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+<title>
+  The Project Gutenberg eBook of Great Astronomers, by Sir Robert S. Ball.
+</title>
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+<pre>
+
+The Project Gutenberg EBook of Great Astronomers, by R. S. Ball
+
+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: Great Astronomers
+
+Author: R. S. Ball
+
+Posting Date: October 24, 2010 [EBook #2298]
+Release Date: August 2000 [EBook #2298]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK GREAT ASTRONOMERS ***
+
+
+
+
+Produced by Chris Brennen cbrennen@freenet.co.uk
+Jill R. Diffendal, Barb Grow pebareka@iexpress.net.au
+Christine L. Hall Goleta, CA. USA
+Pamela L. Hall pamhall@www.edu
+HTML version produced by Chuck Greif
+
+
+
+
+
+</pre>
+
+
+<div class="figcenter" style="width: 550px;">
+<a href="images/ill_front.jpg">
+<img src="images/ill_front_sml.jpg" width="550" height="338" alt="GREENWICH OBSERVATORY." title="" /></a>
+<span class="caption">GREENWICH OBSERVATORY.</span>
+</div>
+
+<h1>GREAT ASTRONOMERS</h1>
+
+<p class="c"><b>by</b></p>
+
+<p class="c"><b><big>SIR ROBERT S. BALL D.Sc. LL.D. F.R.S.</big></b></p>
+
+<p class="c"><b><small>Lowndean Professor of Astronomy and Geometry in the
+University of Cambridge<br />
+Author of "In Starry Realms" "In the High Heavens" etc.</small></b></p>
+
+<p class="c"><b>WITH NUMEROUS ILLUSTRATIONS</b></p>
+
+<p><a name="greenwich"  id="greenwich"></a></p>
+
+<h3><a name="PREFACE" id="PREFACE"></a>PREFACE.</h3>
+<p>It has been my object in these pages to present the life of each
+astronomer in such detail as to enable the reader to realise in
+some degree the man's character and surroundings; and I have
+endeavoured to indicate as clearly as circumstances would permit
+the main features of the discoveries by which he has become known.</p>
+
+<p>There are many types of astronomers&mdash;from the stargazer who merely
+watches the heavens, to the abstract mathematician who merely
+works at his desk; it has, consequently, been necessary in the
+case of some lives to adopt a very different treatment from that
+which seemed suitable for others.</p>
+
+<p>While the work was in progress, some of the sketches appeared in
+"Good Words." The chapter on Brinkley has been chiefly derived from
+an article on the "History of Dunsink Observatory," which was
+published on the occasion of the tercentenary celebration of the
+University of Dublin in 1892, and the life of Sir William Rowan
+Hamilton is taken, with a few alterations and omissions, from an
+article contributed to the "Quarterly Review" on Graves' life of
+the great mathematician. The remaining chapters now appear for
+the first time. For many of the facts contained in the sketch of
+the late Professor Adams, I am indebted to the obituary notice
+written by my friend Dr. J. W. L. Glaisher, for the Royal Astronomical
+Society; while with regard to the late Sir George Airy, I have a
+similar acknowledgment to make to Professor H. H. Turner. To my
+friend Dr. Arthur A. Rambaut I owe my hearty thanks for his
+kindness in aiding me in the revision of the work.</p>
+
+<p class="r">R.S.B.</p>
+<p class="nind"><small>The Observatory, Cambridge.<br />
+October, 1895</small></p>
+
+<h3><a name="CONTENTS" id="CONTENTS"></a>CONTENTS.</h3>
+<table border="0" cellpadding="0" cellspacing="0" summary="">
+<tr><td align="left"><a href="#PREFACE">P<small>REFACE</small>.</a></td></tr>
+<tr><td align="left"><a href="#INTRODUCTION">I<small>NTRODUCTION</small>.</a></td></tr>
+<tr><td align="left"><a href="#PTOLEMY">P<small>TOLEMY</small>.</a></td></tr>
+<tr><td align="left"><a href="#COPERNICUS">C<small>OPERNICUS</small>.</a></td></tr>
+<tr><td align="left"><a href="#TYCHO_BRAHE">T<small>YCHO</small> B<small>RAHE</small>.</a></td></tr>
+<tr><td align="left"><a href="#GALILEO">G<small>ALILEO</small>.</a></td></tr>
+<tr><td align="left"><a href="#KEPLER">K<small>EPLER</small>.</a></td></tr>
+<tr><td align="left"><a href="#ISAAC_NEWTON">I<small>SAAC</small> N<small>EWTON</small>.</a></td></tr>
+<tr><td align="left"><a href="#FLAMSTEED">F<small>LAMSTEED</small>.</a></td></tr>
+<tr><td align="left"><a href="#HALLEY">H<small>ALLEY</small>.</a></td></tr>
+<tr><td align="left"><a href="#BRADLEY">B<small>RADLEY</small>.</a></td></tr>
+<tr><td align="left"><a href="#WILLIAM_HERSCHEL">W<small>ILLIAM</small> H<small>ERSCHEL</small>.</a></td></tr>
+<tr><td align="left"><a href="#LAPLACE">L<small>APLACE</small>.</a></td></tr>
+<tr><td align="left"><a href="#BRINKLEY">B<small>RINKLEY</small>.</a></td></tr>
+<tr><td align="left"><a href="#JOHN_HERSCHEL">J<small>OHN</small> H<small>ERSCHEL</small>.</a></td></tr>
+<tr><td align="left"><a href="#THE_EARL_OF_ROSSE">T<small>HE</small> E<small>ARL OF</small> R<small>OSSE</small>.</a></td></tr>
+<tr><td align="left"><a href="#AIRY">A<small>IRY</small>.</a></td></tr>
+<tr><td align="left"><a href="#HAMILTON">H<small>AMILTON</small>.</a></td></tr>
+<tr><td align="left"><a href="#LE_VERRIER">L<small>E</small> V<small>ERRIER</small>.</a></td></tr>
+<tr><td align="left"><a href="#ADAMS">A<small>DAMS</small>.</a></td></tr>
+</table>
+
+<h3><a name="LIST_OF_ILLUSTRATIONS" id="LIST_OF_ILLUSTRATIONS"></a>LIST OF ILLUSTRATIONS.</h3>
+
+<p class="c"><small>[Note of etext transcriber: The illustrations by be seen enlarged by clicking on them.]</small></p>
+
+<ul>
+<li><a href="#greenwich">THE OBSERVATORY, GREENWICH.</a></li>
+
+<li><a href="#PTOLEMY">PTOLEMY.</a></li>
+
+<li><a href="#fig_1">PTOLEMY'S PLANETARY SCHEME.</a></li>
+
+<li><a href="#fig_2">PTOLEMY'S THEORY OF THE MOVEMENT OF MARS.</a></li>
+
+<li><a href="#thorn">THORN, FROM AN OLD PRINT.</a></li>
+
+<li><a href="#copernicus_ill">COPERNICUS.</a></li>
+
+<li><a href="#frauenburg">FRAUENBURG, FROM AN OLD PRINT.</a></li>
+
+<li><a href="#explanation">EXPLANATION OF PLANETARY MOVEMENTS.</a></li>
+
+<li><a href="#tycho">TYCHO BRAHE.</a></li>
+
+<li><a href="#tycho_ill">TYCHO'S CROSS STAFF.</a></li>
+
+<li><a href="#new_star">TYCHO'S "NEW STAR" SEXTANT OF 1572.</a></li>
+
+<li><a href="#trigonic_sextant">TYCHO'S TRIGONIC SEXTANT.</a></li>
+
+<li><a href="#astronomic_sextant">TYCHO'S ASTRONOMIC SEXTANT.</a></li>
+
+<li><a href="#equatorial_armillary">TYCHO'S EQUATORIAL ARMILLARY.</a></li>
+
+<li><a href="#augsburg_quadrant">THE GREAT AUGSBURG QUADRANT.</a></li>
+
+<li><a href="#new_scheme">TYCHO'S "NEW SCHEME OF THE TERRESTRIAL SYSTEM," 1577.</a></li>
+
+<li><a href="#uraniborg">URANIBORG AND ITS GROUNDS.</a></li>
+
+<li><a href="#grnd_pln_uraniborg">GROUND-PLAN OF THE OBSERVATORY.</a></li>
+
+<li><a href="#uraniborg_hven">THE OBSERVATORY OF URANIBORG, ISLAND OF HVEN.</a></li>
+
+<li><a href="#effigy">EFFIGY ON TYCHO'S TOMB AT PRAGUE.</a>
+<ul><li>By Permission of Messrs. A. &amp; C. Black.</li></ul></li>
+<li><a href="#quadrant">TYCHO'S MURAL QUADRANT, URANIBORG.</a></li>
+
+<li><a href="#galileo_pendulum">GALILEO'S PENDULUM.</a></li>
+
+<li><a href="#portrait">GALILEO.</a></li>
+
+<li><a href="#arcetri">THE VILLA ARCETRI.</a></li>
+
+<li><a href="#facsimile">FACSIMILE SKETCH OF LUNAR SURFACE BY GALILEO.</a></li>
+
+<li><a href="#crest">CREST OF GALILEO'S FAMILY.</a></li>
+
+<li><a href="#solids">KEPLER'S SYSTEM OF REGULAR SOLIDS.</a></li>
+
+<li><a href="#kepler_ill">KEPLER.</a></li>
+
+<li><a href="#symbolical">SYMBOLICAL REPRESENTATION OF THE PLANETARY SYSTEM.</a></li>
+
+<li><a href="#commemoration">THE COMMEMORATION OF THE RUDOLPHINE TABLES.</a></li>
+
+<li><a href="#woolsthorpe">WOOLSTHORPE MANOR.</a></li>
+
+<li><a href="#trinity">TRINITY COLLEGE, CAMBRIDGE.</a></li>
+
+<li><a href="#diagram">DIAGRAM OF A SUNBEAM.</a></li>
+
+<li><a href="#isaac">ISAAC NEWTON.</a></li>
+
+<li><a href="#newton_reflector">SIR ISAAC NEWTON'S LITTLE REFLECTOR.</a></li>
+
+<li><a href="#sun-dial">SIR ISAAC NEWTON'S SUN-DIAL.</a></li>
+
+<li><a href="#newton_telescope">SIR ISAAC NEWTON'S TELESCOPE.</a></li>
+
+<li><a href="#newton_astrolabe">SIR ISAAC NEWTON'S ASTROLABE.</a></li>
+
+<li><a href="#royal_society">SIR ISAAC NEWTON'S SUN-DIAL IN THE ROYAL SOCIETY.</a></li>
+
+<li><a href="#flamsteed_house">FLAMSTEED'S HOUSE.</a></li>
+
+<li><a href="#flamsteed_ill">FLAMSTEED.</a></li>
+
+<li><a href="#halley_ill">HALLEY.</a></li>
+
+<li><a href="#greenwich_observatory">GREENWICH OBSERVATORY IN HALLEY'S TIME.</a></li>
+
+<li><a href="#new_king">7, NEW KING STREET, BATH.</a><ul>
+<li>From a Photograph by John Poole, Bath.</li></ul></li>
+
+<li><a href="#william">WILLIAM HERSCHEL.</a></li>
+
+<li><a href="#caroline">CAROLINE HERSCHEL.</a></li>
+
+<li><a href="#street">STREET VIEW, HERSCHEL HOUSE, SLOUGH.</a><ul>
+<li>From a Photograph by Hill &amp; Saunders, Eton.</li></ul></li>
+
+<li><a href="#garden">GARDEN VIEW, HERSCHEL HOUSE, SLOUGH.</a><ul>
+<li>From a Photograph by Hill &amp; Saunders, Eton.</li></ul></li>
+
+<li><a href="#view_herschel_house">OBSERVATORY, HERSCHEL HOUSE, SLOUGH.</a><ul>
+<li>From a Photograph by Hill &amp; Saunders, Eton.</li></ul></li>
+
+<li><a href="#telescope_slough">THE 40-FOOT TELESCOPE, HERSCHEL HOUSE, SLOUGH.</a><ul>
+<li>From a Photograph by Hill &amp; Saunders, Eton.</li></ul></li>
+
+<li><a href="#laplace_ill">LAPLACE.</a></li>
+
+<li><a href="#dunsink">THE OBSERVATORY, DUNSINK.</a><ul>
+<li>From a Photograph by W. Lawrence, Dublin.</li></ul></li>
+
+<li><a href="#astronometer">ASTRONOMETER MADE BY SIR JOHN HERSCHEL.</a></li>
+
+<li><a href="#john_herschel_ill">SIR JOHN HERSCHEL.</a></li>
+
+<li><a href="#nebula">NEBULA IN SOUTHERN HEMISPHERE.</a></li>
+
+<li><a href="#centaur">THE CLUSTER IN THE CENTAUR.</a></li>
+
+<li><a href="#herschel_observatory_feldhausen">OBSERVATORY AT FELDHAUSEN.</a></li>
+
+<li><a href="#column">GRANITE COLUMN AT FELDHAUSEN.</a></li>
+
+<li><a href="#rosse_ill">THE EARL OF ROSSE.</a></li>
+
+<li><a href="#birr">BIRR CASTLE.</a><ul>
+<li>From a Photograph by W. Lawrence, Dublin.</li></ul></li>
+
+<li><a href="#mall">THE MALL, PARSONSTOWN.</a><ul>
+<li>From a Photograph by W. Lawrence, Dublin.</li></ul></li>
+
+<li><a href="#lord_rosse_telescope">LORD ROSSE'S TELESCOPE.</a><ul>
+<li>From a Photograph by W. Lawrence, Dublin.</li></ul></li>
+
+<li><a href="#roman">ROMAN CATHOLIC CHURCH, PARSONSTOWN.</a><ul>
+<li>From a Photograph by W. Lawrence, Dublin.</li></ul></li>
+
+<li><a href="#sir_airy">AIRY.</a><ul>
+<li>From a Photograph by E.P. Adams, Greenwich.</li></ul></li>
+
+<li><a href="#rowan_hamilton">HAMILTON.</a></li>
+
+<li><a href="#john">ADAMS.</a></li>
+
+<li><a href="#cambridge">THE OBSERVATORY, CAMBRIDGE.</a></li>
+</ul>
+<h3><a name="INTRODUCTION" id="INTRODUCTION"></a>INTRODUCTION.</h3>
+<p>Of all the natural sciences there is not one which offers such
+sublime objects to the attention of the inquirer as does the science
+of astronomy. From the earliest ages the study of the stars has
+exercised the same fascination as it possesses at the present day.
+Among the most primitive peoples, the movements of the sun, the moon,
+and the stars commanded attention from their supposed influence on
+human affairs.</p>
+
+<p>The practical utilities of astronomy were also obvious in primeval
+times. Maxims of extreme antiquity show how the avocations of the
+husbandman are to be guided by the movements of the heavenly bodies.
+The positions of the stars indicated the time to plough, and the time
+to sow. To the mariner who was seeking a way across the trackless
+ocean, the heavenly bodies offered the only reliable marks by which
+his path could be guided. There was, accordingly, a stimulus both
+from intellectual curiosity and from practical necessity to follow
+the movements of the stars. Thus began a search for the causes of
+the ever-varying phenomena which the heavens display.</p>
+
+<p>Many of the earliest discoveries are indeed prehistoric. The great
+diurnal movement of the heavens, and the annual revolution of the
+sun, seem to have been known in times far more ancient than those to
+which any human monuments can be referred. The acuteness of the
+early observers enabled them to single out the more important of the
+wanderers which we now call planets. They saw that the star-like
+objects, Jupiter, Saturn, and Mars, with the more conspicuous Venus,
+constituted a class of bodies wholly distinct from the fixed stars
+among which their movements lay, and to which they bear such a
+superficial resemblance. But the penetration of the early
+astronomers went even further, for they recognized that Mercury also
+belongs to the same group, though this particular object is seen so
+rarely. It would seem that eclipses and other phenomena were
+observed at Babylon from a very remote period, while the most ancient
+records of celestial observations that we possess are to be found in
+the Chinese annals.</p>
+
+<p>The study of astronomy, in the sense in which we understand the word,
+may be said to have commenced under the reign of the Ptolemies at
+Alexandria. The most famous name in the science of this period is
+that of Hipparchus who lived and worked at Rhodes about the year
+160BC. It was his splendid investigations that first wrought the
+observed facts into a coherent branch of knowledge. He recognized
+the primary obligation which lies on the student of the heavens to
+compile as complete an inventory as possible of the objects which are
+there to be found. Hipparchus accordingly commenced by undertaking,
+on a small scale, a task exactly similar to that on which modern
+astronomers, with all available appliances of meridian circles, and
+photographic telescopes, are constantly engaged at the present day.
+He compiled a catalogue of the principal fixed stars, which is of
+special value to astronomers, as being the earliest work of its kind
+which has been handed down. He also studied the movements of the sun
+and the moon, and framed theories to account for the incessant
+changes which he saw in progress. He found a much more difficult
+problem in his attempt to interpret satisfactorily the complicated
+movements of the planets. With the view of constructing a theory
+which should give some coherent account of the subject, he made many
+observations of the places of these wandering stars. How great were
+the advances which Hipparchus accomplished may be appreciated if we
+reflect that, as a preliminary task to his more purely astronomical
+labours, he had to invent that branch of mathematical science by
+which alone the problems he proposed could be solved. It was for
+this purpose that he devised the indispensable method of calculation
+which we now know so well as trigonometry. Without the aid rendered
+by this beautiful art it would have been impossible for any really
+important advance in astronomical calculation to have been effected.</p>
+
+<p>But the discovery which shows, beyond all others, that Hipparchus
+possessed one of the master-minds of all time was the detection of
+that remarkable celestial movement known as the precession of the
+equinoxes. The inquiry which conducted to this discovery involved a
+most profound investigation, especially when it is remembered that in
+the days of Hipparchus the means of observation of the heavenly
+bodies were only of the rudest description, and the available
+observations of earlier dates were extremely scanty. We can but look
+with astonishment on the genius of the man who, in spite of such
+difficulties, was able to detect such a phenomenon as the precession,
+and to exhibit its actual magnitude. I shall endeavour to explain
+the nature of this singular celestial movement, for it may be said to
+offer the first instance in the history of science in which we find
+that combination of accurate observation with skilful interpretation,
+of which, in the subsequent development of astronomy, we have so many
+splendid examples.</p>
+
+<p>The word equinox implies the condition that the night is equal to the
+day. To a resident on the equator the night is no doubt equal to the
+day at all times in the year, but to one who lives on any other part
+of the earth, in either hemisphere, the night and the day are not
+generally equal. There is, however, one occasion in spring, and
+another in autumn, on which the day and the night are each twelve
+hours at all places on the earth. When the night and day are equal
+in spring, the point which the sun occupies on the heavens is termed
+the vernal equinox. There is similarly another point in which the
+sun is situated at the time of the autumnal equinox. In any
+investigation of the celestial movements the positions of these two
+equinoxes on the heavens are of primary importance, and Hipparchus,
+with the instinct of genius, perceived their significance, and
+commenced to study them. It will be understood that we can always
+define the position of a point on the sky with reference to the
+surrounding stars. No doubt we do not see the stars near the sun
+when the sun is shining, but they are there nevertheless. The
+ingenuity of Hipparchus enabled him to determine the positions of
+each of the two equinoxes relatively to the stars which lie in its
+immediate vicinity. After examination of the celestial places of
+these points at different periods, he was led to the conclusion that
+each equinox was moving relatively to the stars, though that movement
+was so slow that twenty five thousand years would necessarily elapse
+before a complete circuit of the heavens was accomplished. Hipparchus
+traced out this phenomenon, and established it on an impregnable
+basis, so that all astronomers have ever since recognised the
+precession of the equinoxes as one of the fundamental facts of
+astronomy. Not until nearly two thousand years after Hipparchus had
+made this splendid discovery was the explanation of its cause given
+by Newton.</p>
+
+<p>From the days of Hipparchus down to the present hour the science of
+astronomy has steadily grown. One great observer after another has
+appeared from time to time, to reveal some new phenomenon with regard
+to the celestial bodies or their movements, while from time to time
+one commanding intellect after another has arisen to explain the true
+import of the facts of observations. The history of astronomy thus
+becomes inseparable from the history of the great men to whose
+labours its development is due.</p>
+
+<p>In the ensuing chapters we have endeavoured to sketch the lives and
+the work of the great philosophers, by whose labours the science of
+astronomy has been created. We shall commence with Ptolemy, who,
+after the foundations of the science had been laid by Hipparchus,
+gave to astronomy the form in which it was taught throughout the
+Middle Ages. We shall next see the mighty revolution in our
+conceptions of the universe which are associated with the name of
+Copernicus. We then pass to those periods illumined by the genius of
+Galileo and Newton, and afterwards we shall trace the careers of
+other more recent discoverers, by whose industry and genius the
+boundaries of human knowledge have been so greatly extended. Our
+history will be brought down late enough to include some of the
+illustrious astronomers who laboured in the generation which has just
+passed away.</p>
+
+<h3><a name="PTOLEMY" id="PTOLEMY"></a>PTOLEMY.</h3>
+
+<div class="figcenter" style="width: 410px;">
+<a href="images/ill_ptolemy.jpg">
+<img src="images/ill_ptolemy_sml.jpg" width="410" height="486" alt="PTOLEMY." title="" /></a>
+<span class="caption">PTOLEMY.</span>
+</div>
+
+<p>The career of the famous man whose name stands at the head of this
+chapter is one of the most remarkable in the history of human
+learning. There may have been other discoverers who have done more
+for science than ever Ptolemy accomplished, but there never has been
+any other discoverer whose authority on the subject of the movements
+of the heavenly bodies has held sway over the minds of men for so
+long a period as the fourteen centuries during which his opinions
+reigned supreme. The doctrines he laid down in his famous book, "The
+Almagest," prevailed throughout those ages. No substantial addition
+was made in all that time to the undoubted truths which this work
+contained. No important correction was made of the serious errors
+with which Ptolemy's theories were contaminated. The authority of
+Ptolemy as to all things in the heavens, and as to a good many things
+on the earth (for the same illustrious man was also a diligent
+geographer), was invariably final.</p>
+
+<p>Though every child may now know more of the actual truths of the
+celestial motions than ever Ptolemy knew, yet the fact that his work
+exercised such an astonishing effect on the human intellect for some
+sixty generations, shows that it must have been an extraordinary
+production. We must look into the career of this wonderful man to
+discover wherein lay the secret of that marvellous success which made
+him the unchallenged instructor of the human race for such a
+protracted period.</p>
+
+<p>Unfortunately, we know very little as to the personal history of
+Ptolemy. He was a native of Egypt, and though it has been sometimes
+conjectured that he belonged to the royal families of the same name,
+yet there is nothing to support such a belief. The name, Ptolemy,
+appears to have been a common one in Egypt in those days. The time
+at which he lived is fixed by the fact that his first recorded
+observation was made in 127 AD, and his last in 151 AD. When we add
+that he seems to have lived in or near Alexandria, or to use his own
+words, "on the parallel of Alexandria," we have said everything that
+can be said so far as his individuality is concerned.</p>
+
+<p>Ptolemy is, without doubt, the greatest figure in ancient astronomy.
+He gathered up the wisdom of the philosophers who had preceded him.
+He incorporated this with the results of his own observations, and
+illumined it with his theories. His speculations, even when they
+were, as we now know, quite erroneous, had such an astonishing
+verisimilitude to the actual facts of nature that they commanded
+universal assent. Even in these modern days we not unfrequently find
+lovers of paradox who maintain that Ptolemy's doctrines not only seem
+true, but actually are true.</p>
+
+<p>In the absence of any accurate knowledge of the science of mechanics,
+philosophers in early times were forced to fall back on certain
+principles of more or less validity, which they derived from their
+imagination as to what the natural fitness of things ought to be.
+There was no geometrical figure so simple and so symmetrical as a
+circle, and as it was apparent that the heavenly bodies pursued
+tracks which were not straight lines, the conclusion obviously
+followed that their movements ought to be circular. There was no
+argument in favour of this notion, other than the merely imaginary
+reflection that circular movement, and circular movement alone, was
+"perfect," whatever "perfect" may have meant. It was further
+believed to be impossible that the heavenly bodies could have any
+other movements save those which were perfect. Assuming this, it
+followed, in Ptolemy's opinion, and in that of those who came after
+him for fourteen centuries, that all the tracks of the heavenly
+bodies were in some way or other to be reduced to circles.</p>
+
+<p>Ptolemy succeeded in devising a scheme by which the apparent changes
+that take place in the heavens could, so far as he knew them, be
+explained by certain combinations of circular movement. This seemed
+to reconcile so completely the scheme of things celestial with the
+geometrical instincts which pointed to the circle as the type of
+perfect movement, that we can hardly wonder Ptolemy's theory met with
+the astonishing success that attended it. We shall, therefore, set
+forth with sufficient detail the various steps of this famous
+doctrine.</p>
+
+<p>Ptolemy commences with laying down the undoubted truth that the shape
+of the earth is globular. The proofs which he gives of this
+fundamental fact are quite satisfactory; they are indeed the same
+proofs as we give today. There is, first of all, the well-known
+circumstance of which our books on geography remind us, that when an
+object is viewed at a distance across the sea, the lower part of the
+object appears cut off by the interposing curved mass of water.</p>
+
+<p>The sagacity of Ptolemy enabled him to adduce another argument,
+which, though not quite so obvious as that just mentioned,
+demonstrates the curvature of the earth in a very impressive manner
+to anyone who will take the trouble to understand it. Ptolemy
+mentions that travellers who went to the south reported, that, as
+they did so, the appearance of the heavens at night underwent a
+gradual change. Stars that they were familiar with in the northern
+skies gradually sank lower in the heavens. The constellation of the
+Great Bear, which in our skies never sets during its revolution round
+the pole, did set and rise when a sufficient southern latitude had
+been attained. On the other hand, constellations new to the
+inhabitants of northern climes were seen to rise above the southern
+horizon. These circumstances would be quite incompatible with the
+supposition that the earth was a flat surface. Had this been so, a
+little reflection will show that no such changes in the apparent
+movements of the stars would be the consequence of a voyage to the
+south. Ptolemy set forth with much insight the significance of this
+reasoning, and even now, with the resources of modern discoveries to
+help us, we can hardly improve upon his arguments.</p>
+
+<p>Ptolemy, like a true philosopher disclosing a new truth to the world,
+illustrated and enforced his subject by a variety of happy
+demonstrations. I must add one of them, not only on account of its
+striking nature, but also because it exemplifies Ptolemy's
+acuteness. If the earth were flat, said this ingenious reasoner,
+sunset must necessarily take place at the same instant, no matter in
+what country the observer may happen to be placed. Ptolemy, however,
+proved that the time of sunset did vary greatly as the observer's
+longitude was altered. To us, of course, this is quite obvious;
+everybody knows that the hour of sunset may have been reached in
+Great Britain while it is still noon on the western coast of
+America. Ptolemy had, however, few of those sources of knowledge
+which are now accessible. How was he to show that the sun actually
+did set earlier at Alexandria than it would in a city which lay a
+hundred miles to the west? There was no telegraph wire by which
+astronomers at the two Places could communicate. There was no
+chronometer or watch which could be transported from place to place;
+there was not any other reliable contrivance for the keeping of
+time. Ptolemy's ingenuity, however, pointed out a thoroughly
+satisfactory method by which the times of sunset at two places could
+be compared. He was acquainted with the fact, which must indeed have
+been known from the very earliest times, that the illumination of the
+moon is derived entirely from the sun. He knew that an eclipse of
+the moon was due to the interposition of the earth which cuts off the
+light of the sun. It was, therefore, plain that an eclipse of the
+moon must be a phenomenon which would begin at the same instant from
+whatever part of the earth the moon could be seen at the time.
+Ptolemy, therefore, brought together from various quarters the local
+times at which different observers had recorded the beginning of a
+lunar eclipse. He found that the observers to the west made the time
+earlier and earlier the further away their stations were from
+Alexandria. On the other hand, the eastern observers set down the
+hour as later than that at which the phenomenon appeared at
+Alexandria. As these observers all recorded something which indeed
+appeared to them simultaneously, the only interpretation was, that
+the more easterly a place the later its time. Suppose there were a
+number of observers along a parallel of latitude, and each noted the
+hour of sunset to be six o'clock, then, since the eastern times are
+earlier than western times, 6 p.m. at one station A will correspond
+to 5 p.m. at a station B sufficiently to the west. If, therefore,
+it is sunset to the observer at A, the hour of sunset will not yet be
+reached for the observer at B. This proves conclusively that the
+time of sunset is not the same all over the earth. We have, however,
+already seen that the apparent time of sunset would be the same from
+all stations if the earth were flat. When Ptolemy, therefore,
+demonstrated that the time of sunset was not the same at various
+places, he showed conclusively that the earth was not flat.</p>
+
+<p>As the same arguments applied to all parts of the earth where Ptolemy
+had either been himself, or from which he could gain the necessary
+information, it followed that the earth, instead of being the flat
+plain, girdled with an illimitable ocean, as was generally supposed,
+must be in reality globular. This led at once to a startling
+consequence. It was obvious that there could be no supports of any
+kind by which this globe was sustained; it therefore followed that
+the mighty object must be simply poised in space. This is indeed an
+astonishing doctrine to anyone who relies on what merely seems the
+evidence of the senses, without giving to that evidence its due
+intellectual interpretation. According to our ordinary experience,
+the very idea of an object poised without support in space, appears
+preposterous. Would it not fall? we are immediately asked. Yes,
+doubtless it could not remain poised in any way in which we try the
+experiment. We must, however, observe that there are no such ideas
+as upwards or downwards in relation to open space. To say that a
+body falls downwards, merely means that it tries to fall as nearly as
+possible towards the centre of the earth. There is no one direction
+along which a body will tend to move in space, in preference to any
+other. This may be illustrated by the fact that a stone let fall at
+New Zealand will, in its approach towards the earth's centre, be
+actually moving upwards as far as any locality in our hemisphere is
+concerned. Why, then, argued Ptolemy, may not the earth remain
+poised in space, for as all directions are equally upward or equally
+downward, there seems no reason why the earth should require any
+support? By this reasoning he arrives at the fundamental conclusion
+that the earth is a globular body freely lying in space, and
+surrounded above, below, and on all sides by the glittering stars of
+heaven.</p>
+
+<p>The perception of this sublime truth marks a notable epoch in the
+history of the gradual development of the human intellect. No doubt,
+other philosophers, in groping after knowledge, may have set forth
+certain assertions that are more or less equivalent to this
+fundamental truth. It is to Ptolemy we must give credit, however,
+not only for announcing this doctrine, but for demonstrating it by
+clear and logical argument. We cannot easily project our minds back
+to the conception of an intellectual state in which this truth was
+unfamiliar. It may, however, be well imagined that, to one who
+thought the earth was a flat plain of indefinite extent, it would be
+nothing less than an intellectual convulsion for him to be forced to
+believe that he stood upon a spherical earth, forming merely a
+particle relatively to the immense sphere of the heavens.</p>
+
+<p>What Ptolemy saw in the movements of the stars led him to the
+conclusion that they were bright points attached to the inside of a
+tremendous globe. The movements of this globe which carried the
+stars were only compatible with the supposition that the earth
+occupied its centre. The imperceptible effect produced by a change
+in the locality of the observer on the apparent brightness of the
+stars made it plain that the dimensions of the terrestrial globe must
+be quite insignificant in comparison with those of the celestial
+sphere. The earth might, in fact, be regarded as a grain of sand
+while the stars lay upon a globe many yards in diameter.</p>
+
+<p>So tremendous was the revolution in human knowledge implied by this
+discovery, that we can well imagine how Ptolemy, dazzled as it were
+by the fame which had so justly accrued to him, failed to make one
+further step. Had he made that step, it would have emancipated the
+human intellect from the bondage of fourteen centuries of servitude
+to a wholly monstrous notion of this earth's importance in the scheme
+of the heavens. The obvious fact that the sun, the moon, and the
+stars rose day by day, moved across the sky in a glorious
+never-ending procession, and duly set when their appointed courses
+had been run, demanded some explanation. The circumstance that the
+fixed stars preserved their mutual distances from year to year, and
+from age to age, appeared to Ptolemy to prove that the sphere which
+contained those stars, and on whose surface they were believed by him
+to be fixed, revolved completely around the earth once every day. He
+would thus account for all the phenomena of rising and setting
+consistently with the supposition that our globe was stationary.
+Probably this supposition must have appeared monstrous, even to
+Ptolemy. He knew that the earth was a gigantic object, but, large as
+it may have been, he knew that it was only a particle in comparison
+with the celestial sphere, yet he apparently believed, and certainly
+succeeded in persuading other men to believe, that the celestial
+sphere did actually perform these movements.</p>
+
+<p>Ptolemy was an excellent geometer. He knew that the rising and the
+setting of the sun, the moon, and the myriad stars, could have been
+accounted for in a different way. If the earth turned round
+uniformly once a day while poised at the centre of the sphere of the
+heavens, all the phenomena of rising and setting could be completely
+explained. This is, indeed, obvious after a moment's reflection.
+Consider yourself to be standing on the earth at the centre of the
+heavens. There are stars over your head, and half the contents of
+the heavens are visible, while the other half are below your
+horizon. As the earth turns round, the stars over your head will
+change, and unless it should happen that you have taken up your
+position at either of the poles, new stars will pass into your view,
+and others will disappear, for at no time can you have more than half
+of the whole sphere visible. The observer on the earth would,
+therefore, say that some stars were rising, and that some stars were
+setting. We have, therefore, two totally distinct methods, each of
+which would completely explain all the observed facts of the diurnal
+movement. One of these suppositions requires that the celestial
+sphere, bearing with it the stars and other celestial bodies, turns
+uniformly around an invisible axis, while the earth remains
+stationary at the centre. The other supposition would be, that it is
+the stupendous celestial sphere which remains stationary, while the
+earth at the centre rotates about the same axis as the celestial
+sphere did before, but in an opposite direction, and with a uniform
+velocity which would enable it to complete one turn in twenty-four
+hours. Ptolemy was mathematician enough to know that either of these
+suppositions would suffice for the explanation of the observed
+facts. Indeed, the phenomena of the movements of the stars, so far
+as he could observe them, could not be called upon to pronounce which
+of these views was true, and which was false.</p>
+
+<p>Ptolemy had, therefore, to resort for guidance to indirect lines of
+reasoning. One of these suppositions must be true, and yet it
+appeared that the adoption of either was accompanied by a great
+difficulty. It is one of his chief merits to have demonstrated that
+the celestial sphere was so stupendous that the earth itself was
+absolutely insignificant in comparison therewith. If, then, this
+stupendous sphere rotated once in twenty-four hours, the speed with
+which the movement of some of the stars must be executed would be so
+portentous as to seem well-nigh impossible. It would, therefore,
+seem much simpler on this ground to adopt the other alternative, and
+to suppose the diurnal movements were due to the rotation of the
+earth. Here Ptolemy saw, or at all events fancied he saw, objections
+of the weightiest description. The evidence of the senses appeared
+directly to controvert the supposition that this earth is anything
+but stationary. Ptolemy might, perhaps, have dismissed this
+objection on the ground that the testimony of the senses on such a
+matter should be entirely subordinated to the interpretation which
+our intelligence would place upon the facts to which the senses
+deposed. Another objection, however, appeared to him to possess the
+gravest moment. It was argued that if the earth were rotating, there
+is nothing to make the air participate in this motion, mankind would
+therefore be swept from the earth by the furious blasts which would
+arise from the movement of the earth through an atmosphere at rest.
+Even if we could imagine that the air were carried round with the
+earth, the same would not apply, so thought Ptolemy, to any object
+suspended in the air. So long as a bird was perched on a tree, he
+might very well be carried onward by the moving earth, but the moment
+he took wing, the ground would slip from under him at a frightful
+pace, so that when he dropped down again he would find himself at a
+distance perhaps ten times as great as that which a carrier-pigeon or
+a swallow could have traversed in the same time. Some vague delusion
+of this description seems even still to crop up occasionally. I
+remember hearing of a proposition for balloon travelling of a very
+remarkable kind. The voyager who wanted to reach any other place in
+the same latitude was simply to ascend in a balloon, and wait there
+till the rotation of the earth conveyed the locality which happened
+to be his destination directly beneath him, whereupon he was to let
+out the gas and drop down! Ptolemy knew quite enough natural
+philosophy to be aware that such a proposal for locomotion would be
+an utter absurdity; he knew that there was no such relative shift
+between the air and the earth as this motion would imply. It
+appeared to him to be necessary that the air should lag behind, if
+the earth had been animated by a movement of rotation. In this he
+was, as we know, entirely wrong. There were, however, in his days no
+accurate notions on the subject of the laws of motion.</p>
+
+<p>Assiduous as Ptolemy may have been in the study of the heavenly
+bodies, it seems evident that he cannot have devoted much thought to
+the phenomena of motion of terrestrial objects. Simple, indeed, are
+the experiments which might have convinced a philosopher much less
+acute than Ptolemy, that, if the earth did revolve, the air must
+necessarily accompany it. If a rider galloping on horseback tosses a
+ball into the air, it drops again into his hand, just as it would
+have done had he been remaining at rest during the ball's flight; the
+ball in fact participates in the horizontal motion, so that though it
+really describes a curve as any passer-by would observe, yet it
+appears to the rider himself merely to move up and down in a straight
+line. This fact, and many others similar to it, demonstrate clearly
+that if the earth were endowed with a movement of rotation, the
+atmosphere surrounding it must participate in that movement. Ptolemy
+did not know this, and consequently he came to the conclusion that
+the earth did not rotate, and that, therefore, notwithstanding the
+tremendous improbability of so mighty an object as the celestial
+sphere spinning round once in every twenty-four hours, there was no
+course open except to believe that this very improbable thing did
+really happen. Thus it came to pass that Ptolemy adopted as the
+cardinal doctrine of his system a stationary earth poised at the
+centre of the celestial sphere, which stretched around on all sides
+at a distance so vast that the diameter of the earth was an
+inappreciable point in comparison therewith.</p>
+
+<p>Ptolemy having thus deliberately rejected the doctrine of the earth's
+rotation, had to make certain other entirely erroneous suppositions.
