+is employed somewhat extensively it has not proved completely
+satisfactory.  It is difficult to set the timing fuse even after
+the range has been found approximately, which in itself is no
+easy matter when the aircraft is moving rapidly and irregularly,
+but reliance is placed thereon in the hope that the machine may
+happen to be within the cone of dispersion when the shell bursts,
+and that one or more of the pieces of projectile and bullets may
+chance to penetrate either the body of the airman or a vital part
+of the mechanism.
+
+It is this uncertainty which has led to a preference for a direct
+missile such as the bullet discharged from a machine gun.  A
+stream of missiles, even of rifle calibre, maintained at the rate
+of some 400 shots per minute is certain to be more effective,
+provided range and aim are correct, than shrapnel.  But the
+ordinary rifle-bullet, unless the objective is within very close
+range, is not likely to cause much harm, at least not to the
+mechanism of the aerial vessel.
+
+It is for this reason that greater attention is being devoted,
+especially by the French artillerists, to the Chevalier
+anti-aircraft gun, a weapon perfected by a Swiss technician
+resident in Great Britain.  It projects a formidable missile
+which in fact is an armour-piercing bullet 1/2- to 3/4-inch in
+diameter.  It is designed for use with an automatic machinegun,
+which the inventor has devised more or less upon the well-known
+French system.  The bullet has a high velocity--about 2,500 feet
+per second--and a maximum range of 6,000 to 8,000 feet at the
+maximum elevation.  Should such a missile strike the motor or
+other mechanism of the vessel it would wreak widespread havoc,
+and probably cause the machine to come to earth.  This arm has
+been designed for the express purpose of disabling the aeroplane,
+and not for the subjugation of the airman, which is a minor
+consideration, inasmuch as he is condemned to a descent when his
+craft receives a mortal wound.
+
+Attempts have been and still are being made to adapt an explosive
+projectile to this gun, but so far the measure of success
+achieved has not proved very promising.  There are immense
+difficulties connected with the design of an explosive shell of
+this class, charged with a high explosive, especially in
+connection with the timing.  So far as dependence upon percussive
+detonation is concerned there is practically no difficulty. 
+Should such a missile strike, say, the motor of an aeroplane, or
+even the hull of the craft itself, the latter would be
+practically destroyed.  But all things considered, it is
+concluded that more successful results are likely to be achieved
+by the armour-piercing bullet striking the mechanism than by an
+explosive projectile.
+
+The Krupp company fully reahsed the difficulties pertaining to
+the projectile problem in attacks upon aerial craft.  So far as
+dirigibles are concerned shrapnel is practically useless,
+inasmuch as even should the bag be riddled by the flying
+fragments, little effective damage would be wrought--the craft
+would be able to regain its haven.  Accordingly efforts were
+concentrated upon the perfection of two new types of projectiles,
+both of which were directed more particularly against the
+dirigible.  The one is the incendiary shell--obus fumigene--while
+the other is a shell, the contents of which, upon coming into
+contact with the gas contained within the gas-bag, set up certain
+chemical reactions which precipitate an explosion and fire.
+
+The incendiary shells are charged with a certain compound which
+is ignited by means of a fuse during its flight.  This fuse
+arrangement coincides very closely with that attached to ordinary
+shrapnel, inasmuch as the timing may be set to induce ignition
+at different periods, such as either at the moment it leaves the
+gun, before, or when it strikes the envelope of the dirigible. 
+The shell is fitted with a "tracer," that is to say, upon
+becoming ignited it leaves a trail of smoke, corresponding with
+the trail of a rocket, so that its passage through the air may be
+followed with facility.  This shell, however, was designed to
+fulfil a dual.  Not only will it fire the gaseous contents out of
+the dirigible, but it has an explosive effect upon striking an
+incombustible portion of the aircraft, such as the machinery,
+propellers or car, when it will cause sufficient damage to throw
+the craft out of action.
+
+The elaborate trials which were carried out with the obus
+fumigene certainly were spectacular so as they went.  Two small
+spherical balloons, 10 feet in diameter, and attached to 1,000
+feet of cable, were sent aloft.  The anti-aircraft guns
+themselves were placed about 5,1OO feet distant.  Owing to the
+inclement weather the balloons were unable to attain a height of
+more than 200 feet in a direct vertical line above the ground. 
+The guns were trained and fired, but the one balloon was not hit
+until the second round, while the third escaped injury until the
+fifth round.  When struck they collapsed instantly.  Though the
+test was not particularly conclusive, and afforded no reliable
+data, one point was ascertained--the trail of smoke emitted by
+the shell enabled its trajectory to be followed with ease.  Upon
+the conclusion of these trials, which were the most successful
+recorded, quick-firing tests in the horizontal plane were carried
+out.  The best performance in this instance was the discharge of
+five rounds in eight seconds.  In this instance the paths of the
+projectiles were simple and easy to follow, the flight of the
+shell being observed until it fell some 18,670 feet away.  But
+the Krupp firmhave found that trials upon the testing ground with
+a captive balloon differ very materially from sterntests in the
+field of actual warfare.  Practically nothing has been heard of
+the two projectiles during this war, as they have proved an
+absolute failure.
+
+Some months ago the world was startled by the announcement that
+the leading German armament firm had acquired the whole of the
+interest in an aerial torpedo which had been evolved by the
+Swedish artillerist, Gustave Unge, and it was predicted that in
+the next war widespread havoc would be wrought therewith.  
+Remarkable claims were advanced for this projectile, the foremost
+being that it would travel for a considerable distance through
+the air and alight upon the objective with infallible accuracy.  
+The torpedo in question was subjected to exacting tests in Great
+Britain, which failed to substantiate all the claims which were
+advanced, and it is significant to observe that little has been
+heard of it during the present conflict.  It is urged in certain
+technical quarters, however, that the aerial torpedo will prove
+to be the most successful projectile that can be used against
+aircraft.  I shall deal with this question in a later chapter.
+
+During the early days of the war anti-aircraft artillery appeared
+to be a much overrated arm.  The successes placed to its credit
+were insignificant.  This was due to the artillerymen being
+unfamiliar with the new arm, and the conditions which prevail
+when firing into space.  Since actual practice became possible
+great advances in marksmanship have been recorded, and the
+accuracy of such fire to-day is striking.  Fortunately the airman
+possesses the advantage.  He can manoeuvre beyond the range of
+the hostile weapons.  At the moment 10,000 feet represents the
+extreme altitude to which projectiles can be hurled from the arms
+of this character which are now in use, and they lack
+destructiveness at that range, for their velocity is virtually
+expended.
+
+Picking up the range is still as difficult as ever.  The practice
+followed by the Germans serves to indicate the Teuton
+thoroughness of method in attacking such problems even if success
+does not ensue.  The favourite German principle of disposing 
+anti-aircraft artillery is to divide the territory to be
+protected into equilateral triangles, the sides of which have a
+length of about six miles or less, according to the maximum
+effective range of the pieces at an elevation of 23 1/2 degrees.
+
+The guns are disposed at the corners of the triangles as
+indicated in Figs. 13-14.  Taking the one triangle as an example,
+the method of picking up the range may be explained as follows.  
+The several guns at the comers of the triangle, each of which can
+be trained through the 360 degrees in the horizontal plane, are
+in telephonic touch with an observer O stationed some distance
+away.  The airman A enters the area of the triangle.  The
+observer takes the range and communicates with the gunner B, who
+fires his weapon.  The shell bursts at 1 emitting a red flame and
+smoke.  The observer notes the altitude and relative position of
+the explosion in regard to the aircraft, while gunner B himself
+observes whether the shell has burst to the right or to the left
+of the objective and corrects accordingly.  The observer commands
+C to fire, and another shell is launched which emits a yellow
+flame and smoke.  It bursts at 2 according to the observer, while
+gunner C also notes whether it is to the right or to the left of
+the target and corrects accordingly.  Now gunner D receives the
+command to fire and the shell which explodes at 3 throws off a
+white flame and smoke.  Gunner D likewise observes whether there
+is any deviation to right or left of the target and corrects in a
+similar manner.  From the sum of the three rounds the observer
+corrects the altitude, completes his calculations, and
+communicates his instructions for correction to the three
+gunners, who now merely train their weapons for altitude.  The
+objective is to induce the shells hurled from the three corners
+of the triangle to burst at a common point 4, which is considered
+to be the most critical spot for the aviator.  The fire is then
+practically concentrated from the three weapons upon the apex of
+a triangular cone which is held to bring the machine within the
+danger zone.
+
+This method of finding the range is carried out quickly--two or
+three seconds being occupied in the task.  In the early days of
+the war the German anti-aircraft artillerymen proved sadly
+deficient in this work, but practice improved their fire to a
+marvellous degree, with the result that at the moment it is
+dangerous for an aviator to essay his task within an altitude of
+6,000 feet, which is the range of the average anti-aircraft gun.
+
+The country occupied by a belligerent is divided up in this
+manner into a series of triangles.  For instance, a machine
+entering hostile territory from the east, enters the triangle
+A-B-C, and consequently comes within the range of the guns posted
+at the comers of the triangle.  Directly he crosses the line B-C
+and enters the adjacent triangle he passes beyond the range of
+gun A but comes within the range of the gun posted at D, and
+while within the triangular area is under fire from the guns
+B-C-D.  He turns and crosses the line A-C, but in so doing enters
+another triangle A-C-E, and comes range of the gun posted at E.
+
+The accompanying diagram represents an area of country divided up
+into such triangle and the position of the guns, while the circle
+round the latter indicate the training arc of the weapons, each
+of which is a complete circle, in the horizontal plane.  The
+dotted line represents the aviator's line of flight, and it will
+be seen that no matter how he twists and turns he is always
+within the danger zone while flying over hostile territory.  The
+moment he outdistances one gun he comes within range of another.