+It was easily seen that each star required exactly the same period
+for the performance of a complete revolution of the heavens. Ptolemy
+knew that the stars were at enormous distances from the earth, though
+no doubt his notions on this point came very far short of what we
+know to be the reality. If the stars had been at very varied
+distances, then it would be so wildly improbable that they should all
+accomplish their revolutions in the same time, that Ptolemy came to
+the conclusion that they must be all at the same distance, that is,
+that they must be all on the surface of a sphere. This view, however
+erroneous, was corroborated by the obvious fact that the stars in the
+constellations preserved their relative places unaltered for
+centuries. Thus it was that Ptolemy came to the conclusion that they
+were all fixed on one spherical surface, though we are not informed
+as to the material of this marvellous setting which sustained the
+stars like jewels.</p>
+
+<p>Nor should we hastily pronounce this doctrine to be absurd. The
+stars do appear to lie on the surface of a sphere, of which the
+observer is at the centre; not only is this the aspect which the
+skies present to the untechnical observer, but it is the aspect in
+which the skies are presented to the most experienced astronomer of
+modern days. No doubt he knows well that the stars are at the most
+varied distances from him; he knows that certain stars are ten times,
+or a hundred times, or a thousand times, as far as other stars.
+Nevertheless, to his eye the stars appear on the surface of the
+sphere, it is on that surface that his measurements of the relative
+places of the stars are made; indeed, it may be said that almost all
+the accurate observations in the observatory relate to the places of
+the stars, not as they really are, but as they appear to be projected
+on that celestial sphere whose conception we owe to the genius of
+Ptolemy.</p>
+
+<p>This great philosopher shows very ingeniously that the earth must be
+at the centre of the sphere. He proves that, unless this were the
+case, each star would not appear to move with the absolute uniformity
+which does, as a matter of fact, characterise it. In all these
+reasonings we cannot but have the most profound admiration for the
+genius of Ptolemy, even though he had made an error so enormous in
+the fundamental point of the stability of the earth. Another error
+of a somewhat similar kind seemed to Ptolemy to be demonstrated. He
+had shown that the earth was an isolated object in space, and being
+such was, of course, capable of movement. It could either be turned
+round, or it could be moved from one place to another. We know that
+Ptolemy deliberately adopted the view that the earth did not turn
+round; he had then to investigate the other question, as to whether
+the earth was animated by any movement of translation. He came to
+the conclusion that to attribute any motion to the earth would be
+incompatible with the truths at which he had already arrived. The
+earth, argued Ptolemy, lies at the centre of the celestial sphere.
+If the earth were to be endowed with movement, it would not lie
+always at this point, it must, therefore, shift to some other part of
+the sphere. The movements of the stars, however, preclude the
+possibility of this; and, therefore, the earth must be as devoid of
+any movement of translation as it is devoid of rotation. Thus it was
+that Ptolemy convinced himself that the stability of the earth, as it
+appeared to the ordinary senses, had a rational philosophical
+foundation.</p>
+
+<p>Not unfrequently it is the lot of the philosophers to contend against
+the doctrines of the vulgar, but when it happens, as in the case of
+Ptolemy's researches, that the doctrines of the vulgar are
+corroborated by philosophical investigation which bear the stamp of
+the highest authority, it is not to be wondered at that such
+doctrines should be deemed well-nigh impregnable. In this way we
+may, perhaps, account for the remarkable fact that the theories of
+Ptolemy held unchallenged sway over the human intellect for the vast
+period already mentioned.</p>
+
+<p>Up to the present we have been speaking only of those primary motions
+of the heavens, by which the whole sphere appeared to revolve once
+every twenty-four hours. We have now to discuss the remarkable
+theories by which Ptolemy endeavoured to account for the monthly
+movement of the moon, for the annual movement of the sun, and for the
+periodic movements of the planets which had gained for them the
+titles of the wandering stars.</p>
+
+<p>Possessed with the idea that these movements must be circular, or
+must be capable, directly or indirectly, of being explained by
+circular movements, it seemed obvious to Ptolemy, as indeed it had
+done to previous astronomers, that the track of the moon through the
+stars was a circle of which the earth is the centre. A similar
+movement with a yearly period must also be attributed to the sun, for
+the changes in the positions of the constellations in accordance with
+the progress of the seasons, placed it beyond doubt that the sun made
+a circuit of the celestial sphere, even though the bright light of
+the sun prevented the stars in its vicinity, from being seen in
+daylight. Thus the movements both of the sun and the moon, as well
+as the diurnal rotation of the celestial sphere, seemed to justify
+the notion that all celestial movements must be "perfect," that is to
+say, described uniformly in those circles which were the only perfect
+curves.</p>
+
+<p>The simplest observations, however, show that the movements of the
+planets cannot be explained in this simple fashion. Here the
+geometrical genius of Ptolemy shone forth, and he devised a scheme by
+which the apparent wanderings of the planets could be accounted for
+without the introduction of aught save "perfect" movements.</p>
+
+<p>To understand his reasoning, let us first set forth clearly those
+facts of observation which require to be explained. I shall take, in
+particular, two planets, Venus and Mars, as these illustrate, in the
+most striking manner, the peculiarities of the inner and the outer
+planets respectively. The simplest observations would show that
+Venus did not move round the heavens in the same fashion as the sun
+or the moon. Look at the evening star when brightest, as it appears
+in the west after sunset. Instead of moving towards the east among
+the stars, like the sun or the moon, we find, week after week, that
+Venus is drawing in towards the sun, until it is lost in the
+sunbeams. Then the planet emerges on the other side, not to be seen
+as an evening star, but as a morning star. In fact, it was plain
+that in some ways Venus accompanied the sun in its annual movement.
+Now it is found advancing in front of the sun to a certain limited
+distance, and now it is lagging to an equal extent behind the sun.</p>
+
+<p><a name="fig_1" id="fig_1"></a></p>
+
+<div class="figcenter" style="width: 303px;">
+<a href="images/ill_fig1.jpg">
+<img src="images/ill_fig1_sml.jpg" width="303" height="286" alt="FIG. 1. PTOLEMY&#39;S PLANETARY SCHEME." title="" /></a>
+<span class="caption">FIG. 1. PTOLEMY&#39;S PLANETARY SCHEME.</span>
+</div>
+
+<p>These movements were wholly incompatible with the supposition that
+the journeys of Venus were described by a single motion of the kind
+regarded as perfect. It was obvious that the movement was connected
+in some strange manner with the revolution of the sun, and here was
+the ingenious method by which Ptolemy sought to render account of
+it. Imagine a fixed arm to extend from the earth to the sun, as
+shown in the accompanying figure (Fig. 1), then this arm will move
+round uniformly, in consequence of the sun's movement. At a point P
+on this arm let a small circle be described. Venus is supposed to
+revolve uniformly in this small circle, while the circle itself is
+carried round continuously by the movement of the sun. In this way
+it was possible to account for the chief peculiarities in the
+movement of Venus. It will be seen that, in consequence of the
+revolution around P, the spectator on the earth will sometimes see
+Venus on one side of the sun, and sometimes on the other side, so
+that the planet always remains in the sun's vicinity. By properly
+proportioning the movements, this little contrivance simulated the
+transitions from the morning star to the evening star. Thus the
+changes of Venus could be accounted for by a Combination of the
+"perfect" movement of P in the circle which it described uniformly
+round the earth, combined with the "perfect" motion of Venus in the
+circle which it described uniformly around the moving centre.</p>
+
+<p>In a precisely similar manner Ptolemy rendered an explanation of the
+fitful apparitions of Mercury. Now just on one side of the sun, and
+now just on the other, this rarely-seen planet moved like Venus on a
+circle whereof the centre was also carried by the line joining the
+sun and the earth. The circle, however, in which Mercury actually
+revolved had to be smaller than that of Venus, in order to account
+for the fact that Mercury lies always much closer to the sun than the
+better-known planet.</p>
+
+<p><a name="fig_2" id="fig_2"></a></p>
+
+<div class="figcenter" style="width: 356px;">
+<a href="images/ill_fig2.jpg">
+<img src="images/ill_fig2_sml.jpg" width="356" height="327" alt="FIG. 2. PTOLEMY&#39;S THEORY OF THE MOVEMENT OF MARS." title="" /></a>
+<span class="caption">FIG. 2. PTOLEMY&#39;S THEORY OF THE MOVEMENT OF MARS.</span>
+</div>
+
+<p>The explanation of the movement of an outer planet like Mars could
+also be deduced from the joint effect of two perfect motions. The
+changes through which Mars goes are, however, so different from the
+movements of Venus that quite a different disposition of the circles
+is necessary. For consider the facts which characterise the
+movements of an outer planet such as Mars. In the first place, Mars
+accomplishes an entire circuit of the heaven. In this respect, no
+doubt, it may be said to resemble the sun or the moon. A little
+attention will, however, show that there are extraordinary
+irregularities in the movement of the planet. Generally speaking, it
+speeds its way from west to east among the stars, but sometimes the
+attentive observer will note that the speed with which the planet
+advances is slackening, and then it will seem to become stationary.
+Some days later the direction of the planet's movement will be
+reversed, and it will be found moving from the east towards the
+west. At first it proceeds slowly and then quickens its pace, until
+a certain speed is attained, which afterwards declines until a second
+stationary position is reached. After a due pause the original
+motion from west to east is resumed, and is continued until a similar
+cycle of changes again commences. Such movements as these were
+obviously quite at variance with any perfect movement in a single
+circle round the earth. Here, again, the geometrical sagacity of
+Ptolemy provided him with the means of representing the apparent
+movements of Mars, and, at the same time, restricting the explanation
+to those perfect movements which he deemed so essential. In Fig. 2
+we exhibit Ptolemy's theory as to the movement of Mars. We have, as
+before, the earth at the centre, and the sun describing its circular
+orbit around that centre. The path of Mars is to be taken as
+exterior to that of the sun. We are to suppose that at a point
+marked M there is a fictitious planet, which revolves around the
+earth uniformly, in a circle called the DEFERENT. This point M,
+which is thus animated by a perfect movement, is the centre of a
+circle which is carried onwards with M, and around the circumference
+of which Mars revolves uniformly. It is easy to show that the
+combined effect of these two perfect movements is to produce exactly
+that displacement of Mars in the heavens which observation
+discloses. In the position represented in the figure, Mars is
+obviously pursuing a course which will appear to the observer as a
+movement from west to east. When, however, the planet gets round to
+such a position as R, it is then moving from east to west in
+consequence of its revolution in the moving circle, as indicated by
+the arrow-head. On the other hand, the whole circle is carried
+forward in the opposite direction. If the latter movement be less
+rapid than the former, then we shall have the backward movement of
+Mars on the heavens which it was desired to explain. By a proper
+adjustment of the relative lengths of these arms the movements of the
+planet as actually observed could be completely accounted for.</p>
+
+<p>The other outer planets with which Ptolemy was acquainted, namely,
+Jupiter and Saturn, had movements of the same general character as
+those of Mars. Ptolemy was equally successful in explaining the
+movements they performed by the supposition that each planet had
+perfect rotation in a circle of its own, which circle itself had
+perfect movement around the earth in the centre.</p>
+
+<p>It is somewhat strange that Ptolemy did not advance one step further,
+as by so doing he would have given great simplicity to his system. He
+might, for instance, have represented the movements of Venus equally
+well by putting the centre of the moving circle at the sun itself,
+and correspondingly enlarging the circle in which Venus revolved. He
+might, too, have arranged that the several circles which the outer
+planets traversed should also have had their centres at the sun. The
+planetary system would then have consisted of an earth fixed at the
+centre, of a sun revolving uniformly around it, and of a system of
+planets each describing its own circle around a moving centre placed
+in the sun. Perhaps Ptolemy had not thought of this, or perhaps he
+may have seen arguments against it. This important step was,
+however, taken by Tycho. He considered that all the planets revolved
+around the sun in circles, and that the sun itself, bearing all these
+orbits, described a mighty circle around the earth. This point
+having been reached, only one more step would have been necessary to
+reach the glorious truths that revealed the structure of the solar
+system. That last step was taken by Copernicus.</p>
+
+<h3><a name="COPERNICUS" id="COPERNICUS"></a>COPERNICUS.</h3>
+<p><a name="thorn"  id="thorn"></a></p>
+
+<div class="figcenter" style="width: 585px;">
+<a href="images/ill_thorn.jpg">
+<img src="images/ill_thorn_sml.jpg" width="585" height="242" alt="THORN, FROM AN OLD PRINT." title="" /></a>
+<span class="caption">THORN, FROM AN OLD PRINT.</span>
+</div>
+
+<p>The quaint town of Thorn, on the Vistula, was more than two centuries
+old when Copernicus was born there on the 19th of February, 1473. The
+situation of this town on the frontier between Prussia and Poland,
+with the commodious waterway offered by the river, made it a place of
+considerable trade. A view of the town, as it was at the time of the
+birth of Copernicus, is here given. The walls, with their
+watch-towers, will be noted, and the strategic importance which the
+situation of Thorn gave to it in the fifteenth century still belongs
+thereto, so much so that the German Government recently constituted
+the town a fortress of the first class.</p>
+
+<p>Copernicus, the astronomer, whose discoveries make him the great
+predecessor of Kepler and Newton, did not come from a noble family,
+as certain other early astronomers have done, for his father was a
+tradesman. Chroniclers are, however, careful to tell us that one of
+his uncles was a bishop. We are not acquainted with any of those
+details of his childhood or youth which are often of such interest in
+other cases where men have risen to exalted fame. It would appear
+that the young Nicolaus, for such was his Christian name, received
+his education at home until such time as he was deemed sufficiently
+advanced to be sent to the University at Cracow. The education that
+he there obtained must have been in those days of a very primitive
+description, but Copernicus seems to have availed himself of it to
+the utmost. He devoted himself more particularly to the study of
+medicine, with the view of adopting its practice as the profession of
+his life. The tendencies of the future astronomer were, however,
+revealed in the fact that he worked hard at mathematics, and, like
+one of his illustrious successors, Galileo, the practice of the art
+of painting had for him a very great interest, and in it he obtained
+some measure of success.</p>
+
+<p>By the time he was twenty-seven years old, it would seem that
+Copernicus had given up the notion of becoming a medical
+practitioner, and had resolved to devote himself to science. He was
+engaged in teaching mathematics, and appears to have acquired some
+reputation. His growing fame attracted the notice of his uncle the
+bishop, at whose suggestion Copernicus took holy orders, and he was
+presently appointed to a canonry in the cathedral of Frauenburg, near
+the mouth of the Vistula.</p>
+
+<p>To Frauenburg, accordingly, this man of varied gifts retired.
+Possessing somewhat of the ascetic spirit, he resolved to devote his
+life to work of the most serious description. He eschewed all
+ordinary society, restricting his intimacies to very grave and
+learned companions, and refusing to engage in conversation of any
+useless kind. It would seem as if his gifts for painting were
+condemned as frivolous; at all events, we do not learn that he
+continued to practise them. In addition to the discharge of his
+theological duties, his life was occupied partly in ministering
+medically to the wants of the poor, and partly with his researches in
+astronomy and mathematics. His equipment in the matter of
+instruments for the study of the heavens seems to have been of a very
+meagre description. He arranged apertures in the walls of his house
+at Allenstein, so that he could observe in some fashion the passage
+of the stars across the meridian. That he possessed some talent for
+practical mechanics is proved by his construction of a contrivance
+for raising water from a stream, for the use of the inhabitants of
+Frauenburg. Relics of this machine are still to be seen.</p>
+
+<p><a name="copernicus_ill"  id="copernicus_ill"></a></p>
+
+<div class="figcenter" style="width: 395px;">
+<a href="images/ill_copernicus.jpg">
+<img src="images/ill_copernicus_sml.jpg" width="395" height="469" alt="COPERNICUS." title="" /></a>
+<span class="caption">COPERNICUS.</span>
+</div>
+
+<p>The intellectual slumber of the Middle Ages was destined to be
+awakened by the revolutionary doctrines of Copernicus. It may be
+noted, as an interesting circumstance, that the time at which he
+discovered the scheme of the solar system has coincided with a
+remarkable epoch in the world's history. The great astronomer had
+just reached manhood at the time when Columbus discovered the new
+world.</p>
+
+<p>Before the publication of the researches of Copernicus, the orthodox
+scientific creed averred that the earth was stationary, and that the
+apparent movements of the heavenly bodies were indeed real
+movements. Ptolemy had laid down this doctrine 1,400 years before.
+In his theory this huge error was associated with so much important
+truth, and the whole presented such a coherent scheme for the
+explanation of the heavenly movements, that the Ptolemaic theory was
+not seriously questioned until the great work of Copernicus
+appeared. No doubt others, before Copernicus, had from time to time
+in some vague fashion surmised, with more or less plausibility, that
+the sun, and not the earth, was the centre about which the system
+really revolved. It is, however, one thing to state a scientific
+fact; it is quite another thing to be in possession of the train of
+reasoning, founded on observation or experiment, by which that fact
+may be established. Pythagoras, it appears, had indeed told his
+disciples that it was the sun, and not the earth, which was the
+centre of movement, but it does not seem at all certain that
+Pythagoras had any grounds which science could recognise for the
+belief which is attributed to him. So far as information is
+available to us, it would seem that Pythagoras associated his scheme
+of things celestial with a number of preposterous notions in natural
+philosophy. He may certainly have made a correct statement as to
+which was the most important body in the solar system, but he
+certainly did not provide any rational demonstration of the fact.
+Copernicus, by a strict train of reasoning, convinced those who would
+listen to him that the sun was the centre of the system. It is
+useful for us to consider the arguments which he urged, and by which
+he effected that intellectual revolution which is always connected
+with his name.</p>
+
+<p>The first of the great discoveries which Copernicus made relates to
+the rotation of the earth on its axis. That general diurnal
+movement, by which the stars and all other celestial bodies appear to
+be carried completely round the heavens once every twenty-four hours,
+had been accounted for by Ptolemy on the supposition that the
+apparent movements were the real movements. As we have already seen,
+Ptolemy himself felt the extraordinary difficulty involved in the
+supposition that so stupendous a fabric as the celestial sphere
+should spin in the way supposed. Such movements required that many
+of the stars should travel with almost inconceivable velocity.
+Copernicus also saw that the daily rising and setting of the heavenly
+bodies could be accounted for either by the supposition that the
+celestial sphere moved round and that the earth remained at rest, or
+by the supposition that the celestial sphere was at rest while the
+earth turned round in the opposite direction. He weighed the
+arguments on both sides as Ptolemy had done, and, as the result of
+his deliberations, Copernicus came to an opposite conclusion from
+Ptolemy. To Copernicus it appeared that the difficulties attending
+the supposition that the celestial sphere revolved, were vastly
+greater than those which appeared so weighty to Ptolemy as to force
+him to deny the earth's rotation.</p>
+
+<p>Copernicus shows clearly how the observed phenomena could be
+accounted for just as completely by a rotation of the earth as by a
+rotation of the heavens. He alludes to the fact that, to those on
+board a vessel which is moving through smooth water, the vessel
+itself appears to be at rest, while the objects on shore seem to be
+moving past. If, therefore, the earth were rotating uniformly, we
+dwellers upon the earth, oblivious of our own movement, would wrongly
+attribute to the stars the displacement which was actually the
+consequence of our own motion.</p>
+
+<p>Copernicus saw the futility of the arguments by which Ptolemy had
+endeavoured to demonstrate that a revolution of the earth was
+impossible. It was plain to him that there was nothing whatever to
+warrant refusal to believe in the rotation of the earth. In his
+clear-sightedness on this matter we have specially to admire the
+sagacity of Copernicus as a natural philosopher. It had been urged
+that, if the earth moved round, its motion would not be imparted to
+the air, and that therefore the earth would be uninhabitable by the
+terrific winds which would be the result of our being carried through
+the air. Copernicus convinced himself that this deduction was
+preposterous. He proved that the air must accompany the earth, just
+as his coat remains round him, notwithstanding the fact that he is
+walking down the street. In this way he was able to show that all a
+priori objections to the earth's movements were absurd, and therefore
+he was able to compare together the plausibilities of the two rival
+schemes for explaining the diurnal movement.</p>
+
+<p><a name="frauenburg"  id="frauenburg"></a></p>
+
+<div class="figcenter" style="width: 571px;">
+<a href="images/ill_frauenburg.jpg">
+<img src="images/ill_frauenburg_sml.jpg" width="571" height="392" alt="FRAUENBURG, FROM AN OLD PRINT." title="" /></a>
+<span class="caption">FRAUENBURG, FROM AN OLD PRINT.</span>
+</div>
+
+<p>Once the issue had been placed in this form, the result could not be
+long in doubt. Here is the question: Which is it more likely&mdash;that
+the earth, like a grain of sand at the centre of a mighty globe,
+should turn round once in twenty-four hours, or that the whole of
+that vast globe should complete a rotation in the opposite direction
+in the same time? Obviously, the former is far the more simple
+supposition. But the case is really much stronger than this. Ptolemy
+had supposed that all the stars were attached to the surface of a
+sphere. He had no ground whatever for this supposition, except that
+otherwise it would have been well-nigh impossible to have devised a
+scheme by which the rotation of the heavens around a fixed earth
+could have been arranged. Copernicus, however, with the just
+instinct of a philosopher, considered that the celestial sphere,
+however convenient from a geometrical point of view, as a means of
+representing apparent phenomena, could not actually have a material
+existence. In the first place, the existence of a material celestial
+sphere would require that all the myriad stars should be at exactly
+the same distances from the earth. Of course, no one will say that
+this or any other arbitrary disposition of the stars is actually
+impossible, but as there was no conceivable physical reason why the
+distances of all the stars from the earth should be identical, it
+seemed in the very highest degree improbable that the stars should be
+so placed.</p>
+
+<p>Doubtless, also, Copernicus felt a considerable difficulty as to the
+nature of the materials from which Ptolemy's wonderful sphere was to
+be constructed. Nor could a philosopher of his penetration have
+failed to observe that, unless that sphere were infinitely large,
+there must have been space outside it, a consideration which would
+open up other difficult questions. Whether infinite or not, it was
+obvious that the celestial sphere must have a diameter at least many
+thousands of times as great as that of the earth. From these
+considerations Copernicus deduced the important fact that the stars
+and the other celestial bodies must all be vast objects. He was thus
+enabled to put the question in such a form that it could hardly
+receive any answer but the correct one. Which is it more rational to
+suppose, that the earth should turn round on its axis once in
+twenty-four hours, or that thousands of mighty stars should circle
+round the earth in the same time, many of them having to describe
+circles many thousands of times greater in circumference than the
+circuit of the earth at the equator? The obvious answer pressed upon
+Copernicus with so much force that he was compelled to reject
+Ptolemy's theory of the stationary earth, and to attribute the
+diurnal rotation of the heavens to the revolution of the earth on its
+axis.</p>
+
+<p>Once this tremendous step had been taken, the great difficulties
+which beset the monstrous conception of the celestial sphere
+vanished, for the stars need no longer be regarded as situated at
+equal distances from the earth. Copernicus saw that they might lie
+at the most varied degrees of remoteness, some being hundreds or
+thousands of times farther away than others. The complicated
+structure of the celestial sphere as a material object disappeared
+altogether; it remained only as a geometrical conception, whereon we
+find it convenient to indicate the places of the stars. Once the
+Copernican doctrine had been fully set forth, it was impossible for
+anyone, who had both the inclination and the capacity to understand
+it, to withhold acceptance of its truth. The doctrine of a
+stationary earth had gone for ever.</p>
+
+<p>Copernicus having established a theory of the celestial movements
+which deliberately set aside the stability of the earth, it seemed
+natural that he should inquire whether the doctrine of a moving earth
+might not remove the difficulties presented in other celestial
+phenomena. It had been universally admitted that the earth lay
+unsupported in space. Copernicus had further shown that it possessed
+a movement of rotation. Its want of stability being thus recognised,
+it seemed reasonable to suppose that the earth might also have some
+other kinds of movements as well. In this, Copernicus essayed to
+solve a problem far more difficult than that which had hitherto
+occupied his attention. It was a comparatively easy task to show how
+the diurnal rising and setting could be accounted for by the rotation
+of the earth. It was a much more difficult undertaking to
+demonstrate that the planetary movements, which Ptolemy had
+represented with so much success, could be completely explained by
+the supposition that each of those planets revolved uniformly round
+the sun, and that the earth was also a planet, accomplishing a
+complete circuit of the sun once in the course of a year.</p>
+
+<p><a name="explanation"  id="explanation"></a></p>
+
+<div class="figcenter" style="width: 291px;">
+<a href="images/ill_041.jpg">
+<img src="images/ill_041_sml.jpg" width="291" height="325" alt="EXPLANATION OF PLANETARY MOVEMENTS." title="" /></a>
+<span class="caption">EXPLANATION OF PLANETARY MOVEMENTS.</span>
+</div>
+
+<p>It would be impossible in a sketch like the present to enter into any
+detail as to the geometrical propositions on which this beautiful
+investigation of Copernicus depended. We can only mention a few of
+the leading principles. It may be laid down in general that, if an
+observer is in movement, he will, if unconscious of the fact,
+attribute to the fixed objects around him a movement equal and
+opposite to that which he actually possesses. A passenger on a
+canal-boat sees the objects on the banks apparently moving backward
+with a speed equal to that by which he is himself advancing
+forwards. By an application of this principle, we can account for
+all the phenomena of the movements of the planets, which Ptolemy had
+so ingeniously represented by his circles. Let us take, for
+instance, the most characteristic feature in the irregularities of
+the outer planets. We have already remarked that Mars, though
+generally advancing from west to east among the stars, occasionally
+pauses, retraces his steps for awhile, again pauses, and then resumes
+his ordinary onward progress. Copernicus showed clearly how this
+effect was produced by the real motion of the earth, combined with
+the real motion of Mars. In the adjoining figure we represent a
+portion of the circular tracks in which the earth and Mars move in
+accordance with the Copernican doctrine. I show particularly the
+case where the earth comes directly between the planet and the sun,
+because it is on such occasions that the retrograde movement (for so
+this backward movement of Mars is termed) is at its highest. Mars is
+then advancing in the direction shown by the arrow-head, and the
+earth is also advancing in the same direction. We, on the earth,
+however, being unconscious of our own motion, attribute, by the
+principle I have already explained, an equal and opposite motion to
+Mars. The visible effect upon the planet is, that Mars has two
+movements, a real onward movement in one direction, and an apparent
+movement in the opposite direction. If it so happened that the earth
+was moving with the same speed as Mars, then the apparent movement
+would exactly neutralise the real movement, and Mars would seem to be
+at rest relatively to the surrounding stars. Under the actual
+circumstances represented, however, the earth is moving faster than
+Mars, and the consequence is, that the apparent movement of the
+planet backwards exceeds the real movement forwards, the net result
+being an apparent retrograde movement.</p>
+
+<p>With consummate skill, Copernicus showed how the applications of the
+same principles could account for the characteristic movements of the
+planets. His reasoning in due time bore down all opposition. The
+supreme importance of the earth in the system vanished. It had now
+merely to take rank as one of the planets.</p>
+
+<p>The same great astronomer now, for the first time, rendered something
+like a rational account of the changes of the seasons. Nor did
+certain of the more obscure astronomical phenomena escape his
+attention.</p>
+
+<p>He delayed publishing his wonderful discoveries to the world until he
+was quite an old man. He had a well-founded apprehension of the
+storm of opposition which they would arouse. However, he yielded at
+last to the entreaties of his friends, and his book was sent to the
+press. But ere it made its appearance to the world, Copernicus was
+seized by mortal illness. A copy of the book was brought to him on
+May 23, 1543. We are told that he was able to see it and to touch
+it, but no more, and he died a few hours afterwards. He was buried
+in that Cathedral of Frauenburg, with which his life had been so
+closely associated.</p>
+
+<h3><a name="TYCHO_BRAHE" id="TYCHO_BRAHE"></a>TYCHO BRAHE.</h3>
+<p>The most picturesque figure in the history of astronomy is
+undoubtedly that of the famous old Danish astronomer whose name
+stands at the head of this chapter. Tycho Brahe was alike notable
+for his astronomical genius and for the extraordinary vehemence of a
+character which was by no means perfect. His romantic career as a
+philosopher, and his taste for splendour as a Danish noble, his
+ardent friendships and his furious quarrels, make him an ideal
+subject for a biographer, while the magnificent astronomical work
+which he accomplished, has given him imperishable fame.</p>
+
+<p>The history of Tycho Brahe has been admirably told by Dr. Dreyer, the
+accomplished astronomer who now directs the observatory at Armagh,
+though himself a countryman of Tycho. Every student of the career of
+the great Dane must necessarily look on Dr. Dreyer's work as the
+chief authority on the subject. Tycho sprang from an illustrious
+stock. His family had flourished for centuries, both in Sweden and
+in Denmark, where his descendants are to be met with at the present
+day. The astronomer's father was a privy councillor, and having
+filled important positions in the Danish government, he was
+ultimately promoted to be governor of Helsingborg Castle, where he
+spent the last years of his life. His illustrious son Tycho was born
+in 1546, and was the second child and eldest boy in a family of ten.</p>
+
+<p>It appears that Otto, the father of Tycho, had a brother named
+George, who was childless. George, however, desired to adopt a boy
+on whom he could lavish his affection and to whom he could bequeath
+his wealth. A somewhat singular arrangement was accordingly entered
+into by the brothers at the time when Otto was married. It was
+agreed that the first son who might be born to Otto should be
+forthwith handed over by the parents to George to be reared and
+adopted by him. In due time little Tycho appeared, and was
+immediately claimed by George in pursuance of the compact. But it
+was not unnatural that the parental instinct, which had been dormant
+when the agreement was made, should here interpose. Tycho's father
+and mother receded from the bargain, and refused to part with their
+son. George thought he was badly treated. However, he took no
+violent steps until a year later, when a brother was born to Tycho.
+The uncle then felt no scruple in asserting what he believed to be
+his rights by the simple process of stealing the first-born nephew,
+which the original bargain had promised him. After a little time it
+would seem that the parents acquiesced in the loss, and thus it was
+in Uncle George's home that the future astronomer passed his
+childhood.</p>
+
+<p>When we read that Tycho was no more than thirteen years old at the
+time he entered the University of Copenhagen, it might be at first
+supposed that even in his boyish years he must have exhibited some of
+those remarkable talents with which he was afterwards to astonish the
+world. Such an inference should not, however, be drawn. The fact is
+that in those days it was customary for students to enter the
+universities at a much earlier age than is now the case. Not,
+indeed, that the boys of thirteen knew more then than the boys of
+thirteen know now. But the education imparted in the universities at
+that time was of a much more rudimentary kind than that which we
+understand by university education at present. In illustration of
+this Dr. Dreyer tells us how, in the University of Wittenberg, one of
+the professors, in his opening address, was accustomed to point out
+that even the processes of multiplication and division in arithmetic
+might be learned by any student who possessed the necessary
+diligence.</p>
+
+<p>It was the wish and the intention of his uncle that Tycho's education
+should be specially directed to those branches of rhetoric and
+philosophy which were then supposed to be a necessary preparation for
+the career of a statesman. Tycho, however, speedily made it plain to
+his teachers that though he was an ardent student, yet the things
+which interested him were the movements of the heavenly bodies and
+not the subtleties of metaphysics.</p>
+
+<p><a name="tycho"  id="tycho"></a></p>
+
+<div class="figcenter" style="width: 451px;">
+<a href="images/ill_brahe.jpg">
+<img src="images/ill_brahe_sml.jpg" width="451" height="572" alt="TYCHO BRAHE." title="" /></a>
+<span class="caption">TYCHO BRAHE.</span>
+</div>
+
+<p>On the 21st October, 1560, an eclipse of the sun occurred, which was
+partially visible at Copenhagen. Tycho, boy though he was, took the
+utmost interest in this event. His ardour and astonishment in
+connection with the circumstance were chiefly excited by the fact
+that the time of the occurrence of the phenomenon could be predicted
+with so much accuracy. Urged by his desire to understand the matter
+thoroughly, Tycho sought to procure some book which might explain
+what he so greatly wanted to know. In those days books of any kind
+were but few and scarce, and scientific books were especially
+unattainable. It so happened, however, that a Latin version of
+Ptolemy's astronomical works had appeared a few years before the
+eclipse took place, and Tycho managed to buy a copy of this book,
+which was then the chief authority on celestial matters. Young as
+the boy astronomer was, he studied hard, although perhaps not always
+successfully, to understand Ptolemy, and to this day his copy of the
+great work, copiously annotated and marked by the schoolboy hand, is
+preserved as one of the chief treasures in the library of the
+University at Prague.</p>
+
+<p>After Tycho had studied for about three years at the University of
+Copenhagen, his uncle thought it would be better to send him, as was
+usual in those days, to complete his education by a course of study
+in some foreign university. The uncle cherished the hope that in
+this way the attention of the young astronomer might be withdrawn
+from the study of the stars and directed in what appeared to him a
+more useful way. Indeed, to the wise heads of those days, the
+pursuit of natural science seemed so much waste of good time which
+might otherwise be devoted to logic or rhetoric or some other branch
+of study more in vogue at that time. To assist in this attempt to
+wean Tycho from his scientific tastes, his uncle chose as a tutor to
+accompany him an intelligent and upright young man named Vedel, who
+was four years senior to his pupil, and accordingly, in 1562, we find
+the pair taking up their abode at the University of Leipzig.</p>
+
+<p>The tutor, however, soon found that he had undertaken a most hopeless
+task. He could not succeed in imbuing Tycho with the slightest taste
+for the study of the law or the other branches of knowledge which
+were then thought so desirable. The stars, and nothing but the
+stars, engrossed the attention of his pupil. We are told that all
+the money he could obtain was spent secretly in buying astronomical
+books and instruments. He learned the name of the stars from a
+little globe, which he kept hidden from Vedel, and only ventured to
+use during the latter's absence. No little friction was at first
+caused by all this, but in after years a fast and enduring friendship
+grew up between Tycho and his tutor, each of whom learned to respect
+and to love the other.</p>
+
+<p>Before Tycho was seventeen he had commenced the difficult task of
+calculating the movements of the planets and the places which they
+occupied on the sky from time to time. He was not a little surprised
+to find that the actual positions of the planets differed very widely
+from those which were assigned to them by calculations from the best
+existing works of astronomers. With the insight of genius he saw
+that the only true method of investigating the movements of the
+heavenly bodies would be to carry on a protracted series of
+measurements of their places. This, which now seems to us so
+obvious, was then entirely new doctrine. Tycho at once commenced
+regular observations in such fashion as he could. His first
+instrument was, indeed, a very primitive one, consisting of a simple
+pair of compasses, which he used in this way. He placed his eye at
+the hinge, and then opened the legs of the compass so that one leg
+pointed to one star and the other leg to the other star. The compass
+was then brought down to a divided circle, by which means the number
+of degrees in the apparent angular distance of the two stars was
+determined.</p>
+
+<p>His next advance in instrumental equipment was to provide himself
+with the contrivance known as the "cross-staff," which he used to
+observe the stars whenever opportunity offered. It must, of course,
+be remembered that in those days there were no telescopes. In the
+absence of optical aid, such as lenses afford the modern observers,
+astronomers had to rely on mechanical appliances alone to measure the
+places of the stars. Of such appliances, perhaps the most ingenious
+was one known before Tycho's time, which we have represented in the
+adjoining figure.</p>
+
+<p><a name="tycho_ill"  id="tycho_ill"></a></p>
+
+<div class="figcenter" style="width: 279px;">
+<a href="images/ill_cross_staff.jpg">
+<img src="images/ill_cross_staff_sml.jpg" width="279" height="290" alt="TYCHO&#39;S CROSS STAFF." title="" /></a>
+</div>
+
+<p>Let us suppose that it be desired to measure the angle between two
+stars, then if the angle be not too large it can be determined in the
+following manner. Let the rod AB be divided into inches and parts of
+an inch, and let another rod, CD, slide up and down along AB in such
+a way that the two always remain perpendicular to each other.
+"Sights," like those on a rifle, are placed at A and C, and there is
+a pin at D. It will easily be seen that, by sliding the movable bar
+along the fixed one, it must always be possible when the stars are
+not too far apart to bring the sights into such positions that one
+star can be seen along DC and the other along DA. This having been
+accomplished, the length from A to the cross-bar is read off on the
+scale, and then, by means of a table previously prepared, the value
+of the required angular distance is obtained. If the angle between
+the two stars were greater than it would be possible to measure in
+the way already described, then there was a provision by which the
+pin at D might be moved along CD into some other position, so as to
+bring the angular distance of the stars within the range of the
+instrument.</p>
+
+<p><a name="new_star"  id="new_star"></a></p>
+
+<div class="figright" style="width: 257px;">
+<a href="images/ill_new_star.jpg">
+<img src="images/ill_new_star_sml.jpg" width="257" height="410" alt="TYCHO&#39;S &quot;NEW STAR&quot; SEXTANT OF 1572.