+
+The safety of the aviator under these circumstances depends upon
+his maintaining an altitude exceeding the range of the guns
+below, the most powerful of which have a range of 8,000 to 10,000
+feet, or on speed combined with rapid twisting and turning, or
+erratic undulating flight, rendering it extremely difficult for
+the gun-layer to follow his path with sufficient celerity to
+ensure accurate firing.
+
+At altitudes ranging between 4,000 and 6,000 feet the aeroplane
+comes within the range of rifle and machine-gun firing.  The
+former, however, unless discharged in volleys with the shots
+covering a wide area, is not particularly dangerous, inasmuch as
+the odds are overwhelmingly against the rifleman.  He is not
+accustomed to following and firing upon a rapidly moving
+objective, the result being that ninety-nine times out of a
+hundred he fails to register a hit.  On the other hand the
+advantage accruing from machine-gun fire is, that owing to the
+continuous stream of bullets projected, there is a greater
+possibility of the gun being trained upon the objective and
+putting it hors de combat.
+
+But, taking all things into consideration, and notwithstanding
+the achievements of the artillerist, the advantages are
+overwhelmingly on the side of the aviator.  When one reflects
+upon the total sum of aircraft which have been brought to earth
+during the present campaign, it will be realised that the number
+of prizes is insignificant in comparison with the quantity of
+ammunition expended.
+
+
+
+CHAPTER XVI
+MINING THE AIR
+
+While the anti-aircraft gun represents the only force which has
+been brought to the practical stage for repelling aerial attack,
+and incidentally is the sole offensive weapon which has
+established its effectiveness, many other schemes have been
+devised and suggested to consummate these ends.  While some of
+these schemes are wildly fantastic, others are feasible within
+certain limitations, as for instance when directed against
+dirigibles.
+
+It has been argued that the atmosphere is akin to the salt seas;
+that an aerial vessel in its particular element is confronted
+with dangers identical with those prevailing among the waters of
+the earth.  But such an analogy is fallacious: there is no more
+similarity between the air and the ocean than there is between an
+airship and a man-of-war.  The waters of the earth conceal from
+sight innumerable obstructions, such as rocks, shoals, sandbanks,
+and other dangers which cannot by any means be readily detected.
+
+But no such impediments are encountered in the ether.  The craft
+of the air is virtually a free age in the three dimensions.  It
+can go whither it will without let or hindrance so long as the
+mechanical agencies of man are able to cope with the influences
+of Nature.  It can ascend to a height which is out of all
+proportion to the depth to which the submarine can descend in
+safety.  It is a matter of current knowledge that a submarine
+cannot sink to a depth of more than 250 feet: an aerial vessel is
+able to ascend to 5,000, 8,000, or even 10,000 feet above the
+earth, and the higher the altitude it attains the greater is its
+degree of safety.  The limit of ascension is governed merely by
+the physical capacities of those who are responsible for the
+aerial vessel's movement.
+
+It is for this reason that the defensive measures which are
+practised in the waters of the earth are inapplicable to the
+atmosphere.  Movement by, or in, water is governed by the depth
+of channels, and these may be rendered impassable or dangerous to
+negotiate by the planting of mines.  A passing ship or submarine
+may circumvent these explosive obstructions, but such a
+successful manoeuvre is generally a matter of good luck.  So far
+as submarines are concerned the fact must not be over looked that
+movements in the sea are carried out under blind conditions: the
+navigator is unable to see where he is going; the optic faculty
+is rendered nugatory.  Contrast the disability of the submarine
+with the privileges of its consort in the air.  The latter is
+able to profit from vision.  The aerial navigator is able to see
+every inch of his way, at least during daylight.  When darkness
+falls he is condemned to the same helplessness as his confrere in
+the waters below.
+
+A well-known British authority upon aviation suggested that
+advantage should be taken of this disability, and that the air
+should be mined during periods of darkness and fog to secure
+protection against aerial invasion.  At first sight the proposal
+appears to be absolutely grotesque, but a little reflection will
+suffice to demonstrate its possibilities when the area to be
+defended is comparatively limited.  The suggestion merely
+proposes to profit from one defect of the dirigible.  The latter,
+when bent upon a daring expedition, naturally prefers to make a
+bee-line towards its objective: fuel considerations as a matter
+of fact compel it to do so.  Consequently it is possible, within
+certain limits, to anticipate the route which an invading craft 
+will follow: the course is practically as obvious as if the
+vessel were condemned to a narrow lane marked out by sign-posts.
+Moreover, if approaching under cover of night or during thick
+weather, it will metaphorically "hug the ground." To attempt to 
+complete its task at a great height is to court failure, as the
+range of vision is necessarily so limited.
+
+Under these circumstances the mining of the air could be carried
+out upon the obvious approaches to a threatened area.  The mines,
+comprising large charges of high-explosive and combustible
+material, would be attached to small captive balloons similar to
+the "sounding balloons" which are so much used by meteorologists
+in operations for sounding the upper strata of the atmosphere.  
+These pilot balloons would be captive, their thin wires being
+wound upon winches planted at close intervals along the
+coast-line.  The balloon-mines themselves would be sent to
+varying heights, ranging from 1,000 to 5,000 feet, and with
+several attached to each cable, the disposition of the mines
+in the air in such an irregular manner being in fact closely
+similar to the practice adopted in the mining of a channel for
+protection against submarines and hostile ships.
+
+The suggestion is that these mines should be sent aloft at dusk
+or upon the approach of thick and foggy weather, and should be
+wound in at dawn or when the atmosphere cleared, inasmuch as in
+fine weather the floating aerial menace would be readily detected
+by the pilot of a dirigible, and would be carefully avoided.  If
+the network were sufficiently intricate it would not be easy for
+an airship travelling at night or in foggy weather to steer clear
+of danger, for the wires holding the balloons captive would be
+difficult to distinguish.
+
+The mines would depend upon detonators to complete their work,
+and here again they would bear a close resemblance to sea-mines.
+By looping the mines their deadliness could be increased.  The
+unsuspicious airship, advancing under cover of darkness or thick
+weather, might foul one of the wires, and, driving forward, would
+tend to pull one or more mines against itself.  Under the force
+of the impact, no matter how gentle, or slight, one or more of
+the detonating levers would be moved, causing the mine to
+explode, thus bursting the lifting bag of the vessel, and firing
+its gaseous contents.  An alternative method, especially when a
+cable carried only a single mine, would be to wind in the captive
+balloon directly the wire was fouled by an invading aerial craft,
+the process being continued until the mine was brought against
+the vessel and thereby detonated.
+
+Another proposed mining method differs materially in its
+application.  In this instance it is suggested that the mines
+should be sent aloft, but should not be of the contact type, and
+should not be fired by impact detonators, but that dependence
+should be placed rather upon the disturbing forces of a severe
+concussion in the air.  The mines would be floating aoft, and
+the advance of the airship would be detected.  The elevation
+of the mines in the vicinity of the invading craft would be
+known, while the altitude of the airship in relation thereto
+could be calculated.  Then, it is proposed that a mine within d
+certain radius of the approaching craft, and, of course, below
+it, should be fired electrically from the ground.  It is
+maintained that if the charge were sufficiently heavy and an
+adequate sheet of flame were produced as a result of the
+ignition, an airship within a hundred yards thereof would be
+imperilled seriously, while the other mines would also be fired,
+communicating ignition from one to the other.  The equilibrium
+of the airship is so delicate that it can be readily upset, and
+taking into account the facts that gas is always exuding from
+the bag, and that hydrogen has a tendency to spread somewhat in
+the manner of oil upon water, it is argued that the gas would be
+ignited, and would bring about the explosion of the airship.
+
+Another method has even been advocated.  It is averred in
+authoritative circles that when the aerial invasion in force of
+Great Britain is attempted, the Zeppelins will advance under the
+cover of clouds.  Also that the craft will make for one 
+objective--London.  Doubtless advantage will be taken of clouds,
+inasmuch as they will extend a measure of protection to the craft,
+and will probably enable the invading fleet to elude the vigilance
+of the aeroplane scouts and patrols.  Under these circumstances it
+is suggested that balloon-mines should be sent aloft and be
+concealed in the clouds.  It would be impossible to detect the
+wires holding them captive, so that the precise location of the 
+lurking danger would not be divined by the invader.  Of course,
+the chances are that the invading airship would unconsciously
+miss the mines; on the other hand the possibilities are equally
+great that it would blunder into one of these traps and be blown
+to atoms.
+
+An English airman has recently suggested a means of mining
+invading Zeppelins which differs completely from the foregoing
+proposals.  His idea is that aeroplanes should be equipped with
+small mines of the contact type, charged with high explosives,
+and that the latter should be lowered from the aeroplane and be
+trawled through the atmosphere.  As an illustration I will suppose
+that a hostile aircraft is sighted by a patrolling aeroplane.
+The pilot's companion in the latter immediately prepares his
+aerial mine, fixing the detonator, and attaching the mine to the
+wire.  The latter is then dropped overboard, the wire being paid
+out from a winch until it has descended to the level of the
+hostile craft.  The airman now manoeuvres in the air circling
+about the airship, dragging his mine behind him, and endeavouring
+to throw it across or to bring it into contact with the airship
+below.  Naturally the latter, directly it observed the airman's
+object, would endeavour to elude the pursuing trawling mine,
+either by crowding on speed or by rising to a greater altitude.
+The aeroplane, however, would have the advantage both in point of
+speed  and powers of climbing, while there is no doubt that the
+sight of the mine swinging in the air would exert a decisive
+moral effect upon those in the airship.
+
+Attempts to render the mine harmless by discharging it
+prematurely with the aid of rifle and machine-gun fire would, of
+course, be made by the crew of the airship, but the trawling mine
+would prove a very difficult target to strike.  If such a missile
+were used against an airship of the proportions of a Zeppelin the
+mine would inevitably be trawled across the vessel sooner or
+later.  Once the airship had been fouled, the aviator would
+merely have to drive ahead, dragging the wire and its charge 
+across the gas-bag until at last one of the contact levers of the
+mine was moved by being dragged against some part of the vessel,
+when the mine would be exploded.  In such operations the aviator
+would run a certain risk, as he would be more or less above the
+airship, and to a certain degree within the zone of the ultimate
+explosion.  But there is no doubt that he would succeed in his 
+"fishing" exploit within a very short time.
+
+This ingenious scheme has already been tested upon a small scale
+and has been found effective, the trawling bomb being drawn
+across its target and fired by contact within a few minutes.  The
+experiment seems to prove that it would be simpler and more
+effectual to attack a hostile aircraft such as a Zeppelin in this
+manner than to drop free bombs at random.  Moreover, we cannot
+doubt that the sight of a mine containing even ten or twelve
+pounds of high explosive dangling at the end of a wire would
+precipitate a retreat on the part of an airship more speedily
+than any other combative expedient.
+
+The advocate of this mine-trawling method, who is a well-known
+aviator, anticipates no difficulty in manoeuvring a mine weighing
+30 pounds at the end of 300 feet of fine wire.  Success depends
+in a great measure on the skill of the aviator in maintaining a
+constant tension upon the line until it falls across its
+objective.
+
+The process calls for a certain manifestation of skill in
+manoeuvring the aeroplane in relation to the airship, judgment of
+distance, and ability to operate the aeroplane speedily.  The
+rapid ascensional capability of the airship, as compared with
+that of the aeroplane, is a disadvantage, but on the other hand,
+the superior mobility and speed of the aeroplane would tell
+decisively for success.
+
+Among the many wonders which the Krupp organisation is stated to
+have perfected, and which it is claimed will create considerable
+surprise, is the aerial torpedo.  Many of the Krupp claims are
+wildly chimerical, as events have already proved, but there is no
+doubt that considerable effort has been expended upon this latest
+missile, for which the firm is said to have paid the inventor
+upwards of L25,000--$125,000.  Curiously enough the projectile
+was perfected within gunshot of the British aerodrome of Hendon
+and is stated to have been offered to the British Government at
+the time, and to have met with a chilling reception.  One fact,
+however, is well established.  The inventor went to Germany, and
+submitted his idea to Krupp, by whom it was tested without delay. 
+Upon the completion of the purchase, the great armament
+manufacturers did not fail to publish broadcast the fact that
+they had acquired a mysterious new terror of the skies.  That was
+some three years ago, and in the interval the cleverest brains of
+the German firm have been steadily devoting their time and
+energies to the improvement of the missile, the first appearance
+of which was recorded, in a somewhat hazy manner, in the closing
+days of December.
+
+While the exact mechanism of this missile is a secret, the
+governing principles of its design and operation are known to a
+select few technicians in this country.  Strange to say, the
+projectile was designed in the first instance in the interests of
+peace and humanty, but while engaged upon his experiments the
+inventor suddenly concluded that it would be a more profitable
+asset if devoted to the grim game of war.  At the time the
+military significance of the airship and the aeroplane were
+becoming apparent; hence the sudden diversion of the idea into a
+destructive channel.
+
+This aerial torpedo is a small missile carrying a charge of high
+explosive, such as trinitrotoluene, and depends for its
+detonation upon impact or a time fuse.  It is launched into the
+air from a cradle in the manner of the ordinary torpedo, but the
+initial velocity is low.  The torpedo is fitted with its own
+motive power, which comes automatically into action as the
+missile climbs into the air.  This self-contained energy is so
+devised that the maximum power is attained before the missile has
+lost the velocity imparted in the first instance, the result
+being that it is able to continue its flight in a horizontal
+direction from the moment it attains the highest point in its
+trajectory, which is naturally varied according to requirements. 
+But there is no secret about the means of propulsion.  The body
+is charged with a slow-burning combustible, in the manner of the
+ordinary rocket, whereby it is given a rapid rotary motion.
+
+Furthermore it is stated to be fitted with a small gyroscope in
+the manner of the torpedo used in the seas, for the purpose of
+maintaining direction during flight, but upon this point there is
+considerable divergence of opinion among technicians, the general
+idea being that the torpedo depends upon an application of the
+principle of the ordinary rocket rather than upon a small engine
+such as is fitted to the ordinary torpedo.  The employment of a
+slow combustible ensures the maintenance of the missile in the
+air for a period exceeding that of the ordinary shell.  It is
+claimed by the Germans that this projectile will keep aloft for
+half-an-hour or more, but this is a phantasy.  Its maintenance of
+flight is merely a matter of minutes.
+
+The belated appearance of this much-lauded projectile and its
+restricted use suggest that it is unreliable, and perhaps no more
+effective than the aerial torpedo which appeared in the United
+States during the Spanish-American War, and proved a complete
+failure.  An effective and reliable means of combating or
+frustrating a dirigible attack, other than by gun-fire or resort
+to the drastic remedy of ramming the enemy, has yet to be
+devised.
+
+
+
+CHAPTER XVII
+WIRELESS IN AVIATION
+
+In a previous chapter the various methods of signalling between
+the ground and the airman aloft have been described.  Seeing that
+wireless telegraphy has made such enormous strides and has
+advanced to such a degree of perfection, one naturally would
+conclude that it constitutes an ideal system of communication
+under such conditions in military operations.
+
+But this is not the case.  Wireless is utilised only to a very
+limited extent.  This is due to two causes.  The one is of a
+technical, the other of a strategical character.
+
+The uninitiated, bearing in mind the comparative ease with which
+wireless installations may be established at a relatively small
+expense, would not unreasonably think that no serious
+difficulties of a technical character could arise: at least none
+which would defy solution.  But these difficulties exist in two
+or three different fields, each of which is peculiarly complex
+and demands individual treatment.
+
+In the first place, there is the weight of the necessary
+installation.  In the case of the dirigible this may be a
+secondary consideration, but with the aeroplane it is a matter of
+primary and vital importance.  Again, under present conditions,
+the noise of the motor is apt to render the intelligent
+deciphering of messages while aloft a matter of extreme
+difficulty, especially as these are communicated in code.  The
+engine noise might be effectively overcome by the use of a
+muffler such as, is used with automobiles, but then there is the
+further difficulty of vibration.
+
+This problem is being attacked in an ingenious manner.  It is
+proposed to substitute for audible signals visual
+interpretations, by the aid of an electric lamp, the fluctuations
+in which would correspond to the dots and dashes of the Morse
+code.  Thus the airman would read his messages by sight instead
+of by sound.
+
+This method, however, is quite in its infancy, and although
+attractive in theory and fascinating as a laboratory experiment
+or when conducted under experimental conditions, it has not
+proved reliable or effective in aeronautical operations.  But at
+the same time it indicates a promising line of research and
+development.
+
+Then there are the problems of weight and the aerial.  So far as
+present knowledge goes, the most satisfactory form of aerial yet
+exploited is that known as the trailing wire.  From 300 to 700
+feet of wire are coiled upon a reel, and when aloft this wire is
+paid out so that it hangs below the aeroplane.  As a matter of
+fact,when the machine is travelling at high speed it trails
+horizontally astern, but this is immaterial.  One investigator,
+who strongly disapproves of the trailing aerial, has carried out
+experiments with a network of wires laid upon and attached to the
+surface of the aeroplane's wings.  But the trailing wire is
+generally preferred, and certainly up to the present has proved
+more satisfactory.
+
+The greatest obstacle, however, is the necessary apparatus.  The
+average aeroplane designed for military duty is already loaded to
+the maximum.  As a rule it carries the pilot and an observer, and
+invariably includes a light arm for defence against an aerial
+enemy, together with an adequate supply of ammunition, while
+unless short sharp flights are to be made, the fuel supply
+represents an appreciable load.  Under these circumstances the
+item of weight is a vital consideration.  It must be kept within
+a limit of 100 pounds, and the less the equipment weighs the more
+satisfactory it is likely to prove, other things being equal.
+
+The two most successful systems yet exploited are the Dubilier
+and the Rouget.  The former is an American invention, the latter
+is of French origin.  Both have been tested by the British
+Military Aeronautical Department, and the French authorities
+have subjected the French system to rigorous trials.  Both
+systems, within their limitations, have proved satisfactory.
+
+The outstanding feature of the Dubilier system is the production
+of sine waves of musical frequency from continuous current, thus
+dispensing with the rotary converter.  The operating principle is
+the obtaining of a series of unidirectional impulses by a
+condenser discharge, the pulsating currents following one another
+at regular intervals at a frequency of 500 impulses per second,
+which may be augmented up to 1,000 impulses per second.  The
+complete weight of such an apparatus is 40 pounds; the electric
+generator, which is no larger than the motor used for driving the
+ordinary table ventilating fan, accounts for 16 pounds of this
+total.  Under test at sea, upon the deck of a ship, a range of
+250 miles has been obtained.  The British Government carried out
+a series of experiments with this system, using a small plant
+weighing about 30 pounds, with which communication was maintained
+up to about 20 miles.
+
+In the French system the Reuget transmitter is employed.  The
+apparatus, including the dynamo, which is extremely small, weighs
+in all 70 pounds.  A small alternator of 200 watts and 100 volts
+is coupled direct to the aeroplane motor, a new clutch coupler
+being employed for this purpose.  By means of a small transformer
+the voltage is raised to 30,000 volts, at which the condenser is
+charged.  In this instance the musical spark method is employed.