+(The arms, of walnut wood, are about 5 1/2 ft. long.)" title="" /></a>
+<span class="caption">TYCHO&#39;S &quot;NEW STAR&quot; SEXTANT OF 1572.
+<br />(The arms, of walnut wood, are about 5 1/2 ft. long.)</span>
+</div>
+
+<p>No doubt the cross-staff is a very primitive contrivance, but when
+handled by one so skilful as Tycho it afforded results of
+considerable accuracy. I would recommend any reader who may have a
+taste for such pursuits to construct a cross-staff for himself, and
+see what measurements he can accomplish with its aid.</p>
+
+<p>To employ this little instrument Tycho had to evade the vigilance of
+his conscientious tutor, who felt it his duty to interdict all such
+occupations as being a frivolous waste of time. It was when Vedel
+was asleep that Tycho managed to escape with his cross staff and
+measure the places of the heavenly bodies. Even at this early age
+Tycho used to conduct his observations on those thoroughly sound
+principles which lie at the foundation of all accurate modern
+astronomy. Recognising the inevitable errors of workmanship in his
+little instrument, he ascertained their amount and allowed for their
+influence on the results which he deduced. This principle, employed
+by the boy with his cross-staff in 1564, is employed at the present
+day by the Astronomer Royal at Greenwich with the most superb
+instruments that the skill of modern opticians has been able to
+construct.</p>
+
+<p><a name="trigonic_sextant"  id="trigonic_sextant"></a></p>
+
+<div class="figleft" style="width: 260px;">
+<a href="images/ill_trigonic_sextant.jpg">
+<img src="images/ill_trigonic_sextant_sml.jpg" width="260" height="411" alt="TYCHO&#39;S TRIGONIC SEXTANT.
+(The arms, AB and AC, are about 5 1/2 ft. long.)" title="" /></a>
+<span class="caption">TYCHO&#39;S TRIGONIC SEXTANT.
+<br />(The arms, AB and AC, are about 5 1/2 ft. long.)</span>
+</div>
+
+<p>After the death of his uncle, when Tycho was nineteen years of age,
+it appears that the young philosopher was no longer interfered with
+in so far as the line which his studies were to take was concerned.
+Always of a somewhat restless temperament, we now find that he
+shifted his abode to the University of Rostock, where he speedily
+made himself notable in connection with an eclipse of the moon on
+28th October, 1566. Like every other astronomer of those days, Tycho
+had always associated astronomy with astrology. He considered that
+the phenomena of the heavenly bodies always had some significance in
+connection with human affairs. Tycho was also a poet, and in the
+united capacity of poet, astrologer, and astronomer, he posted up
+some verses in the college at Rostock announcing that the lunar
+eclipse was a prognostication of the death of the great Turkish
+Sultan, whose mighty deeds at that time filled men's minds. Presently
+news did arrive of the death of the Sultan, and Tycho was accordingly
+triumphant; but a little later it appeared that the decease had taken
+place BEFORE the eclipse, a circumstance which caused many a laugh at
+Tycho's expense.</p>
+
+<p><a name="astronomic_sextant" id="astronomic_sextant"></a></p>
+
+<div class="figright" style="width: 274px;">
+<a href="images/ill_astronomic_sextant.jpg">
+<img src="images/ill_astronomic_sextant_sml.jpg" width="274" height="433" alt="TYCHO&#39;S ASTRONOMIC SEXTANT.
+(Made of steel; the arms, A B, A C, measure 4ft.)" title="" /></a>
+<span class="caption">TYCHO&#39;S ASTRONOMIC SEXTANT.<br />
+(Made of steel; the arms, A B, A C, measure 4ft.)</span>
+</div>
+
+<p><a name="equatorial_armillary"  id="equatorial_armillary"></a></p>
+
+<div class="figleft" style="width: 257px;">
+<a href="images/ill_equatorial_armillary.jpg">
+<img src="images/ill_equatorial_armillary_sml.jpg" width="257" height="414" alt="TYCHO&#39;S EQUATORIAL ARMILLARY.
+(The meridian circle, E B C A D, made of solid steel,
+is nearly 6 ft. in diameter.)" title="" /></a>
+<span class="caption">TYCHO&#39;S EQUATORIAL ARMILLARY.
+<br />(The meridian circle, E B C A D, made of solid steel,
+is nearly 6 ft. in diameter.)</span>
+</div>
+
+<p>Tycho being of a somewhat turbulent disposition, it appears that,
+while at the University of Rostock, he had a serious quarrel with
+another Danish nobleman. We are not told for certain what was the
+cause of the dispute. It does not, however, seem to have had any
+more romantic origin than a difference of opinion as to which of them
+knew the more mathematics. They fought, as perhaps it was becoming
+for two astronomers to fight, under the canopy of heaven in utter
+darkness at the dead of night, and the duel was honourably terminated
+when a slice was taken off Tycho's nose by the insinuating sword of
+his antagonist. For the repair of this injury the ingenuity of the
+great instrument-maker was here again useful, and he made a
+substitute for his nose "with a composition of gold and silver." The
+imitation was so good that it is declared to have been quite equal to
+the original. Dr. Lodge, however, pointedly observes that it does
+not appear whether this remark was made by a friend or an enemy.</p>
+
+<p><a name="augsburg_quadrant"  id="augsburg_quadrant"></a></p>
+
+<div class="figright" style="width: 268px;clear:both;">
+<a href="images/ill_augsburg_quadrant.jpg">
+<img src="images/ill_augsburg_quadrant_sml.jpg"
+width="268" height="409" alt="THE GREAT AUGSBURG QUADRANT"
+title="" /></a>
+<span class="caption">THE GREAT AUGSBURG QUADRANT.</span>
+</div>
+<p><a name="new_scheme" id="new_scheme"></a></p>
+
+<div class="figcenter" style="width: 446px;clear:both;">
+<a href="images/ill_new_scheme.jpg">
+<img src="images/ill_new_scheme_sml.jpg" width="446" height="446" alt="TYCHO&#39;S &quot;NEW SCHEME OF THE TERRESTRIAL SYSTEM,&quot; 1577." title="" /></a>
+<span class="caption">TYCHO&#39;S &quot;NEW SCHEME OF THE TERRESTRIAL SYSTEM,&quot; 1577.</span>
+</div>
+
+<p>The next few years Tycho spent in various places ardently pursuing
+somewhat varied branches of scientific study. At one time we hear of
+him assisting an astronomical alderman, in the ancient city of
+Augsburg, to erect a tremendous wooden machine&mdash;a quadrant of 19-feet
+radius&mdash;to be used in observing the heavens. At another time we
+learn that the King of Denmark had recognised the talents of his
+illustrious subject, and promised to confer on him a pleasant
+sinecure in the shape of a canonry, which would assist him with the
+means for indulging his scientific pursuits. Again we are told that
+Tycho is pursuing experiments in chemistry with the greatest energy,
+nor is this so incompatible as might at first be thought with his
+devotion to astronomy. In those early days of knowledge the
+different sciences seemed bound together by mysterious bonds.
+Alchemists and astrologers taught that the several planets were
+correlated in some mysterious manner with the several metals. It
+was, therefore hardly surprising that Tycho should have included a
+study of the properties of the metals in the programme of his
+astronomical work.</p>
+
+<p><a name="uraniborg"  id="uraniborg"></a></p>
+
+<div class="figcenter" style="width: 449px;">
+<a href="images/ill_uraniborg.jpg">
+<img src="images/ill_uraniborg_sml.jpg" width="449" height="444" alt="URANIBORG AND ITS GROUNDS.
+
+PLATE: GROUND-PLAN OF THE OBSERVATORY." title="" /></a>
+<span class="caption">URANIBORG AND ITS GROUNDS.</span>
+</div>
+<p><a name="grnd_pln_uraniborg"  id="grnd_pln_uraniborg"></a></p>
+
+<div class="figcenter" style="width: 401px;">
+<a href="images/ill_grnd_pln_observatory.jpg">
+<img src="images/ill_grnd_pln_observatory_sml.jpg" width="401" height="279" alt="GROUND-PLAN OF THE OBSERVATORY." title="" /></a>
+<span class="caption">GROUND-PLAN OF THE OBSERVATORY.</span>
+</div>
+
+<p>An event, however, occurred in 1572 which stimulated Tycho's
+astronomical labours, and started him on his life's work. On the
+11th of November in that year, he was returning home to supper after
+a day's work in his laboratory, when he happened to lift his face to
+the sky, and there he beheld a brilliant new star. It was in the
+constellation of Cassiopeia, and occupied a position in which there
+had certainly been no bright star visible when his attention had last
+been directed to that part of the heavens. Such a phenomenon was so
+startling that he found it hard to trust the evidence of his senses.
+He thought he must be the subject of some hallucination. He
+therefore called to the servants who were accompanying him, and asked
+them whether they, too, could see a brilliant object in the direction
+in which he pointed. They certainly could, and thus he became
+convinced that this marvellous object was no mere creation of the
+fancy, but a veritable celestial body&mdash;a new star of surpassing
+splendour which had suddenly burst forth. In these days of careful
+scrutiny of the heavens, we are accustomed to the occasional outbreak
+of new stars. It is not, however, believed that any new star which
+has ever appeared has displayed the same phenomenal brilliance as was
+exhibited by the star of 1572.</p>
+
+<p>This object has a value in astronomy far greater than it might at
+first appear. It is true, in one sense, that Tycho discovered the
+new star, but it is equally true, in a different sense, that it was
+the new star which discovered Tycho. Had it not been for this
+opportune apparition, it is quite possible that Tycho might have
+found a career in some direction less beneficial to science than that
+which he ultimately pursued.</p>
+
+<p><a name="uraniborg_hven"  id="uraniborg_hven"></a></p>
+
+<div class="figcenter" style="width: 433px;">
+<a href="images/ill_observatory_hven.jpg">
+<img src="images/ill_observatory_hven_sml.jpg" width="433" height="321" alt="THE OBSERVATORY OF URANIBORG, ISLAND OF HVEN." title="" /></a>
+<span class="caption">THE OBSERVATORY OF URANIBORG, ISLAND OF HVEN.</span>
+</div>
+
+<p>When he reached his home on this memorable evening, Tycho immediately
+applied his great quadrant to the measurement of the place of the new
+star. His observations were specially directed to the determination
+of the distance of the object. He rightly conjectured that if it
+were very much nearer to us than the stars in its vicinity, the
+distance of the brilliant body might be determined in a short time by
+the apparent changes in its distance from the surrounding points. It
+was speedily demonstrated that the new star could not be as near as
+the moon, by the simple fact that its apparent place, as compared
+with the stars in its neighbourhood, was not appreciably altered when
+it was observed below the pole, and again above the pole at an
+interval of twelve hours. Such observations were possible, inasmuch
+as the star was bright enough to be seen in full daylight. Tycho
+thus showed conclusively that the body was so remote that the
+diameter of the earth bore an insignificant ratio to the star's
+distance. His success in this respect is the more noteworthy when we
+find that many other observers, who studied the same object, came to
+the erroneous conclusion that the new star was quite as near as the
+moon, or even much nearer. In fact, it may be said, that with regard
+to this object Tycho discovered everything which could possibly have
+been discovered in the days before telescopes were invented. He not
+only proved that the star's distance was too great for measurement,
+but he showed that it had no proper motion on the heavens. He
+recorded the successive changes in its brightness from week to week,
+as well as the fluctuations in hue with which the alterations in
+lustre were accompanied.</p>
+
+<p>It seems, nowadays, strange to find that such thoroughly scientific
+observations of the new star as those which Tycho made, possessed,
+even in the eyes of the great astronomer himself, a profound
+astrological significance. We learn from Dr. Dreyer that, in Tycho's
+opinion, "the star was at first like Venus and Jupiter, and its
+effects will therefore, first, be pleasant; but as it then became
+like Mars, there will next come a period of wars, seditions,
+captivity, and death of princes, and destruction of cities, together
+with dryness and fiery meteors in the air, pestilence, and venomous
+snakes. Lastly, the star became like Saturn, and thus will finally
+come a time of want, death, imprisonment, and all kinds of sad
+things!" Ideas of this kind were, however, universally entertained.
+It seemed, indeed, obvious to learned men of that period that such an
+apparition must forebode startling events. One of the chief theories
+then held was, that just as the Star of Bethlehem announced the first
+coming of Christ, so the second coming, and the end of the world, was
+heralded by the new star of 1572.</p>
+
+<p>The researches of Tycho on this object were the occasion of his first
+appearance as an author. The publication of his book was however,
+for some time delayed by the urgent remonstrances of his friends, who
+thought it was beneath the dignity of a nobleman to condescend to
+write a book. Happily, Tycho determined to brave the opinion of his
+order; the book appeared, and was the first of a series of great
+astronomical productions from the same pen.</p>
+
+<p><a name="effigy"  id="effigy"></a></p>
+
+<div class="figright" style="width: 221px;">
+<a href="images/ill_tomb_effigy.jpg">
+<img src="images/ill_tomb_effigy_sml.jpg" width="221" height="384" alt="EFFIGY ON TYCHO&#39;S TOMB AT PRAGUE." title="" /></a>
+<span class="caption">EFFIGY ON TYCHO&#39;S TOMB AT PRAGUE.</span>
+</div>
+
+<p>The fame of the noble Dane being now widespread, the King of Denmark
+entreated him to return to his native country, and to deliver a
+course of lectures on astronomy in the University of Copenhagen. With
+some reluctance he consented, and his introductory oration has been
+preserved. He dwells, in fervent language, upon the beauty and the
+interest of the celestial phenomena. He points out the imperative
+necessity of continuous and systematic observation of the heavenly
+bodies in order to extend our knowledge. He appeals to the practical
+utility of the science, for what civilised nation could exist without
+having the means of measuring time? He sets forth how the study of
+these beautiful objects "exalts the mind from earthly and trivial
+things to heavenly ones;" and then he winds up by assuring them that
+"a special use of astronomy is that it enables us to draw conclusions
+from the movements in the celestial regions as to human fate."</p>
+
+<p>An interesting event, which occurred in 1572, distracted Tycho's
+attention from astronomical matters. He fell in love. The young
+girl on whom his affections were set appears to have sprung from
+humble origin. Here again his august family friends sought to
+dissuade him from a match they thought unsuitable for a nobleman.
+But Tycho never gave way in anything. It is suggested that he did
+not seek a wife among the highborn dames of his own rank from the
+dread that the demands of a fashionable lady would make too great an
+inroad on the time that he wished to devote to science. At all
+events, Tycho's union seems to have been a happy one, and he had a
+large family of children; none of whom, however, inherited their
+father's talents.</p>
+
+<p><a name="quadrant"  id="quadrant"></a></p>
+
+<div class="figcenter" style="width: 419px;">
+<a href="images/ill_mural_quadrant.jpg">
+<img src="images/ill_mural_quadrant_sml.jpg" width="419" height="570" alt="TYCHO&#39;S MURAL QUADRANT PICTURE, URANIBORG." title="" /></a>
+<span class="caption">TYCHO&#39;S MURAL QUADRANT PICTURE, URANIBORG.</span>
+</div>
+
+<p>Tycho had many scientific friends in Germany, among whom his work was
+held in high esteem. The treatment that he there met with seemed to
+him so much more encouraging than that which he received in Denmark
+that he formed the notion of emigrating to Basle and making it his
+permanent abode. A whisper of this intention was conveyed to the
+large-hearted King of Denmark, Frederick II. He wisely realised how
+great would be the fame which would accrue to his realm if he could
+induce Tycho to remain within Danish territory and carry on there the
+great work of his life. A resolution to make a splendid proposal to
+Tycho was immediately formed. A noble youth was forthwith despatched
+as a messenger, and ordered to travel day and night until he reached
+Tycho, whom he was to summon to the king. The astronomer was in bed
+on the morning of 11th February, 1576, when the message was
+delivered. Tycho, of course, set off at once and had an audience of
+the king at Copenhagen. The astronomer explained that what he wanted
+was the means to pursue his studies unmolested, whereupon the king
+offered him the Island of Hven, in the Sound near Elsinore. There he
+would enjoy all the seclusion that he could desire. The king further
+promised that he would provide the funds necessary for building a
+house and for founding the greatest observatory that had ever yet
+been reared for the study of the heavens. After due deliberation and
+consultation with his friends, Tycho accepted the king's offer. He
+was forthwith granted a pension, and a deed was drawn up formally
+assigning the Island of Hven to his use all the days of his life.</p>
+
+<p>The foundation of the famous castle of Uraniborg was laid on 30th
+August, 1576. The ceremony was a formal and imposing one, in
+accordance with Tycho's ideas of splendour. A party of scientific
+friends had assembled, and the time had been chosen so that the
+heavenly bodies were auspiciously placed. Libations of costly wines
+were poured forth, and the stone was placed with due solemnity. The
+picturesque character of this wonderful temple for the study of the
+stars may be seen in the figures with which this chapter is
+illustrated.</p>
+
+<p>One of the most remarkable instruments that has ever been employed in
+studying the heavens was the mural quadrant which Tycho erected in
+one of the apartments of Uraniborg. By its means the altitudes of
+the celestial bodies could be observed with much greater accuracy
+than had been previously attainable. This wonderful contrivance is
+represented on the preceding page. It will be observed that the
+walls of the room are adorned by pictures with a lavishness of
+decoration not usually to be found in scientific establishments.</p>
+
+<p>A few years later, when the fame of the observatory at Hven became
+more widely spread, a number of young men flocked to Tycho to study
+under his direction. He therefore built another observatory for
+their use in which the instruments were placed in subterranean rooms
+of which only the roofs appeared above the ground. There was a
+wonderful poetical inscription over the entrance to this underground
+observatory, expressing the astonishment of Urania at finding, even
+in the interior of the earth, a cavern devoted to the study of the
+heavens. Tycho was indeed always fond of versifying, and he lost no
+opportunity of indulging this taste whenever an occasion presented
+itself.</p>
+
+<p>Around the walls of the subterranean observatory were the pictures of
+eight astronomers, each with a suitable inscription&mdash;one of these of
+course represented Tycho himself, and beneath were written words to
+the effect that posterity should judge of his work. The eighth
+picture depicted an astronomer who has not yet come into existence.
+Tychonides was his name, and the inscription presses the modest hope
+that when he does appear he will be worthy of his great predecessor.
+The vast expenses incurred in the erection and the maintenance of
+this strange establishment were defrayed by a succession of grants
+from the royal purse.</p>
+
+<p>For twenty years Tycho laboured hard at Uraniborg in the pursuit of
+science. His work mainly consisted in the determination of the
+places of the moon, the planets, and the stars on the celestial
+sphere. The extraordinary pains taken by Tycho to have his
+observations as accurate as his instruments would permit, have justly
+entitled him to the admiration of all succeeding astronomers. His
+island home provided the means of recreation as well as a place for
+work. He was surrounded by his family, troops of friends were not
+wanting, and a pet dwarf seems to have been an inmate of his curious
+residence. By way of change from his astronomical labours he used
+frequently to work with his students in his chemical laboratory. It
+is not indeed known what particular problems in chemistry occupied
+his attention. We are told, however, that he engaged largely in the
+production of medicines, and as these appear to have been dispensed
+gratuitously there was no lack of patients.</p>
+
+<p>Tycho's imperious and grasping character frequently brought him into
+difficulties, which seem to have increased with his advancing years.
+He had ill-treated one of his tenants on Hven, and an adverse
+decision by the courts seems to have greatly exasperated the
+astronomer. Serious changes also took place in his relations to the
+court at Copenhagen. When the young king was crowned in 1596, he
+reversed the policy of his predecessor with reference to Hven. The
+liberal allowances to Tycho were one after another withdrawn, and
+finally even his pension was stopped. Tycho accordingly abandoned
+Hven in a tumult of rage and mortification. A few years later we
+find him in Bohemia a prematurely aged man, and he died on the 24th
+October, 1601.</p>
+
+<h3><a name="GALILEO" id="GALILEO"></a>GALILEO.</h3>
+<p>Among the ranks of the great astronomers it would be difficult to
+find one whose life presents more interesting features and remarkable
+vicissitudes than does that of Galileo. We may consider him as the
+patient investigator and brilliant discoverer. We may consider him
+in his private relations, especially to his daughter, Sister Maria
+Celeste, a woman of very remarkable character; and we have also the
+pathetic drama at the close of Galileo's life, when the philosopher
+drew down upon himself the thunders of the Inquisition.</p>
+
+<p>The materials for the sketch of this astonishing man are sufficiently
+abundant. We make special use in this place of those charming
+letters which his daughter wrote to him from her convent home. More
+than a hundred of these have been preserved, and it may well be
+doubted whether any more beautiful and touching series of letters
+addressed to a parent by a dearly loved child have ever been
+written. An admirable account of this correspondence is contained in
+a little book entitled "The Private Life of Galileo," published
+anonymously by Messrs. Macmillan in 1870, and I have been much
+indebted to the author of that volume for many of the facts contained
+in this chapter.</p>
+
+<p>Galileo was born at Pisa, on 18th February, 1564. He was the eldest
+son of Vincenzo de' Bonajuti de' Galilei, a Florentine noble.
+Notwithstanding his illustrious birth and descent, it would seem that
+the home in which the great philosopher's childhood was spent was an
+impoverished one. It was obvious at least that the young Galileo
+would have to be provided with some profession by which he might earn
+a livelihood. From his father he derived both by inheritance and by
+precept a keen taste for music, and it appears that he became an
+excellent performer on the lute. He was also endowed with
+considerable artistic power, which he cultivated diligently. Indeed,
+it would seem that for some time the future astronomer entertained
+the idea of devoting himself to painting as a profession. His
+father, however, decided that he should study medicine. Accordingly,
+we find that when Galileo was seventeen years of age, and had added a
+knowledge of Greek and Latin to his acquaintance with the fine arts,
+he was duly entered at the University of Pisa.</p>
+
+<p>Here the young philosopher obtained some inkling of mathematics,
+whereupon he became so much interested in this branch of science,
+that he begged to be allowed to study geometry. In compliance with
+his request, his father permitted a tutor to be engaged for this
+purpose; but he did so with reluctance, fearing that the attention of
+the young student might thus be withdrawn from that medical work
+which was regarded as his primary occupation. The event speedily
+proved that these anxieties were not without some justification. The
+propositions of Euclid proved so engrossing to Galileo that it was
+thought wise to avoid further distraction by terminating the
+mathematical tutor's engagement. But it was too late for the desired
+end to be attained. Galileo had now made such progress that he was
+able to continue his geometrical studies by himself. Presently he
+advanced to that famous 47th proposition which won his lively
+admiration, and on he went until he had mastered the six books of
+Euclid, which was a considerable achievement for those days.</p>
+
+<p>The diligence and brilliance of the young student at Pisa did not,
+however, bring him much credit with the University authorities. In
+those days the doctrines of Aristotle were regarded as the embodiment
+of all human wisdom in natural science as well as in everything
+else. It was regarded as the duty of every student to learn
+Aristotle off by heart, and any disposition to doubt or even to
+question the doctrines of the venerated teacher was regarded as
+intolerable presumption. But young Galileo had the audacity to think
+for himself about the laws of nature. He would not take any
+assertion of fact on the authority of Aristotle when he had the means
+of questioning nature directly as to its truth or falsehood. His
+teachers thus came to regard him as a somewhat misguided youth,
+though they could not but respect the unflagging industry with which
+he amassed all the knowledge he could acquire.</p>
+
+<p><a name="galileo_pendulum"  id="galileo_pendulum"></a></p>
+
+<div class="figcenter" style="width: 313px;">
+<a href="images/ill_galileo_pendulum.jpg">
+<img src="images/ill_galileo_pendulum_sml.jpg" width="313" height="448" alt="GALILEO&#39;S PENDULUM." title="" /></a>
+<span class="caption">GALILEO&#39;S PENDULUM.</span>
+</div>
+
+<p>We are so accustomed to the use of pendulums in our clocks that
+perhaps we do not often realise that the introduction of this method
+of regulating time-pieces was really a notable invention worthy the
+fame of the great astronomer to whom it was due. It appears that
+sitting one day in the Cathedral of Pisa, Galileo's attention became
+concentrated on the swinging of a chandelier which hung from the
+ceiling. It struck him as a significant point, that whether the arc
+through which the pendulum oscillated was a long one or a short one,
+the time occupied in each vibration was sensibly the same. This
+suggested to the thoughtful observer that a pendulum would afford the
+means by which a time-keeper might be controlled, and accordingly
+Galileo constructed for the first time a clock on this principle. The
+immediate object sought in this apparatus was to provide a means of
+aiding physicians in counting the pulses of their patients.</p>
+
+<p>The talents of Galileo having at length extorted due recognition from
+the authorities, he was appointed, at the age of twenty-five,
+Professor of Mathematics at the University of Pisa. Then came the
+time when he felt himself strong enough to throw down the gauntlet to
+the adherents of the old philosophy. As a necessary part of his
+doctrine on the movement of bodies Aristotle had asserted that the
+time occupied by a stone in falling depends upon its weight, so that
+the heavier the stone the less time would it require to fall from a
+certain height to the earth. It might have been thought that a
+statement so easily confuted by the simplest experiments could never
+have maintained its position in any accepted scheme of philosophy.
+But Aristotle had said it, and to anyone who ventured to express a
+doubt the ready sneer was forthcoming, "Do you think yourself a
+cleverer man than Aristotle?" Galileo determined to demonstrate in
+the most emphatic manner the absurdity of a doctrine which had for
+centuries received the sanction of the learned. The summit of the
+Leaning Tower of Pisa offered a highly dramatic site for the great
+experiment. The youthful professor let fall from the overhanging top
+a large heavy body and a small light body simultaneously. According
+to Aristotle the large body ought to have reached the ground much
+sooner than the small one, but such was found not to be the case. In
+the sight of a large concourse of people the simple fact was
+demonstrated that the two bodies fell side by side, and reached the
+ground at the same time. Thus the first great step was taken in the
+overthrow of that preposterous system of unquestioning adhesion to
+dogma, which had impeded the development of the knowledge of nature
+for nearly two thousand years.</p>
+
+<p>This revolutionary attitude towards the ancient beliefs was not
+calculated to render Galileo's relations with the University
+authorities harmonious. He had also the misfortune to make enemies
+in other quarters. Don Giovanni de Medici, who was then the Governor
+of the Port of Leghorn, had designed some contrivance by which he
+proposed to pump out a dock. But Galileo showed up the absurdity of
+this enterprise in such an aggressive manner that Don Giovanni took
+mortal offence, nor was he mollified when the truths of Galileo's
+criticisms were abundantly verified by the total failure of his
+ridiculous invention. In various ways Galileo was made to feel his
+position at Pisa so unpleasant that he was at length compelled to
+abandon his chair in the University. The active exertions of his
+friends, of whom Galileo was so fortunate as to have had throughout
+his life an abundant supply, then secured his election to the
+Professorship of Mathematics at Padua, whither he went in 1592.</p>
+
+<p><a name="portrait"  id="portrait"></a></p>
+
+<div class="figcenter" style="width: 427px;">
+<a href="images/ill_portrait_galileo.jpg">
+<img src="images/ill_portrait_galileo_sml.jpg" width="427" height="533" alt="PORTRAIT OF GALILEO." title="" /></a>
+<span class="caption">PORTRAIT OF GALILEO.</span>
+</div>
+
+<p>It was in this new position that Galileo entered on that marvellous
+career of investigation which was destined to revolutionize science.
+The zeal with which he discharged his professorial duties was indeed
+of the most unremitting character. He speedily drew such crowds to
+listen to his discourses on Natural Philosophy that his lecture-room
+was filled to overflowing. He also received many private pupils in
+his house for special instruction. Every moment that could be spared
+from these labours was devoted to his private study and to his
+incessant experiments.</p>
+
+<p>Like many another philosopher who has greatly extended our knowledge
+of nature, Galileo had a remarkable aptitude for the invention of
+instruments designed for philosophical research. To facilitate his
+practical work, we find that in 1599 he had engaged a skilled workman
+who was to live in his house, and thus be constantly at hand to try
+the devices for ever springing from Galileo's fertile brain. Among
+the earliest of his inventions appears to have been the thermometer,
+which he constructed in 1602. No doubt this apparatus in its
+primitive form differed in some respects from the contrivance we call
+by the same name. Galileo at first employed water as the agent, by
+the expansion of which the temperature was to be measured. He
+afterwards saw the advantage of using spirits for the same purpose.
+It was not until about half a century later that mercury came to be
+recognised as the liquid most generally suitable for the thermometer.</p>
+
+<p>The time was now approaching when Galileo was to make that mighty
+step in the advancement of human knowledge which followed on the
+application of the telescope to astronomy. As to how his idea of
+such an instrument originated, we had best let him tell us in his own
+words. The passage is given in a letter which he writes to his
+brother-in-law, Landucci.</p>
+
+<p>"I write now because I have a piece of news for you, though whether
+you will be glad or sorry to hear it I cannot say; for I have now no
+hope of returning to my own country, though the occurrence which has
+destroyed that hope has had results both useful and honourable. You
+must know, then, that two months ago there was a report spread here
+that in Flanders some one had presented to Count Maurice of Nassau a
+glass manufactured in such a way as to make distant objects appear
+very near, so that a man at the distance of two miles could be
+clearly seen. This seemed to me so marvellous that I began to think
+about it. As it appeared to me to have a foundation in the Theory of
+Perspective, I set about contriving how to make it, and at length I
+found out, and have succeeded so well that the one I have made is far
+superior to the Dutch telescope. It was reported in Venice that I
+had made one, and a week since I was commanded to show it to his
+Serenity and to all the members of the senate, to their infinite
+amazement. Many gentlemen and senators, even the oldest, have
+ascended at various times the highest bell-towers in Venice to spy
+out ships at sea making sail for the mouth of the harbour, and have
+seen them clearly, though without my telescope they would have been
+invisible for more than two hours. The effect of this instrument is
+to show an object at a distance of say fifty miles, as if it were but
+five miles."</p>
+
+<p>The remarkable properties of the telescope at once commanded
+universal attention among intellectual men. Galileo received
+applications from several quarters for his new instrument, of which
+it would seem that he manufactured a large number to be distributed
+as gifts to various illustrious personages.</p>
+
+<p>But it was reserved for Galileo himself to make that application of
+the instrument to the celestial bodies by which its peculiar powers
+were to inaugurate the new era in astronomy. The first discovery
+that was made in this direction appears to have been connected with
+the number of the stars. Galileo saw to his amazement that through
+his little tube he could count ten times as many stars in the sky as
+his unaided eye could detect. Here was, indeed, a surprise. We are
+now so familiar with the elementary facts of astronomy that it is not
+always easy to realise how the heavens were interpreted by the
+observers in those ages prior to the invention of the telescope. We
+can hardly, indeed, suppose that Galileo, like the majority of those
+who ever thought of such matters, entertained the erroneous belief
+that the stars were on the surface of a sphere at equal distances
+from the observer. No one would be likely to have retained his
+belief in such a doctrine when he saw how the number of visible stars
+could be increased tenfold by means of Galileo's telescope. It would
+have been almost impossible to refuse to draw the inference that the
+stars thus brought into view were still more remote objects which the
+telescope was able to reveal, just in the same way as it showed
+certain ships to the astonished Venetians, when at the time these
+ships were beyond the reach of unaided vision.</p>
+
+<p>Galileo's celestial discoveries now succeeded each other rapidly.
+That beautiful Milky Way, which has for ages been the object of
+admiration to all lovers of nature, never disclosed its true nature
+to the eye of man till the astronomer of Padua turned on it his magic
+tube. The splendid zone of silvery light was then displayed as
+star-dust scattered over the black background of the sky. It was
+observed that though the individual stars were too small to be seen
+severally without optical aid, yet such was their incredible number
+that the celestial radiance produced that luminosity with which every
+stargazer was so familiar.</p>
+
+<p>But the greatest discovery made by the telescope in these early days,
+perhaps, indeed, the greatest discovery that the telescope has ever
+accomplished, was the detection of the system of four satellites
+revolving around the great planet Jupiter. This phenomenon was so
+wholly unexpected by Galileo that, at first, he could hardly believe
+his eyes. However, the reality of the existence of a system of four
+moons attending the great planet was soon established beyond all
+question. Numbers of great personages crowded to Galileo to see for
+themselves this beautiful miniature representing the sun with its
+system of revolving planets.</p>
+
+<p>Of course there were, as usual, a few incredulous people who refused
+to believe the assertion that four more moving bodies had to be added
+to the planetary system. They scoffed at the notion; they said the
+satellites may have been in the telescope, but that they were not in
+the sky. One sceptical philosopher is reported to have affirmed,
+that even if he saw the moons of Jupiter himself he would not believe
+in them, as their existence was contrary to the principles of
+common-sense!</p>
+
+<p>There can be no doubt that a special significance attached to the new
+discovery at this particular epoch in the history of science. It
+must be remembered that in those days the doctrine of Copernicus,
+declaring that the sun, and not the earth, was the centre of the
+system, that the earth revolved on its axis once a day, and that it
+described a mighty circle round the sun once a year, had only
+recently been promulgated. This new view of the scheme of nature had
+been encountered with the most furious opposition. It may possibly
+have been that Galileo himself had not felt quite confident in the
+soundness of the Copernican theory, prior to the discovery of the
+satellites of Jupiter. But when a picture was there exhibited in
+which a number of relatively small globes were shown to be revolving
+around a single large globe in the centre, it seemed impossible not
+to feel that the beautiful spectacle so displayed was an emblem of
+the relations of the planets to the sun. It was thus made manifest
+to Galileo that the Copernican theory of the planetary system must be
+the true one. The momentous import of this opinion upon the future
+welfare of the great philosopher will presently appear.</p>
+
+<p>It would seem that Galileo regarded his residence at Padua as a state
+of undesirable exile from his beloved Tuscany. He had always a
+yearning to go back to his own country and at last the desired
+opportunity presented itself. For now that Galileo's fame had become
+so great, the Grand Duke of Tuscany desired to have the philosopher
+resident at Florence, in the belief that he would shed lustre on the
+Duke's dominions. Overtures were accordingly made to Galileo, and
+the consequence was that in 1616 we find him residing at Florence,
+bearing the title of Mathematician and Philosopher to the Grand Duke.</p>
+
+<p>Two daughters, Polissena and Virginia, and one son, Vincenzo, had
+been born to Galileo in Padua. It was the custom in those days that
+as soon as the daughter of an Italian gentleman had grown up, her
+future career was somewhat summarily decided. Either a husband was
+to be forthwith sought out, or she was to enter the convent with the
+object of taking the veil as a professed nun. It was arranged that
+the two daughters of Galileo, while still scarcely more than
+children, should both enter the Franciscan convent of St. Matthew, at
+Arcetri. The elder daughter Polissena, took the name of Sister Maria
+Celeste, while Virginia became Sister Arcangela. The latter seems to
+have been always delicate and subject to prolonged melancholy, and
+she is of but little account in the narrative of the life of
+Galileo. But Sister Maria Celeste, though never leaving the convent,
+managed to preserve a close intimacy with her beloved father. This
+was maintained only partly by Galileo's visits, which were very
+irregular and were, indeed, often suspended for long intervals. But
+his letters to this daughter were evidently frequent and
+affectionate, especially in the latter part of his life. Most
+unfortunately, however, all his letters have been lost. There are
+grounds for believing that they were deliberately destroyed when
+Galileo was seized by the Inquisition, lest they should have been
+used as evidence against him, or lest they should have compromised
+the convent where they were received. But Sister Maria Celeste's
+letters to her father have happily been preserved, and most touching
+these letters are. We can hardly read them without thinking how the
+sweet and gentle nun would have shrunk from the idea of their
+publication.</p>
+
+<p>Her loving little notes to her "dearest lord and father," as she used
+affectionately to call Galileo, were almost invariably accompanied by
+some gift, trifling it may be, but always the best the poor nun had
+to bestow. The tender grace of these endearing communications was
+all the more precious to him from the fact that the rest of Galileo's
+relatives were of quite a worthless description. He always
+acknowledged the ties of his kindred in the most generous way, but
+their follies and their vices, their selfishness and their
+importunities, were an incessant source of annoyance to him, almost
+to the last day of his life.</p>
+
+<p>On 19th December, 1625, Sister Maria Celeste writes:&mdash;</p>
+
+<p>"I send two baked pears for these days of vigil. But as the greatest
+treat of all, I send you a rose, which ought to please you extremely,
+seeing what a rarity it is at this season; and with the rose you must
+accept its thorns, which represent the bitter passion of our Lord,
+whilst the green leaves represent the hope we may entertain that
+through the same sacred passion we, having passed through the
+darkness of the short winter of our mortal life, may attain to the
+brightness and felicity of an eternal spring in heaven."</p>
+
+<p>When the wife and children of Galileo's shiftless brother came to
+take up their abode in the philosopher's home, Sister Maria Celeste
+feels glad to think that her father has now some one who, however
+imperfectly, may fulfil the duty of looking after him. A graceful
+note on Christmas Eve accompanies her little gifts. She hopes that&mdash;</p>
+
+<p>"In these holy days the peace of God may rest on him and all the
+house. The largest collar and sleeves I mean for Albertino, the
+other two for the two younger boys, the little dog for baby, and the
+cakes for everybody, except the spice-cakes, which are for you.