+
+The whole of the high tension wiring is placed within a small
+space so as not to endanger the pilot, while the transformer is
+hermetically sealed in a box with paraffin.  The aerial comprises
+a trailing wire 100 feet in length, which, however, can be
+wound in upon its reel within 15 seconds.  This reeled antenna,
+moreover, is fitted with a safety device whereby the wire can be
+cut adrift in the event of an accident befalling the aeroplane
+and necessitating an abrupt descent.  With this apparatus the
+French authorities have been able to maintain communication over
+a distance of 30 miles.
+
+In maintaining ethereal communication with aeroplanes, however, a
+portable or mobile station upon the ground is requisite, and this
+station must be within the radius of the aerial transmitter, if
+messages are to be received from aloft with any degree of
+accuracy and reliability.  Thus it will be recognised that the
+land station is as important as the aeroplane equipment, and
+demands similar consideration.
+
+A wide variety of systems have been employed to meet these
+conditions.  There is the travelling automobile station, in which
+the installation is mounted upon a motor-car.  In this instance
+the whole equipment is carried upon a single vehicle, while the
+antenna is stowed upon the roof and can be raised or lowered
+within a few seconds.  If motor traction is unavailable, then
+animal haulage may be employed, but in this instance the
+installation is divided between two vehicles, one carrying the
+transmitting and receiving apparatus and the generating plant,
+the other the fuel supplies and the aerial, together with spare
+parts.
+
+The motive power is supplied by a small air cooled petrol or
+gasoline motor developing eight horse-power, and coupled direct
+to a 2-kilo watt alternator.  At one end of the shaft of the
+latter the disk discharger is mounted, its function being to
+break up the train of waves into groups of waves, so as to impart
+a musical sound to the note produced in the receiver.  A flexible
+cable transmits the electric current from the generator to the
+wagon containing the instruments.  The aerial is built up of
+masts carried in sections.
+
+The Germans employ a mobile apparatus which is very similar, but
+in this instance the mast is telescopic.  When closed it occupies
+but little space.  By turning the winch handle the mast is
+extended, and can be carried to any height up to a maximum of
+about 100 feet.  The capacity of these mobile stations varies
+within wide limits, the range of the largest and most powerful
+installations being about 200 miles.  The disadvantage of these
+systems, however, is that they are condemned to territories where
+the ground at the utmost is gently undulating, and where there
+are roads on which four-wheeled vehicles can travel.
+
+For operation in hilly districts, where only trails are to be
+found, the Marconi Company, has perfected what may be described
+as "pack" and "knapsack" installations respectively.  In the
+first named the whole of the installation is mounted upon the
+backs of four horses.  The first carries the generator set, the
+second the transmitting instruments, the third the receiving
+equipment, and the fourth the detachable mast and stays.
+
+The generator is carried upon the horse's saddle, and is fitted
+with a pair of legs on each side.  On one side of the saddle is
+mounted a small highspeed explosion motor, while on the opposite
+side, in axial alignment with the motor, is a small dynamo.  When
+it is desired to erect the installation the saddle carrying this
+set is removed from the horse's back and placed upon the ground,
+the legs acting as the support.  A length of shaft is then
+slipped into sockets at the inner ends of the motor and dynamo
+shafts respectively, thus coupling them directly, while the
+current is transmitted through a short length of flexible cable
+to the instruments.  The mast itself is made in lengths of about
+four feet, which are slipped together in the manner of the
+sections of a fishing rod, and erected, being supported by means
+of wire guys.  In this manner an antenna from 40 to 50 feet in
+height may be obtained.
+
+The feature of this set is its compactness, the equal division of
+the sections of the installation, and the celerity with which the
+station may be set up and dismantled in extremely mountainous
+country such as the Vosges, where it is even difficult for a
+pack-horse to climb to commanding or suitable positions, there is
+still another set which has been perfected by the Marconi
+Company.  This is the "knapsack" set, in which the whole of the
+installation, necessarily light, small, and compact, is divided
+among four men, and carried in the manner of knapsacks upon their
+backs.  Although necessarily of limited radius, such an
+installation is adequate for communication within the restricted
+range of air-craft.
+
+Greater difficulties have to be overcome in the mounting of a
+wireless installation upon a dirigible.  When the Zeppelin was
+finally accepted by the German Government, the military
+authorities emphasised the great part which wireless telegraphy
+was destined to play in connection with such craft.  But have
+these anticipations been fulfilled?  By no means, as a little
+reflection will suffice to prove.
+
+In the first place, a wireless outfit is about the most dangerous
+piece of equipment which could be carried by such a craft as the
+Zeppelin unless it is exceptionally well protected.  As is well
+known the rigidity of this type of airship is dependent upon a
+large and complicated network of aluminium, which constitutes the
+frame.  Such a huge mass of metal constitutes an excellent
+collector of electricity from the atmosphere; it becomes charged
+to the maximum with electricity.
+
+In this manner a formidable contributory source of danger to the
+airship is formed.  In fact, this was the reason why "Z-IV"
+vanished suddenly in smoke and flame upon falling foul of the
+branches of trees during its descent.  At the time the Zeppelin
+was a highly charged electrical machine or battery as it were,
+insulated by the surrounding air.  Directly the airship touched
+the trees a short circuit was established, and the resultant
+spark sufficed to fire the gas, which is continuously exuding
+from the gas bags.
+
+After this accident minute calculations were made and it was
+ascertained that a potential difference of no less than 100,00
+volts existed between the framework of the dirigible and the
+trees.  This tension sufficed to produce a spark 4 inches in
+length.  It is not surprising that the establishment of the
+electric equilibrium by contact with the trees, which produced
+such a spark should fire the hydrogen inflation charge.  In fact
+the heat generated was so intense that the aluminium metallic
+framework was fused.  The measurements which were made proved
+that the gas was consumed within 15 seconds and the envelope
+destroyed within 20 seconds.
+
+As a result of this disaster endeavours were made to persuade
+Count Zeppelin to abandon the use of aluminium for the framework
+of his balloon but they were fruitless, a result no doubt due to
+the fact that the inventor of the airship of this name has but a
+superficial knowledge of the various sciences which bear upon
+aeronautics, and fully illustrates the truth of the old adage
+that "a little learning is a dangerous thing."  Count Zeppelin
+continues to work upon his original lines, but the danger of his
+system of construction was not lost upon another German
+investigator, Professor Schiitte, who forthwith embarked upon the
+construction of another rigid system, similar to that of
+Zeppelin, at Lanz.  In this vessel aluminium was completely
+abandoned in favour of a framework of ash and poplar.
+
+The fact that the aluminium constituted a dangerous collector of
+electricity rendered the installation of wireless upon the
+Zeppelin not only perilous but difficult.  Very serious
+disturbances of an electrical nature were set up, with the result
+that wireless communication between the travelling dirigible and
+the ground below was rendered extremely uncertain.  In fact, it
+has never yet been possible to communicate over distances
+exceeding about 150 miles.  Apart from this defect, the danger of
+operating the wireless is obvious, and it is generally believed
+in technical circles that the majority of the Zeppelin disasters
+from fire have been directly attributable to this, especially
+those disasters which have occurred when the vessel has suddenly
+exploded before coming into contact with terrestrial
+obstructions.
+
+In the later vessels of this type the wireless installation is
+housed in a well insulated compartment.  This insulation has been
+carried, to an extreme degree, which indicates that at last the
+authorities have recognised the serious menace that wireless
+offers to the safety of the craft, with the result that every
+protective device to avoid disaster from this cause has been
+freely adopted.
+
+The fact that it is not possible to maintain cornmunication over
+a distance exceeding some 20 miles is a severe handicap to the
+progressive development of wireless telegraphy in this field.  It
+is a totally inadequate radius when the operations of the present
+war are borne in mind.  A round journey of 200, or even more
+miles is considered a mere jaunt; it is the long distance flight
+which counts, and which contributes to the value of an airman's
+observations.  The general impression is that the fighting line
+or zone comprises merely two or three successive stretches of
+trenches and other defences, representing a belt five miles or so
+in width, but this is a fallacy.  The fighting zone is at least
+20 miles in width; that is to say, the occupied territory in
+which vital movements take place represents a distance of 20
+miles from the foremost line of trenches to the extreme rear,
+and then comes the secondary zone, which may be a further 10
+miles or more in depth.  Consequently the airman must fly at
+least 30 miles in a bee-line to cover the transverse belt of the
+enemy's field of operations.  Upon the German and Russian sides
+this zone is of far greater depth, ranging up to 50 miles or so
+in width.  In these circumstances the difficulties of ethereal
+communication 'twixt air and earth may be realised under the
+present limitations of radius from which it is possible to
+transmit.
+
+But there are reasons still more cogent to explain why wireless
+telegraphy has not been used upon a more extensive scale during
+the present campaign.  Wireless communication is not secretive.  
+In other words, its messages may be picked up by friend and foe
+alike with equal facility.  True, the messages are sent in code,
+which may be unintelligible to the enemy.  In this event the
+opponent endeavours to render the communications undecipherable
+to one and all by what is known as "jambing." That is to say, he
+sends out an aimless string of signals for the purpose of
+confusing senders and receivers, and this is continued without
+cessation and at a rapid rate.  The result is that messages
+become blurred and undecipherable.
+
+But there is another danger attending the use of wireless upon
+the battlefield.  The fact that the stations are of limited range
+is well known to the opposing forces, and they are equally well
+aware of the fact that aerial craft cannot communicate over long
+distances.  For instance, A sends his airmen aloft and
+conversation begins between the clouds and the ground.  Presently
+the receivers of B begin to record faint signals.  They fluctuate
+in intensity, but within a few seconds B gathers that an
+aeroplane is aloft and communicating with its base.  By the aid
+of the field telephone B gets into touch with his whole string of
+wireless stations and orders a keen look-out and a listening ear
+to ascertain whether they have heard the same signals.  Some
+report that the signals are quite distinct and growing louder,
+while others declare that the signals are growing fainter and
+intermittent.  In this manner B is able to deduce in which
+direction the aeroplane is flying.  Thus if those to the east
+report that signals are growing stronger, while the stations on
+the west state that they are diminishing, it is obvious that the
+aeroplane is flying west to east, and vice versa when the west
+hears more plainly at the expense of the east.  If, however, both
+should report that signals are growing stronger, then it is
+obvious that the aircraft is advancing directly towards them.
+
+It was this ability to deduce direction from the sound of the
+signals which led to the location of the Zeppelin which came down
+at Lun6ville some months previous to the war, and which
+threatened to develop into a diplomatic incident of serious
+importance.  The French wireless stations running south-east to
+north-west were vigilant, and the outer station on the north-west
+side picked up the Zeppelin's conversation.  It maintained a
+discreet silence, but communicated by telephone to its colleagues
+behind.
+
+Presently No. 2 station came within range, followed by Nos. 3, 4,
+5, 6, and so on in turn.  Thus the track of the Zeppelin was
+dogged silently through the air by its wireless conversation as
+easily and as positively as if its flight had been followed by
+the naked eye.  The Zeppelin travellers were quite ignorant of
+this action upon the part of the French and were surprised when
+they were rounded-up to learn that they had been tracked so
+ruthlessly.  Every message which the wireless of the Zeppelin had
+transmitted had been received and filed by the French.
+
+Under these circumstances it is doubtful whether wireless
+telegraphy between aircraft and the forces beneath will be
+adopted extensively during the present campaign.  Of course,
+should some radical improvement be perfected, whereby
+communication may be rendered absolutely secretive, while no
+intimation is conveyed to the enemy that ethereal conversation is
+in progress, then the whole situation will be changed, and there
+may be remarkable developments.
+
+
+
+CHAPTER XVIII
+AIRCRAFT AND NAVAL OPERATIONS
+
+When once the flying machine had indicated its possibilities in
+connection with land operations it was only natural that
+endeavours should be made to adapt it to the more rigorous
+requirements of the naval service.  But the conditions are so
+vastly dissimilar that only a meagre measure of success has been
+recorded.  Bomb-throwing from aloft upon the decks of battleships
+appeals vividly to the popular imagination, and the widespread
+destruction which may be caused by dropping such an agent down
+the funnel of a vessel into the boiler-room is a favourite theme
+among writers of fiction and artists.  But hitting such an
+objective while it is tearing at high speed through the water,
+from a height of several thousand feet is a vastly different task
+from throwing sticks and balls at an Aunt Sally on terra firma:
+the target is so small and elusive.
+
+Practically it is impossible to employ the flying machine,
+whether it be a dirigible or an aeroplane, in this field.  Many
+factors militate against such an application.  In the first place
+there is a very wide difference between dry land and a stretch of
+water as an area over which to manoeuvre.  So far as the land is
+concerned descent is practicable at any time and almost anywhere.
+But an attempt to descend upon the open sea even when the latter
+is as calm as the proverbial mill-pond is fraught with
+considerable danger.  The air-currents immediately above the
+water differ radically from those prevailing above the surface of
+the land.  Solar radiation also plays a very vital part.  In fact
+the dirigible dare not venture to make such a landing even if it
+be provided with floats.  The chances are a thousand to one that
+the cars will become water-logged, rendering re-ascent a matter
+of extreme difficulty, if not absolutely impossible.  On the
+other hand, the aeroplane when equipped with floats, is able to
+alight upon the water, and to rest thereon for a time.  It may
+even take in a new supply of fuel if the elements be propitious,
+and may be able to re-ascend, but the occasions are rare when
+such operations can be carried out successfully.
+
+In operations over water the airman is confronted with one
+serious danger--the risk of losing his bearings and his way.  For
+instance, many attempts have been made to cross the North Sea by
+aeroplane, but only one has proved successful so far.  The
+intrepid aviator did succeed in passing from the shore of Britain
+to the coast of Scandinavia.  Many people suppose that because an
+airman is equipped with a compass he must be able to find his
+way, but this is a fallacy.  The aviator is in the same plight as
+a mariner who is compelled from circumstances to rely upon his
+compass alone, and who is debarred by inclement weather from
+deciding his precise position by taking the sun.  A ship
+ploughing the waters has to contend against the action of cross
+currents, the speed of which varies considerably, as well as
+adverse winds.  Unless absolute correction for these influences
+can be made the ship will wander considerably from its course.  
+The airman is placed in a worse position.  He has no means of
+determining the direction and velocity of the currents prevailing
+in the atmosphere, and his compass cannot give him any help in
+this connection, because it merely indicates direction.
+
+Unless the airman has some means of determining his position,
+such as landmarks, he fails to realise the fact that he is
+drifting, or, even if he becomes aware of this fact, it is by no
+means a simple straightforward matter for him to make adequate
+allowance for the factor.  Side-drift is the aviator's greatest
+enemy.  It cannot be determined with any degree of accuracy.  If
+the compass were an infallible guide the airman would be able to
+complete a given journey in dense fog just as easily as in clear
+weather.  It is the action of the cross currents and the
+unconscious drift which render movement in the air during fog as
+impracticable with safety as manoeuvring through the water under
+similar conditions.  More than one bold and skilful aviator has
+essayed the crossing of the English Channel and, being overtaken
+by fog, has failed to make the opposite coast.  His compass has
+given him the proper direction, but the side-drift has proved his
+undoing, with the result that he has missed his objective.
+
+The fickle character of the winds over the water, especially over
+such expanses as the North Sea, constitutes another and seriously
+adverse factor.  Storms, squalls, gales, and, in winter,
+blizzards, spring up with magical suddenness, and are so severe
+that no aircraft could hope to live in them.  But such
+visitations are more to be dreaded by the lighter-than-air than
+by the heavier-than-air machines.  The former offers a
+considerable area of resistance to the tempest and is caught up
+by the whirlwind before the pilot fully grasps the significant
+chance of the natural phenomenon.  Once a dirigible is swept out
+of the hands of its pilot its doom is sealed.
+
+On the other hand, the speed attainable by the aeroplane
+constitutes its safety.  It can run before the wind, and meantime
+can climb steadily and rapidly to a higher altitude, until at
+last it enters a contrary wind or even a tolerably quiescent
+atmosphere.  Even if it encounters the tempest head on there is
+no immediate danger if the aviator keep cool.  This fact has been
+established times out of number and the airman has been
+sufficiently skilful and quick-witted to succeed in frustrating
+the destructive tactics of his natural enemy.
+
+Only a short while ago in France, British airmen who went aloft
+in a gale found the latter too strong for them.  Although the
+machine was driven full speed ahead it was forced backwards at
+the rate of 10 miles per hour because the independent speed of
+the aeroplane was less than the velocity of the wind.  But a
+dirigible has never succeeded in weathering a gale; its bulk,
+area, and weight, combined with its relatively slow movement, are
+against it, with the result that it is hurled to destruction.  
+All things considered, the dirigible is regarded as an
+impracticable acquisition to a fleet, except in the eyes of the
+Germans, who have been induced to place implicit reliance upon
+their monsters.  The gullible Teuton public confidently believes
+that their Dreadnoughts of the air will complete the destruction
+of the British fleet, but responsible persons know full well that
+they will not play such a part, but must be reserved for
+scouting.  Hitherto, in naval operations, mosquito water-craft,
+such as torpedo-boats, have been employed in this service.  But
+these swift vessels suffer from one serious disability.  The
+range of vision is necessarily limited, and a slight mist hanging
+over the water blinds them; the enemy may even pass within
+half-a-mile of them and escape detection.
+
+The Zeppelin from its position 1,000 feet or more above the
+water, in clear weather, has a tremendous range of vision; the
+horizon is about 40 miles distant, as compared with approximately
+8 miles in the case of the torpedo-boat.  of course an object,
+such as a battleship, may be detected at a far greater range.  
+Consequently the German naval programme is to send the Zeppelin a
+certain distance ahead of the battleship squadron.  The dirigible
+from its coign of vantage would be able to sight a hostile
+squadron if it were within visual range and would communicate the
+fact to the commander of the fleet below.  The latter would
+decide his course according to information received; thus he
+would be enabled to elude his enemy, or, if the tidings received
+from the aerial scout should be favourable, to dispose his vessels
+in the most favourable array for attack.
+
+The German code of naval tactics does not foreshadow the use of
+dirigible aircraft as vessels of attack.  Scouting is the primary
+and indeed the only useful duty of the dirigible, although it is
+quite possible that the aerial craft might participate in a
+subsequent naval engagement, as, indeed, has been the case.  Its
+participation, however, would be governed entirely by climatic
+conditions.  The fact that the dirigible is a weak unit of attack
+in naval operations is fully appreciated by all the belligerents.
+
+The picture of a sky "black with Zeppelins" may appeal to the
+popular imagination, and may induce the uninitiated to cherish
+the belief that such an array would strike terror into the hearts
+of the foe, but the naval authorities are well aware that no
+material advantage would accrue from such a force.  In the first
+place they would constitute an ideal target for the enemy's
+vessels.  They would be compelled to draw within range in order
+to render their own attack effective, and promiscuous shooting
+from below would probably achieve the desired end.  One or more
+of the hostile aircraft would be hit within a short while.  Such
+disasters would undoubtedly throw the aerial fleet into
+confusion, and possibly might interfere with the tactical
+developments of its own friends upon the water below.
+
+The shells hurled from the Zeppelins would probably inflict but
+little damage upon the warships beneath.  Let it be conceded that
+they weigh about 500 pounds, which is two-thirds of the weight of
+the projectile hurled from the Krupp 128-centimetre howitzer.