+Accept the good-will which would readily do much more."</p>
+
+<p>The extraordinary forbearance with which Galileo continually placed
+his time, his purse, and his influence at the service of those who
+had repeatedly proved themselves utterly unworthy of his countenance,
+is thus commented on by the good nun.&mdash;</p>
+
+<p>"Now it seems to me, dearest lord and father, that your lordship is
+walking in the right path, since you take hold of every occasion that
+presents itself to shower continual benefits on those who only repay
+you with ingratitude. This is an action which is all the more
+virtuous and perfect as it is the more difficult."</p>
+
+<p>When the plague was raging in the neighbourhood, the loving
+daughter's solicitude is thus shown:&mdash;</p>
+
+<p>"I send you two pots of electuary as a preventive against the
+plague. The one without the label consists of dried figs, walnuts,
+rue, and salt, mixed together with honey. A piece of the size of a
+walnut to be taken in the morning, fasting, with a little Greek
+wine."</p>
+
+<p>The plague increasing still more, Sister Maria Celeste obtained with
+much difficulty, a small quantity of a renowned liqueur, made by
+Abbess Ursula, an exceptionally saintly nun. This she sends to her
+father with the words:&mdash;</p>
+
+<p>"I pray your lordship to have faith in this remedy. For if you have
+so much faith in my poor miserable prayers, much more may you have in
+those of such a holy person; indeed, through her merits you may feel
+sure of escaping all danger from the plague."</p>
+
+<p>Whether Galileo took the remedy we do not know, but at all events
+he escaped the plague.</p>
+
+<p><a name="arcetri"  id="arcetri"></a></p>
+
+<div class="figcenter" style="width: 406px;">
+<a href="images/ill_villa_arcetri.jpg">
+<img src="images/ill_villa_arcetri_sml.jpg" width="406" height="312" alt="THE VILLA ARCETRI.
+Galileo&#39;s residence, where Milton visited him." title="" /></a>
+<span class="caption">THE VILLA ARCETRI.
+Galileo&#39;s residence, where Milton visited him.</span>
+</div>
+
+<p>From Galileo's new home in Florence the telescope was again directed
+to the skies, and again did astounding discoveries reward the
+astronomer's labours. The great success which he had met with in
+studying Jupiter naturally led Galileo to look at Saturn. Here he
+saw a spectacle which was sufficiently amazing, though he failed to
+interpret it accurately. It was quite manifest that Saturn did not
+exhibit a simple circular disc like Jupiter, or like Mars. It seemed
+to Galileo as if the planet consisted of three bodies, a large globe
+in the centre, and a smaller one on each side. The enigmatical
+nature of the discovery led Galileo to announce it in an enigmatical
+manner. He published a string of letters which, when duly
+transposed, made up a sentence which affirmed that the planet Saturn
+was threefold. Of course we now know that this remarkable appearance
+of the planet was due to the two projecting portions of the ring.
+With the feeble power of Galileo's telescope, these seemed merely
+like small globes or appendages to the large central body.</p>
+
+<p>The last of Galileo's great astronomical discoveries related to the
+libration of the moon. I think that the detection of this phenomenon
+shows his acuteness of observation more remarkably than does any one
+of his other achievements with the telescope. It is well known that
+the moon constantly keeps the same face turned towards the earth.
+When, however, careful measurements have been made with regard to the
+spots and marks on the lunar surface, it is found that there is a
+slight periodic variation which permits us to see now a little to the
+east or to the west, now a little to the north or to the south of
+the average lunar disc.</p>
+
+<p>But the circumstances which make the career of Galileo so especially
+interesting from the biographer's point of view, are hardly so much
+the triumphs that he won as the sufferings that he endured. The
+sufferings and the triumphs were, however, closely connected, and it
+is fitting that we should give due consideration to what was perhaps
+the greatest drama in the history of science.</p>
+
+<p>On the appearance of the immortal work of Copernicus, in which it was
+taught that the earth rotated on its axis, and that the earth, like
+the other planets, revolved round the sun, orthodoxy stood aghast.
+The Holy Roman Church submitted this treatise, which bore the name
+"De Revolutionibus Orbium Coelestium," to the Congregation of the
+Index. After due examination it was condemned as heretical in 1615.
+Galileo was suspected, on no doubt excellent grounds, of entertaining
+the objectionable views of Copernicus. He was accordingly privately
+summoned before Cardinal Bellarmine on 26th February 1616, and duly
+admonished that he was on no account to teach or to defend the
+obnoxious doctrines. Galileo was much distressed by this
+intimation. He felt it a serious matter to be deprived of the
+privilege of discoursing with his friends about the Copernican
+system, and of instructing his disciples in the principles of the
+great theory of whose truth he was perfectly convinced. It pained
+him, however, still more to think, devout Catholic as he was, that
+such suspicions of his fervent allegiance to his Church should ever
+have existed, as were implied by the words and monitions of Cardinal
+Bellarmine.</p>
+
+<p>In 1616, Galileo had an interview with Pope Paul V., who received the
+great astronomer very graciously, and walked up and down with him in
+conversation for three-quarters of an hour. Galileo complained to
+his Holiness of the attempts made by his enemies to embarrass him
+with the authorities of the Church, but the Pope bade him be
+comforted. His Holiness had himself no doubts of Galileo's
+orthodoxy, and he assured him that the Congregation of the Index
+should give Galileo no further trouble so long as Paul V. was in the
+chair of St. Peter.</p>
+
+<p>On the death of Paul V. in 1623, Maffeo Barberini was elected Pope,
+as Urban VIII. This new Pope, while a cardinal, had been an intimate
+friend of Galileo's, and had indeed written Latin verses in praise of
+the great astronomer and his discoveries. It was therefore not
+unnatural for Galileo to think that the time had arrived when, with
+the use of due circumspection, he might continue his studies and his
+writings, without fear of incurring the displeasure of the Church.
+Indeed, in 1624, one of Galileo's friends writing from Rome, urges
+Galileo to visit the city again, and added that&mdash;</p>
+
+<p>"Under the auspices of this most excellent, learned, and benignant
+Pontiff, science must flourish. Your arrival will be welcome to his
+Holiness. He asked me if you were coming, and when, and in short, he
+seems to love and esteem you more than ever."</p>
+
+<p>The visit was duly paid, and when Galileo returned to Florence, the
+Pope wrote a letter from which the following is an extract,
+commanding the philosopher to the good offices of the young
+Ferdinand, who had shortly before succeeded his father in the Grand
+Duchy of Tuscany.</p>
+
+<p>"We find in Galileo not only literary distinction, but also the love
+of piety, and he is also strong in those qualities by which the
+pontifical good-will is easily obtained. And now, when he has been
+brought to this city to congratulate us on our elevation, we have
+very lovingly embraced him; nor can we suffer him to return to the
+country whither your liberality calls him, without an ample provision
+of pontifical love. And that you may know how dear he is to us, we
+have willed to give him this honourable testimonial of virtue and
+piety. And we further signify that every benefit which you shall
+confer upon him, imitating or even surpassing your father's
+liberality, will conduce to our gratification."</p>
+
+<p>The favourable reception which had been accorded to him by Pope Urban
+VIII. seems to have led Galileo to expect that there might be some
+corresponding change in the attitude of the Papal authorities on the
+great question of the stability of the earth. He accordingly
+proceeded with the preparation of the chief work of his life, "The
+Dialogue of the two Systems." It was submitted for inspection by the
+constituted authorities. The Pope himself thought that, if a few
+conditions which he laid down were duly complied with, there could be
+no objection to the publication of the work. In the first place, the
+title of the book was to be so carefully worded as to show plainly
+that the Copernican doctrine was merely to be regarded as an
+hypothesis, and not as a scientific fact. Galileo was also
+instructed to conclude the book with special arguments which had been
+supplied by the Pope himself, and which appeared to his Holiness to
+be quite conclusive against the new doctrine of Copernicus.</p>
+
+<p>Formal leave for the publication of the Dialogue was then given to
+Galileo by the Inquisitor General, and it was accordingly sent to the
+press. It might be thought that the anxieties of the astronomer
+about his book would then have terminated. As a matter of fact, they
+had not yet seriously begun. Riccardi, the Master of the Sacred
+Palace, having suddenly had some further misgivings, sent to Galileo
+for the manuscript while the work was at the printer's, in order that
+the doctrine it implied might be once again examined. Apparently,
+Riccardi had come to the conclusion that he had not given the matter
+sufficient attention, when the authority to go to press had been
+first and, perhaps, hastily given. Considerable delay in the issue
+of the book was the result of these further deliberations. At last,
+however, in June, 1632, Galileo's great work, "The Dialogue of the
+two Systems," was produced for the instruction of the world, though
+the occasion was fraught with ruin to the immortal author.</p>
+
+<p><a name="facsimile"  id="facsimile"></a></p>
+
+<div class="figcenter" style="width: 297px;">
+<a href="images/ill_sketch_lunar_sfc.jpg">
+<img src="images/ill_sketch_lunar_sfc_sml.jpg" width="297" height="294" alt="FACSIMILE SKETCH OF LUNAR SURFACE BY GALILEO." title="" /></a>
+<span class="caption">FACSIMILE SKETCH OF LUNAR SURFACE BY GALILEO.</span>
+</div>
+
+<p>The book, on its publication, was received and read with the greatest
+avidity. But presently the Master of The Sacred Palace found reason
+to regret that he had given his consent to its appearance. He
+accordingly issued a peremptory order to sequestrate every copy in
+Italy. This sudden change in the Papal attitude towards Galileo
+formed the subject of a strong remonstrance addressed to the Roman
+authorities by the Grand Duke of Tuscany. The Pope himself seemed to
+have become impressed all at once with the belief that the work
+contained matter of an heretical description. The general
+interpretation put upon the book seems to have shown the authorities
+that they had mistaken its true tendency, notwithstanding the fact
+that it had been examined again and again by theologians deputed for
+the duty. To the communication from the Grand Duke the Pope returned
+answer, that he had decided to submit the book to a congregation of
+"learned, grave, and saintly men," who would weigh every word in it.
+The views of his Holiness personally on the subject were expressed in
+his belief that the Dialogue contained the most perverse matter that
+could come into a reader's hands.</p>
+
+<p>The Master of the Sacred Palace was greatly blamed by the authorities
+for having given his sanction to its issue. He pleaded that the book
+had not been printed in the precise terms of the original manuscript
+which had been submitted to him. It was also alleged that Galileo
+had not adhered to his promise of inserting properly the arguments
+which the Pope himself had given in support of the old and orthodox
+view. One of these had, no doubt, been introduced, but, so far from
+mending Galileo's case, it had made matters really look worse for the
+poor philosopher. The Pope's argument had been put into the mouth of
+one of the characters in the Dialogue named "Simplicio." Galileo's
+enemies maintained that by adopting such a method for the expression
+of his Holiness's opinion, Galileo had intended to hold the Pope
+himself up to ridicule. Galileo's friends maintained that nothing
+could have been farther from his intention. It seems, however,
+highly probable that the suspicions thus aroused had something to say
+to the sudden change of front on the part of the Papal authorities.</p>
+
+<p>On 1st October, 1632, Galileo received an order to appear before the
+Inquisition at Rome on the grave charge of heresy. Galileo, of
+course, expressed his submission, but pleaded for a respite from
+compliance with the summons, on the ground of his advanced age and
+his failing health. The Pope was, however, inexorable; he said that
+he had warned Galileo of his danger while he was still his friend.
+The command could not be disobeyed. Galileo might perform the
+journey as slowly as he pleased, but it was imperatively necessary
+for him to set forth and at once.</p>
+
+<p>On 20th January, 1633, Galileo started on his weary journey to Rome,
+in compliance with this peremptory summons. On 13th February he was
+received as the guest of Niccolini, the Tuscan ambassador, who had
+acted as his wise and ever-kind friend throughout the whole affair.
+It seemed plain that the Holy Office were inclined to treat Galileo
+with as much clemency and consideration as was consistent with the
+determination that the case against him should be proceeded with to
+the end. The Pope intimated that in consequence of his respect for
+the Grand Duke of Tuscany he should permit Galileo to enjoy the
+privilege, quite unprecedented for a prisoner charged with heresy, of
+remaining as an inmate in the ambassador's house. He ought,
+strictly, to have been placed in the dungeons of the Inquisition.
+When the examination of the accused had actually commenced, Galileo
+was confined, not, indeed, in the dungeons, but in comfortable rooms
+at the Holy Office.</p>
+
+<p>By the judicious and conciliatory language of submission which
+Niccolini had urged Galileo to use before the Inquisitors, they were
+so far satisfied that they interceded with the Pope for his release.
+During the remainder of the trial Galileo was accordingly permitted
+to go back to the ambassador's, where he was most heartily welcomed.
+Sister Maria Celeste, evidently thinking this meant that the whole
+case was at an end, thus expresses herself:&mdash;</p>
+
+<p>"The joy that your last dear letter brought me, and the having to
+read it over and over to the nuns, who made quite a jubilee on
+hearing its contents, put me into such an excited state that at last
+I got a severe attack of headache."</p>
+
+<p>In his defence Galileo urged that he had already been acquitted in
+1616 by Cardinal Bellarmine, when a charge of heresy was brought
+against him, and he contended that anything he might now have done,
+was no more than he had done on the preceding occasion, when the
+orthodoxy of his doctrines received solemn confirmation. The
+Inquisition seemed certainly inclined to clemency, but the Pope was
+not satisfied. Galileo was accordingly summoned again on the 21st
+June. He was to be threatened with torture if he did not forthwith
+give satisfactory explanations as to the reasons which led him to
+write the Dialogue. In this proceeding the Pope assured the Tuscan
+ambassador that he was treating Galileo with the utmost consideration
+possible in consequence of his esteem and regard for the Grand Duke,
+whose servant Galileo was. It was, however, necessary that some
+exemplary punishment be meted out to the astronomer, inasmuch as by
+the publication of the Dialogue he had distinctly disobeyed the
+injunction of silence laid upon him by the decree of 1616. Nor was
+it admissible for Galileo to plead that his book had been sanctioned
+by the Master of the Sacred College, to whose inspection it had been
+again and again submitted. It was held, that if the Master of the
+Sacred College had been unaware of the solemn warning the philosopher
+had already received sixteen years previously, it was the duty of
+Galileo to have drawn his attention to that fact.</p>
+
+<p>On the 22nd June, 1633, Galileo was led to the great hall of the
+Inquisition, and compelled to kneel before the cardinals there
+assembled and hear his sentence. In a long document, most
+elaborately drawn up, it is definitely charged against Galileo that,
+in publishing the Dialogue, he committed the essentially grave error
+of treating the doctrine of the earth's motion as open to
+discussion. Galileo knew, so the document affirmed, that the Church
+had emphatically pronounced this notion to be contrary to Holy Writ,
+and that for him to consider a doctrine so stigmatized as having any
+shadow of probability in its favour was an act of disrespect to the
+authority of the Church which could not be overlooked. It was also
+charged against Galileo that in his Dialogue he has put the strongest
+arguments into the mouth, not of those who supported the orthodox
+doctrine, but of those who held the theory as to the earth's motion
+which the Church had so deliberately condemned.</p>
+
+<p>After due consideration of the defence made by the prisoner, it was
+thereupon decreed that he had rendered himself vehemently suspected
+of heresy by the Holy Office, and in consequence had incurred all the
+censures and penalties of the sacred canons, and other decrees
+promulgated against such persons. The graver portion of these
+punishments would be remitted, if Galileo would solemnly repudiate
+the heresies referred to by an abjuration to be pronounced by him in
+the terms laid down.</p>
+
+<p>At the same time it was necessary to mark, in some emphatic manner,
+the serious offence which had been committed, so that it might serve
+both as a punishment to Galileo and as a warning to others. It was
+accordingly decreed that he should be condemned to imprisonment in
+the Holy Office during the pleasure of the Papal authorities, and
+that he should recite once a week for three years the seven
+Penitential Psalms.</p>
+
+<p>Then followed that ever-memorable scene in the great hall of the
+Inquisition, in which the aged and infirm Galileo, the inventor of
+the telescope and the famous astronomer, knelt down to abjure before
+the most eminent and reverend Lords Cardinal, Inquisitors General
+throughout the Christian Republic against heretical depravity. With
+his hands on the Gospels, Galileo was made to curse and detest the
+false opinion that the sun was the centre of the universe and
+immovable, and that the earth was not the centre of the same, and
+that it moved. He swore that for the future he will never say nor
+write such things as may bring him under suspicion, and that if he
+does so he submits to all the pains and penalties of the sacred
+canons. This abjuration was subsequently read in Florence before
+Galileo's disciples, who had been specially summoned to attend.</p>
+
+<p>It has been noted that neither on the first occasion, in 1616, nor on
+the second in 1633, did the reigning Pope sign the decrees concerning
+Galileo. The contention has accordingly been made that Paul V. and
+Urban VIII. are both alike vindicated from any technical
+responsibility for the attitude of the Romish Church towards the
+Copernican doctrines. The significance of this circumstance has been
+commented on in connection with the doctrine of the infallibility of
+the Pope.</p>
+
+<p>We can judge of the anxiety felt by Sister Maria Celeste about her
+beloved father during these terrible trials. The wife of the
+ambassador Niccolini, Galileo's steadfast friend, most kindly wrote
+to give the nun whatever quieting assurances the case would permit.
+There is a renewed flow of these touching epistles from the daughter
+to her father. Thus she sends word&mdash;</p>
+
+<p>"The news of your fresh trouble has pierced my soul with grief all
+the more that it came quite unexpectedly."</p>
+
+<p>And again, on hearing that he had been permitted to leave Rome,
+she writes&mdash;</p>
+
+<p>"I wish I could describe the rejoicing of all the mothers and sisters
+on hearing of your happy arrival at Siena. It was indeed most
+extraordinary. On hearing the news the Mother Abbess and many of the
+nuns ran to me, embracing me and weeping for joy and tenderness."</p>
+
+<p>The sentence of imprisonment was at first interpreted leniently by
+the Pope. Galileo was allowed to reside in qualified durance in the
+archbishop's house at Siena. Evidently the greatest pain that he
+endured arose from the forced separation from that daughter, whom he
+had at last learned to love with an affection almost comparable with
+that she bore to him. She had often told him that she never had any
+pleasure equal to that with which she rendered any service to her
+father. To her joy, she discovers that she can relieve him from the
+task of reciting the seven Penitential Psalms which had been imposed
+as a Penance:&mdash;</p>
+
+<p>"I began to do this a while ago," she writes, "and it gives me much
+pleasure. First, because I am persuaded that prayer in obedience to
+Holy Church must be efficacious; secondly, in order to save you the
+trouble of remembering it. If I had been able to do more, most
+willingly would I have entered a straiter prison than the one I live
+in now, if by so doing I could have set you at liberty."</p>
+
+<p><a name="crest"  id="crest"></a></p>
+
+<div class="figcenter" style="width: 281px;">
+<a href="images/ill_fm_crest_galileo.jpg">
+<img src="images/ill_fm_crest_galileo_sml.jpg" width="281" height="258" alt="CREST OF GALILEO&#39;S FAMILY." title="" /></a>
+<span class="caption">CREST OF GALILEO&#39;S FAMILY.</span>
+</div>
+
+<p>Sister Maria Celeste was gradually failing in health, but the great
+privilege was accorded to her of being able once again to embrace her
+beloved lord and master. Galileo had, in fact, been permitted to
+return to his old home; but on the very day when he heard of his
+daughter's death came the final decree directing him to remain in his
+own house in perpetual solitude.</p>
+
+<p>Amid the advancing infirmities of age, the isolation from friends,
+and the loss of his daughter, Galileo once again sought consolation
+in hard work. He commenced his famous dialogue on Motion. Gradually,
+however, his sight began to fail, and blindness was at last added to
+his other troubles. On January 2nd, 1638, he writes to Diodati:&mdash;</p>
+
+<p>"Alas, your dear friend and servant, Galileo, has been for the last
+month perfectly blind, so that this heaven, this earth, this universe
+which I by my marvellous discoveries and clear demonstrations have
+enlarged a hundred thousand times beyond the belief of the wise men
+of bygone ages, henceforward is for me shrunk into such a small space
+as is filled by my own bodily sensations."</p>
+
+<p>But the end was approaching&mdash;the great philosopher, was attacked by
+low fever, from which he died on the 8th January, 1643.</p>
+
+<h3><a name="KEPLER" id="KEPLER"></a>KEPLER.</h3>
+<p>While the illustrious astronomer, Tycho Brahe, lay on his death-bed,
+he had an interview which must ever rank as one of the important
+incidents in the history of science. The life of Tycho had been
+passed, as we have seen, in the accumulation of vast stores of
+careful observations of the positions of the heavenly bodies. It was
+not given to him to deduce from his splendid work the results to
+which they were destined to lead. It was reserved for another
+astronomer to distil, so to speak, from the volumes in which Tycho's
+figures were recorded, the great truths of the universe which those
+figures contained. Tycho felt that his work required an interpreter,
+and he recognised in the genius of a young man with whom he was
+acquainted the agent by whom the world was to be taught some of the
+great truths of nature. To the bedside of the great Danish
+astronomer the youthful philosopher was summoned, and with his last
+breath Tycho besought of him to spare no labour in the performance of
+those calculations, by which alone the secrets of the movements of
+the heavens could be revealed. The solemn trust thus imposed was
+duly accepted, and the man who accepted it bore the immortal name of
+Kepler.</p>
+
+<p>Kepler was born on the 27th December, 1571, at Weil, in the Duchy of
+Wurtemberg. It would seem that the circumstances of his childhood
+must have been singularly unhappy. His father, sprung from a
+well-connected family, was but a shiftless and idle adventurer; nor
+was the great astronomer much more fortunate in his other parent. His
+mother was an ignorant and ill-tempered woman; indeed, the
+ill-assorted union came to an abrupt end through the desertion of the
+wife by her husband when their eldest son John, the hero of our
+present sketch, was eighteen years old. The childhood of this lad,
+destined for such fame, was still further embittered by the
+circumstance that when he was four years old he had a severe attack
+of small-pox. Not only was his eyesight permanently injured, but
+even his constitution appears to have been much weakened by this
+terrible malady.</p>
+
+<p>It seems, however, that the bodily infirmities of young John Kepler
+were the immediate cause of his attention being directed to the
+pursuit of knowledge. Had the boy been fitted like other boys for
+ordinary manual work, there can be hardly any doubt that to manual
+work his life must have been devoted. But, though his body was
+feeble, he soon gave indications of the possession of considerable
+mental power. It was accordingly thought that a suitable sphere for
+his talents might be found in the Church which, in those days, was
+almost the only profession that afforded an opening for an
+intellectual career. We thus find that by the time John Kepler was
+seventeen years old he had attained a sufficient standard of
+knowledge to entitle him to admission on the foundation of the
+University at Tubingen.</p>
+
+<p>In the course of his studies at this institution he seems to have
+divided his attention equally between astronomy and divinity. It not
+unfrequently happens that when a man has attained considerable
+proficiency in two branches of knowledge he is not able to see very
+clearly in which of the two pursuits his true vocation lies. His
+friends and onlookers are often able to judge more wisely than he
+himself can do as to which of the two lines it would be better for
+him to pursue. This incapacity for perceiving the path in which
+greatness awaited him, existed in the case of Kepler. Personally, he
+inclined to enter the ministry, in which a promising career seemed
+open to him. He yielded, however, to friends, who evidently knew him
+better than he knew himself, and accepted in 1594, the important
+Professorship of astronomy which had been offered to him in the
+University of Gratz.</p>
+
+<p>It is difficult for us in these modern days to realise the somewhat
+extraordinary duties which were expected from an astronomical
+professor in the sixteenth century. He was, of course, required to
+employ his knowledge of the heavens in the prediction of eclipses,
+and of the movements of the heavenly bodies generally. This seems
+reasonable enough; but what we are not prepared to accept is the
+obligation which lay on the astronomers to predict the fates of
+nations and the destinies of individuals.</p>
+
+<p>It must be remembered that it was the almost universal belief in
+those days, that all the celestial spheres revolved in some
+mysterious fashion around the earth, which appeared by far the most
+important body in the universe. It was imagined that the sun, the
+moon, and the stars indicated, in the vicissitudes of their
+movements, the careers of nations and of individuals. Such being the
+generally accepted notion, it seemed to follow that a professor who
+was charged with the duty of expounding the movements of the heavenly
+bodies must necessarily be looked to for the purpose of deciphering
+the celestial decrees regarding the fate of man which the heavenly
+luminaries were designed to announce.</p>
+
+<p>Kepler threw himself with characteristic ardour into even this
+fantastic phase of the labours of the astronomical professor; he
+diligently studied the rules of astrology, which the fancies of
+antiquity had compiled. Believing sincerely as he did in the
+connection between the aspect of the stars and the state of human
+affairs, he even thought that he perceived, in the events of his own
+life, a corroboration of the doctrine which affirmed the influence of
+the planets upon the fate of individuals.</p>
+
+<p><a name="solids"  id="solids"></a></p>
+
+<div class="figcenter" style="width: 276px;">
+<a href="images/ill_kepler_solids.jpg">
+<img src="images/ill_kepler_solids_sml.jpg" width="276" height="257" alt="KEPLER&#39;S SYSTEM OF REGULAR SOLIDS." title="" /></a>
+<span class="caption">KEPLER&#39;S SYSTEM OF REGULAR SOLIDS.</span>
+</div>
+
+<p>But quite independently of astrology there seem to have been many
+other delusions current among the philosophers of Kepler's time. It
+is now almost incomprehensible how the ablest men of a few centuries
+ago should have entertained such preposterous notions, as they did,
+with respect to the system of the universe. As an instance of what
+is here referred to, we may cite the extraordinary notion which,
+under the designation of a discovery, first brought Kepler into
+fame. Geometers had long known that there were five, but no more
+than five, regular solid figures. There is, for instance, the cube
+with six sides, which is, of course, the most familiar of these
+solids. Besides the cube there are other figures of four, eight,
+twelve, and twenty sides respectively. It also happened that there
+were five planets, but no more than five, known to the ancients,
+namely, Mercury, Venus, Mars, Jupiter, and Saturn. To Kepler's
+lively imaginations this coincidence suggested the idea that the five
+regular solids corresponded to the five planets, and a number of
+fancied numerical relations were adduced on the subject. The
+absurdity of this doctrine is obvious enough, especially when we
+observe that, as is now well known, there are two large planets, and
+a host of small planets, over and above the magical number of the
+regular solids. In Kepler's time, however, this doctrine was so far
+from being regarded as absurd, that its announcement was hailed as a
+great intellectual triumph. Kepler was at once regarded with
+favour. It seems, indeed, to have been the circumstance which
+brought him into correspondence with Tycho Brahe. By its means also
+he became known to Galileo.</p>
+
+<p>The career of a scientific professor in those early days appears
+generally to have been marked by rather more striking vicissitudes
+than usually befall a professor in a modern university. Kepler was a
+Protestant, and as such he had been appointed to his professorship at
+Gratz. A change, however, having taken place in the religious belief
+entertained by the ruling powers of the University, the Protestant
+professors were expelled. It seems that special influence having
+been exerted in Kepler's case on account of his exceptional eminence,
+he was recalled to Gratz and reinstated in the tenure of his chair.
+But his pupils had vanished, so that the great astronomer was glad to
+accept a post offered him by Tycho Brahe in the observatory which the
+latter had recently established near Prague.</p>
+
+<p>On Tycho's death, which occurred soon after, an opening presented
+itself which gave Kepler the opportunity his genius demanded. He was
+appointed to succeed Tycho in the position of imperial mathematician.
+But a far more important point, both for Kepler and for science,
+was that to him was confided the use of Tycho's observations. It was,
+indeed, by the discussion of Tycho's results that Kepler was enabled
+to make the discoveries which form such an important part of
+astronomical history.</p>
+
+<p>Kepler must also be remembered as one of the first great astronomers
+who ever had the privilege of viewing celestial bodies through a
+telescope. It was in 1610 that he first held in his hands one of
+those little instruments which had been so recently applied to the
+heavens by Galileo. It should, however, be borne in mind that the
+epoch-making achievements of Kepler did not arise from any telescopic
+observations that he made, or, indeed, that any one else made. They
+were all elaborately deduced from Tycho's measurements of the
+positions of the planets, obtained with his great instruments, which
+were unprovided with telescopic assistance.</p>
+
+<p>To realise the tremendous advance which science received from
+Kepler's great work, it is to be understood that all the astronomers
+who laboured before him at the difficult subject of the celestial
+motions, took it for granted that the planets must revolve in
+circles. If it did not appear that a planet moved in a fixed circle,
+then the ready answer was provided by Ptolemy's theory that the
+circle in which the planet did move was itself in motion, so that its
+centre described another circle.</p>
+
+<p>When Kepler had before him that wonderful series of observations of
+the planet, Mars, which had been accumulated by the extraordinary
+skill of Tycho, he proved, after much labour, that the movements of
+the planet refused to be represented in a circular form. Nor would
+it do to suppose that Mars revolved in one circle, the centre of
+which revolved in another circle. On no such supposition could the
+movements of the planets be made to tally with those which Tycho had
+actually observed. This led to the astonishing discovery of the true
+form of a planet's orbit. For the first time in the history of
+astronomy the principle was laid down that the movement of a planet
+could not be represented by a circle, nor even by combinations of
+circles, but that it could be represented by an elliptic path. In
+this path the sun is situated at one of those two points in the
+ellipse which are known as its foci.</p>
+
+<p><a name="kepler_ill"  id="kepler_ill"></a></p>
+
+<div class="figcenter" style="width: 425px;">
+<a href="images/ill_kepler.jpg">
+<img src="images/ill_kepler_sml.jpg" width="425" height="526" alt="KEPLER." title="" /></a>
+<span class="caption">KEPLER.</span>
+</div>
+
+<p>Very simple apparatus is needed for the drawing of one of those
+ellipses which Kepler has shown to possess such astonishing
+astronomical significance. Two pins are stuck through a sheet of
+paper on a board, the point of a pencil is inserted in a loop of
+string which passes over the pins, and as the pencil is moved round
+in such a way as to keep the string stretched, that beautiful curve
+known as the ellipse is delineated, while the positions of the pins
+indicate the two foci of the curve. If the length of the loop of
+string is unchanged then the nearer the pins are together, the
+greater will be the resemblance between the ellipse and the circle,
+whereas the more the pins are separated the more elongated does the
+ellipse become. The orbit of a great planet is, in general, one of
+those ellipses which approaches a nearly circular form. It
+fortunately happens, however, that the orbit of Mars makes a wider
+departure from the circular form than any of the other important
+planets. It is, doubtless, to this circumstance that we must
+attribute the astonishing success of Kepler in detecting the true
+shape of a planetary orbit. Tycho's observations would not have been
+sufficiently accurate to have exhibited the elliptic nature of a
+planetary orbit which, like that of Venus, differed very little from
+a circle.</p>
+
+<p>The more we ponder on this memorable achievement the more striking
+will it appear. It must be remembered that in these days we know of
+the physical necessity which requires that a planet shall revolve in
+an ellipse and not in any other curve. But Kepler had no such
+knowledge. Even to the last hour of his life he remained in
+ignorance of the existence of any natural cause which ordained that
+planets should follow those particular curves which geometers know so
+well. Kepler's assignment of the ellipse as the true form of the
+planetary orbit is to be regarded as a brilliant guess, the truth of
+which Tycho's observations enabled him to verify. Kepler also
+succeeded in pointing out the law according to which the velocity of
+a planet at different points of its path could be accurately
+specified. Here, again, we have to admire the sagacity with which
+this marvellously acute astronomer guessed the deep truth of nature.