+Such a missile would have but little destructive effect if
+dropped from a height of 1,000 feet.  To achieve a result
+commensurate with that of the 28-centimetre howitzer the airship
+would have to launch the missile from a height of about 7,000
+feet.  To take aim from such an altitude is impossible,
+especially at a rapidly moving target such as a battle-cruiser.
+
+The fact must not be forgotten that Count Zeppelin himself has
+expressed the opinion, the result of careful and prolonged
+experiments, that his craft is practically useless at a height
+exceeding 5,000 feet.  Another point must not be overlooked.  In
+a spirited naval engagement the combatants would speedily be
+obliterated from the view of those aloft by the thick pall of
+smoke--the combination of gun-fire and emission from the furnaces
+and a blind attack would be just as likely to damage friend as
+foe.
+
+Even if the aircraft ventured to descend as low as 5,000 feet it
+would be faced with another adverse influence.  The discharge of
+the heavy battleship guns would bring about such an agitation of
+the air above as to imperil the delicate equilibrium of an
+airship.  Nor must one overlook the circumstance that in such an
+engagement the Zeppelins would become the prey of hostile
+aeroplanes.  The latter, being swifter and nimbler, would harry
+the cumbersome and slow-moving dirigible in the manner of a dog
+baiting a bear to such a degree that the dirigible would be
+compelled to sheer off to secure ts own safety.  Desperate
+bravery and grim determination may be magnificent physical
+attributes, ut they would have to be superhuman to face the
+stinging recurrent attacks of mosquito-aeroplanes.
+
+The limitations of the Zeppelin, and in fact of all dirigible
+aircraft, were emphasised upon the occasion of the British aerial
+raid upon Cuxhaven.  Two Zeppelins bravely put out to overwhelm
+the cruisers and torpedo boats which accompanied and supported
+the British sea-planes, but when confronted with well-placed
+firing from the guns of the vessels below they quickly decided
+that discretion was the better part of valour and drew off.  In
+naval operations the aeroplane is a far more formidable foe,
+although here again there are many limitations.  The first and
+most serious is the severely limited radius of action.  The
+aeroplane motor is a hungry engine, while the fuel capacity of
+the tank is restricted.  The German military authorities speedily
+realised the significance of this factor and its bearing upon
+useful operations, and forth  with carried out elaborate
+endurance tests.  In  numerable flights were made with the
+express purpose of determining how long a machine could remain in
+the air upon a single fuel supply.
+
+The results of these flights were collated and the achievements
+of each machine in this direction carefully analysed, a mean
+average drawn up, and then pigeon-holed.  The results were kept
+secret, only the more sensational records being published to the
+world.  As the policy of standardisation in the construction of
+aeroplanes was adopted the radius of action of each type became
+established.  It is true that variations of this factor even
+among vessels exactly similar in every respect are inevitable,
+but it was possible to establish a reliable mean average for
+general guidance.
+
+The archives of the Berlin military department are crowded with
+facts and figures relating to this particular essential, so that
+the radius of action, that is the mileage upon a single fuel
+charge, of any class and type of machine may be ascertained in a
+moment.  The consequence is that the military authorities are
+able to decide the type of aeroplane which is best suited to a
+certain projected task.  According to the dossier in the
+pigeon-hole, wherein the results of the type are filed, the
+aeroplane will be able to go so far, and upon arriving at that
+point will be able to accomplish so much work, and then be able
+to return home.  Consequently it is dispatched upon the especial
+duty without any feeling of uncertainty.
+
+Unfortunately, these experimental processes were too methodical
+to prove reliable.  The endurance data were prepared from tests
+carried out in the aerodrome and from cross-country trials
+accomplished under ideal or fair-weather conditions.  The result
+is that calculations have been often upset somewhat rudely by
+weather conditions of a totally unexpected character, which bring
+home vividly the striking difference between theory and practice.
+
+The British and French aviation authorities have not adopted such
+methodical standardisation or rule of thumb inferences, but
+rather have fostered individual enterprise and initiative.  This
+stimulation of research has been responsible for the creation of
+a type of aeroplane specially adapted to naval service, and
+generically known as the water plane, the outstanding point of
+difference from the aeroplane being the substitution of canoes or
+floats for the wheeled chassis peculiar to the land machine.  The
+flier is sturdily built, while the floats are suf ficiently
+substantial to support the craft upon the water in calm weather.
+Perhaps it was the insular situation of the British nation which
+was responsible for this trend of development, because so far as
+Britain is concerned the sea-going aeroplane is in dispensable.  
+But the salient fact remains that to-day the waterplane service
+of Great Britain is the most efficient in the world, the craft
+being speedy, designed and built to meet the rough weather
+conditions which are experienced around these islands, and ideal
+vessels for patrol and raiding duties.
+
+So far as the British practice is concerned the waterplane is
+designed to operate in conjunction with, and not apart from, the
+Navy.  It has been made the eyes of the Navy in the strictest
+interpretation of the term.  In any such combination the great
+difficulty is the establishment of what may be termed a mobile
+base, inasmuch as the waterplane must move with the fleet.  This
+end has been achieved by the evolution of a means of carrying a
+waterplane upon, and launching it from, a battleship, if
+necessary.
+
+For this purpose a docking cradle or way has been provided aft
+where the aeroplane may be housed until the moment arrives for
+its employment.  Several vessels have been devoted to this
+nursing duty and are known as parent ships to the waterplane
+service.  All that is requisite when the time arrives for the
+use of the seaplane is to lift it bodily by derrick or crane
+from its cradle and to lower it upon the water.  It will be
+remembered that the American naval authorities made an
+experiment with a scheme for directly launching the warplane
+from the deck of a battleship in the orthodox, as well as
+offering it a spot upon which to alight upon returning from a
+flight, while Wing-Commander Samson, R.N., D.S.O., the famous
+British airman, repeated the experiment by flying from a
+similar launching way installed upon H.M.S. Hibernia.  But
+this practice has many shortcomings.  So far as the British
+and French navies are concerned, the former process is
+preferred.  Again, when the waterplane returns from a flight
+it is admitted that it is simpler, quicker, and safer for it
+to settle upon the water near the parent ship and to be lifted
+on board.
+
+As a sea-scout the waterplane is overwhelmingly superior to
+the dirigible as events have conclusively proved.  Its
+greater mobility and speed stand it in excellent stead
+because it is able to cover a larger area within a shorter
+space of time than its huge and unwieldy contemporary.
+Furthermore, it is a difficult target to hit and accordingly
+is not so likely to be brought down by hostile fire.  There
+is another point in its favour.  The experience of the war
+has proved that the numerically inferior enemy prefers to
+carry out his naval operations under the cover of the mist
+and haze which settle upon the water, and yet are of
+sufficient depth to conceal his identity and composition.
+Such mists as a rule comprise a relatively thin bank of
+low-lying vapour, which while enveloping the surface of the
+water in an impenetrable pall, yet permits the mast-heads
+of the vessels to stand out clearly, although they cannot
+be detected from the water-level or even from the control
+and fighting tops of a warship.  A scouting waterplane,
+however, is able to observe them and note their movement,
+and accordingly can collect useful information concerning
+the apparent composition of the hidden force, the course it
+is following, its travelling speed, and so forth, which it
+can convey immediately to its friends.
+
+The aeroplane has established its value in another manner.
+Coal-burning vessels when moving at any pronounced speed
+invariably throw off large quantities of smoke, which may
+be detected easily from above, even when the vessels
+themselves are completely hidden in the mist.  It was this
+circumstance which revealed the presence of the British
+squadron in the affair of the Bight of Heligoland.
+
+The German airman on patrol duty from the adjacent base on
+the island of Heligoland detected the presence of this
+smoke, above the low-lying bank of fog, although there were
+no other visible signs of any vessels.  Fully cognisant of
+the fact that the German Fleet was at anchor in a safe place
+he naturally divined that the smoke proceeded from a hostile
+squadron, evidently bent upon a raid.  He returned to his
+headquarters, conveyed the intelligence he had collected to
+his superior officers, upon receipt of which a German cruiser
+squadron was sent out and engaged the British vessels to its
+own discomfiture.  But for the airman's vigilance and smartness
+there is no doubt that the British squadron would have
+accomplished a great coup.
+
+This incident, however, served to reveal that the aerial scout is
+prone to suffer from over-keenness and to collect only a partial
+amount of information.  Upon this occasion the German watchman
+detected the presence of the British torpedo-boat and light
+cruiser force.  Had he continued his investigations and made a
+wider sweep he would have discovered the proximity of the British
+battle-cruiser squadron which routed the German force, the latter
+having acted on incomplete information.
+
+While the low-lying sea-fog is the navigator's worst enemy, it is
+the airman's greatest friend and protection.  It not only
+preserves him against visual discovery from below, but is an
+excellent insulator of sound, so that his whereabouts is not
+betrayed by the noise of his motor.  It is of in calculable value
+in another way.  When a fog prevails the sea is generally as
+smooth as the pro verbial mirror, enabling the waterplanes to be
+brought up under cover to a suitable point from which they may be
+dispatched.  Upon their release by climbing to a height of a few
+hundred feet the airmen are able to reach a clear atmosphere,
+where by means of the compass it is possible to advance in
+approximately the desired direction, safe from discovery from
+below owing to the fog.  If they are "spotted" they can dive into
+its friendly depths, complete their work, and make for the parent
+ship.
+
+Low-lying sea-fogs are favourable to aerial raids provided the
+scout is able to catch sight of the upper parts of landmarks to
+enable him to be sure of the correctness of his line of flight-in
+cases where the distance is very short compass direction is
+sufficiently reliable-because the bank of vapour not only
+constitutes a perfect screen, but serves as a blanket to the
+motor exhaust, if not completely, at least sufficiently to
+mislead those below.  Fogs, as every mariner will testify, play
+strange tricks with the transmission of sound.  Hence, although
+those on the vessels below might detect a slight hum, it might
+possibly be so faint as to convey the impression that the aviator
+was miles away, when, as a matter of fact, he was directly
+overhead.  This confusion arising from sound aberration is a
+useful protection in itself, as it tends to lure a naval force
+lying in or moving through the fog into a false sense of
+security.
+
+The development of the submarine revealed the incontrovertible
+fact that this arm would play a prominent part in future
+operations upon the water:  a presage which has been adequately
+fulfilled during the present conflict.  The instinct of
+self-preservation at once provoked a discussion of the most
+effective ways and means of disguising its whereabouts when it
+travels submerged.  To this end the German naval authorities
+conducted a series of elaborate and interesting experiments off
+the island of Heligoland.  As is well known, when one is directly
+above a stretch of shallow water, the bottom of the latter can be
+seen quite distinctly.  Consequentiy, it was decided to employ 
+aerial craft as detectives.  Both the aeroplane and the dirigible
+took part in these experiments, being flown at varying heights,
+while the submarine was maneouvred at different depths immediately
+below.  The sum of these investigations proved conclusively that
+a submarine may be detected from aloft when moving at a depth of
+from 30 to 40 feet.  The outline of the submerged craft is
+certainly somewhat blurred, but nevertheless it is sufficiently
+distinct to enable its identity to be determined really against
+the background or bottom of the sea.  To combat this detection
+from an aerial position it will be necessary inter alia to evolve
+a more harmonious or protective colour-scheme for the submarine.
+Their investigations were responsible for the inauguration of the
+elaborate German aerial patrol of harbours, the base for such
+aerial operations being established upon the island of
+Heligoland.
+
+So far the stern test of war as applied to the science of
+aeronautics has emphasised the fact that as a naval unit the
+dirigible is a complete failure.  Whether experience will bring
+about a modification of these views time alone will show, but it
+is certain that existing principles of design will have to
+undergo a radical revision to achieve any notable results.  The
+aeroplane alone has proved successful in this domain, and it is
+upon this type of aerial craft that dependence will have to be
+placed.
+
+
+
+CHAPTER XIX
+THE NAVIES of THE AIR
+
+Less than three years ago the momentous and spectacular race
+among the Powers of Europe for the supremacy of the air began.  
+At first the struggle was confined to two rivals--France and
+Germany--but as time progressed and the importance of aerial
+fleets was recognised, other nations, notably Great Britain,
+entered the field.
+
+Germany obtained an advantage.  Experiment and research were
+taken up at a point which had been reached by French effort;
+further experiments and researches were carried out in German
+circles with secret and feverish haste, with the result that
+within a short time a pronounced degree of efficiency according
+to German ideals had been attained.  The degree of perfection
+achieved was not regarded with mere academic interest; it marked
+the parting of the ways: the point where scientific endeavour com
+manded practical appreciation by turning the success of the
+laboratory and aerodrome into the channel of commercial
+manufacture.  In other words, systematic and wholesale production
+was undertaken upon an extensive scale.  The component parts were
+standardised and arrangements were completed with various
+establishments possessed of the most suitable machinery to
+perfect a programme for turning out aeronautical requirements in
+a steady, continuous stream from the moment the crisis developed.
+
+The wisdom of completing these arrangements in anticipation is
+now apparent.  Upon the outbreak of hostilities many German
+establishments devoted to the production of articles required in
+the infinite ramifications of commerce found themselves deprived
+of their markets, but there was no risk that their large plants
+would be brought to a standstill:  the Government ordered the
+manufacture of aeroplane parts and motors upon an extensive
+scale.  In this manner not only were the industrial
+establishments kept going, but their production of aeronautical
+requirements relieved those organisations devoted to the
+manufacture of armaments, so that the whole resources and
+facilities of these could be concentrated upon the supply of
+munitions of war.
+
+In France the air-fleet, although extensive upon the outbreak of
+war, was somewhat heterogeneous.  Experiment was still being
+pursued: no type had met with definite official recognition, the
+result being that no arrangements had been completed for the
+production of one or more standard types upon an elaborate scale
+comparable with that maintained by Germany.  In fact some six
+months after the outbreak of war there was an appreciable lack of
+precision on this point in French military.  Many of the types
+which had established their success were forbidden by military
+decree as mentioned in a previous chapter, while manufacturing
+arrangements were still somewhat chaotic.
+
+Great Britain was still more backward in the new movement.  But
+this state of affairs was in a measure due to the division of the
+Fourth Arm among the two services.  A well-organised Government
+manufactory for the production of aeroplanes and other aircraft
+necessities had been established, while the private manufacturers
+had completed preparations for wholesale production.  But it was
+not until the Admiralty accepted responsibility for the aerial
+service that work was essayed in grim earnest.
+
+The allocation of the aerial responsibilities of Great Britain to
+the Admiralty was a wise move.  Experience has revealed the
+advantages accruing from the perfection of homogeneous squadrons
+upon the water, that is to say groups of ships which are
+virtually sister-craft of identical speed, armament, and so on,
+thus enabling the whole to act together as a complete effective
+unit.  As this plan had proved so successful upon the water, the
+Admiralty decided to apply it to the fleet designed for service
+in the air above.
+
+At the time this plan of campaign was definitely settled Great
+Britain as an aerial power was a long way behind her most
+fomidable rival, but strenuous efforts were made to reduce the
+handicap, and within a short while the greater part of this
+leeway had been made up.  Upon the outbreak of war Great Britain
+undoubtedly was inferior to Germany in point of numbers of
+aircraft, but the latter Power was completely outclassed in
+efficiency, and from the point of view of PERSONNEL.  The British
+had developed the waterplane as an essential auxiliary to naval
+operations, and here was in advance of her rival, who had
+practically neglected this line of eeperiment and evolution,
+resting secure in the assurance of her advisers that the huge
+dirigibles would be adequate for all exigencies on the water.
+
+Indeed, when war was declared, all the Powers were found more or
+less wanting so far as their aerial fleets were concerned.  If
+Germany's huge aerial navy had been in readiness for instant service
+when she invaded Belgium, she would have overcome that little
+country's resistance in a far shorter time and with much less
+waste of life.  It was the Belgians who first brought home to the
+belligerents the prominent part that aircraft were destined to
+play in war, and the military possibilities of the aeroplane.  
+True, the Belgians had a very small aerial navy, but it was put to
+work without delay and accomplished magnificent results,
+ascertaining the German positions and dispositions with unerring
+accuracy and incredible ease, and thus enabling the commander of
+the Belgian Army to dispose his relatively tiny force to the best
+advantage, and to offer the most effective resistance.
+
+Great Britain's aerial navy, while likewise some  what small, was
+also ready for instant service.  The British Expeditionary force
+was supported by a very efficient aerial fleet, the majority of
+the vessels forming which flew across the Channel at high speed
+to the British headquarters in France so as to be available
+directly military preparations were begun, and the value of this
+support proved to be inestimable, since it speedily demoralised
+the numerically superior enemy.
+
+France, like Germany, was somewhat dilatory, but this was
+attributable rather to the time occupied in the mobilisation of
+the Fourth Arm than to lack of energy.  There were a round 1,500
+aeroplanes ostensibly ready for service, in addition to some 26
+dirigibles.  But the fleet was somewhat scattered, while many of
+the craft were not immediately available, being in the shops or
+in dock for repairs and overhaul.  During the period of
+mobilisation the so-called standing military force was augmented
+by about 500 machines which were acquired from private owners.  
+The aeroplane factories were also, overhauled and re-organised so
+as to be in a position to remedy the inevitable wastage, but
+these organisation efforts were somewhat handicapped by the
+shortage of labour arising from the call to arms.  France,
+moreover, imperilled her aerial strength by forbidding the use of
+558 machines which were ready for service.
+
+Germany's aerial fleet was of similar proportions to that of her
+Gallic neighbour, but curiously enough, and in strange contrast,
+there appeared to be a lack of readiness in this ramification of
+the Teuton war machine.  The military establishment possessed
+about 1,000 machines--active and reserve--of which it is
+estimated 700 were available for instant service.  During the
+period of mobilisation a further 450 machines were added to the
+fleet, drawn for the most part from private owners.  So far as
+the dirigibles were concerned 14 Zeppelins were ready for duty,
+while others were under construction or undergoing overhaul and
+repair.  A few other types were also in commission or acquired
+during mobilisation, bringing the dirigible force to 40 machines
+all told.
+
+But the greatest surprise was probably offered by Russia.  Very
+little was known concerning Russian activities in this particular
+field, although it was stated that large orders for machines had
+been placed with various foreign manufactories.  Certain
+factories also had been established within the Empire, although
+the character of their work and its results and achievements were
+concealed from prying eyes.  In Russia, however, an appreciable
+number of private aeroplanes were in operation, and these, of
+course, were placed at the disposal of the authorities the moment
+the crisis developed.
+
+The British and French aeroplane manufacturers had been busy upon
+Russian orders for many months previous to the outbreak of
+hostilities, while heavy shipments of component parts had been
+made, the assembling and completion of the machines being carried
+out in the country.  It is generally believed that upon the
+outbreak of war Russia had a fleet of 800 aeroplanes in hand, of
+which total 150 were contributed from private sources.  Even the
+dirigible had not been overlooked, there being nearly 20 of these
+craft attached to the Russian Army, although for the most part
+they are small vessels.
+
+In comparison with the foregoing large aerial navies, that of
+Great Britain appeared to be puny.  At the moment Great Britain
+possesses about 500 machines, of which about 200 are waterplanes.
+In addition, according to the Secretary of the Admiralty, 15
+dirigibles should be in service.  Private enterprise is supported
+by the Government, which maintains a factory for the manufacture
+of these craft.