+In this case also he was quite unprovided with any reason for
+expecting from physical principles that such a law as he discovered
+must be obeyed. It is quite true that Kepler had some slight
+knowledge of the existence of what we now know as gravitation. He
+had even enunciated the remarkable doctrine that the ebb and flow of
+the tide must be attributed to the attraction of the moon on the
+waters of the earth. He does not, however, appear to have had any
+anticipation of those wonderful discoveries which Newton was destined
+to make a little later, in which he demonstrated that the laws
+detected by Kepler's marvellous acumen were necessary consequences of
+the principle of universal gravitation.</p>
+
+<p><a name="symbolical"  id="symbolical"></a></p>
+
+<div class="figcenter" style="width: 320px;">
+<a href="images/ill_symbolic_planetary_system.jpg">
+<img src="images/ill_symbolic_planetary_system_sml.jpg" width="320" height="362" alt="SYMBOLICAL REPRESENTATION OF THE PLANETARY SYSTEM." title="" /></a>
+<span class="caption">SYMBOLICAL REPRESENTATION OF THE PLANETARY SYSTEM.</span>
+</div>
+
+<p>To appreciate the relations of Kepler and Tycho it is necessary to
+note the very different way in which these illustrious astronomers
+viewed the system of the heavens. It should be observed that
+Copernicus had already expounded the true system, which located the
+sun at the centre of the planetary system. But in the days of Tycho
+Brahe this doctrine had not as yet commanded universal assent. In
+fact, the great observer himself did not accept the new views of
+Copernicus. It appeared to Tycho that the earth not only appeared to
+be the centre of things celestial, but that it actually was the
+centre. It is, indeed, not a little remarkable that a student of the
+heavens so accurate as Tycho should have deliberately rejected the
+Copernican doctrine in favour of the system which now seems so
+preposterous. Throughout his great career, Tycho steadily observed
+the places of the sun, the moon, and the planets, and as steadily
+maintained that all those bodies revolved around the earth fixed in
+the centre. Kepler, however, had the advantage of belonging to the
+new school. He utilised the observations of Tycho in developing the
+great Copernican theory whose teaching Tycho stoutly resisted.</p>
+
+<p>Perhaps a chapter in modern science may illustrate the intellectual
+relation of these great men. The revolution produced by Copernicus
+in the doctrine of the heavens has often been likened to the
+revolution which the Darwinian theory produced in the views held by
+biologists as to life on this earth. The Darwinian theory did not at
+first command universal assent even among those naturalists whose
+lives had been devoted with the greatest success to the study of
+organisms. Take, for instance, that great naturalist, Professor
+Owen, by whose labours vast extension has been given to our knowledge
+of the fossil animals which dwelt on the earth in past ages. Now,
+though Owens researches were intimately connected with the great
+labours of Darwin, and afforded the latter material for his
+epoch-making generalization, yet Owen deliberately refused to accept
+the new doctrines. Like Tycho, he kept on rigidly accumulating his
+facts under the influence of a set of ideas as to the origin of
+living forms which are now universally admitted to be erroneous. If,
+therefore, we liken Darwin to Copernicus, and Owen to Tycho, we may
+liken the biologists of the present day to Kepler, who interpreted
+the results of accurate observation upon sound theoretical
+principles.</p>
+
+<p>In reading the works of Kepler in the light of our modern knowledge
+we are often struck by the extent to which his perception of the
+sublimest truths in nature was associated with the most extravagant
+errors and absurdities. But, of course, it must be remembered that
+he wrote in an age in which even the rudiments of science, as we now
+understand it, were almost entirely unknown.</p>
+
+<p>It may well be doubted whether any joy experienced by mortals is more
+genuine than that which rewards the successful searcher after natural
+truths. Every science-worker, be his efforts ever so humble, will be
+able to sympathise with the enthusiastic delight of Kepler when at
+last, after years of toil, the glorious light broke forth, and that
+which he considered to be the greatest of his astonishing laws first
+dawned upon him. Kepler rightly judged that the number of days which
+a planet required to perform its voyage round the sun must be
+connected in some manner with the distance from the planet to the
+sun; that is to say, with the radius of the planet's orbit, inasmuch
+as we may for our present object regard the planet's orbit as
+circular.</p>
+
+<p>Here, again, in his search for the unknown law, Kepler had no
+accurate dynamical principles to guide his steps. Of course, we now
+know not only what the connection between the planet's distance and
+the planet's periodic time actually is, but we also know that it is a
+necessary consequence of the law of universal gravitation. Kepler,
+it is true, was not without certain surmises on the subject, but they
+were of the most fanciful description. His notions of the planets,
+accurate as they were in certain important respects, were mixed up
+with vague ideas as to the properties of metals and the geometrical
+relations of the regular solids. Above all, his reasoning was
+penetrated by the supposed astrological influences of the stars and
+their significant relation to human fate. Under the influence of
+such a farrago of notions, Kepler resolved to make all sorts of
+trials in his search for the connection between the distance of a
+planet from the sun and the time in which the revolution of that
+planet was accomplished.</p>
+
+<p>It was quite easily demonstrated that the greater the distance of the
+planet from the sun the longer was the time required for its
+journey. It might have been thought that the time would be directly
+proportional to the distance. It was, however, easy to show that
+this supposition did not agree with the fact. Finding that this
+simple relation would not do, Kepler undertook a vast series of
+calculations to find out the true method of expressing the
+connection. At last, after many vain attempts, he found, to his
+indescribable joy, that the square of the time in which a planet
+revolves around the sun was proportional to the cube of the average
+distance of the planet from that body.</p>
+
+<p>The extraordinary way in which Kepler's views on celestial matters
+were associated with the wildest speculations, is well illustrated in
+the work in which he propounded his splendid discovery just referred
+to. The announcement of the law connecting the distances of the
+planets from the sun with their periodic times, was then mixed up
+with a preposterous conception about the properties of the different
+planets. They were supposed to be associated with some profound
+music of the spheres inaudible to human ears, and performed only for
+the benefit of that being whose soul formed the animating spirit of
+the sun.</p>
+
+<p>Kepler was also the first astronomer who ever ventured to predict the
+occurrence of that remarkable phenomenon, the transit of a planet in
+front of the sun's disc. He published, in 1629, a notice to the
+curious in things celestial, in which he announced that both of the
+planets, Mercury and Venus, were to make a transit across the sun on
+specified days in the winter of 1631. The transit of Mercury was
+duly observed by Gassendi, and the transit of Venus also took place,
+though, as we now know, the circumstances were such that it was not
+possible for the phenomenon to be witnessed by any European
+astronomer.</p>
+
+<p>In addition to Kepler's discoveries already mentioned, with which his
+name will be for ever associated, his claim on the gratitude of
+astronomers chiefly depends on the publication of his famous
+Rudolphine tables. In this remarkable work means are provided for
+finding the places of the planets with far greater accuracy than had
+previously been attainable.</p>
+
+<p>Kepler, it must be always remembered, was not an astronomical
+observer. It was his function to deal with the observations made by
+Tycho, and, from close study and comparison of the results, to work
+out the movements of the heavenly bodies. It was, in fact, Tycho who
+provided as it were the raw material, while it was the genius of
+Kepler which wrought that material into a beautiful and serviceable
+form. For more than a century the Rudolphine tables were regarded as
+a standard astronomical work. In these days we are accustomed to
+find the movements of the heavenly bodies set forth with all
+desirable exactitude in the NAUTICAL ALMANACK, and the similar
+publication issued by foreign Governments. Let it be remembered that
+it was Kepler who first imparted the proper impulse in this
+direction.</p>
+
+<p><a name="commemoration"  id="commemoration"></a></p>
+
+<div class="figcenter" style="width: 447px;">
+<a href="images/ill_commemoration_rudolphine_tables.jpg">
+<img src="images/ill_commemoration_rudolphine_tables_sml.jpg" width="447" height="692" alt="THE COMMEMORATION OF THE RUDOLPHINE TABLES." title="" /></a>
+<span class="caption">THE COMMEMORATION OF THE RUDOLPHINE TABLES.</span>
+</div>
+
+<p>When Kepler was twenty-six he married an heiress from Styria, who,
+though only twenty-three years old, had already had some experience
+in matrimony. Her first husband had died; and it was after her
+second husband had divorced her that she received the addresses of
+Kepler. It will not be surprising to hear that his domestic affairs
+do not appear to have been particularly happy, and his wife died in
+1611. Two years later, undeterred by the want of success in his
+first venture, he sought a second partner, and he evidently
+determined not to make a mistake this time. Indeed, the methodical
+manner in which he made his choice of the lady to whom he should
+propose has been duly set forth by him and preserved for our
+edification. With some self-assurance he asserts that there were no
+fewer than eleven spinsters desirous of sharing his joys and
+sorrows. He has carefully estimated and recorded the merits and
+demerits of each of these would-be brides. The result of his
+deliberations was that he awarded himself to an orphan girl,
+destitute even of a portion. Success attended his choice, and his
+second marriage seems to have proved a much more suitable union than
+his first. He had five children by the first wife and seven by the
+second.</p>
+
+<p>The years of Kepler's middle life were sorely distracted by a trouble
+which, though not uncommon in those days, is one which we find it
+difficult to realise at the present time. His mother, Catherine
+Kepler, had attained undesirable notoriety by the suspicion that she
+was guilty of witchcraft. Years were spent in legal investigations,
+and it was only after unceasing exertions on the part of the
+astronomer for upwards of a twelve-month that he was finally able to
+procure her acquittal and release from prison.</p>
+
+<p>It is interesting for us to note that at one time there was a
+proposal that Kepler should forsake his native country and adopt
+England as a home. It arose in this wise. The great man was
+distressed throughout the greater part of his life by pecuniary
+anxieties. Finding him in a strait of this description, the English
+ambassador in Venice, Sir Henry Wotton, in the year 1620, besought
+Kepler to come over to England, where he assured him that he would
+obtain a favourable reception, and where, he was able to add,
+Kepler's great scientific work was already highly esteemed. But his
+efforts were unavailing; Kepler would not leave his own country. He
+was then forty-nine years of age, and doubtless a home in a foreign
+land, where people spoke a strange tongue, had not sufficient
+attraction for him, even when accompanied with the substantial
+inducements which the ambassador was able to offer. Had Kepler
+accepted this invitation, he would, in transferring his home to
+England, have anticipated the similar change which took place in the
+career of another great astronomer two centuries later. It will be
+remembered that Herschel, in his younger days, did transfer himself
+to England, and thus gave to England the imperishable fame of
+association with his triumphs.</p>
+
+<p>The publication of the Rudolphine tables of the celestial movements
+entailed much expense. A considerable part of this was defrayed by
+the Government at Venice but the balance occasioned no little trouble
+and anxiety to Kepler. No doubt the authorities of those days were
+even less willing to spend money on scientific matters than are the
+Governments of more recent times. For several years the imperial
+Treasury was importuned to relieve him from his anxieties. The
+effects of so much worry, and of the long journeys which were
+involved, at last broke down Kepler's health completely. As we have
+already mentioned, he had never been strong from infancy, and he
+finally succumbed to a fever in November, 1630, at the age of
+fifty-nine. He was interred at St. Peter's Church at Ratisbon.</p>
+
+<p>Though Kepler had not those personal characteristics which have made
+his great predecessor, Tycho Brahe, such a romantic figure, yet a
+picturesque element in Kepler's character is not wanting. It was,
+however, of an intellectual kind. His imagination, as well as his
+reasoning faculties, always worked together. He was incessantly
+prompted by the most extraordinary speculations. The great majority
+of them were in a high degree wild and chimerical, but every now and
+then one of his fancies struck right to the heart of nature, and an
+immortal truth was brought to light.</p>
+
+<p>I remember visiting the observatory of one of our greatest modern
+astronomers, and in a large desk he showed me a multitude of
+photographs which he had attempted but which had not been successful,
+and then he showed me the few and rare pictures which had succeeded,
+and by which important truths had been revealed. With a felicity of
+expression which I have often since thought of, he alluded to the
+contents of the desk as the "chips." They were useless, but they
+were necessary incidents in the truly successful work. So it is in
+all great and good work. Even the most skilful man of science
+pursues many a wrong scent. Time after time he goes off on some
+track that plays him false. The greater the man's genius and
+intellectual resource, the more numerous will be the ventures which
+he makes, and the great majority of those ventures are certain to be
+fruitless. They are in fact, the "chips." In Kepler's case the
+chips were numerous enough. They were of the most extraordinary
+variety and structure. But every now and then a sublime discovery
+was made of such a character as to make us regard even the most
+fantastic of Kepler's chips with the greatest veneration and respect.</p>
+
+<h3><a name="ISAAC_NEWTON" id="ISAAC_NEWTON"></a>ISAAC NEWTON.</h3>
+<p>It was just a year after the death of Galileo, that an infant came
+into the world who was christened Isaac Newton. Even the great fame
+of Galileo himself must be relegated to a second place in comparison
+with that of the philosopher who first expounded the true theory of
+the universe.</p>
+
+<p>Isaac Newton was born on the 25th of December (old style), 1642, at
+Woolsthorpe, in Lincolnshire, about a half-mile from Colsterworth,
+and eight miles south of Grantham. His father, Mr. Isaac Newton, had
+died a few months after his marriage to Harriet Ayscough, the
+daughter of Mr. James Ayscough, of Market Overton, in Rutlandshire.
+The little Isaac was at first so excessively frail and weakly that
+his life was despaired of. The watchful mother, however, tended her
+delicate child with such success that he seems to have thriven better
+than might have been expected from the circumstances of his infancy,
+and he ultimately acquired a frame strong enough to outlast the
+ordinary span of human life.</p>
+
+<p>For three years they continued to live at Woolsthorpe, the widow's
+means of livelihood being supplemented by the income from another
+small estate at Sewstern, in a neighbouring part of Leicestershire.</p>
+
+<p><a name="woolsthorpe"  id="woolsthorpe"></a></p>
+
+<div class="figcenter" style="width: 312px;">
+<a href="images/ill_woolsthorpe_manor.jpg">
+<img src="images/ill_woolsthorpe_manor_sml.jpg" width="312" height="185" alt="WOOLSTHORPE MANOR.
+Showing solar dial made by Newton when a boy." title="" /></a>
+<span class="caption">WOOLSTHORPE MANOR.
+Showing solar dial made by Newton when a boy.</span>
+</div>
+
+<p>In 1645, Mrs. Newton took as a second husband the Rev. Barnabas
+Smith, and on moving to her new home, about a mile from Woolsthorpe,
+she entrusted little Isaac to her mother, Mrs. Ayscough. In due
+time we find that the boy was sent to the public school at Grantham,
+the name of the master being Stokes. For the purpose of being near
+his work, the embryo philosopher was boarded at the house of Mr.
+Clark, an apothecary at Grantham. We learn from Newton himself that
+at first he had a very low place in the class lists of the school,
+and was by no means one of those model school-boys who find favour in
+the eyes of the school-master by attention to Latin grammar. Isaac's
+first incentive to diligent study seems to have been derived from the
+circumstance that he was severely kicked by one of the boys who was
+above him in the class. This indignity had the effect of stimulating
+young Newton's activity to such an extent that he not only attained
+the desired object of passing over the head of the boy who had
+maltreated him, but continued to rise until he became the head of the
+school.</p>
+
+<p>The play-hours of the great philosopher were devoted to pursuits very
+different from those of most school-boys. His chief amusement was
+found in making mechanical toys and various ingenious contrivances.
+He watched day by day with great interest the workmen engaged in
+constructing a windmill in the neighbourhood of the school, the
+result of which was that the boy made a working model of the windmill
+and of its machinery, which seems to have been much admired, as
+indicating his aptitude for mechanics. We are told that Isaac also
+indulged in somewhat higher flights of mechanical enterprise. He
+constructed a carriage, the wheels of which were to be driven by the
+hands of the occupant, while the first philosophical instrument he
+made was a clock, which was actuated by water. He also devoted much
+attention to the construction of paper kites, and his skill in this
+respect was highly appreciated by his school-fellows. Like a true
+philosopher, even at this stage he experimented on the best methods
+of attaching the string, and on the proportions which the tail ought
+to have. He also made lanthorns of paper to provide himself with
+light as he walked to school in the dark winter mornings.</p>
+
+<p>The only love affair in Newton's life appears to have commenced while
+he was still of tender years. The incidents are thus described in
+Brewster's "Life of Newton," a work to which I am much indebted in
+this chapter.</p>
+
+<p>"In the house where he lodged there were some female inmates, in
+whose company he appears to have taken much pleasure. One of these,
+a Miss Storey, sister to Dr. Storey, a physician at Buckminster, near
+Colsterworth, was two or three years younger than Newton and to great
+personal attractions she seems to have added more than the usual
+allotment of female talent. The society of this young lady and her
+companions was always preferred to that of his own school-fellows,
+and it was one of his most agreeable occupations to construct for
+them little tables and cupboards, and other utensils for holding
+their dolls and their trinkets. He had lived nearly six years in the
+same house with Miss Storey, and there is reason to believe that
+their youthful friendship gradually rose to a higher passion; but the
+smallness of her portion, and the inadequacy of his own fortune,
+appear to have prevented the consummation of their happiness. Miss
+Storey was afterwards twice married, and under the name of Mrs.
+Vincent, Dr. Stukeley visited her at Grantham in 1727, at the age of
+eighty-two, and obtained from her many particulars respecting the
+early history of our author. Newton's esteem for her continued
+unabated during his life. He regularly visited her when he went to
+Lincolnshire, and never failed to relieve her from little pecuniary
+difficulties which seem to have beset her family."</p>
+
+<p>The schoolboy at Grantham was only fourteen years of age when his
+mother became a widow for the second time. She then returned to the
+old family home at Woolsthorpe, bringing with her the three children
+of her second marriage. Her means appear to have been somewhat
+scanty, and it was consequently thought necessary to recall Isaac
+from the school. His recently-born industry had been such that he
+had already made good progress in his studies, and his mother hoped
+that he would now lay aside his books, and those silent meditations
+to which, even at this early age, he had become addicted. It was
+expected that, instead of such pursuits, which were deemed quite
+useless, the boy would enter busily into the duties of the farm and
+the details of a country life. But before long it became manifest
+that the study of nature and the pursuit of knowledge had such a
+fascination for the youth that he could give little attention to
+aught else. It was plain that he would make but an indifferent
+farmer. He greatly preferred experimenting on his water-wheels to
+looking after labourers, while he found that working at mathematics
+behind a hedge was much more interesting than chaffering about the
+price of bullocks in the market place. Fortunately for humanity his
+mother, like a wise woman, determined to let her boy's genius have
+the scope which it required. He was accordingly sent back to
+Grantham school, with the object of being trained in the knowledge
+which would fit him for entering the University of Cambridge.</p>
+
+<p><a name="trinity"  id="trinity"></a></p>
+
+<div class="figcenter" style="width: 325px;">
+<a href="images/ill_trinity_college.jpg">
+<img src="images/ill_trinity_college_sml.jpg" width="325" height="410" alt="TRINITY COLLEGE, CAMBRIDGE.
+Showing Newton&#39;s rooms; on the leads of the gateway he placed
+his telescope." title="" /></a>
+<span class="caption">TRINITY COLLEGE, CAMBRIDGE.
+Showing Newton&#39;s rooms; on the leads of the gateway he placed
+his telescope.</span>
+</div>
+
+<p>It was the 5th of June, 1660, when Isaac Newton, a youth of eighteen,
+was enrolled as an undergraduate of Trinity College, Cambridge.
+Little did those who sent him there dream that this boy was destined
+to be the most illustrious student who ever entered the portals of
+that great seat of learning. Little could the youth himself have
+foreseen that the rooms near the gateway which he occupied would
+acquire a celebrity from the fact that he dwelt in them, or that the
+ante-chapel of his college was in good time to be adorned by that
+noble statue, which is regarded as one of the chief art treasures of
+Cambridge University, both on account of its intrinsic beauty and the
+fact that it commemorates the fame of her most distinguished alumnus,
+Isaac Newton, the immortal astronomer. Indeed, his advent at the
+University seemed to have been by no means auspicious or brilliant.
+His birth was, as we have seen, comparatively obscure, and though he
+had already given indication of his capacity for reflecting on
+philosophical matters, yet he seems to have been but ill-equipped
+with the routine knowledge which youths are generally expected to
+take with them to the Universities.</p>
+
+<p>From the outset of his college career, Newton's attention seems to
+have been mainly directed to mathematics. Here he began to give
+evidence of that marvellous insight into the deep secrets of nature
+which more than a century later led so dispassionate a judge as
+Laplace to pronounce Newton's immortal work as pre-eminent above all
+the productions of the human intellect. But though Newton was one of
+the very greatest mathematicians that ever lived, he was never a
+mathematician for the mere sake of mathematics. He employed his
+mathematics as an instrument for discovering the laws of nature. His
+industry and genius soon brought him under the notice of the
+University authorities. It is stated in the University records that
+he obtained a Scholarship in 1664. Two years later we find that
+Newton, as well as many residents in the University, had to leave
+Cambridge temporarily on account of the breaking out of the plague.
+The philosopher retired for a season to his old home at Woolsthorpe,
+and there he remained until he was appointed a Fellow of Trinity
+College, Cambridge, in 1667. From this time onwards, Newton's
+reputation as a mathematician and as a natural philosopher steadily
+advanced, so that in 1669, while still but twenty-seven years of age,
+he was appointed to the distinguished position of Lucasian Professor
+of Mathematics at Cambridge. Here he found the opportunity to
+continue and develop that marvellous career of discovery which formed
+his life's work.</p>
+
+<p>The earliest of Newton's great achievements in natural philosophy was
+his detection of the composite character of light. That a beam of
+ordinary sunlight is, in fact, a mixture of a very great number of
+different-coloured lights, is a doctrine now familiar to every one
+who has the slightest education in physical science. We must,
+however, remember that this discovery was really a tremendous advance
+in knowledge at the time when Newton announced it.</p>
+
+<p><a name="diagram"  id="diagram"></a></p>
+
+<div class="figcenter" style="width: 390px;">
+<a href="images/ill_diagram_sunbeam.jpg">
+<img src="images/ill_diagram_sunbeam_sml.jpg" width="390" height="163" alt="DIAGRAM OF A SUNBEAM." title="" /></a>
+<span class="caption">DIAGRAM OF A SUNBEAM.</span>
+</div>
+
+<p>We here give the little diagram originally drawn by Newton, to
+explain the experiment by which he first learned the composition of
+light. A sunbeam is admitted into a darkened room through an
+opening, H, in a shutter. This beam when not interfered with will
+travel in a straight line to the screen, and there reproduce a bright
+spot of the same shape as the hole in the shutter. If, however, a
+prism of glass, A B C, be introduced so that the beam traverse it,
+then it will be seen at once that the light is deflected from its
+original track. There is, however, a further and most important
+change which takes place. The spot of light is not alone removed to
+another part of the screen, but it becomes spread out into a long
+band beautifully coloured, and exhibiting the hues of the rainbow. At
+the top are the violet rays, and then in descending order we have the
+indigo, blue, green, yellow, orange, and red.</p>
+
+<p>The circumstance in this phenomenon which appears to have
+particularly arrested Newton's attention, was the elongation which
+the luminous spot underwent in consequence of its passage through the
+prism. When the prism was absent the spot was nearly circular, but
+when the prism was introduced the spot was about five times as long
+as it was broad. To ascertain the explanation of this was the first
+problem to be solved. It seemed natural to suppose that it might be
+due to the thickness of the glass in the prism which the light
+traversed, or to the angle of incidence at which the light fell upon
+the prism. He found, however, upon careful trial, that the phenomenon
+could not be thus accounted for. It was not until after much patient
+labour that the true explanation dawned upon him. He discovered that
+though the beam of white light looks so pure and so simple, yet in
+reality it is composed of differently coloured lights blended
+together. These are, of course, indistinguishable in the compound
+beam, but they are separated or disentangled, so to speak, by the
+action of the prism. The rays at the blue end of the spectrum are
+more powerfully deflected by the action of the glass than are the
+rays at the red end. Thus, the rays variously coloured red, orange,
+yellow, green, blue, indigo, violet, are each conducted to a
+different part of the screen. In this way the prism has the effect
+of exhibiting the constitution of the composite beam of light.</p>
+
+<p>To us this now seems quite obvious, but Newton did not adopt it
+hastily. With characteristic caution he verified the explanation by
+many different experiments, all of which confirmed his discovery. One
+of these may be mentioned. He made a hole in the screen at that part
+on which the violet rays fell. Thus a violet ray was allowed to pass
+through, all the rest of the light being intercepted, and on this
+beam so isolated he was able to try further experiments. For
+instance, when he interposed another prism in its path, he found, as
+he expected, that it was again deflected, and he measured the amount
+of the deflection. Again he tried the same experiment with one of
+the red rays from the opposite end of the coloured band. He allowed
+it to pass through the same aperture in the screen, and he tested the
+amount by which the second prism was capable of producing deflection.
+He thus found, as he had expected to find, that the second prism was
+more efficacious in bending the violet rays than in bending the red
+rays. Thus he confirmed the fact that the various hues of the
+rainbow were each bent by a prism to a different extent, violet being
+acted upon the most, and red the least.</p>
+
+<p><a name="isaac"  id="isaac"></a></p>
+
+<div class="figcenter" style="width: 390px;">
+<a href="images/ill_newton.jpg">
+<img src="images/ill_newton_sml.jpg" width="390" height="469" alt="ISAAC NEWTON." title="" /></a>
+<span class="caption">ISAAC NEWTON.</span>
+</div>
+
+<p>Not only did Newton decompose a white beam into its constituent
+colours, but conversely by interposing a second prism with its angle
+turned upwards, he reunited the different colours, and thus
+reproduced the original beam of white light. In several other ways
+also he illustrated his famous proposition, which then seemed so
+startling, that white light was the result of a mixture of all hues
+of the rainbow. By combining painters' colours in the right
+proportion he did not indeed succeed in producing a mixture which
+would ordinarily be called white, but he obtained a grey pigment.
+Some of this he put on the floor of his room for comparison with a
+piece of white paper. He allowed a beam of bright sunlight to fall
+upon the paper and the mixed colours side by side, and a friend he
+called in for his opinion pronounced that under these circumstances
+the mixed colours looked the whiter of the two.</p>
+
+<p>By repeated demonstrations Newton thus established his great
+discovery of the composite character of light. He at once perceived
+that his researches had an important bearing upon the principles
+involved in the construction of a telescope. Those who employed the
+telescope for looking at the stars, had been long aware of the
+imperfections which prevented all the various rays from being
+conducted to the same focus. But this imperfection had hitherto been
+erroneously accounted for. It had been supposed that the reason why
+success had not been attained in the construction of a refracting
+telescope was due to the fact that the object glass, made as it then
+was of a single piece, had not been properly shaped. Mathematicians
+had abundantly demonstrated that a single lens, if properly figured,
+must conduct all rays of light to the same focus, provided all rays
+experienced equal refraction in passing through the glass. Until
+Newton's discovery of the composition of white light, it had been
+taken for granted that the several rays in a white beam were equally
+refrangible. No doubt if this had been the case, a perfect telescope
+could have been produced by properly shaping the object glass. But
+when Newton had demonstrated that light was by no means so simple as
+had been supposed, it became obvious that a satisfactory refracting
+telescope was an impossibility when only a single object lens was
+employed, however carefully that lens might have been wrought. Such
+an objective might, no doubt, be made to conduct any one group of
+rays of a particular shade to the same focus, but the rays of other
+colours in the beam of white light must necessarily travel somewhat
+astray. In this way Newton accounted for a great part of the
+difficulties which had hitherto beset the attempts to construct a
+perfect refracting telescope.</p>
+
+<p>We now know how these difficulties can be, to a great extent,
+overcome, by employing for the objective a composite lens made of two
+pieces of glass possessing different qualities. To these achromatic
+object glasses, as they are called, the great development of
+astronomical knowledge, since Newton's time, is due. But it must be
+remarked that, although the theoretical possibility of constructing
+an achromatic lens was investigated by Newton, he certainly came to
+the conclusion that the difficulty could not be removed by employing
+a composite objective, with two different kinds of glass. In this
+his marvellous sagacity in the interpretation of nature seems for
+once to have deserted him. We can, however, hardly regret that
+Newton failed to discover the achromatic objective, when we observe
+that it was in consequence of his deeming an achromatic objective to
+be impossible that he was led to the invention of the reflecting
+telescope. Finding, as he believed, that the defects of the
+telescope could not be remedied by any application of the principle
+of refraction he was led to look in quite a different direction for
+the improvement of the tool on which the advancement of astronomy
+depended. The REFRACTION of light depended as he had found, upon the
+colour of the light. The laws of REFLECTION were, however, quite
+independent of the colour. Whether rays be red or green, blue or
+yellow, they are all reflected in precisely the same manner from a
+mirror. Accordingly, Newton perceived that if he could construct a
+telescope the action of which depended upon reflection, instead of
+upon refraction, the difficulty which had hitherto proved an
+insuperable obstacle to the improvement of the instrument would be
+evaded.</p>
+
+<p><a name="newton_reflector"  id="newton_reflector"></a></p>
+
+<div class="figcenter" style="width: 278px;">
+<a href="images/ill_little_reflector.jpg">
+<img src="images/ill_little_reflector_sml.jpg" width="278" height="284" alt="SIR ISAAC NEWTON&#39;S LITTLE REFLECTOR." title="" /></a>
+<span class="caption">SIR ISAAC NEWTON&#39;S LITTLE REFLECTOR.</span>
+</div>
+
+<p>For this purpose Newton fashioned a concave mirror from a mixture of
+copper and tin, a combination which gives a surface with almost the
+lustre of silver. When the light of a star fell upon the surface, an
+image of the star was produced in the focus of this mirror, and then
+this image was examined by a magnifying eye-piece. Such is the
+principle of the famous reflecting telescope which bears the name of
+Newton. The little reflector which he constructed, represented in
+the adjoining figure, is still preserved as one of the treasures of
+the Royal Society. The telescope tube had the very modest dimension
+of one inch in diameter. It was, however, the precursor of a whole
+series of magnificent instruments, each outstripping the other in
+magnitude, until at last the culminating point was attained in 1845,
+by the construction of Lord Rosse's mammoth reflector of six feet in
+aperture.</p>
+
+<p>Newton's discovery of the composition of light led to an embittered
+controversy, which caused no little worry to the great Philosopher.
+Some of those who attacked him enjoyed considerable and, it must be
+admitted, even well-merited repute in the ranks of science. They
+alleged, however, that the elongation of the coloured band which
+Newton had noticed was due to this, to that, or to the other&mdash;to
+anything, in fact, rather than to the true cause which Newton
+assigned. With characteristic patience and love of truth, Newton
+steadily replied to each such attack. He showed most completely how
+utterly his adversaries had misunderstood the subject, and how slight
+indeed was their acquaintance with the natural phenomenon in
+question. In reply to each point raised, he was ever able to cite
+fresh experiments and adduce fresh illustrations, until at last his
+opponents retired worsted from the combat.</p>
+
+<p>It has been often a matter for surprise that Newton, throughout his
+whole career, should have taken so much trouble to expose the errors
+of those who attacked his views. He used even to do this when it
+plainly appeared that his adversaries did not understand the subject
+they were discussing. A philosopher might have said, "I know I am
+right, and whether others think I am right or not may be a matter of
+concern to them, but it is certainly not a matter about which I need
+trouble. If after having been told the truth they elect to remain in
+error, so much the worse for them; my time can be better employed
+than in seeking to put such people right." This, however, was not
+Newton's method. He spent much valuable time in overthrowing
+objections which were often of a very futile description. Indeed, he
+suffered a great deal of annoyance from the persistency, and in some
+cases one might almost say from the rancour, of the attacks which
+were made upon him. Unfortunately for himself, he did not possess
+that capacity for sublime indifference to what men may say, which is
+often the happy possession of intellects greatly inferior to his.</p>
+
+<p>The subject of optics still continuing to engross Newton's attention,
+he followed up his researches into the structure of the sunbeam by
+many other valuable investigations in connection with light. Every
+one has noticed the beautiful colours manifested in a soap-bubble.
+Here was a subject which not unnaturally attracted the attention of
+one who had expounded the colours of the spectrum with such success.
+He perceived that similar hues were produced by other thin plates of
+transparent material besides soap-bubbles, and his ingenuity was
+sufficient to devise a method by which the thicknesses of the
+different films could be measured. We can hardly, indeed, say that a
+like success attended his interpretation of these phenomena to that
+which had been so conspicuous in his explanation of the spectrum. It
+implies no disparagement to the sublime genius of Newton to admit
+that the doctrines he put forth as to the causes of the colours in
+the soap-bubbles can be no longer accepted. We must remember that
+Newton was a pioneer in accounting for the physical properties of
+light. The facts that he established are indeed unquestionable, but
+the explanations which he was led to offer of some of them are seen
+to be untenable in the fuller light of our present knowledge.</p>
+
+<p><a name="sun-dial"  id="sun-dial"></a></p>
+
+<div class="figcenter" style="width: 402px;">
+<a href="images/ill_newton_sundial.jpg">
+<img src="images/ill_newton_sundial_sml.jpg" width="402" height="485" alt="SIR ISAAC NEWTON&#39;S SUN-DIAL." title="" /></a>
+<span class="caption">SIR ISAAC NEWTON&#39;S SUN-DIAL.</span>
+</div>
+
+<p>Had Newton done nothing beyond making his wonderful discoveries in
+light, his fame would have gone down to posterity as one of the
+greatest of Nature's interpreters. But it was reserved for him to
+accomplish other discoveries, which have pushed even his analysis of
+the sunbeam into the background; it is he who has expounded the
+system of the universe by the discovery of the law of universal
+gravitation.</p>
+
+<p>The age had indeed become ripe for the advent of the genius of
+Newton. Kepler had discovered with marvellous penetration the laws
+which govern the movements of the planets around the sun, and in
+various directions it had been more or less vaguely felt that the
+explanation of Kepler's laws, as well as of many other phenomena,
+must be sought for in connection with the attractive power of
+matter. But the mathematical analysis which alone could deal with
+this subject was wanting; it had to be created by Newton.</p>
+
+<p>At Woolsthorpe, in the year 1666, Newton's attention appears to have
+been concentrated upon the subject of gravitation. Whatever may be
+the extent to which we accept the more or less mythical story as to
+how the fall of an apple first directed the attention of the
+philosopher to the fact that gravitation must extend through space,
+it seems, at all events, certain that this is an excellent
+illustration of the line of reasoning which he followed. He argued
+in this way. The earth attracts the apple; it would do so, no matter
+how high might be the tree from which that apple fell. It would then
+seem to follow that this power which resides in the earth by which it
+can draw all external bodies towards it, extends far beyond the
+altitude of the loftiest tree. Indeed, we seem to find no limit to
+it. At the greatest elevation that has ever been attained, the
+attractive power of the earth is still exerted, and though we cannot
+by any actual experiment reach an altitude more than a few miles
+above the earth, yet it is certain that gravitation would extend to
+elevations far greater. It is plain, thought Newton, that an apple
+let fall from a point a hundred miles above this earth's surface,
+would be drawn down by the attraction, and would continually gather
+fresh velocity until it reached the ground. From a hundred miles it
+was natural to think of what would happen at a thousand miles, or at
+hundreds of thousands of miles. No doubt the intensity of the
+attraction becomes weaker with every increase in the altitude, but
+that action would still exist to some extent, however lofty might be
+the elevation which had been attained.</p>
+
+<p>It then occurred to Newton, that though the moon is at a distance of
+two hundred and forty thousand miles from the earth, yet the
+attractive power of the earth must extend to the moon. He was
+particularly led to think of the moon in this connection, not only
+because the moon is so much closer to the earth than are any other
+celestial bodies, but also because the moon is an appendage to the
+earth, always revolving around it. The moon is certainly attracted
+to the earth, and yet the moon does not fall down; how is this to be
+accounted for? The explanation was to be found in the character of
+the moon's present motion. If the moon were left for a moment at
+rest, there can be no doubt that the attraction of the earth would
+begin to draw the lunar globe in towards our globe. In the course of
+a few days our satellite would come down on the earth with a most
+fearful crash. This catastrophe is averted by the circumstance that
+the moon has a movement of revolution around the earth. Newton was
+able to calculate from the known laws of mechanics, which he had
+himself been mainly instrumental in discovering, what the attractive
+power of the earth must be, so that the moon shall move precisely as
+we find it to move. It then appeared that the very power which makes
+an apple fall at the earth's surface is the power which guides the
+moon in its orbit.</p>
+
+<p><a name="newton_telescope"  id="newton_telescope"></a></p>
+
+<div class="figcenter" style="width: 378px;">
+<a href="images/ill_newton_telescope.jpg">
+<img src="images/ill_newton_telescope_sml.jpg" width="378" height="202" alt="SIR ISAAC NEWTON&#39;S TELESCOPE." title="" /></a>
+<span class="caption">SIR ISAAC NEWTON&#39;S TELESCOPE.</span>
+</div>
+
+<p>Once this step had been taken, the whole scheme of the universe might
+almost be said to have become unrolled before the eye of the
+philosopher. It was natural to suppose that just as the moon was
+guided and controlled by the attraction of the earth, so the earth
+itself, in the course of its great annual progress, should be guided
+and controlled by the supreme attractive power of the sun. If this
+were so with regard to the earth, then it would be impossible to
+doubt that in the same way the movements of the planets could be
+explained to be consequences of solar attraction.</p>
+
+<p>It was at this point that the great laws of Kepler became especially
+significant. Kepler had shown how each of the planets revolves in an
+ellipse around the sun, which is situated on one of the foci. This
+discovery had been arrived at from the interpretation of
+observations. Kepler had himself assigned no reason why the orbit of
+a planet should be an ellipse rather than any other of the infinite
+number of closed curves which might be traced around the sun. Kepler
+had also shown, and here again he was merely deducing the results
+from observation, that when the movements of two planets were
+compared together, the squares of the periodic times in which each
+planet revolved were proportional to the cubes of their mean
+distances from the sun. This also Kepler merely knew to be true as a
+fact, he gave no demonstration of the reason why nature should have
+adopted this particular relation between the distance and the
+periodic time rather than any other. Then, too, there was the law by
+which Kepler with unparalleled ingenuity, explained the way in which
+the velocity of a planet varies at the different points of its track,
+when he showed how the line drawn from the sun to the planet
+described equal areas around the sun in equal times. These were the
+materials with which Newton set to work. He proposed to infer from
+these the actual laws regulating the force by which the sun guides
+the planets. Here it was that his sublime mathematical genius came
+into play. Step by step Newton advanced until he had completely
+accounted for all the phenomena.</p>
+
+<p>In the first place, he showed that as the planet describes equal
+areas in equal times about the sun, the attractive force which the
+sun exerts upon it must necessarily be directed in a straight line
+towards the sun itself. He also demonstrated the converse truth,
+that whatever be the nature of the force which emanated from a sun,
+yet so long as that force was directed through the sun's centre, any
+body which revolved around it must describe equal areas in equal
+times, and this it must do, whatever be the actual character of the
+law according to which the intensity of the force varies at different
+parts of the planet's journey. Thus the first advance was taken in
+the exposition of the scheme of the universe.</p>
+
+<p>The next step was to determine the law according to which the force
+thus proved to reside in the sun varied with the distance of the
+planet. Newton presently showed by a most superb effort of
+mathematical reasoning, that if the orbit of a planet were an ellipse
+and if the sun were at one of the foci of that ellipse, the intensity
+of the attractive force must vary inversely as the square of the
+planet's distance. If the law had any other expression than the
+inverse square of the distance, then the orbit which the planet must
+follow would not be an ellipse; or if an ellipse, it would, at all
+events, not have the sun in the focus. Hence he was able to show
+from Kepler's laws alone that the force which guided the planets was
+an attractive power emanating from the sun, and that the intensity of
+this attractive power varied with the inverse square of the distance
+between the two bodies.</p>
+
+<p>These circumstances being known, it was then easy to show that the
+last of Kepler's three laws must necessarily follow. If a number of
+planets were revolving around the sun, then supposing the materials
+of all these bodies were equally affected by gravitation, it can be
+demonstrated that the square of the periodic time in which each
+planet completes its orbit is proportional to the cube of the
+greatest diameter in that orbit.</p>
+
+<p><a name="newton_astrolabe"  id="newton_astrolabe"></a></p>
+
+<div class="figcenter" style="width: 419px;">
+<a href="images/ill_newton_astrolabe.jpg">
+<img src="images/ill_newton_astrolabe_sml.jpg" width="419" height="511" alt="SIR ISAAC NEWTON&#39;S ASTROLABE." title="" /></a>
+<span class="caption">SIR ISAAC NEWTON&#39;S ASTROLABE.</span>
+</div>
+
+<p>These superb discoveries were, however, but the starting point from
+which Newton entered on a series of researches, which disclosed many
+of the profoundest secrets in the scheme of celestial mechanics. His
+natural insight showed that not only large masses like the sun and
+the earth, and the moon, attract each other, but that every particle
+in the universe must attract every other particle with a force which
+varies inversely as the square of the distance between them. If, for
+example, the two particles were placed twice as far apart, then the
+intensity of the force which sought to bring them together would be
+reduced to one-fourth. If two particles, originally ten miles
+asunder, attracted each other with a certain force, then, when the
+distance was reduced to one mile, the intensity of the attraction
+between the two particles would be increased one-hundred-fold. This
+fertile principle extends throughout the whole of nature. In some
+cases, however, the calculation of its effect upon the actual
+problems of nature would be hardly possible, were it not for another
+discovery which Newton's genius enabled him to accomplish. In the
+case of two globes like the earth and the moon, we must remember that
+we are dealing not with particles, but with two mighty masses of
+matter, each composed of innumerable myriads of particles. Every
+particle in the earth does attract every particle in the moon with a
+force which varies inversely as the square of their distance. The
+calculation of such attractions is rendered feasible by the following
+principle. Assuming that the earth consists of materials
+symmetrically arranged in shells of varying densities, we may then,
+in calculating its attraction, regard the whole mass of the globe as
+concentrated at its centre. Similarly we may regard the moon as
+concentrated at the centre of its mass. In this way the earth and
+the moon can both be regarded as particles in point of size, each
+particle having, however, the entire mass of the corresponding
+globe. The attraction of one particle for another is a much more
+simple matter to investigate than the attraction of the myriad
+different points of the earth upon the myriad different points of the
+moon.</p>
+
+<p>Many great discoveries now crowded in upon Newton. He first of all
+gave the explanation of the tides that ebb and flow around our
+shores. Even in the earliest times the tides had been shown to be
+related to the moon. It was noticed that the tides were specially
+high during full moon or during new moon, and this circumstance
+obviously pointed to the existence of some connection between the
+moon and these movements of the water, though as to what that
+connection was no one had any accurate conception until Newton
+announced the law of gravitation. Newton then made it plain that the
+rise and fall of the water was simply a consequence of the attractive
+power which the moon exerted upon the oceans lying upon our globe. He
+showed also that to a certain extent the sun produces tides, and he
+was able to explain how it was that when the sun and the moon both
+conspire, the joint result was to produce especially high tides,
+which we call "spring tides"; whereas if the solar tide was low,
+while the lunar tide was high, then we had the phenomenon of "neap"
+tides.</p>
+
+<p>But perhaps the most signal of Newton's applications of the law of
+gravitation was connected with certain irregularities in the
+movements of the moon. In its orbit round the earth our satellite
+is, of course, mainly guided by the great attraction of our globe. If
+there were no other body in the universe, then the centre of the moon
+must necessarily perform an ellipse, and the centre of the earth
+would lie in the focus of that ellipse. Nature, however, does not
+allow the movements to possess the simplicity which this arrangement
+would imply, for the sun is present as a source of disturbance. The
+sun attracts the moon, and the sun attracts the earth, but in
+different degrees, and the consequence is that the moon's movement
+with regard to the earth is seriously affected by the influence of
+the sun. It is not allowed to move exactly in an ellipse, nor is the
+earth exactly in the focus. How great was Newton's achievement in
+the solution of this problem will be appreciated if we realise that
+he not only had to determine from the law of gravitation the nature
+of the disturbance of the moon, but he had actually to construct the
+mathematical tools by which alone such calculations could be
+effected.</p>
+
+<p>The resources of Newton's genius seemed, however, to prove equal to
+almost any demand that could be made upon it. He saw that each
+planet must disturb the other, and in that way he was able to render
+a satisfactory account of certain phenomena which had perplexed all
+preceding investigators. That mysterious movement by which the pole
+of the earth sways about among the stars had been long an unsolved
+enigma, but Newton showed that the moon grasped with its attraction
+the protuberant mass at the equatorial regions of the earth, and thus
+tilted the earth's axis in a way that accounted for the phenomenon
+which had been known but had never been explained for two thousand
+years. All these discoveries were brought together in that immortal
+work, Newton's "Principia."</p>
+
+<p>Down to the year 1687, when the "Principia" was published, Newton had
+lived the life of a recluse at Cambridge, being entirely occupied
+with those transcendent researches to which we have referred. But in
+that year he issued from his seclusion under circumstances of
+considerable historical interest. King James the Second attempted an
+invasion of the rights and privileges of the University of Cambridge
+by issuing a command that Father Francis, a Benedictine monk, should
+be received as a Master of Arts in the University, without having taken
+the oaths of allegiance and supremacy. With this arbitrary command
+the University sternly refused to comply. The Vice-Chancellor was
+accordingly summoned to answer for an act of contempt to the authority
+of the Crown. Newton was one of nine delegates who were chosen to
+defend the independence of the University before the High Court.
+They were able to show that Charles the Second, who had issued a
+MANDAMUS under somewhat similar circumstances, had been induced after
+due consideration to withdraw it. This argument appeared satisfactory,
+and the University gained their case. Newton's next step in public
+life was his election, by a narrow majority, as member for the
+University, and during the years 1688 and 1689, he seems to have
+attended to his parliamentary duties with considerable regularity.</p>
+
+<p>An incident which happened in 1692 was apparently the cause of
+considerable disturbance in Newton's equanimity, if not in his
+health. He had gone to early morning chapel, leaving a lighted
+candle among his papers on his desk. Tradition asserts that his
+little dog "Diamond" upset the candle; at all events, when Newton
+came back he found that many valuable papers had perished in a
+conflagration. The loss of these manuscripts seems to have had a
+serious effect. Indeed, it has been asserted that the distress
+reduced Newton to a state of mental aberration for a considerable
+time. This has, apparently, not been confirmed, but there is no
+doubt that he experienced considerable disquiet, for in writing on
+September 13th, 1693, to Mr. Pepys, he says:</p>
+
+<p>"I am extremely troubled at the embroilment I am in, and have
+neither ate nor slept well this twelve-month, nor have my former
+consistency of mind."</p>
+
+<p>Notwithstanding the fame which Newton had achieved, by the
+publication of his, "Principia," and by all his researches, the State
+had not as yet taken any notice whatever of the most illustrious man
+of science that this or any other country has ever produced. Many of
+his friends had exerted themselves to procure him some permanent
+appointment, but without success. It happened, however, that Mr.
+Montagu, who had sat with Newton in Parliament, was appointed
+Chancellor of the Exchequer in 1694. Ambitious of distinction in his
+new office, Mr. Montagu addressed himself to the improvement of the
+current coin, which was then in a very debased condition. It
+fortunately happened that an opportunity occurred of appointing a new
+official in the Mint; and Mr. Montagu on the 19th of March, 1695,
+wrote to offer Mr. Newton the position of warden. The salary was to
+be five or six hundred a year, and the business would not require
+more attendance than Newton could spare. The Lucasian professor
+accepted this post, and forthwith entered upon his new duties.</p>
+
+<p>The knowledge of physics which Newton had acquired by his experiments
+was of much use in connection with his duties at the Mint. He
+carried out the re-coinage with great skill in the course of two
+years, and as a reward for his exertions, he was appointed, in 1697,
+to the Mastership of the Mint, with a salary between 1,200 Pounds and
+1,500 Pounds per annum. In 1701, his duties at the Mint being so
+engrossing, he resigned his Lucasian professorship at Cambridge, and
+at the same time he had to surrender his fellowship at Trinity
+College. This closed his connection with the University of
+Cambridge. It should, however, be remarked that at a somewhat
+earlier stage in his career he was very nearly being appointed to an
+office which might have enabled the University to retain the great
+philosopher within its precincts. Some of his friends had almost
+succeeded in securing his nomination to the Provostship of King's
+College, Cambridge; the appointment, however, fell through, inasmuch
+as the statute could not be evaded, which required that the Provost
+of King's College should be in holy orders.</p>
+
+<p>In those days it was often the custom for illustrious mathematicians,
+when they had discovered a solution for some new and striking
+problem, to publish that problem as a challenge to the world, while
+withholding their own solution. A famous instance of this is found
+in what is known as the Brachistochrone problem, which was solved by
+John Bernouilli. The nature of this problem may be mentioned. It
+was to find the shape of the curve along which a body would slide
+down from one point (A) to another point (B) in the shortest time. It
+might at first be thought that the straight line from A to B, as it
+is undoubtedly the shortest distance between the points, would also
+be the path of quickest descent; but this is not so. There is a
+curved line, down which a bead, let us say, would run on a smooth
+wire from A to B in a shorter time than the same bead would require
+to run down the straight wire. Bernouilli's problem was to find out
+what that curve must be. Newton solved it correctly; he showed that
+the curve was a part of what is termed a cycloid&mdash;that is to say, a
+curve like that which is described by a point on the rim of a
+carriage-wheel as the wheel runs along the ground. Such was Newton's
+geometrical insight that he was able to transmit a solution of the
+problem on the day after he had received it, to the President of the
+Royal Society.</p>
+
+<p>In 1703 Newton, whose world wide fame was now established, was
+elected President of the Royal Society. Year after year he was
+re-elected to this distinguished position, and his tenure, which
+lasted twenty-five years, only terminated with his life. It was in
+discharge of his duties as President of the Royal Society that Newton
+was brought into contact with Prince George of Denmark. In April,
+1705, the Queen paid a visit to Cambridge as the guest of Dr.
+Bentley, the then Master of Trinity, and in a court held at Trinity
+Lodge on April 15th, 1705, the honour of knighthood was conferred
+upon the discoverer of gravitation.</p>
+
+<p>Urged by illustrious friends, who sought the promotion of knowledge,
+Newton gave his attention to the publication of a new edition of the
+"Principia." His duties at the Mint, however, added to the supreme
+duty of carrying on his original investigations, left him but little
+time for the more ordinary task of the revision. He was accordingly
+induced to associate with himself for this purpose a distinguished
+young mathematician, Roger Coates, a Fellow of Trinity College,
+Cambridge, who had recently been appointed Plumian Professor of
+Astronomy. On July 27th, 1713, Newton, by this time a favourite at
+Court, waited on the Queen, and presented her with a copy of the new
+edition of the "Principia."</p>
+
+<p>Throughout his life Newton appears to have been greatly interested in
+theological studies, and he specially devoted his attention to the
+subject of prophecy. He left behind him a manuscript on the
+prophecies of Daniel and the Apocalypse of St. John, and he also
+wrote various theological papers. Many other subjects had from time
+to time engaged his attention. He studied the laws of heat; he
+experimented in pursuit of the dreams of the Alchymist; while the
+philosopher who had revealed the mechanism of the heavens found
+occasional relaxation in trying to interpret hieroglyphics. In the
+last few years of his life he bore with fortitude a painful ailment,
+and on Monday, March 20th, 1727, he died in the eighty-fifth year of
+his age. On Tuesday, March 28th, he was buried in Westminster Abbey.</p>
+
+<p>Though Newton lived long enough to receive the honour that his
+astonishing discoveries so justly merited, and though for many years
+of his life his renown was much greater than that of any of his
+contemporaries, yet it is not too much to say that, in the years
+which have since elapsed, Newton's fame has been ever steadily
+advancing, so that it never stood higher than it does at this moment.</p>
+
+<p>We hardly know whether to admire more the sublime discoveries at
+which he arrived, or the extraordinary character of the intellectual
+processes by which those discoveries were reached. Viewed from
+either standpoint, Newton's "Principia" is incomparably the greatest
+work on science that has ever yet been produced.</p>
+
+<p><a name="royal_society"  id="royal_society"></a></p>
+
+<div class="figcenter" style="width: 327px;">
+<a href="images/ill_newtons_sundial_royal_society.jpg">
+<img src="images/ill_newtons_sundial_royal_society_sml.jpg" width="327" height="192" alt="SIR ISAAC NEWTON&#39;S SUN-DIAL IN THE ROYAL SOCIETY." title="" /></a>
+<span class="caption">SIR ISAAC NEWTON&#39;S SUN-DIAL IN THE ROYAL SOCIETY.</span>
+</div>
+
+<h3><a name="FLAMSTEED" id="FLAMSTEED"></a>FLAMSTEED.</h3>
+<p>Among the manuscripts preserved at Greenwich Observatory are certain
+documents in which Flamsteed gives an account of his own life. We
+may commence our sketch by quoting the following passage from this
+autobiography:&mdash;"To keep myself from idleness, and to recreate
+myself, I have intended here to give some account of my life, in my
+youth, before the actions thereof, and the providences of God
+therein, be too far passed out of my memory; and to observe the
+accidents of all my years, and inclinations of my mind, that
+whosoever may light upon these papers may see I was not so wholly
+taken up, either with my father's business or my mathematics, but
+that I both admitted and found time for other as weighty
+considerations."</p>
+
+<p>The chief interest which attaches to the name of Flamsteed arises
+from the fact that he was the first of the illustrious series of
+Astronomers Royal who have presided over Greenwich Observatory. In
+that capacity Flamsteed was able to render material assistance to
+Newton by providing him with the observations which his lunar theory
+required.</p>
+
+<p>John Flamsteed was born at Denby, in Derbyshire, on the 19th of
+August, 1646. His mother died when he was three years old, and the
+second wife, whom his father took three years later, only lived until
+Flamsteed was eight, there being also two younger sisters. In his
+boyhood the future astronomer tells us that he was very fond of those
+romances which affect boy's imagination, but as he writes, "At twelve
+years of age I left all the wild ones and betook myself to read the
+better sort of them, which, though they were not probable, yet
+carried no seeming impossibility in the picturing." By the time
+Flamsteed was fifteen years old he had embarked in still more serious
+work, for he had read Plutarch's "Lives," Tacitus' "Roman History,"
+and many other books of a similar description. In 1661 he became ill
+with some serious rheumatic affection, which obliged him to be
+withdrawn from school. It was then for the first time that he
+received the rudiments of a scientific education. He had, however,
+attained his sixteenth year before he made any progress in
+arithmetic. He tells us how his father taught him "the doctrine of
+fractions," and "the golden rule of three"&mdash;lessons which he seemed
+to have learned easily and quickly. One of the books which he read
+at this time directed his attention to astronomical instruments, and
+he was thus led to construct for himself a quadrant, by which he
+could take some simple astronomical observations. He further
+calculated a table to give the sun's altitudes at different hours,
+and thus displayed those tastes for practical astronomy which he
+lived to develop so greatly. It appears that these scientific
+studies were discountenanced by his father, who designed that his son
+should follow a business career. Flamsteed's natural inclination,
+however, forced him to prosecute astronomical work, notwithstanding
+the impediments that lay in his path. Unfortunately, his
+constitutional delicacy seems to have increased, and he had just
+completed his eighteenth year, "when," to use his own words, "the
+winter came on and thrust me again into the chimney, whence the heat
+and the dryness of the preceding summer had happily once before
+withdrawn me. But, it not being a fit season for physic, it was
+thought fit to let me alone this winter, and try the skill of another
+physician on me in the spring."</p>
+
+<p>It appears that at this time a quack named Valentine Greatrackes, was
+reputed to have effected most astonishing cures in Ireland merely by
+the stroke of his hands, without the application of any medicine
+whatever. Flamsteed's father, despairing of any remedy for his son
+from the legitimate branch of the profession, despatched him to
+Ireland on August 26th, 1665, he being then, as recorded with
+astronomical accuracy, "nineteen years, six days, and eleven hours
+old." The young astronomer, accompanied by a friend, arrived on a
+Tuesday at Liverpool but the wind not being favourable, they remained
+there till the following Friday, when a shift of the wind to the east
+took place. They embarked accordingly on a vessel called the SUPPLY
+at noon, and on Saturday night came in sight of Dublin. Ere they
+could land, however, they were nearly being wrecked on Lambay
+Island. This peril safely passed, there was a long delay for
+quarantine before they were at last allowed on shore. On Thursday,
+September 6th, they set out from Dublin, where they had been
+sojourning at the "Ship" Hotel, in Dame Street, towards Assaune,
+where Greatrackes received his patients.</p>
+
+<p><a name="flamsteed_house"  id="flamsteed_house"></a></p>
+
+<div class="figcenter" style="width: 420px;">
+<a href="images/ill_flamsteeds_house.jpg">
+<img src="images/ill_flamsteeds_house_sml.jpg" width="420" height="313" alt="FLAMSTEED&#39;S HOUSE." title="" /></a>
+<span class="caption">FLAMSTEED&#39;S HOUSE.</span>
+</div>
+
+<p>Flamsteed gives an interesting account of his travels in Ireland.
+They dined at Naas on the first day, and on September 8th they
+reached Carlow, a town which is described as one of the fairest they
+saw on their journey. By Sunday morning, September 10th, having lost
+their way several times, they reached Castleton, called commonly Four
+Mile Waters. Flamsteed inquired of the host in the inn where they
+might find a church, but was told that the minister lived twelve
+miles away, and that they had no sermon except when he came to
+receive his tithes once a year, and a woman added that "they had
+plenty enough of everything necessary except the word of God." The
+travellers accordingly went on to Cappoquin, which lies up the river
+Blackwater, on the road to Lismore, eight miles from Youghal. Thence
+they immediately started on foot to Assaune. About a mile from
+Cappoquin, and entering into the house of Mr. Greatrackes, they saw
+him touch several patients, "whereof some were nearly cured, others
+were on the mending hand, and some on whom his strokes had no
+effect." Flamsteed was touched by the famous quack on the afternoon
+of September 11th, but we are hardly surprised to hear his remark
+that "he found not his disease to stir." Next morning the astronomer
+came again to see Mr. Greatrackes, who had "a kind of majestical yet
+affable presence, and a composed carriage." Even after the third
+touching had been submitted to, no benefit seems to have been
+derived. We must, however record, to the credit of Mr. Greatrackes,
+that he refused to accept any payment from Flamsteed, because he was
+a stranger.</p>
+
+<p>Finding it useless to protract his stay any longer, Flamsteed and his
+friend set out on their return to Dublin. In the course of his
+journey he seems to have been much impressed with Clonmel, which he
+describes as an "exceedingly pleasantly seated town." But in those
+days a journey to Ireland was so serious an enterprise that when
+Flamsteed did arrive safely back at Derby after an absence of a
+month, he adds, "For God's providence in this journey, His name be
+praised, Amen."</p>
+
+<p>As to the expected benefits to his health from the expedition we may
+quote his own words: "In the winter following I was indifferent
+hearty, and my disease was not so violent as it used to be at that
+time formerly. But whether through God's mercy I received this
+through Mr. Greatrackes' touch, or my journey and vomiting at sea, I
+am uncertain; but, by some circumstances, I guess that I received a
+benefit from both."</p>
+
+<p>It is evident that by this time Flamsteed's interest in all
+astronomical matters had greatly increased. He studied the
+construction of sun-dials, he formed a catalogue of seventy of the
+fixed stars, with their places on the heavens, and he computed the
+circumstances of the solar eclipse which was to happen on June 22nd,
+1666. It is interesting to note that even in those days the
+doctrines of the astrologers still found a considerable degree of
+credence, and Flamsteed spent a good deal of his time in astrological
+studies and computations. He investigated the methods of casting a
+nativity, but a suspicion, or, indeed, rather more than a suspicion,
+seems to have crossed his mind as to the value of these astrological
+predictions, for he says in fine, "I found astrology to give
+generally strong conjectural hints, not perfect declarations."</p>
+
+<p>All this time, however, the future Astronomer Royal was steadily
+advancing in astronomical inquiries of a recondite nature. He had
+investigated the obliquity of the ecliptic with extreme care, so far
+as the circumstances of astronomical observation would at that time
+permit. He had also sought to discover the sun's distance from the
+earth in so far as it could be obtained by determining when the moon
+was exactly half illuminated, and he had measured, with much
+accuracy, the length of the tropical year. It will thus be seen
+that, even at the age of twenty, Flamsteed had made marked progress,
+considering how much his time had been interfered with by ill-health.</p>
+
+<p>Other branches of astronomy began also to claim his attention. We
+learn that in 1669 and 1670 he compared the planets Jupiter and Mars
+with certain fixed stars near which they passed. His instrumental
+means, though very imperfect, were still sufficient to enable him to
+measure the intervals on the celestial sphere between the planets and
+the stars. As the places of the stars were known, Flamsteed was thus
+able to obtain the places of the planets. This is substantially the
+way in which astronomers of the present day still proceed when they
+desire to determine the places of the planets, inasmuch as, directly
+or indirectly those places are always obtained relatively to the
+fixed stars. By his observations at this early period, Flamsteed
+was, it is true, not able to obtain any great degree of accuracy; he
+succeeded, however, in proving that the tables by which the places of
+the planets were ordinarily given were not to be relied upon.</p>
+
+<p><a name="flamsteed_ill"  id="flamsteed_ill"></a></p>
+
+<div class="figcenter" style="width: 382px;">
+<a href="images/ill_flamsteed.jpg">
+<img src="images/ill_flamsteed_sml.jpg" width="382" height="478" alt="FLAMSTEED." title="" /></a>
+<span class="caption">FLAMSTEED.</span>
+</div>
+
+<p>Flamsteed's labours in astronomy and in the allied branches of
+science were now becoming generally known, and he gradually came to
+correspond with many distinguished men of learning. One of the first
+occasions which brought the talents of the young astronomer into fame
+was the publication of some calculations concerning certain
+astronomical phenomena which were to happen in the year 1670. In the
+monthly revolution of the moon its disc passes over those stars which
+lie along its track. The disappearance of a star by the
+interposition of the moon is called an "occultation." Owing to the
+fact that our satellite is comparatively near us, the position which
+the moon appears to occupy on the heavens varies from different parts
+of the earth, it consequently happens that a star which would be
+occulted to an observer in one locality, would often not be occulted
+to an observer who was situated elsewhere. Even when an occultation
+is visible from both places, the times at which the star disappears
+from view will, generally speaking, be different. Much calculation
+is therefore necessary to decide the circumstances under which the
+occultations of stars may be visible from any particular station.
+Having a taste for such computations, Flamsteed calculated the
+occultations which were to happen in the year 1670, it being the case
+that several remarkable stars would be passed over by the moon during
+this year. Of course at the present time, we find such information
+duly set forth in the NAUTICAL ALMANAC, but a couple of centuries ago
+there was no such source of astronomical knowledge as is now to be
+found in that invaluable publication, which astronomers and
+navigators know so well. Flamsteed accordingly sent the results of
+his work to the President of the Royal Society. The paper which
+contained them was received very favourably, and at once brought
+Flamsteed into notice among the most eminent members of that
+illustrious body, one of whom, Mr. Collins, became through life his
+faithful friend and constant correspondent. Flamsteed's father was
+naturally gratified with the remarkable notice which his son was
+receiving from the great and learned; accordingly he desired him to
+go to London, that he might make the personal acquaintance of those
+scientific friends whom he had only known by correspondence
+previously. Flamsteed was indeed glad to avail himself of this
+opportunity. Thus he became acquainted with Dr. Barrow, and
+especially with Newton, who was then Lucasian Professor of
+Mathematics at Cambridge. It seems to have been in consequence of
+this visit to London that Flamsteed entered himself as a member of
+Jesus College, Cambridge. We have but little information as to his
+University career, but at all events he took his degree of M.A. on
+June 5th, 1674.</p>
+
+<p>Up to this time it would seem that Flamsteed had been engaged, to a
+certain extent, in the business carried on by his father. It is true
+that he does not give any explicit details, yet there are frequent
+references to journeys which he had to take on business matters. But
+the time now approached when Flamsteed was to start on an independent
+career, and it appears that he took his degree in Cambridge with the
+object of entering into holy orders, so that he might settle in a
+small living near Derby, which was in the gift of a friend of his
+father, and would be at the disposal of the young astronomer. This
+scheme was, however, not carried out, but Flamsteed does not tell us
+why it failed, his only remark being, that "the good providence of
+God that had designed me for another station ordered it otherwise."</p>
+
+<p>Sir Jonas Moore, one of the influential friends whom Flamsteed's
+talents had attracted, seems to have procured for him the position of
+king's astronomer, with a salary of 100 pounds per annum. A larger
+salary appears to have been designed at first for this office, which
+was now being newly created, but as Flamsteed was resolved on taking
+holy orders, a lesser salary was in his case deemed sufficient. The
+building of the observatory, in which the first Astronomer Royal was
+to be installed, seems to have been brought about, or, at all events,
+its progress was accelerated, in a somewhat curious manner.</p>
+
+<p>A Frenchman, named Le Sieur de S. Pierre, came over to London to
+promulgate a scheme for discovering longitudes, then a question of
+much importance. He brought with him introductions to distinguished
+people, and his mission attracted a great deal of attention. The
+proposals which he made came under Flamsteed's notice, who pointed
+out that the Frenchman's projects were quite inapplicable in the
+present state of astronomical science, inasmuch as the places of the
+stars were not known with the degree of accuracy which would be
+necessary if such methods were to be rendered available. Flamsteed
+then goes on to say:&mdash;"I heard no more of the Frenchman after this;
+but was told that my letters had been shown King Charles. He was
+startled at the assertion of the fixed stars' places being false in
+the catalogue, and said, with some vehemence, he must have them anew
+observed, examined, and corrected, for the use of his seamen."</p>
+
+<p>The first question to be settled was the site for the new
+observatory. Hyde Park and Chelsea College were both mentioned as
+suitable localities, but, at Sir Christopher Wren's suggestion,
+Greenwich Hill was finally resolved upon. The king made a grant of
+five hundred pounds of money. He gave bricks from Tilbury Fort,
+while materials, in the shape of wood, iron, and lead, were available
+from a gatehouse demolished in the Tower. The king also promised
+whatever further material aid might be shown to be necessary. The
+first stone of the Royal Observatory was laid on August 10th, 1675,
+and within a few years a building was erected in which the art of
+modern practical astronomy was to be created. Flamsteed strove with
+extraordinary diligence, and in spite of many difficulties, to obtain
+a due provision of astronomical instruments, and to arrange for the
+carrying on of his observations. Notwithstanding the king's
+promises, the astronomer was, however, but scantily provided with
+means, and he had no assistants to help him in his work. It follows
+that all the observations, as well as the reductions, and, indeed,
+all the incidental work of the observatory, had to be carried on by
+himself alone. Flamsteed, as we have seen, had, however, many
+staunch friends. Sir Jonas Moore in particular at all times rendered
+him most valuable assistance, and encouraged him by the warm sympathy
+and keen interest which he showed in astronomy. The work of the
+first Astronomer Royal was frequently interrupted by recurrent
+attacks of the complaints to which we have already referred. He says
+himself that "his distempers stick so close that that he cannot
+remove them," and he lost much time by prostration from headaches, as
+well as from more serious affections.</p>
+
+<p>The year 1678 found him in the full tide of work in his observatory.
+He was specially engaged on the problem of the earth's motion, which
+he sought to derive from observations of the sun and of Venus. But
+this, as well as many other astronomical researches which he
+undertook, were only subsidiary to that which he made the main task
+of his life, namely, the formation of a catalogue of fixed stars. At
+the time when Flamsteed commenced his career, the only available
+catalogue of fixed stars was that of Tycho Brahe. This work had been
+published at the commencement of the seventeenth century, and it
+contained about a thousand stars. The positions assigned to these
+stars, though obtained with wonderful skill, considering the many
+difficulties under which Tycho laboured, were quite inaccurate when
+judged by our modern standards. Tycho's instruments were necessarily
+most rudely divided, and he had, of course, no telescopes to aid him.
+Consequently it was merely by a process of sighting that he could
+obtain the places of the stars. It must further be remembered that
+Tycho had no clocks, and no micrometers. He had, indeed, but little
+correct knowledge of the motions of the heavenly bodies to guide
+him. To determine the longitudes of a few principal stars he
+conceived the ingenious idea of measuring by day the position of
+Venus with respect to the sun, an observation which the exceptional
+brightness of this planet rendered possible without telescopic aid,
+and then by night he observed the position of Venus with regard to
+the stars.</p>
+
+<p>It has been well remarked by Mr. Baily, in his introduction to the
+"British Catalogue of Stars," that "Flamsteed's observations, by a
+fortunate combination of circumstances, commenced a new and a
+brilliant era. It happened that, at that period, the powerful mind
+of Newton was directed to this subject; a friendly intercourse then
+existed between these two distinguished characters; and thus the
+first observations that could lay any claim to accuracy were at once
+brought in aid of those deep researches in which our illustrious
+geometer was then engaged. The first edition of the 'Principia'
+bears testimony to the assistance afforded by Flamsteed to Newton in
+these inquiries; although the former considers that the
+acknowledgment is not so ample as it ought to have been."</p>
+
+<p>Although Flamsteed's observations can hardly be said to possess the
+accuracy of those made in more recent times, when instruments so much
+superior to his have been available, yet they possess an interest of
+a special kind from their very antiquity. This circumstance renders
+them of particular importance to the astronomer, inasmuch as they are
+calculated to throw light on the proper motions of the stars.
+Flamsteed's work may, indeed, be regarded as the origin of all
+subsequent catalogues, and the nomenclature which he adopted, though
+in some respects it can hardly be said to be very defensible, is,
+nevertheless, that which has been adopted by all subsequent
+astronomers. There were also a great many errors, as might be
+expected in a work of such extent, composed almost entirely of
+numerical detail. Many of these errors have been corrected by Baily
+himself, the assiduous editor of "Flamsteed's Life and Works," for
+Flamsteed was so harassed from various causes in the latter part of
+his life, and was so subject to infirmities all through his career,
+that he was unable to revise his computations with the care that
+would have been necessary. Indeed, he observed many additional stars
+which he never included in the British Catalogue. It is, as Baily
+well remarks, "rather a matter of astonishment that he accomplished
+so much, considering his slender means, his weak frame, and the
+vexations which he constantly experienced."</p>
+
+<p>Flamsteed had the misfortune, in the latter part of his life, to
+become estranged from his most eminent scientific contemporaries. He
+had supplied Newton with places of the moon, at the urgent
+solicitation of the author of the "Principia," in order that the
+lunar theory should be carefully compared with observation. But
+Flamsteed appears to have thought that in Newton's further request
+for similar information, he appeared to be demanding as a right that
+which Flamsteed considered he was only called upon to render as a
+favour. A considerable dispute grew out of this matter, and there
+are many letters and documents, bearing on the difficulties which
+subsequently arose, that are not, perhaps, very creditable to either
+party.</p>
+
+<p>Notwithstanding his feeble constitution, Flamsteed lived to the age
+of seventy-three, his death occurring on the last day of the year
+1719.</p>
+
+<h3><a name="HALLEY" id="HALLEY"></a>HALLEY.</h3>
+<p>Isaac Newton was just fourteen years of age when the birth of Edmund
+Halley, who was destined in after years to become Newton's warmly
+attached friend, and one of his most illustrious scientific
+contemporaries, took place. There can be little doubt that the fame
+as an astronomer which Halley ultimately acquired, great as it
+certainly was, would have been even greater still had it not been
+somewhat impaired by the misfortune that he had to shine in the same
+sky as that which was illumined by the unparalleled genius of Newton.</p>
+
+<p>Edmund Halley was born at Haggerston, in the Parish of St. Leonard's,
+Shoreditch, on October 29th, 1656. His father, who bore the same
+name as his famous son, was a soap-boiler in Winchester Street,
+London, and he had conducted his business with such success that he
+accumulated an ample fortune. I have been unable to obtain more than
+a very few particulars with respect to the early life of the future
+astronomer. It would, however, appear that from boyhood he showed
+considerable aptitude for the acquisition of various kinds of
+learning, and he also had some capacity for mechanical invention.
+Halley seems to have received a sound education at St. Paul's School,
+then under the care of Dr. Thomas Gale.</p>
+
+<p>Here, the young philosopher rapidly distanced his competitors in the
+various branches of ordinary school instruction. His superiority
+was, however, most conspicuous in mathematical studies, and, as a
+natural development of such tastes, we learn that by the time he had
+left school he had already made good progress in astronomy. At the
+age of seventeen he was entered as a commoner at Queen's College,
+Oxford, and the reputation that he brought with him to the University
+may be inferred from the remark of the writer of "Athenae
+Oxonienses," that Halley came to Oxford "with skill in Latin, Greek,
+and Hebrew, and such a knowledge of geometry as to make a complete
+dial." Though his studies were thus of a somewhat multifarious
+nature, yet it is plain that from the first his most favourite
+pursuit was astronomy. His earliest efforts in practical observation
+were connected with an eclipse which he observed from his father's
+house in Winchester Street. It also appears that he had studied
+theoretical branches of astronomy so far as to be conversant with the
+application of mathematics to somewhat abstruse problems.</p>
+
+<p>Up to the time of Kepler, philosophers had assumed almost as an axiom
+that the heavenly bodies must revolve in circles and that the motion
+of the planet around the orbit which it described must be uniform. We
+have already seen how that great philosopher, after very persevering
+labour, succeeded in proving that the orbits of the planets were not
+circles, but that they were ellipses of small eccentricity. Kepler
+was, however, unable to shake himself free from the prevailing notion
+that the angular motion of the planet ought to be of a uniform
+character around some point. He had indeed proved that the motion
+round the focus of the ellipse in which the sun lies is not of this
+description. One of his most important discoveries even related to
+the fact that at some parts of its orbit a planet swings around the
+sun with greater angular velocity than at others. But it so happens
+that in elliptic tracks which differ but little from circles, as is
+the case with all the more important planetary orbits, the motion
+round the empty focus of the ellipse is very nearly uniform. It
+seemed natural to assume, that this was exactly the case, in which
+event each of the two foci of the ellipse would have had a special
+significance in relation to the movement of the planet. The youthful
+Halley, however, demonstrated that so far as the empty focus was
+concerned, the movement of the planet around it, though so nearly
+uniform, was still not exactly so, and at the age of nineteen, he
+published a treatise on the subject which at once placed him in the
+foremost rank amongst theoretical astronomers.</p>
+
+<p>But Halley had no intention of being merely an astronomer with his
+pen. He longed to engage in the practical work of observing. He saw
+that the progress of exact astronomy must depend largely on the
+determination of the positions of the stars with all attainable
+accuracy. He accordingly determined to take up this branch of work,
+which had been so successfully initiated by Tycho Brahe.</p>
+
+<p>At the present day, astronomers of the great national observatories
+are assiduously engaged in the determination of the places of the
+stars. A knowledge of the exact positions of these bodies is indeed
+of the most fundamental importance, not alone for the purposes of
+scientific astronomy, but also for navigation and for extensive
+operations of surveying in which accuracy is desired. The fact that
+Halley determined to concentrate himself on this work shows clearly
+the scientific acumen of the young astronomer.</p>
+
+<p>Halley, however, found that Hevelius, at Dantzig, and Flamsteed, the
+Astronomer Royal at Greenwich, were both engaged on work of this
+character. He accordingly determined to direct his energies in a way
+that he thought would be more useful to science. He resigned to the
+two astronomers whom I have named the investigation of the stars in
+the northern hemisphere, and he sought for himself a field hitherto
+almost entirely unworked. He determined to go to the southern
+hemisphere, there to measure and survey those stars which were
+invisible in Europe, so that his work should supplement the labours
+of the northern astronomers, and that the joint result of his labours
+and of theirs might be a complete survey of the most important stars
+on the surface of the heavens.</p>
+
+<p>In these days, after so many ardent students everywhere have devoted
+themselves to the study of Nature, it seems difficult for a beginner
+to find a virgin territory in which to commence his explorations.
+Halley may, however, be said to have enjoyed the privilege of
+commencing to work in a magnificent region, the contents of which
+were previously almost entirely unknown. Indeed none of the stars
+which were so situated as to have been invisible from Tycho Brahe's
+observatory at Uraniborg, in Denmark, could be said to have been
+properly observed. There was, no doubt, a rumour that a Dutchman had
+observed southern stars from the island of Sumatra, and certain stars
+were indicated in the southern heavens on a celestial globe. On
+examination, however, Halley found that no reliance could be placed
+on the results which had been obtained, so that practically the field
+before him may be said to have been unworked.</p>
+
+<p>At the age of twenty, without having even waited to take that degree
+at the university which the authorities would have been glad to
+confer on so promising an undergraduate, this ardent student of
+Nature sought his father's permission to go to the southern
+hemisphere for the purpose of studying the stars which lie around the
+southern pole. His father possessed the necessary means, and he had
+likewise the sagacity to encourage the young astronomer. He was
+indeed most anxious to make everything as easy as possible for so
+hopeful a son. He provided him with an allowance of 300 pounds a
+year, which was regarded as a very munificent provision in those
+days. Halley was also furnished with letters of recommendation from
+King Charles II., as well as from the directors of the East India
+Company. He accordingly set sail with his instruments in the year
+1676, in one of the East India Company's ships, for the island of St.
+Helena, which he had selected as the scene of his labours.</p>
+
+<p><a name="halley_ill"  id="halley_ill"></a></p>
+
+<div class="figcenter" style="width: 407px;">
+<a href="images/ill_haley.jpg">
+<img src="images/ill_haley_sml.jpg" width="407" height="484" alt="HALLEY." title="" /></a>
+<span class="caption">HALLEY.</span>
+</div>
+
+<p>After an uneventful voyage of three months, the astronomer landed on
+St. Helena, with his sextant of five and a half feet radius, and a
+telescope 24 feet long, and forthwith plunged with ardour into his
+investigation of the southern skies. He met, however, with one very
+considerable disappointment. The climate of this island had been
+represented to him as most favourable for astronomical observation;
+but instead of the pure blue skies he had been led to expect, he
+found that they were almost always more or less clouded, and that
+rain was frequent, so that his observations were very much
+interrupted. On this account he only remained at St. Helena for a
+single year, having, during that time, and in spite of many
+difficulties, accomplished a piece of work which earned for him the
+title of "our southern Tycho." Thus did Halley establish his fame as
+an astronomer on the same lonely rock in mid-Atlantic, which nearly a
+century and a-half later became the scene of Napoleon's imprisonment,
+when his star, in which he believed so firmly, had irretrievably set.</p>
+
+<p>On his return to England, Halley prepared a map which showed the
+result of his labours, and he presented it to the king, in 1677.
+Like his great predecessor Tycho, Halley did not altogether disdain
+the arts of the courtier, for he endeavoured to squeeze a new
+constellation into the group around the southern pole which he styled
+"The Royal Oak," adding a description to the effect that the
+incidents of which "The Royal Oak" was a symbol were of sufficient
+importance to be inscribed on the surface of the heavens.</p>
+
+<p>There is reason to think that Charles II. duly appreciated the
+scientific renown which one of his subjects had achieved, and it was
+probably through the influence of the king that Halley was made a
+Master of Arts at Oxford on November 18th, 1678. Special reference
+was made on the occasion to his observations at St. Helena, as
+evidence of unusual attainments in mathematics and astronomy. This
+degree was no small honour to such a young man, who, as we have seen,
+quitted his university before he had the opportunity of graduating in
+the ordinary manner.</p>
+
+<p>On November 30th, in the same year, the astronomer received a further
+distinction in being elected a Fellow of the Royal Society. From
+this time forward he took a most active part in the affairs of the
+Society, and the numerous papers which he read before it form a very
+valuable part of that notable series of volumes known as the
+"Philosophical Transactions." He was subsequently elected to the
+important office of secretary to the Royal Society, and he discharged
+the duties of his post until his appointment to Greenwich
+necessitated his resignation.</p>
+
+<p>Within a year of Halley's election as a Fellow of the Royal Society,
+he was chosen by the Society to represent them in a discussion which
+had arisen with Hevelius. The nature of this discussion, or rather
+the fact that any discussion should have been necessary, may seem
+strange to modern astronomers, for the point is one on which it would
+now seem impossible for there to be any difference of opinion. We
+must, however, remember that the days of Halley were, comparatively
+speaking, the days of infancy as regards the art of astronomical
+observation, and issues that now seem obvious were often, in those
+early times, the occasions of grave and anxious consideration. The
+particular question on which Halley had to represent the Royal
+Society may be simply stated. When Tycho Brahe made his memorable
+investigations into the places of the stars, he had no telescopes to
+help him. The famous instruments at Uraniborg were merely provided
+with sights, by which the telescope was pointed to a star on the same
+principle as a rifle is sighted for a target. Shortly after Tycho's
+time, Galileo invented the telescope. Of course every one admitted
+at once the extraordinary advantages which the telescope had to
+offer, so far as the mere question of the visibility of objects was
+concerned. But the bearing of Galileo's invention upon what we may
+describe as the measuring part of astronomy was not so immediately
+obvious. If a star be visible to the unaided eye, we can determine
+its place by such instruments as those which Tycho used, in which no
+telescope is employed. We can, however, also avail ourselves of an
+instrument in which we view the star not directly but through the
+intervention of the telescope. Can the place of the star be
+determined more accurately by the latter method than it can when the
+telescope is dispensed with? With our present knowledge, of course,
+there is no doubt about the answer; every one conversant with
+instruments knows that we can determine the place of a star far more
+accurately with the telescope than is possible by any mere sighting
+apparatus. In fact an observer would be as likely to make an error
+of a minute with the sighting apparatus in Tycho's instrument, as he
+would be to make an error of a second with the modern telescope, or,
+to express the matter somewhat differently, we may say, speaking
+quite generally, that the telescopic method of determining the places
+of the stars does not lead to errors more than one-sixtieth part as
+great as which are unavoidable when we make use of Tycho's method.</p>
+
+<p>But though this is so apparent to the modern astronomer, it was not
+at all apparent in the days of Halley, and accordingly he was sent
+off to discuss the question with the Continental astronomers.