+
+During the two years preceding the outbreak of war the various
+Powers grew remarkably reticent concerning the composition and
+enlargement of their respective aerial fleets.  No official
+figures were published.  But at the same time it is a well-known
+fact that during the year 1913 France augmented her flying force
+by no fewer than 544 aeroplanes.  Germany was no less energetic,
+the military acquisition in this branch, and during the self-same
+year, approaching 700 machines according to the semi-official
+reports published in that country.
+
+The arrangements concluded for the manufacture of additional
+craft during the war are equally remarkable.  The principal
+factory in Germany, (now devoting its energies to the production
+of these craft, although in happier days its normal complement of
+4,000 men were responsible for the production of another
+commercial article) possesses facilities for turning out 30
+complete aeroplanes per week, according to the statement of its
+managing director.  But it is averred that this statement is
+purposely misleading, inasmuch as during the first fortnight of
+the campaign it was producing over 50 aeroplanes per week.  It
+must be remembered that Germany is responsible for the supply of
+the majority of such craft for the Austnan armies, that country
+purchasing these vessels in large numbers, because in the early
+days of the conflict it was notoriously weak in this arm.  Since
+the declaration of war strenuous efforts have been made to remedy
+this state of affairs, particularly upon the unexpected
+revelation of Russia's aerial strength.
+
+It is computed that upon the outbreak of war the various Powers
+were in the position to show an aggregate of 4,980 aircraft of
+all descriptions, both for active service and reserve.  This is a
+colossal fleet, but it serves to convey in a graphic manner the
+importance attached to the adrial vessel by the respective
+belligerents.  So far as Germany is concerned she is sorely in
+need of additional machines.  Her fleet of the air has lost its
+formidable character, owing to the fact that it has to be divided
+between two frontiers, while she has been further weakened by the
+enormous lengths of the two battle-fronts.
+
+Russia has been able to concentrate her aerial force, which has
+proved of incalculable value to the Grand Duke Nicholas, who has
+expressed his appreciation of the services rendered by his
+fliers.  The French likewise have been favoured by Fortune in
+this respect.  Their aerial navy is likewise concentrated upon
+a single frontier, although a pronounced proportion has been
+reserved for service upon the Mediterranean sea-board for
+co-operation with the fleet.  France suffers, however, to a
+certain degree from the length of her battle-line, which is over
+200 miles in length.  The French aerial fleet has been
+particularly active in the Vosges and the Argonne, where the
+difficult, mountainous, and densely wooded country has rendered
+other systems of observation of the enemy's movements a matter of
+extreme difficulty.  The Germans have laboured under a similar
+handicap in this territory, and have likewise been compelled to
+centre a considerable proportion of their aerial fleet upon this
+corner of the extended battlefield.
+
+It is in this region that the greatest wastage has been manifest.
+I have been informed by one correspondent who is fighting in this
+sternly contested area, that at one time a daily loss of ten
+German machines was a fair average, while highwater mark was
+reached, so far as his own observations and ability to glean
+information were concerned by the loss of 19 machines during a
+single day.  The French wastage, while not so heavy upon the
+average, has been considerable at times.
+
+The term wastage is somewhat misleading, if not erroneous.  It
+does not necessarily imply the total loss of a machine, such as
+its descent upon hostile territory, but includes damage to
+machines, no matter how slight, landing within their own lines.  
+In the difficult country of the Vosges many aeroplanes have come
+to earth somewhat heavily, and have suffered such damage as to
+render them inoperative, compelling their removal from the
+effective list until they have undergone complete overhaul or
+reconstruction.  Upon occasions this wastage has been so
+pronounced that the French aviators, including some of the
+foremost fliers serving with the forces, have been without a
+machine and have been compelled to wait their turn.
+
+I am informed that one day four machines, returning from a
+reconnaissance in force, crashed successively to the ground, and
+each had to be hauled away to the repair sheds, necessitating
+withdrawal from service for several days.  Unfortunately the
+French, owing to their decision to rule out certain machines as
+unsuited to military service, have not yet perfected their
+organisation for making good this wastage, although latterly it
+has been apprecably reduced by greater care among the aviators in
+handling their vessels.
+
+The fast vessels of the French aerial fleet have proved
+exceptionally valuable.  With these craft speeds of 95 and 100
+miles or more per hour have been attained under favourable
+conditions, and pace has proved distinctly advantageous, inasmuch
+as it gives the French aviators a superiority of about 40 per
+cent over the average German machine.  It was the activity and
+daring of the French fliers upon these high speed machines which
+induced the German airmen to change their tactics.  Individual
+effort and isolated raiding operations were abandoned in favour
+of what might be described as combined or squadron attack.  Six
+or eight machines advancing together towards the French lines
+somewhat nonplussed these fleet French mosquito craft, and to
+a certain degree nullified their superiority in pace.  Speed
+was discounted, for the simple reason that the enemy when so
+massed evinced a disposition to fight and to follow harassing
+tactics when one of the slowest French machines ventured into
+the air.
+
+It is interesting to observe that aerial operations, now that
+they are being conducted upon what may be termed methodical lines
+as distinct from corsair movements, are following the broad
+fundamental principles of naval tactics.  Homogeneous squadrons,
+that is, squadrons composed of vessels of similar type and armament,
+put out and follow roughly the "single line ahead" formation.
+Upon sighting the enemy there is the manoeuvring for position
+advantage which must accrue to the speedier protagonist.  One
+then, witnesses what might almost be described as an application
+of the process of capping the line or "crossing the 'T.'" This
+tends to throw the slower squadron into confusion by bending it
+back upon itself, meanwhile exposing it to a demoralizing fire.
+
+The analogy is not precisely correct but sufficiently so to
+indicate that aerial battles will be fought much upon the same
+lines, as engagements between vessels upon the water.  If the
+manoeuvres accomplish nothing beyond breaking up and scattering
+the foe, the result is satisfactory in as much as in this event
+it is possible to exert a driving tendency and to force him back
+upon the lines of the superior force, when the scattered vessels
+may be brought within the zone of spirited fire from the ground.
+
+Attacks in force are more likely to prove successful than
+individual raiding tactics, as recent events upon the battlefield
+of Europe have demonstrated more or less convincingly.  An attack
+in force is likely to cause the defenders upon the ground beneath
+to lose their heads and to fire wildly and at random, with the
+result that the airmen may achieve their object with but little
+damage to themselves.  This method of attacking in force was
+essayed for the first time by the British aerial fleet, which
+perhaps is not surprising, seeing that the machines are manned
+and the operations supervised by officers who have excelled in
+naval training, and who are skilled in such movements.
+
+No doubt this practice, combined with the daring of the British
+aviators, contributed very materially to the utter demoralisation
+of the German aerial forces, and was responsible for that
+hesitancy to attack a position in the vicinity of the British
+craft which became so manifest in the course of a few weeks after
+the outbreak of hostilities.
+
+One of the foremost military experts of the United States, who
+passed some time in the fighting zone, expressed his opinion that
+the British aerial force is the most efficient among the
+belligerents when considered as a unit, the French flier being
+described by the same authority as most effective when acting
+individually, owing to personal intrepidity.  As a scout the
+French aviator is probably unequalled, because he is quick to
+perceive and to collect the data required, and when provided with
+a fast machine is remarkably nimble and venturesome in the air.  
+The British aviators, however, work as a whole, and in the
+particular phases where such tactics are profitable have
+established incontestable superiority.  At first the German
+aerial force appeared to possess no settled system of operation.
+Individual effort was pronounced, but it lacked method.  The
+Germans have, however, profited from the lessons taught by their
+antagonists, and now are emulating their tactics, but owing to
+their imperfect training and knowledge the results they achieve
+appear to be negligible.
+
+The dirigible still remains an unknown quantity in these
+activities, although strange to relate, in the early days of the
+war, the work accomplished by the British craft, despite their
+comparatively low speed and small dimensions, excelled in value
+that achieved by the warplanes.  This was particularly noticeable
+in matters pertaining to reconnaissance, more especially at
+night, when the British vessels often remained for hours together
+in the air, manoeuvring over the hostile lines, and gathering
+invaluable information as to the disposition and movements
+of the opposing forces.
+
+But it is probably in connection with naval operations that the
+British aerial fleet excels.  The waterplanes have established
+their supremacy over the naval dirigible in a striking manner.  
+British endeavour fostered the waterplane movement and has
+carried it to a high degree of perfection.  The waterplane is not
+primarily designed to perform long flights, although such may be
+carried out if the exigencies demand.  The practice of deputing
+certain vessels to art as "parent ships" to a covey of
+waterplanes has proved as successful in practice, as in theory.  
+Again, the arrangements for conveying these machines by such
+means to a rendezvous, and there putting them into the water to
+complete a certain duty, have been triumphantly vindicated.
+At the time this idea was embraced it met with a certain degree
+of hostile criticism: it was argued that the association of the
+two fighting, machines would tend towards confusion, and impair
+the efficiency of both.
+
+Practice has refuted this theory.  The British aerial raids upon
+Cuxhaven and other places would have been impossible, and
+probably valueless as an effective move, but for the fact that it
+was possible to release the machines from a certain point upon
+the open sea, within easy reach of the cooperating naval
+squadron.  True, the latter was exposed to hostile attack from
+submarines, but as results proved this was easy to repel.  The
+aircraft were enabled to return to their base, as represented by
+the rendezvous, to be picked up, and to communicate the
+intelligence gained from their flight to the authorities in a
+shorter period of time than would have been possible under any
+other circumstances, while the risk to the airmen was
+proportionately reduced.
+
+The fact that the belligerents have built up such huge aerial
+navies conclusively proves that the military value of the Fourth
+Arm has been fully appreciated.  From the results so far achieved
+there is every indication that activity in this direction
+will be increased rather than diminished.
+
+
+
+
+
+End of The Project Gutenberg Etext of Aeroplanes and Dirigibles of War
+
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