+Hevelius, as the representative of the older method, which Tycho had
+employed with such success, maintained that an instrument could be
+pointed more accurately at a star by the use of sights than by the
+use of a telescope, and vigorously disputed the claims put forward by
+those who believed that the latter method was the more suitable. On
+May 14th, 1679, Halley started for Dantzig, and the energetic
+character of the man may be judged from the fact that on the very
+night of his arrival he commenced to make the necessary
+observations. In those days astronomical telescopes had only
+obtained a fractional part of the perfection possessed by the
+instruments in our modern observatories, and therefore it may not be
+surprising that the results of the trial were not immediately
+conclusive. Halley appears to have devoted much time to the
+investigation; indeed, he remained at Dantzig for more than a
+twelve-month. On his return to England, he spoke highly of the skill
+which Hevelius exhibited in the use of his antiquated methods, but
+Halley was nevertheless too sagacious an observer to be shaken in his
+preference for the telescopic method of observation.</p>
+
+<p>The next year we find our young astronomer starting for a Continental
+tour, and we, who complain if the Channel passage lasts more than an
+hour or two, may note Halley's remark in writing to Hooke on June
+15th, 1680: "Having fallen in with bad weather we took forty hours in
+the journey from Dover to Calais." The scientific distinction which
+he had already attained was such that he was received in Paris with
+marked attention. A great deal of his time seems to have been passed
+in the Paris observatory, where Cassini, the presiding genius,
+himself an astronomer of well-deserved repute, had extended a hearty
+welcome to his English visitor. They made observations together of
+the place of the splendid comet which was then attracting universal
+attention, and Halley found the work thus done of much use when he
+subsequently came to investigate the path pursued by this body.
+Halley was wise enough to spare no pains to derive all possible
+advantages from his intercourse with the distinguished savants of the
+French capital. In the further progress of his tour he visited the
+principal cities of the Continent, leaving behind him everywhere the
+memory of an amiable disposition and of a rare intelligence.</p>
+
+<p>After Halley's return to England, in 1682, he married a young lady
+named Mary Tooke, with whom he lived happily, till her death
+fifty-five years later. On his marriage, he took up his abode in
+Islington, where he erected his instruments and recommenced his
+observations.</p>
+
+<p>It has often been the good fortune of astronomers to render practical
+services to humanity by their investigations, and Halley's
+achievements in this respect deserve to be noted. A few years after
+he had settled in England, he published an important paper on the
+variation of the magnetic compass, for so the departure of the needle
+from the true north is termed. This subject had indeed early engaged
+his attention, and he continued to feel much interest in it up to the
+end of his life. With respect to his labours in this direction, Sir
+John Herschel says: "To Halley we owe the first appreciation of the
+real complexity of the subject of magnetism. It is wonderful indeed,
+and a striking proof of the penetration and sagacity of this
+extraordinary man, that with his means of information he should have
+been able to draw such conclusions, and to take so large and
+comprehensive a view of the subject as he appears to have done." In
+1692, Halley explained his theory of terrestrial magnetism, and
+begged captains of ships to take observations of the variations of
+the compass in all parts of the world, and to communicate them to the
+Royal Society, "in order that all the facts may be readily available
+to those who are hereafter to complete this difficult and complicated
+subject."</p>
+
+<p>The extent to which Halley was in advance of his contemporaries, in
+the study of terrestrial magnetism, may be judged from the fact that
+the subject was scarcely touched after his time till the year 1811.
+The interest which he felt in it was not of a merely theoretical
+kind, nor was it one which could be cultivated in an easy-chair. Like
+all true investigators, he longed to submit his theory to the test of
+experiment, and for that purpose Halley determined to observe the
+magnetic variation for himself. He procured from King William III.
+the command of a vessel called the "Paramour Pink," with which he
+started for the South Seas in 1694. This particular enterprise was
+not, however, successful; for, on crossing the line, some of his men
+fell sick and one of his lieutenants mutinied, so that he was obliged
+to return the following year with his mission unaccomplished. The
+government cashiered the lieutenant, and Halley having procured a
+second smaller vessel to accompany the "Paramour Pink," started once
+more in September, 1699. He traversed the Atlantic to the 52nd
+degree of southern latitude, beyond which his further advance was
+stopped. "In these latitudes," he writes to say, "we fell in with
+great islands of ice of so incredible height and magnitude, that I
+scarce dare write my thoughts of it."</p>
+
+<p>On his return in 1700, Halley published a general chart, showing the
+variation of the compass at the different places which he had
+visited. On these charts he set down lines connecting those
+localities at which the magnetic variation was identical. He thus
+set an example of the graphic representation of large masses of
+complex facts, in such a manner as to appeal at once to the eye, a
+method of which we make many applications in the present day.</p>
+
+<p>But probably the greatest service which Halley ever rendered to human
+knowledge was the share in which he took in bringing Newton's
+"Principia" before the world. In fact, as Dr. Glaisher, writing in
+1888, has truly remarked, "but for Halley the 'Principia' would not
+have existed."</p>
+
+<p>It was a visit from Halley in the year 1684 which seems to have first
+suggested to Newton the idea of publishing the results of his
+investigations on gravitation. Halley, and other scientific
+contemporaries, had no doubt some faint glimmering of the great truth
+which only Newton's genius was able fully to reveal. Halley had
+indeed shown how, on the assumptions that the planets move in
+circular orbits round the sun, and that the squares of their periodic
+times are proportional to the cubes of their mean distances, it may
+be proved that the force acting on each planet must vary inversely as
+the square of its distance from the sun. Since, however, each of the
+planets actually moves in an ellipse, and therefore, at continually
+varying distances from the sun, it becomes a much more difficult
+matter to account mathematically for the body's motions on the
+supposition that the attractive force varies inversely as the square
+of the distance. This was the question with which Halley found
+himself confronted, but which his mathematical abilities were not
+adequate to solve. It would seem that both Hooke and Sir Christopher
+Wren were interested in the same problem; in fact, the former claimed
+to have arrived at a solution, but declined to make known his
+results, giving as an excuse his desire that others having tried and
+failed might learn to value his achievements all the more. Halley,
+however, confessed that his attempts at the solution were
+unsuccessful, and Wren, in order to encourage the other two
+philosophers to pursue the inquiry, offered to present a book of
+forty shillings value to either of them who should in the space of
+two months bring him a convincing proof of it. Such was the value
+which Sir Christopher set on the Law of Gravitation, upon which the
+whole fabric of modern astronomy may be said to stand.</p>
+
+<p>Finding himself unequal to the task, Halley went down to Cambridge to
+see Newton on the subject, and was delighted to learn that the great
+mathematician had already completed the investigation. He showed
+Halley that the motions of all the planets could be completely
+accounted for on the hypothesis of a force of attraction directed
+towards the sun, which varies inversely as the square of the distance
+from that body.</p>
+
+<p>Halley had the genius to perceive the tremendous importance of
+Newton's researches, and he ceased not to urge upon the recluse man
+of science the necessity for giving his new discoveries publication.
+He paid another visit to Cambridge with the object of learning more
+with regard to the mathematical methods which had already conducted
+Newton to such sublime truths, and he again encouraged the latter
+both to pursue his investigations, and to give some account of them
+to the world. In December of the same year Halley had the
+gratification of announcing to the Royal Society that Newton had
+promised to send that body a paper containing his researches on
+Gravitation.</p>
+
+<p>It seems that at this epoch the finances of the Royal Society were at
+a very low ebb. This impecuniosity was due to the fact that a book
+by Willoughby, entitled "De Historia Piscium," had been recently
+printed by the society at great expense. In fact, the coffers were
+so low that they had some difficulty in paying the salaries of their
+permanent officials. It appears that the public did not care about
+the history of fishes, or at all events the volume did not meet with
+the ready demand which was expected for it. Indeed, it has been
+recorded that when Halley had undertaken to measure the length of a
+degree of the earth's surface, at the request of the Royal Society,
+it was ordered that his expenses be defrayed either in 50 pounds
+sterling, or in fifty books of fishes. Thus it happened that on June
+2nd, the Council, after due consideration of ways and means in
+connection with the issue of the Principia, "ordered that Halley
+should undertake the business of looking after the book and printing
+it at his own charge," which he engaged to do.</p>
+
+<p>It was, as we have elsewhere mentioned, characteristic of Newton that
+he detested controversies, and he was, in fact, inclined to suppress
+the third book of the "Principia" altogether rather than have any
+conflict with Hooke with respect to the discoveries there
+enunciated. He also thought of changing the name of the work to De
+Motu Corporum Libri Duo, but upon second thoughts, he retained the
+original title, remarking, as he wrote to Halley, "It will help the
+sale of the book, which I ought not to diminish, now it is yours," a
+sentence which shows conclusively, if further proof were necessary,
+that Halley had assumed the responsibility of its publication.</p>
+
+<p>Halley spared no pains in pushing forward the publication of his
+illustrious friend's great work, so that in the same year he was in a
+position to present a complete copy to King James II., with a proper
+discourse of his own. Halley also wrote a set of Latin hexameters in
+praise of Newton's genius, which he printed at the beginning of the
+work. The last line of this specimen of Halley's poetic muse may be
+thus rendered: "Nor mortals nearer may approach the gods."</p>
+
+<p>The intimate friendship between the two greatest astronomers of the
+time continued without interruption till the death of Newton. It
+has, indeed, been alleged that some serious cause of estrangement
+arose between them. There is, however, no satisfactory ground for
+this statement; indeed, it may be regarded as effectually disposed of
+by the fact that, in the year 1727, Halley took up the defence of his
+friend, and wrote two learned papers in support of Newton's "System
+of Chronology," which had been seriously attacked by a certain
+ecclesiastic. It is quite evident to any one who has studied these
+papers that Halley's friendship for Newton was as ardent as ever.</p>
+
+<p>The generous zeal with which Halley adopted and defended the
+doctrines of Newton with regard to the movements of the celestial
+bodies was presently rewarded by a brilliant discovery, which has
+more than any of his other researches rendered his name a familiar
+one to astronomers. Newton, having explained the movement of the
+planets, was naturally led to turn his attention to comets. He
+perceived that their journeyings could be completely accounted for as
+consequences of the attraction of the sun, and he laid down the
+principles by which the orbit of a comet could be determined,
+provided that observations of its positions were obtained at three
+different dates. The importance of these principles was by no one
+more quickly recognised than by Halley, who saw at once that it
+provided the means of detecting something like order in the movements
+of these strange wanderers. The doctrine of Gravitation seemed to
+show that just as the planets revolved around the sun in ellipses, so
+also must the comets. The orbit, however, in the case of the comet,
+is so extremely elongated that the very small part of the elliptic
+path within which the comet is both near enough and bright enough to
+be seen from the earth, is indistinguishable from a parabola.
+Applying these principles, Halley thought it would be instructive to
+study the movements of certain bright comets, concerning which
+reliable observations could be obtained. At the expense of much
+labour, he laid down the paths pursued by twenty-four of these
+bodies, which had appeared between the years 1337 and 1698. Amongst
+them he noticed three, which followed tracks so closely resembling
+each other, that he was led to conclude the so called three comets
+could only have been three different appearances of the same body.
+The first of these occurred in 1531, the second was seen by Kepler in
+1607, and the third by Halley himself in 1682. These dates suggested
+that the observed phenomena might be due to the successive returns of
+one and the same comet after intervals of seventy-five or seventy-six
+years. On the further examination of ancient records, Halley found
+that a comet had been seen in the year 1456, a date, it will be
+observed, seventy-five years before 1531. Another had been observed
+seventy-six years earlier than 1456, viz., in 1380, and another
+seventy-five years before that, in 1305.</p>
+
+<p>As Halley thus found that a comet had been recorded on several
+occasions at intervals of seventy-five or seventy-six years, he was
+led to the conclusion that these several apparitions related to one
+and the same object, which was an obedient vassal of the sun,
+performing an eccentric journey round that luminary in a period of
+seventy-five or seventy-six years. To realise the importance of this
+discovery, it should be remembered that before Halley's time a comet,
+if not regarded merely as a sign of divine displeasure, or as an omen
+of intending disaster, had at least been regarded as a chance visitor
+to the solar system, arriving no one knew whence, and going no one
+knew whither.</p>
+
+<p>A supreme test remained to be applied to Halley's theory. The
+question arose as to the date at which this comet would be seen
+again. We must observe that the question was complicated by the fact
+that the body, in the course of its voyage around the sun, was
+exposed to the incessant disturbing action produced by the attraction
+of the several planets. The comet therefore, does not describe a
+simple ellipse as it would do if the attraction of the sun were the
+only force by which its movement were controlled. Each of the
+planets solicits the comet to depart from its track, and though the
+amount of these attractions may be insignificant in comparison with
+the supreme controlling force of the sun, yet the departure from the
+ellipse is quite sufficient to produce appreciable irregularities in
+the comet's movement. At the time when Halley lived, no means
+existed of calculating with precision the effect of the disturbance a
+comet might experience from the action of the different planets.
+Halley exhibited his usual astronomical sagacity in deciding that
+Jupiter would retard the return of the comet to some extent. Had it
+not been for this disturbance the comet would apparently have been
+due in 1757 or early in 1758. But the attraction of the great planet
+would cause delay, so that Halley assigned, for the date of its
+re-appearance, either the end of 1758 or the beginning of 1759.
+Halley knew that he could not himself live to witness the fulfilment
+of his prediction, but he says: "If it should return, according to
+our predictions, about the year 1758, impartial posterity will not
+refuse to acknowledge that this was first discovered by an
+Englishman." This was, indeed, a remarkable prediction of an event
+to occur fifty-three years after it had been uttered. The way in
+which it was fulfilled forms one of the most striking episodes in the
+history of astronomy. The comet was first seen on Christmas Day,
+1758, and passed through its nearest point to the sun on March 13th,
+1759. Halley had then been lying in his grave for seventeen years,
+yet the verification of his prophecy reflects a glory on his name
+which will cause it to live for ever in the annals of astronomy. The
+comet paid a subsequent visit in 1835, and its next appearance is due
+about 1910.</p>
+
+<p>Halley next entered upon a labour which, if less striking to the
+imagination than his discoveries with regard to comets, is still of
+inestimable value in astronomy. He undertook a series of
+investigations with the object of improving our knowledge of the
+movements of the planets. This task was practically finished in
+1719, though the results of it were not published until after his
+death in 1749. In the course of it he was led to investigate closely
+the motion of Venus, and thus he came to recognise for the first time
+the peculiar importance which attaches to the phenomenon of the
+transit of this planet across the sun. Halley saw that the transit,
+which was to take place in the year 1761, would afford a favourable
+opportunity for determining the distance of the sun, and thus
+learning the scale of the solar system. He predicted the
+circumstances of the phenomenon with an astonishing degree of
+accuracy, considering his means of information, and it is
+unquestionably to the exertions of Halley in urging the importance of
+the matter upon astronomers that we owe the unexampled degree of
+interest taken in the event, and the energy which scientific men
+exhibited in observing it. The illustrious astronomer had no hope of
+being himself a witness of the event, for it could not happen till
+many years after his death. This did not, however, diminish his
+anxiety to impress upon those who would then be alive, the importance
+of the occurrence, nor did it lead him to neglect anything which
+might contribute to the success of the observations. As we now know,
+Halley rather over-estimated the value of the transit of Venus, as a
+means of determining the solar distance. The fact is that the
+circumstances are such that the observation of the time of contact
+between the edge of the planet and the edge of the sun cannot be made
+with the accuracy which he had expected.</p>
+
+<p>In 1691, Halley became a candidate for the Savilian Professorship of
+Astronomy at Oxford. He was not, however, successful, for his
+candidature was opposed by Flamsteed, the Astronomer Royal of the
+time, and another was appointed. He received some consolation for
+this particular disappointment by the fact that, in 1696, owing to
+Newton's friendly influence, he was appointed deputy Controller of
+the Mint at Chester, an office which he did not retain for long, as
+it was abolished two years later. At last, in 1703, he received what
+he had before vainly sought, and he was appointed to the Savilian
+chair.</p>
+
+<p>His observations of the eclipse of the sun, which occurred in 1715,
+added greatly to Halley's reputation. This phenomenon excited
+special attention, inasmuch as it was the first total eclipse of the
+sun which had been visible in London since the year 1140. Halley
+undertook the necessary calculations, and predicted the various
+circumstances with a far higher degree of precision than the official
+announcement. He himself observed the phenomenon from the Royal
+Society's rooms, and he minutely describes the outer atmosphere of
+the sun, now known as the corona; without, however, offering an
+opinion as to whether it was a solar or a lunar appendage.</p>
+
+<p>At last Halley was called to the dignified office which he of all men
+was most competent to fill. On February 9th, 1720, he was appointed
+Astronomer Royal in succession to Flamsteed. He found things at the
+Royal Observatory in a most unsatisfactory state. Indeed, there were
+no instruments, nor anything else that was movable; for such things,
+being the property of Flamsteed, had been removed by his widow, and
+though Halley attempted to purchase from that lady some of the
+instruments which his predecessor had employed, the unhappy personal
+differences which had existed between him and Flamsteed, and which,
+as we have already seen, prevented his election as Savilian Professor
+of Astronomy, proved a bar to the negotiation. Greenwich Observatory
+wore a very different appearance in those days, from that which the
+modern visitor, who is fortunate enough to gain admission, may now
+behold. Not only did Halley find it bereft of instruments, we learn
+besides that he had no assistants, and was obliged to transact the
+whole business of the establishment single-handed.</p>
+
+<p>In 1721, however, he obtained a grant of 500 pounds from the Board of
+Ordnance, and accordingly a transit instrument was erected in the
+same year. Some time afterwards he procured an eight-foot quadrant,
+and with these instruments, at the age of sixty-four, he commenced a
+series of observations on the moon. He intended, if his life was
+spared, to continue his observations for a period of eighteen years,
+this being, as astronomers know, a very important cycle in connection
+with lunar movements. The special object of this vast undertaking
+was to improve the theory of the moon's motion, so that it might
+serve more accurately to determine longitudes at sea. This
+self-imposed task Halley lived to carry to a successful termination,
+and the tables deduced from his observations, and published after his
+death, were adopted almost universally by astronomers, those of the
+French nation being the only exception.</p>
+
+<p>Throughout his life Halley had been singularly free from illness of
+every kind, but in 1737 he had a stroke of paralysis. Notwithstanding
+this, however, he worked diligently at his telescope till 1739, after
+which his health began rapidly to give way. He died on January 14th,
+1742, in the eighty-sixth year of his age, retaining his mental
+faculties to the end. He was buried in the cemetery of the church of
+Lee in Kent, in the same grave as his wife, who had died five years
+previously. We are informed by Admiral Smyth that Pond, a later
+Astronomer Royal, was afterwards laid in the same tomb.</p>
+
+<p>Halley's disposition seems to have been generous and candid, and
+wholly free from anything like jealousy or rancour. In person he was
+rather above the middle height, and slight in build; his complexion
+was fair, and he is said to have always spoken, as well as acted,
+with uncommon sprightliness. In the eloge pronounced upon him at the
+Paris Academie Des Sciences, of which Halley had been made a member
+in 1719 it was said, "he possessed all the qualifications which were
+necessary to please princes who were desirous of instruction, with a
+great extent of knowledge and a constant presence of mind; his
+answers were ready, and at the same time pertinent, judicious, polite
+and sincere."</p>
+
+<p><a name="greenwich_observatory"  id="greenwich_observatory"></a></p>
+
+<div class="figcenter" style="width: 705px;">
+<a href="images/ill_grnch_oberservatory_halleys_time.jpg">
+<img src="images/ill_grnch_oberservatory_halleys_time_sml.jpg" width="705" height="429" alt="GREENWICH OBSERVATORY IN HALLEY&#39;S TIME." title="" /></a>
+<span class="caption">GREENWICH OBSERVATORY IN HALLEY&#39;S TIME.</span>
+</div>
+
+<p>Thus we find that Peter the Great was one of his most ardent
+admirers. He consulted the astronomer on matters connected with
+shipbuilding, and invited him to his own table. But Halley possessed
+nobler qualifications than the capacity of pleasing Princes. He was
+able to excite and to retain the love and admiration of his equals.
+This was due to the warmth of his attachments, the unselfishness of
+his devotion to his friends, and to a vein of gaiety and good-humour
+which pervaded all his conversation.</p>
+
+<h3><a name="BRADLEY" id="BRADLEY"></a>BRADLEY.</h3>
+<p>James Bradley was descended from an ancient family in the county of
+Durham. He was born in 1692 or 1693, at Sherbourne, in
+Gloucestershire, and was educated in the Grammar School at
+Northleach. From thence he proceeded in due course to Oxford, where
+he was admitted a commoner at Balliol College, on March 15th, 1711.
+Much of his time, while an undergraduate, was passed in Essex with
+his maternal uncle, the Rev. James Pound, who was a well-known man of
+science and a diligent observer of the stars. It was doubtless by
+intercourse with his uncle that young Bradley became so expert in the
+use of astronomical instruments, but the immortal discoveries he
+subsequently made show him to have been a born astronomer.</p>
+
+<p>The first exhibition of Bradley's practical skill seems to be
+contained in two observations which he made in 1717 and 1718. They
+have been published by Halley, whose acuteness had led him to
+perceive the extraordinary scientific talents of the young
+astronomer. Another illustration of the sagacity which Bradley
+manifested, even at the very commencement of his astronomical career,
+is contained in a remark of Halley's, who says: "Dr. Pound and his
+nephew, Mr. Bradley, did, myself being present, in the last
+opposition of the sun and Mars this way demonstrate the extreme
+minuteness of the sun's parallax, and that it was not more than
+twelve seconds nor less than nine seconds." To make the significance
+of this plain, it should be observed that the determination of the
+sun's parallax is equivalent to the determination of the distance
+from the earth to the sun. At the time of which we are now writing,
+this very important unit of celestial measurement was only very
+imperfectly known, and the observations of Pound and Bradley may be
+interpreted to mean that, from their observations, they had come to
+the conclusion that the distance from the earth to the sun must be
+more than 94 millions of miles, and less than 125 millions. We now,
+of course, know that they were not exactly right, for the true
+distance of the sun is about 93 millions of miles. We cannot,
+however, but think that it was a very remarkable approach for the
+veteran astronomer and his brilliant nephew to make towards the
+determination of a magnitude which did not become accurately known
+till fifty years later.</p>
+
+<p>Among the earliest parts of astronomical work to which Bradley's
+attention was directed, were the eclipses of Jupiter's satellites.
+These phenomena are specially attractive inasmuch as they can be so
+readily observed, and Bradley found it extremely interesting to
+calculate the times at which the eclipses should take place, and then
+to compare his observations with the predicted times. From the
+success that he met with in this work, and from his other labours,
+Bradley's reputation as an astronomer increased so greatly that on
+November the 6th, 1718, he was elected a Fellow of the Royal Society.</p>
+
+<p>Up to this time the astronomical investigations of Bradley had been
+more those of an amateur than of a professional astronomer, and as it
+did not at first seem likely that scientific work would lead to any
+permanent provision, it became necessary for the youthful astronomer
+to choose a profession. It had been all along intended that he
+should enter the Church, though for some reason which is not told us,
+he did not take orders as soon as his age would have entitled him to
+do so. In 1719, however, the Bishop of Hereford offered Bradley the
+Vicarage of Bridstow, near Ross, in Monmouthshire, and on July 25th,
+1720, he having then taken priest's orders, was duly instituted in
+his vicarage. In the beginning of the next year, Bradley had some
+addition to his income from the proceeds of a Welsh living, which,
+being a sinecure, he was able to hold with his appointment at
+Bridstow. It appears, however, that his clerical occupations were
+not very exacting in their demands upon his time, for he was still
+able to pay long and often-repeated visits to his uncle at
+Wandsworth, who, being himself a clergyman, seems to have received
+occasional assistance in his ministerial duties from his astronomical
+nephew.</p>
+
+<p>The time, however, soon arrived when Bradley was able to make a
+choice between continuing to exercise his profession as a divine, or
+devoting himself to a scientific career. The Savilian Professorship
+of Astronomy in the University of Oxford became vacant by the death
+of Dr. John Keill. The statutes forbade that the Savilian Professor
+should also hold a clerical appointment, and Mr. Pound would
+certainly have been elected to the professorship had he consented to
+surrender his preferments in the Church. But Pound was unwilling to
+sacrifice his clerical position, and though two or three other
+candidates appeared in the field, yet the talents of Bradley were so
+conspicuous that he was duly elected, his willingness to resign the
+clerical profession having been first ascertained.</p>
+
+<p>There can be no doubt that, with such influential friends as Bradley
+possessed, he would have made great advances had he adhered to his
+profession as a divine. Bishop Hoadly, indeed, with other marks of
+favour, had already made the astronomer his chaplain. The engrossing
+nature of Bradley's interest in astronomy decided him, however, to
+sacrifice all other prospects in comparison with the opening afforded
+by the Savilian Professorship. It was not that Bradley found himself
+devoid of interest in clerical matters, but he felt that the true
+scope for such abilities as he possessed would be better found in the
+discharge of the scientific duties of the Oxford chair than in the
+spiritual charge of a parish. On April the 26th, 1722, Bradley read
+his inaugural lecture in that new position on which he was destined
+to confer such lustre.</p>
+
+<p>It must, of course, be remembered that in those early days the art of
+constructing the astronomical telescope was very imperfectly
+understood. The only known method for getting over the peculiar
+difficulties presented in the construction of the refracting
+telescope, was to have it of the most portentous length. In fact,
+Bradley made several of his observations with an instrument of two
+hundred and twelve feet focus. In such a case, no tube could be
+used, and the object glass was merely fixed at the top of a high
+pole. Notwithstanding the inconvenience and awkwardness of such an
+instrument, Bradley by its means succeeded in making many careful
+measurements. He observed, for example, the transit of Mercury over
+the sun's disc, on October 9th, 1723; he also observed the dimensions
+of the planet Venus, while a comet which Halley discovered on October
+the 9th, 1723, was assiduously observed at Wanstead up to the middle
+of the ensuing month. The first of Bradley's remarkable
+contributions to the "Philosophical Transactions" relates to this
+comet, and the extraordinary amount of work that he went through in
+connection therewith may be seen from an examination of his book of
+Calculations which is still extant.</p>
+
+<p>The time was now approaching when Bradley was to make the first of
+those two great discoveries by which his name has acquired a lustre
+that has placed him in the very foremost rank of astronomical
+discoverers. As has been often the case in the history of science,
+the first of these great successes was attained while he was pursuing
+a research intended for a wholly different purpose. It had long been
+recognised that as the earth describes a vast orbit, nearly two
+hundred million miles in diameter, in its annual journey round the
+sun, the apparent places of the stars should alter, to some extent,
+in correspondence with the changes in the earth's position. The
+nearer the star the greater the shift in its apparent place on the
+heavens, which must arise from the fact that it was seen from
+different positions in the earth's orbit. It had been pointed out
+that these apparent changes in the places of the stars, due to the
+movement of the earth, would provide the means of measuring the
+distances of the stars. As, however, these distances are enormously
+great in comparison with the orbit which the earth describes around
+the sun, the attempt to determine the distances of the stars by the
+shift in their positions had hitherto proved ineffectual. Bradley
+determined to enter on this research once again; he thought that by
+using instruments of greater power, and by making measurements of
+increased delicacy, he would be able to perceive and to measure
+displacements which had proved so small as to elude the skill of the
+other astronomers who had previously made efforts in the same
+direction. In order to simplify the investigation as much as
+possible, Bradley devoted his attention to one particular star, Beta
+Draconis, which happened to pass near his zenith. The object of
+choosing a star in this position was to avoid the difficulties which
+would be introduced by refraction had the star occupied any other
+place in the heavens than that directly overhead.</p>
+
+<p>We are still able to identify the very spot on which the telescope
+stood which was used in this memorable research. It was erected at
+the house then occupied by Molyneux, on the western extremity of Kew
+Green. The focal length was 24 feet 3 inches, and the eye-glass was
+3 and a half feet above the ground floor. The instrument was first
+set up on November 26th, 1725. If there had been any appreciable
+disturbance in the place of Beta Draconis in consequence of the
+movement of the earth around the sun, the star must appear to have
+the smallest latitude when in conjunction with the sun, and the
+greatest when in opposition. The star passed the meridian at noon in
+December, and its position was particularly noticed by Molyneux on
+the third of that month. Any perceptible displacement by
+parallax&mdash;for so the apparent change in position, due to the earth's
+motion, is called&mdash;would would have made the star shift towards the
+north. Bradley, however, when observing it on the 17th, was
+surprised to find that the apparent place of the star, so far from
+shifting towards the north, as they had perhaps hoped it would, was
+found to lie a little more to the south than when it was observed
+before. He took extreme care to be sure that there was no mistake in
+his observation, and, true astronomer as he was, he scrutinized with
+the utmost minuteness all the circumstances of the adjustment of his
+instruments. Still the star went to the south, and it continued so
+advancing in the same direction until the following March, by which
+time it had moved no less than twenty seconds south from the place
+which it occupied when the first observation was made. After a brief
+pause, in which no apparent movement was perceptible, the star by the
+middle of April appeared to be returning to the north. Early in June
+it reached the same distance from the zenith which it had in
+December. By September the star was as much as thirty-nine seconds
+more to the north than it had been in March, then it returned towards
+the south, regaining in December the same situation which it had
+occupied twelve months before.</p>
+
+<p>This movement of the star being directly opposite to the movements
+which would have been the consequence of parallax, seemed to show
+that even if the star had any parallax its effects upon the apparent
+place were entirely masked by a much larger motion of a totally
+different description. Various attempts were made to account for the
+phenomenon, but they were not successful. Bradley accordingly
+determined to investigate the whole subject in a more thorough
+manner. One of his objects was to try whether the same movements
+which he had observed in one star were in any similar degree
+possessed by other stars. For this purpose he set up a new
+instrument at Wanstead, and there he commenced a most diligent
+scrutiny of the apparent places of several stars which passed at
+different distances from the zenith. He found in the course of this
+research that other stars exhibited movements of a similar
+description to those which had already proved so perplexing. For a
+long time the cause of these apparent movements seemed a mystery. At
+last, however, the explanation of these remarkable phenomena dawned
+upon him, and his great discovery was made.</p>
+
+<p>One day when Bradley was out sailing he happened to remark that every
+time the boat was laid on a different tack the vane at the top of the
+boat's mast shifted a little, as if there had been a slight change in
+the direction of the wind. After he had noticed this three or four
+times he made a remark to the sailors to the effect that it was very
+strange the wind should always happen to change just at the moment
+when the boat was going about. The sailors, however, said there had
+been no change in the wind, but that the alteration in the vane was
+due to the fact that the boat's course had been altered. In fact,
+the position of the vane was determined both by the course of the
+boat and the direction of the wind, and if either of these were
+altered there would be a corresponding change in the direction of the
+vane. This meant, of course, that the observer in the boat which was
+moving along would feel the wind coming from a point different from
+that in which the wind appeared to be blowing when the boat was at
+rest, or when it was sailing in some different direction. Bradley's
+sagacity saw in this observation the clue to the Difficulty which had
+so long troubled him.</p>
+
+<p>It had been discovered before the time of Bradley that the passage of
+light through space is not an instantaneous phenomenon. Light
+requires time for its journey. Galileo surmised that the sun may
+have reached the horizon before we see it there, and it was indeed
+sufficiently obvious that a physical action, like the transmission of
+light, could hardly take place without requiring some lapse of time.
+The speed with which light actually travelled was, however, so rapid
+that its determination eluded all the means of experimenting which
+were available in those days. The penetration of Roemer had
+previously detected irregularities in the observed times of the
+eclipses of Jupiter's satellites, which were undoubtedly due to the
+interval which light required for stretching across the
+interplanetary spaces. Bradley argued that as light can only travel
+with a certain speed, it may in a measure be regarded like the wind,
+which he noticed in the boat. If the observer were at rest, that is
+to say, if the earth were a stationary object, the direction in which
+the light actually does come would be different from that in which it
+appears to come when the earth is in motion. It is true that the
+earth travels but eighteen miles a second, while the velocity with
+which light is borne along attains to as much as 180,000 miles a
+second. The velocity of light is thus ten thousand times greater
+than the speed of the earth. But even though the wind blew ten
+thousand times faster than the speed with which the boat was sailing
+there would still be some change, though no doubt a very small
+change, in the position of the vane when the boat was in progress
+from the position it would have if the boat were at rest. It
+therefore occurred to this most acute of astronomers that when the
+telescope was pointed towards a star so as to place it apparently in
+the centre of the field of view, yet it was not generally the true
+position of the star. It was not, in fact, the position in which the
+star would have been observed had the earth been at rest. Provided
+with this suggestion, he explained the apparent movements of the
+stars by the principle known as the "aberration of light." Every
+circumstance was accounted for as a consequence of the relative
+movements of the earth and of the light from the star. This
+beautiful discovery not only established in the most forcible manner
+the nature of the movement of light; not only did it illustrate the
+truth of the Copernican theory which asserted that the earth revolved
+around the sun, but it was also of the utmost importance in the
+improvement of practical astronomy. Every observer now knows that,
+generally speaking, the position which the star appears to have is
+not exactly the position in which the star does actually lie. The
+observer is, however, able, by the application of the principles
+which Bradley so clearly laid down, to apply to an observation the
+correction which is necessary to obtain from it the true place in
+which the object is actually situated. This memorable achievement at
+once conferred on Bradley the highest astronomical fame. He tested
+his discovery in every way, but only to confirm its truth in the most
+complete manner.</p>
+
+<p>Halley, the Astronomer Royal, died on the 14th, January, 1742, and
+Bradley was immediately pointed out as his successor. He was
+accordingly appointed Astronomer Royal in February, 1742. On first
+taking up his abode at Greenwich he was unable to conduct his
+observations owing to the wretched condition in which he found the
+instruments. He devoted himself, however, assiduously to their
+repair, and his first transit observation is recorded on the 25th
+July, 1742. He worked with such energy that on one day it appears
+that 255 transit observations were taken by himself alone, and in
+September, 1747, he had completed the series of observations which
+established his second great discovery, the nutation of the earth's
+axis. The way in which he was led to the detection of the nutation
+is strikingly illustrative of the extreme care with which Bradley
+conducted his observations. He found that in the course of a
+twelve-month, when the star had completed the movement which was due
+to aberration, it did not return exactly to the same position which
+it had previously occupied. At first he thought this must be due to
+some instrumental error, but after closer examination and repeated
+study of the effect as manifested by many different stars, he came to
+the conclusion that its origin must be sought in some quite different
+source. The fact is that a certain change takes place in the
+apparent position of the stars which is not due to the movement of
+the star itself, but is rather to be attributed to changes in the
+points from which the star's positions are measured.</p>
+
+<p>We may explain the matter in this way. As the earth is not a sphere,
+but has protuberant parts at the equator, the attraction of the moon
+exercises on those protuberant parts a pulling effect which
+continually changes the direction of the earth's axis, and
+consequently the position of the pole must be in a state of incessant
+fluctuation. The pole to which the earth's axis points on the sky
+is, therefore, slowly changing. At present it happens to lie near
+the Pole Star, but it will not always remain there. It describes a
+circle around the pole of the Ecliptic, requiring about 25,000 years
+for a complete circuit. In the course of its progress the pole will
+gradually pass now near one star and now near another, so that many
+stars will in the lapse of ages discharge the various functions which
+the present Pole Star does for us. In about 12,000 years, for
+instance, the pole will have come near the bright star, Vega. This
+movement of the pole had been known for ages. But what Bradley
+discovered was that the pole, instead of describing an uniform
+movement as had been previously supposed, followed a sinuous course
+now on one side and now on the other of its mean place. This he
+traced to the fluctuations of the moon's orbit, which undergoes a
+continuous change in a period of nineteen years. Thus the efficiency
+with which the moon acts on the protuberant mass of the earth varies,
+and thus the pole is caused to oscillate.</p>
+
+<p>This subtle discovery, if perhaps in some ways less impressive than
+Bradley's earlier achievements of the detection of the aberration of
+light, is regarded by astronomers as testifying even in a higher
+degree to his astonishing care and skill as an observer, and justly
+entitles him to a unique place among the astronomers whose
+discoveries have been effected by consummate practical skill in the
+use of astronomical instruments.</p>
+
+<p>Of Bradley's private or domestic life there is but little to tell. In
+1744, soon after he became Astronomer Royal, he married a daughter of
+Samuel Peach, of Chalford, in Gloucestershire. There was but one
+child, a daughter, who became the wife of her cousin, Rev. Samuel
+Peach, rector of Compton, Beauchamp, in Berkshire.</p>
+
+<p>Bradley's last two years of life were clouded by a melancholy
+depression of spirits, due to an apprehension that he should survive
+his rational faculties. It seems, however, that the ill he dreaded
+never came upon him, for he retained his mental powers to the close.
+He died on 13th July, 1762, aged seventy, and was buried at
+Michinghamton.</p>
+
+<h3><a name="WILLIAM_HERSCHEL" id="WILLIAM_HERSCHEL"></a>WILLIAM HERSCHEL.</h3>
+<p>William Herschel, one of the greatest astronomers that has ever
+lived, was born at Hanover, on the 15th November, 1738. His father,
+Isaac Herschel, was a man evidently of considerable ability, whose
+life was devoted to the study and practice of music, by which he
+earned a somewhat precarious maintenance. He had but few worldly
+goods to leave to his children, but he more than compensated for this
+by bequeathing to them a splendid inheritance of genius. Touches of
+genius were, indeed, liberally scattered among the members of Isaac's
+large family, and in the case of his forth child, William, and of a
+sister several years younger, it was united with that determined
+perseverance and rigid adherence to principle which enabled genius to
+fulfil its perfect work.</p>
+
+<p>A faithful chronicler has given us an interesting account of the way
+in which Isaac Herschel educated his sons; the narrative is taken
+from the recollections of one who, at the time we are speaking of,
+was an unnoticed little girl five or six years old. She writes:&mdash;</p>
+
+<p>"My brothers were often introduced as solo performers and assistants
+in the orchestra at the Court, and I remember that I was frequently
+prevented from going to sleep by the lively criticisms on music on
+coming from a concert. Often I would keep myself awake that I might
+listen to their animating remarks, for it made me so happy to see
+them so happy. But generally their conversation would branch out on
+philosophical subjects, when my brother William and my father often
+argued with such warmth that my mother's interference became
+necessary, when the names&mdash;Euler, Leibnitz, and Newton&mdash;sounded
+rather too loud for the repose of her little ones, who had to be at
+school by seven in the morning." The child whose reminiscences are
+here given became afterwards the famous Caroline Herschel. The
+narrative of her life, by Mrs. John Herschel, is a most interesting
+book, not only for the account it contains of the remarkable woman
+herself, but also because it provides the best picture we have of the
+great astronomer to whom Caroline devoted her life.</p>
+
+<p>This modest family circle was, in a measure, dispersed at the
+outbreak of the Seven Years' War in 1756. The French proceeded to
+invade Hanover, which, it will be remembered, belonged at this time
+to the British dominions. Young William Herschel had already
+obtained the position of a regular performer in the regimental band
+of the Hanoverian Guards, and it was his fortune to obtain some
+experience of actual warfare in the disastrous battle of Hastenbeck.
+He was not wounded, but he had to spend the night after the battle in
+a ditch, and his meditations on the occasion convinced him that
+soldiering was not the profession exactly adapted to his tastes. We
+need not attempt to conceal the fact that he left his regiment by the
+very simple but somewhat risky process of desertion. He had, it
+would seem, to adopt disguises to effect his escape. At all events,
+by some means he succeeded in eluding detection and reached England
+in safety. It is interesting to have learned on good authority that
+many years after this offence was committed it was solemnly
+forgiven. When Herschel had become the famous astronomer, and as
+such visited King George at Windsor, the King at their first meeting
+handed to him his pardon for deserting from the army, written out in
+due form by his Majesty himself.</p>
+
+<p>It seems that the young musician must have had some difficulty in
+providing for his maintenance during the first few years of his abode
+in England. It was not until he had reached the age of twenty-two
+that he succeeded in obtaining any regular appointment. He was then
+made Instructor of Music to the Durham Militia. Shortly afterwards,
+his talents being more widely recognised, he was appointed as
+organist at the parish church at Halifax, and his prospects in life
+now being fairly favourable, and the Seven Years' War being over, he
+ventured to pay a visit to Hanover to see his father. We can imagine
+the delight with which old Isaac Herschel welcomed his promising son,
+as well as his parental pride when a concert was given at which some
+of William's compositions were performed. If the father was so
+intensely gratified on this occasion, what would his feelings have
+been could he have lived to witness his son's future career? But
+this pleasure was not to be his, for he died many years before
+William became an astronomer.</p>
+
+<p>In 1766, about a couple of years after his return to England from
+This visit to his old home, we find that Herschel had received a
+further promotion to be organist in the Octagon Chapel, at Bath.
+Bath was then, as now, a highly fashionable resort, and many notable
+personages patronised the rising musician. Herschel had other points
+in his favour besides his professional skill; his appearance was
+good, his address was prepossessing, and even his nationality was a
+distinct advantage, inasmuch as he was a Hanoverian in the reign of
+King George the Third. On Sundays he played the organ, to the great
+delight of the congregation, and on week-days he was occupied by
+giving lessons to private pupils, and in preparation for public
+performances. He thus came to be busily employed, and seems to have
+been in the enjoyment of comfortable means.</p>
+
+<p><a name="new_king"  id="new_king"></a></p>
+
+<div class="figcenter" style="width: 292px;">
+<a href="images/ill_7_new_king_st.jpg">
+<img src="images/ill_7_new_king_st_sml.jpg" width="292" height="532" alt="7, NEW KING STREET, BATH, WHERE HERSCHEL LIVED." title="" /></a>
+<span class="caption">7, NEW KING STREET, BATH, WHERE HERSCHEL LIVED.</span>
+</div>
+
+<p>From his earliest youth Herschel had been endowed with that
+invaluable characteristic, an eager curiosity for knowledge. He was
+naturally desirous of perfecting himself in the theory of music, and
+thus he was led to study mathematics. When he had once tasted the
+charms of mathematics, he saw vast regions of knowledge unfolded
+before him, and in this way he was induced to direct his attention to
+astronomy. More and more this pursuit seems to have engrossed his
+attention, until at last it had become an absorbing passion. Herschel
+was, however, still obliged, by the exigency of procuring a
+livelihood, to give up the best part of his time to his profession as
+a musician; but his heart was eagerly fixed on another science, and
+every spare moment was steadily devoted to astronomy. For many
+years, however, he continued to labour at his original calling, nor
+was it until he had attained middle age and become the most
+celebrated astronomer of the time, that he was enabled to concentrate
+his attention exclusively on his favourite pursuit.</p>
+
+<p>It was with quite a small telescope which had been lent him by a
+friend that Herschel commenced his career as an observer. However,
+he speedily discovered that to see all he wanted to see, a telescope
+of far greater power would be necessary, and he determined to obtain
+this more powerful instrument by actually making it with his own
+hands. At first it may seem scarcely likely that one whose
+occupation had previously been the study and practice of music should
+meet with success in so technical an operation as the construction of
+a telescope. It may, however, be mentioned that the kind of
+instrument which Herschel designed to construct was formed on a very
+different principle from the refracting telescopes with which we are
+ordinarily familiar. His telescope was to be what is termed a
+reflector. In this type of instrument the optical power is obtained
+by the use of a mirror at the bottom of the tube, and the astronomer
+looks down through the tube TOWARDS HIS MIRROR and views the
+reflection of the stars with its aid. Its efficiency as a telescope
+depends entirely on the accuracy with which the requisite form has
+been imparted to the mirror. The surface has to be hollowed out a
+little, and this has to be done so truly that the slightest deviation
+from good workmanship in this essential particular would be fatal to
+efficient performance of the telescope.</p>
+
+<p><a name="william"  id="william"></a></p>
+
+<div class="figcenter" style="width: 411px;">
+<a href="images/ill_herschel.jpg">
+<img src="images/ill_herschel_sml.jpg" width="411" height="495" alt="WILLIAM HERSCHEL." title="" /></a>
+<span class="caption">WILLIAM HERSCHEL.</span>
+</div>
+
+<p>The mirror that Herschel employed was composed of a mixture of two
+parts of copper to one of tin; the alloy thus obtained is an
+intensely hard material, very difficult to cast into the proper
+shape, and very difficult to work afterwards. It possesses, however,
+when polished, a lustre hardly inferior to that of silver itself.
+Herschel has recorded hardly any particulars as to the actual process
+by which he cast and figured his reflectors. We are however, told
+that in later years, after his telescopes had become famous, he made
+a considerable sum of money by the manufacture and sale of great
+instruments. Perhaps this may be the reason why he never found it
+expedient to publish any very explicit details as to the means by
+which his remarkable successes were obtained.</p>
+
+<p><a name="caroline"  id="caroline"></a></p>
+
+<div class="figcenter" style="width: 406px;">
+<a href="images/ill_caroline_herschel.jpg">
+<img src="images/ill_caroline_herschel_sml.jpg" width="406" height="509" alt="CAROLINE HERSCHEL." title="" /></a>
+<span class="caption">CAROLINE HERSCHEL.</span>
+</div>
+
+<p>Since Herschel's time many other astronomers, notably the late Earl
+of Rosse, have experimented in the same direction, and succeeded in
+making telescopes certainly far greater, and probably more perfect,
+than any which Herschel appears to have constructed. The details of
+these later methods are now well known, and have been extensively
+practised. Many amateurs have thus been able to make telescopes by
+following the instructions so clearly laid down by Lord Rosse and the
+other authorities. Indeed, it would seem that any one who has a
+little mechanical skill and a good deal of patience ought now to
+experience no great difficulty in constructing a telescope quite as
+powerful as that which first brought Herschel into fame. I should,
+however, mention that in these modern days the material generally
+used for the mirror is of a more tractable description than the
+metallic substance which was employed by Herschel and by Lord Rosse.
+A reflecting telescope of the present day would not be fitted with a
+mirror composed of that alloy known as speculum metal, whose
+composition I have already mentioned. It has been found more
+advantageous to employ a glass mirror carefully figured and polished,
+just as a metallic mirror would have been, and then to impart to the
+polished glass surface a fine coating of silver laid down by a
+chemical process. The silver-on-glass mirrors are so much lighter
+and so much easier to construct that the more old-fashioned metallic
+mirrors may be said to have fallen into almost total disuse. In one
+respect however, the metallic mirror may still claim the advantage
+that, with reasonable care, its surface will last bright and
+untarnished for a much longer period than can the silver film on the
+glass. However, the operation of re-silvering a glass has now become
+such a simple one that the advantage this indicates is not relatively
+so great as might at first be supposed.</p>
+
+<p><a name="street"  id="street"></a></p>
+
+<div class="figcenter" style="width: 426px;">
+<a href="images/ill_herschel_house_slough.jpg">
+<img src="images/ill_herschel_house_slough_sml.jpg" width="426" height="318" alt="STREET VIEW, HERSCHEL HOUSE, SLOUGH." title="" /></a>
+<span class="caption">STREET VIEW, HERSCHEL HOUSE, SLOUGH.</span>
+</div>
+
+<p>Some years elapsed after Herschel's attention had been first directed
+to astronomy, before he reaped the reward of his exertions in the
+possession of a telescope which would adequately reveal some of the
+glories of the heavens. It was in 1774, when the astronomer was
+thirty-six years old, that he obtained his first glimpse of the stars
+with an instrument of his own construction. Night after night, as
+soon as his musical labours were ended, his telescopes were brought
+out, sometimes into the small back garden of his house at Bath, and
+sometimes into the street in front of his hall-door. It was
+characteristic of him that he was always endeavouring to improve his
+apparatus. He was incessantly making fresh mirrors, or trying new
+lenses, or combinations of lenses to act as eye-pieces, or projecting
+alterations in the mounting by which the telescope was supported.
+Such was his enthusiasm that his house, we are told, was incessantly
+littered with the usual indications of the workman's presence,
+greatly to the distress of his sister, who, at this time, had come to
+take up her abode with him and look after his housekeeping. Indeed,
+she complained that in his astronomical ardour he sometimes omitted
+to take off, before going into his workshop, the beautiful lace
+ruffles which he wore while conducting a concert, and that
+consequently they became soiled with the pitch employed in the
+polishing of his mirrors.</p>
+
+<p>This sister, who occupies such a distinct place in scientific history
+is the same little girl to whom we have already referred. From her
+earliest days she seems to have cherished a passionate admiration for
+her brilliant brother William. It was the proudest delight of her
+childhood as well as of her mature years to render him whatever
+service she could; no man of science was ever provided with a more
+capable or energetic helper than William Herschel found in this
+remarkable woman. Whatever work had to be done she was willing to
+bear her share in it, or even to toil at it unassisted if she could
+be allowed to do so. She not only managed all his domestic affairs,
+but in the grinding of the lenses and in the polishing of the mirrors
+she rendered every assistance that was possible. At one stage of the
+very delicate operation of fashioning a reflector, it is necessary
+for the workman to remain with his hand on the mirror for many hours
+in succession. When such labours were in progress, Caroline used to
+sit by her brother, and enliven the time by reading stories aloud,
+sometimes pausing to feed him with a spoon while his hands were
+engaged on the task from which he could not desist for a moment.</p>
+
+<p>When mathematical work had to be done Caroline was ready for it; she
+had taught herself sufficient to enable her to perform the kind of
+calculations, not, perhaps, very difficult ones, that Herschel's work
+required; indeed, it is not too much to say that the mighty life-work
+which this man was enabled to perform could never have been accomplished
+had it not been for the self-sacrifice of this ever-loving and faithful
+sister. When Herschel was at the telescope at night, Caroline sat by
+him at her desk, pen in hand, ready to write down the notes of the
+observations as they fell from her brother's lips. This was no
+insignificant toil. The telescope was, of course, in the open air,
+and as Herschel not unfrequently continued his observations throughout
+the whole of a long winter's night, there were but few women who could
+have accomplished the task which Caroline so cheerfully executed.
+From dusk till dawn, when the sky was clear, were Herschel's observing
+hours, and what this sometimes implied we can realise from the fact
+that Caroline assures us she had sometimes to desist because the ink
+had actually frozen in her pen. The night's work over, a brief rest
+was taken, and while William had his labours for the day to attend to,
+Caroline carefully transcribed the observations made during the night
+before, reduced all the figures and prepared everything in readiness
+for the observations that were to follow on the ensuing evening.</p>
+
+<p>But we have here been anticipating a little of the future which lay
+before the great astronomer; we must now revert to the history of his
+early work, at Bath, in 1774, when Herschel's scrutiny of the skies
+first commenced with an instrument of his own manufacture. For some
+few years he did not attain any result of importance; no doubt he
+made a few interesting observations, but the value of the work during
+those years is to be found, not in any actual discoveries which were
+accomplished, but in the practice which Herschel obtained in the use
+of his instruments. It was not until 1782 that the great achievement
+took place by which he at once sprang into fame.</p>
+
+<p><a name="garden"  id="garden"></a></p>
+
+<div class="figcenter" style="width: 421px;">
+<a href="images/ill_garden_view_herschel_house_slough.jpg">
+<img src="images/ill_garden_view_herschel_house_slough_sml.jpg" width="421" height="340" alt="GARDEN VIEW, HERSCHEL HOUSE, SLOUGH." title="" /></a>
+<span class="caption">GARDEN VIEW, HERSCHEL HOUSE, SLOUGH.</span>
+</div>
+
+<p>It is sometimes said that discoveries are made by accident, and, no
+doubt, to a certain extent, but only, I fancy to a very small extent,
+this statement may be true. It is, at all events, certain that such
+lucky accidents do not often fall to the lot of people unless those
+people have done much to deserve them. This was certainly the case
+with Herschel. He appears to have formed a project for making a
+close examination of all the stars above a certain magnitude. Perhaps
+he intended to confine this research to a limited region of the sky,
+but, at all events, he seems to have undertaken the work
+energetically and systematically. Star after star was brought to the
+centre of the field of view of his telescope, and after being
+carefully examined was then displaced, while another star was brought
+forward to be submitted to the same process. In the great majority
+of cases such observations yield really nothing of importance; no
+doubt even the smallest star in the heavens would, if we could find
+out all about it, reveal far more than all the astronomers that were
+ever on the earth have even conjectured. What we actually learn
+about the great majority of stars is only information of the most
+meagre description. We see that the star is a little point of light,
+and we see nothing more.</p>
+
+<p>In the great review which Herschel undertook he doubtless examined
+hundreds, or perhaps thousands of stars, allowing them to pass away
+without note or comment. But on an ever-memorable night in March,
+1782, it happened that he was pursuing his task among the stars in
+the Constellation of Gemini. Doubtless, on that night, as on so many
+other nights, one star after another was looked at only to be
+dismissed, as not requiring further attention. On the evening in
+question, however, one star was noticed which, to Herschel's acute
+vision seemed different from the stars which in so many thousands are
+strewn over the sky. A star properly so called appears merely as a
+little point of light, which no increase of magnifying power will
+ever exhibit with a true disc. But there was something in the
+star-like object which Herschel saw that immediately arrested his
+attention and made him apply to it a higher magnifying power. This
+at once disclosed the fact that the object possessed a disc, that is,
+a definite, measurable size, and that it was thus totally different
+from any one of the hundreds and thousands of stars which exist
+elsewhere in space. Indeed, we may say at once that this little
+object was not a star at all; it was a planet. That such was its
+true nature was confirmed, after a little further observation, by
+perceiving that the body was shifting its place on the heavens
+relatively to the stars. The organist at the Octagon Chapel at Bath
+had, therefore, discovered a new planet with his home-made telescope.</p>
+
+<p>I can imagine some one will say, "Oh, there was nothing so wonderful
+in that; are not planets always being discovered? Has not M. Palisa,
+for instance, discovered about eighty of such objects, and are there
+not hundreds of them known nowadays?" This is, to a certain extent,
+quite true. I have not the least desire to detract from the credit
+of those industrious and sharp-sighted astronomers who have in modern
+days brought so many of these little objects within our cognisance. I
+think, however, it must be admitted that such discoveries have a
+totally different importance in the history of science from that
+which belongs to the peerless achievement of Herschel. In the first
+place, it must be observed that the minor planets now brought to
+light are so minute that if a score of them were rolled to together
+into one lump it would not be one-thousandth part of the size of the
+grand planet discovered by Herschel. This is, nevertheless, not the
+most important point. What marks Herschel's achievement as one of
+the great epochs in the history of astronomy is the fact that the
+detection of Uranus was the very first recorded occasion of the
+discovery of any planet whatever.</p>
+
+<p>For uncounted ages those who watched the skies had been aware of the
+existence of the five old planets&mdash;Jupiter, Mercury, Saturn, Venus,
+and Mars. It never seems to have occurred to any of the ancient
+philosophers that there could be other similar objects as yet
+undetected over and above the well-known five. Great then was the
+astonishment of the scientific world when the Bath organist announced
+his discovery that the five planets which had been known from all
+antiquity must now admit the company of a sixth. And this sixth
+planet was, indeed, worthy on every ground to be received into the
+ranks of the five glorious bodies of antiquity. It was, no doubt,
+not so large as Saturn, it was certainly very much less than Jupiter;
+on the other hand, the new body was very much larger than Mercury,
+than Venus, or than Mars, and the earth itself seemed quite an
+insignificant object in comparison with this newly added member of
+the Solar System. In one respect, too, Herschel's new planet was a
+much more imposing object than any one of the older bodies; it swept
+around the sun in a majestic orbit, far outside that of Saturn, which
+had previously been regarded as the boundary of the Solar System, and
+its stately progress required a period of not less than eighty-one
+years.</p>
+
+<p>King George the Third, hearing of the achievements of the Hanoverian
+musician, felt much interest in his discovery, and accordingly
+Herschel was bidden to come to Windsor, and to bring with him the
+famous telescope, in order to exhibit the new planet to the King, and
+to tell his Majesty all about it. The result of the interview was to
+give Herschel the opportunity for which he had so long wished, of
+being able to devote himself exclusively to science for the rest of
+his life.</p>
+
+<p><a name="view_herschel_house"  id="view_herschel_house"></a></p>
+
+<div class="figcenter" style="width: 416px;">
+<a href="images/ill_view_observatory_herschel_house.jpg">
+<img src="images/ill_view_observatory_herschel_house_sml.jpg" width="416" height="302" alt="VIEW OF THE OBSERVATORY, HERSCHEL HOUSE, SLOUGH." title="" /></a>
+<span class="caption">VIEW OF THE OBSERVATORY, HERSCHEL HOUSE, SLOUGH.</span>
+</div>
+
+<p>The King took so great a fancy to the astronomer that he first, as I
+have already mentioned, duly pardoned his desertion from the army,
+some twenty-five years previously. As a further mark of his favour
+the King proposed to confer on Herschel the title of his Majesty's
+own astronomer, to assign to him a residence near Windsor, to provide
+him with a salary, and to furnish such funds as might be required for
+the erection of great telescopes, and for the conduct of that mighty
+scheme of celestial observation on which Herschel was so eager to
+enter. Herschel's capacity for work would have been much impaired if
+he had been deprived of the aid of his admirable sister, and to her,
+therefore, the King also assigned a salary, and she was installed as
+Herschel's assistant in his new post.</p>
+
+<p>With his usually impulsive determination, Herschel immediately cut
+himself free from all his musical avocations at Bath, and at once
+entered on the task of making and erecting the great telescopes at
+Windsor. There, for more than thirty years, he and his faithful
+sister prosecuted with unremitting ardour their nightly scrutiny of
+the sky. Paper after paper was sent to the Royal Society, describing
+the hundreds, indeed the thousands, of objects such as double stars;
+nebulae and clusters, which were first revealed to human gaze during
+those midnight vigils. To the end of his life he still continued at
+every possible opportunity to devote himself to that beloved pursuit
+in which he had such unparalleled success. No single discovery of
+Herschel's later years was, however, of the same momentous
+description as that which first brought him to fame.</p>
+
+<p><a name="telescope_slough"  id="telescope_slough"></a></p>
+
+<div class="figcenter" style="width: 460px;">
+<a href="images/ill_telescope_herschel_house.jpg">
+<img src="images/ill_telescope_herschel_house_sml.jpg" width="460" height="354" alt="THE 40-FOOT TELESCOPE AS IT WAS IN THE YEAR 1863, HERSCHEL
+HOUSE, SLOUGH." title="" /></a>
+<span class="caption">THE 40-FOOT TELESCOPE AS IT WAS IN THE YEAR 1863, HERSCHEL
+HOUSE, SLOUGH.</span>
+</div>
+
+<p>Herschel married when considerably advanced in life and he lived to
+enjoy the indescribable pleasure of finding that his only son,
+afterwards Sir John Herschel, was treading worthily in his footsteps,
+and attaining renown as an astronomical observer, second only to that
+of his father. The elder Herschel died in 1822, and his illustrious
+sister Caroline then returned to Hanover, where she lived for many
+years to receive the respect and attention which were so justly
+hers. She died at a very advanced age in 1848.</p>
+
+<h3><a name="LAPLACE" id="LAPLACE"></a>LAPLACE.</h3>
+<p>The author of the "Mecanique Celeste" was born at Beaumont-en-Auge,
+near Honfleur, in 1749, just thirteen years later than his renowned
+friend Lagrange. His father was a farmer, but appears to have been
+in a position to provide a good education for a son who seemed
+promising. Considering the unorthodoxy in religious matters which is
+generally said to have characterized Laplace in later years, it is
+interesting to note that when he was a boy the subject which first
+claimed his attention was theology. He was, however, soon introduced
+to the study of mathematics, in which he presently became so
+proficient, that while he was still no more than eighteen years old,
+he obtained employment as a mathematical teacher in his native town.</p>
+
+<p>Desiring wider opportunities for study and for the acquisition of
+fame than could be obtained in the narrow associations of provincial
+life, young Laplace started for Paris, being provided with letters of
+introduction to D'Alembert, who then occupied the most prominent
+position as a mathematician in France, if not in the whole of
+Europe. D'Alembert's fame was indeed so brilliant that Catherine the
+Great wrote to ask him to undertake the education of her Son, and
+promised the splendid income of a hundred thousand francs. He
+preferred, however, a quiet life of research in Paris, although there
+was but a modest salary attached to his office. The philosopher
+accordingly declined the alluring offer to go to Russia, even though
+Catherine wrote again to say: "I know that your refusal arises from
+your desire to cultivate your studies and your friendships in quiet.
+But this is of no consequence: bring all your friends with you, and I
+promise you that both you and they shall have every accommodation in
+my power." With equal firmness the illustrious mathematician
+resisted the manifold attractions with which Frederick the Great
+sought to induce him, to take up his residence at Berlin. In reading
+of these invitations we cannot but be struck at the extraordinary
+respect which was then paid to scientific distinction. It must be
+remembered that the discoveries of such a man as D'Alembert were
+utterly incapable of being appreciated except by those who possessed
+a high degree of mathematical culture. We nevertheless find the
+potentates of Russia and Prussia entreating and, as it happens,
+vainly entreating, the most distinguished mathematician in France to
+accept the positions that they were proud to offer him.</p>
+
+<p>It was to D'Alembert, the profound mathematician, that young Laplace,
+the son of the country farmer, presented his letters of
+introduction. But those letters seem to have elicited no reply,
+whereupon Laplace wrote to D'Alembert submitting a discussion on some
+point in Dynamics. This letter instantly produced the desired
+effect. D'Alembert thought that such mathematical talent as the
+young man displayed was in itself the best of introductions to his
+favour. It could not be overlooked, and accordingly he invited
+Laplace to come and see him. Laplace, of course, presented himself,
+and ere long D'Alembert obtained for the rising philosopher a
+professorship of mathematics in the Military School in Paris. This
+gave the brilliant young mathematician the opening for which he
+sought, and he quickly availed himself of it.</p>
+
+<p>Laplace was twenty-three years old when his first memoir on a
+profound mathematical subject appeared in the Memoirs of the Academy
+at Turin. From this time onwards we find him publishing one memoir
+after another in which he attacks, and in many cases successfully
+vanquishes, profound difficulties in the application of the Newtonian
+theory of gravitation to the explanation of the solar system. Like
+his great contemporary Lagrange, he loftily attempted problems which
+demanded consummate analytical skill for their solution. The
+attention of the scientific world thus became riveted on the splendid
+discoveries which emanated from these two men, each gifted with
+extraordinary genius.</p>
+
+<p>Laplace's most famous work is, of course, the "Mecanique Celeste," in
+which he essayed a comprehensive attempt to carry out the principles
+which Newton had laid down, into much greater detail than Newton had
+found practicable. The fact was that Newton had not only to
+construct the theory of gravitation, but he had to invent the
+mathematical tools, so to speak, by which his theory could be applied
+to the explanation of the movements of the heavenly bodies. In the
+course of the century which had elapsed between the time of Newton
+and the time of Laplace, mathematics had been extensively developed.
+In particular, that potent instrument called the infinitesimal
+calculus, which Newton had invented for the investigation of nature,
+had become so far perfected that Laplace, when he attempted to
+unravel the movements of the heavenly bodies, found himself provided
+with a calculus far more efficient than that which had been available
+to Newton. The purely geometrical methods which Newton employed,
+though they are admirably adapted for demonstrating in a general way
+the tendencies of forces and for explaining the more obvious
+phenomena by which the movements of the heavenly bodies are
+disturbed, are yet quite inadequate for dealing with the more subtle
+effects of the Law of Gravitation. The disturbances which one planet
+exercises upon the rest can only be fully ascertained by the aid of
+long calculation, and for these calculations analytical methods are
+required.</p>
+
+<p>With an armament of mathematical methods which had been perfected
+since the days of Newton by the labours of two or three generations
+of consummate mathematical inventors, Laplace essayed in the
+"Mecanique Celeste" to unravel the mysteries of the heavens. It will
+hardly be disputed that the book which he has produced is one of the
+most difficult books to understand that has ever been written. In
+great part, of course, this difficulty arises from the very nature of
+the subject, and is so far unavoidable. No one need attempt to read
+the "Mecanique Celeste" who has not been naturally endowed with
+considerable mathematical aptitude which he has cultivated by years
+of assiduous study. The critic will also note that there are grave
+defects in Laplace's method of treatment. The style is often
+extremely obscure, and the author frequently leaves great gaps in his
+argument, to the sad discomfiture of his reader. Nor does it mend
+matters to say, as Laplace often does say, that it is "easy to see"
+how one step follows from another. Such inferences often present
+great difficulties even to excellent mathematicians. Tradition
+indeed tells us that when Laplace had occasion to refer to his own
+book, it sometimes happened that an argument which he had dismissed
+with his usual formula, "Il est facile a voir," cost the illustrious
+author himself an hour or two of hard thinking before he could
+recover the train of reasoning which had been omitted. But there are
+certain parts of this great work which have always received the
+enthusiastic admiration of mathematicians. Laplace has, in fact,
+created whole tracts of science, some of which have been subsequently
+developed with much advantage in the prosecution of the study of
+Nature.</p>
+
+<p>Judged by a modern code the gravest defect of Laplace's great work is
+rather of a moral than of a mathematical nature. Lagrange and he
+advanced together in their study of the mechanics of the heavens, at
+one time perhaps along parallel lines, while at other times they
+pursued the same problem by almost identical methods. Sometimes the
+important result was first reached by Lagrange, sometimes it was
+Laplace who had the good fortune to make the discovery. It would
+doubtless be a difficult matter to draw the line which should exactly
+separate the contributions to astronomy made by one of these
+illustrious mathematicians, and the contributions made by the other.
+But in his great work Laplace in the loftiest manner disdained to
+accord more than the very barest recognition to Lagrange, or to any
+of the other mathematicians, Newton alone excepted, who had advanced
+our knowledge of the mechanism of the heavens. It would be quite
+impossible for a student who confined his reading to the "Mecanique
+Celeste" to gather from any indications that it contains whether the
+discoveries about which he was reading had been really made by
+Laplace himself or whether they had not been made by Lagrange, or by
+Euler, or by Clairaut. With our present standard of morality in such
+matters, any scientific man who now brought forth a work in which he
+presumed to ignore in this wholesale fashion the contributions of
+others to the subject on which he was writing, would be justly
+censured and bitter controversies would undoubtedly arise. Perhaps
+we ought not to judge Laplace by the standard of our own time, and in
+any case I do not doubt that Laplace might have made a plausible
+defence. It is well known that when two investigators are working at
+the same subjects, and constantly publishing their results, it
+sometimes becomes difficult for each investigator himself to
+distinguish exactly between what he has accomplished and that which
+must be credited to his rival. Laplace may probably have said to
+himself that he was going to devote his energies to a great work on
+the interpretation of Nature, that it would take all his time and all
+his faculties, and all the resources of knowledge that he could
+command, to deal justly with the mighty problems before him. He
+would not allow himself to be distracted by any side issue. He could
+not tolerate that pages should be wasted in merely discussing to whom
+we owe each formula, and to whom each deduction from such formula is
+due. He would rather endeavour to produce as complete a picture as
+he possibly could of the celestial mechanics, and whether it were by
+means of his mathematics alone, or whether the discoveries of others
+may have contributed in any degree to the result, is a matter so
+infinitesimally insignificant in comparison with the grandeur of his
+subject that he would altogether neglect it. "If Lagrange should
+think," Laplace might say, "that his discoveries had been unduly
+appropriated, the proper course would be for him to do exactly what I
+have done. Let him also write a "Mecanique Celeste," let him employ
+those consummate talents which he possesses in developing his noble
+subject to the utmost. Let him utilise every result that I or any
+other mathematician have arrived at, but not trouble himself unduly
+with unimportant historical details as to who discovered this, and
+who discovered that; let him produce such a work as he could write,
+and I shall heartily welcome it as a splendid contribution to our
+science." Certain it is that Laplace and Lagrange continued the best
+of friends, and on the death of the latter it was Laplace who was
+summoned to deliver the funeral oration at the grave of his great
+rival.</p>
+
+<p>The investigations of Laplace are, generally speaking, of too
+technical a character to make it possible to set forth any account of
+them in such a work as the present. He did publish, however, one
+treatise, called the "Systeme du Monde," in which, without
+introducing mathematical symbols, he was able to give a general
+account of the theories of the celestial movements, and of the
+discoveries to which he and others had been led. In this work the
+great French astronomer sketched for the first time that remarkable
+doctrine by which his name is probably most generally known to those
+readers of astronomical books who are not specially mathematicians.
+It is in the "Systeme du Monde" that Laplace laid down the principles
+of the Nebular Theory which, in modern days, has been generally
+accepted by those philosophers who are competent to judge, as
+substantially a correct expression of a great historical fact.</p>
+
+<p><a name="laplace_ill"  id="laplace_ill"></a></p>
+
+<div class="figcenter" style="width: 423px;">
+<a href="images/ill_laplace.jpg">
+<img src="images/ill_laplace_sml.jpg" width="423" height="488" alt="LAPLACE." title="" /></a>
+<span class="caption">LAPLACE.</span>
+</div>
+
+<p>The Nebular Theory gives a physical account of the origin of the
+solar system, consisting of the sun in the centre, with the planets
+and their attendant satellites. Laplace perceived the significance
+of the fact that all the planets revolved in the same direction
+around the sun; he noticed also that the movements of rotation of the
+planets on their axes were performed in the same direction as that in
+which a planet revolves around the sun; he saw that the orbits of the
+satellites, so far at least as he knew them, revolved around their
+primaries also in the same direction. Nor did it escape his
+attention that the sun itself rotated on its axis in the same sense.
+His philosophical mind was led to reflect that such a remarkable
+unanimity in the direction of the movements in the solar system
+demanded some special explanation. It would have been in the highest
+degree improbable that there should have been this unanimity unless
+there had been some physical reason to account for it. To appreciate
+the argument let us first concentrate our attention on three
+particular bodies, namely the earth, the sun, and the moon. First
+the earth revolves around the sun in a certain direction, and the
+earth also rotates on its axis. The direction in which the earth
+turns in accordance with this latter movement might have been that in
+which it revolves around the sun, or it might of course have been
+opposite thereto. As a matter of fact the two agree. The moon in
+its monthly revolution around the earth follows also the same
+direction, and our satellite rotates on its axis in the same period
+as its monthly revolution, but in doing so is again observing this
+same law. We have therefore in the earth and moon four movements,
+all taking place in the same direction, and this is also identical
+with that in which the sun rotates once every twenty-five days. Such
+a coincidence would be very unlikely unless there were some physical
+reason for it. Just as unlikely would it be that in tossing a coin
+five heads or five tails should follow each other consecutively. If
+we toss a coin five times the chances that it will turn up all heads
+or all tails is but a small one. The probability of such an event is
+only one-sixteenth.</p>
+
+<p>There are, however, in the solar system many other bodies besides the
+three just mentioned which are animated by this common movement.
+Among them are, of course, the great planets, Jupiter, Saturn, Mars,
+Venus, and Mercury, and the satellites which attend on these
+planets. All these planets rotate on their axes in the same
+direction as they revolve around the sun, and all their satellites
+revolve also in the same way. Confining our attention merely to the
+earth, the sun, and the five great planets with which Laplace was
+acquainted, we have no fewer than six motions of revolution and seven
+motions of rotation, for in the latter we include the rotation of the
+sun. We have also sixteen satellites of the planets mentioned whose
+revolutions round their primaries are in the same direction. The
+rotation of the moon on its axis may also be reckoned, but as to the
+rotations of the satellites of the other planets we cannot speak with
+any confidence, as they are too far off to be observed with the
+necessary accuracy. We have thus thirty circular movements in the
+solar system connected with the sun and moon and those great planets
+than which no others were known in the days of Laplace. The
+significant fact is that all these thirty movements take place in the
+same direction. That this should be the case without some physical
+reason would be just as unlikely as that in tossing a coin thirty
+times it should turn up all heads or all tails every time without
+exception.</p>
+
+<p>We can express the argument numerically. Calculation proves that
+such an event would not generally happen oftener than once out of
+five hundred millions of trials. To a philosopher of Laplace's
+penetration, who had made a special study of the theory of
+probabilities, it seemed well-nigh inconceivable that there should
+have been such unanimity in the celestial movements, unless there had
+been some adequate reason to account for it. We might, indeed, add
+that if we were to include all the objects which are now known to
+belong to the solar system, the argument from probability might be
+enormously increased in strength. To Laplace the argument appeared
+so conclusive that he sought for some physical cause of the
+remarkable phenomenon which the solar system presented. Thus it was
+that the famous Nebular Hypothesis took its rise. Laplace devised a
+scheme for the origin of the sun and the planetary system, in which
+it would be a necessary consequence that all the movements should
+take place in the same direction as they are actually observed to do.</p>
+
+<p>Let us suppose that in the beginning there was a gigantic mass of
+nebulous material, so highly heated that the iron and other
+substances which now enter into the composition of the earth and
+planets were then suspended in a state of vapour. There is nothing
+unreasonable in such a supposition indeed, we know as a matter of
+fact that there are thousands of such nebulae to be discerned at
+present through our telescopes. It would be extremely unlikely that
+any object could exist without possessing some motion of rotation; we
+may in fact assert that for rotation to be entirety absent from the
+great primeval nebula would be almost infinitely improbable. As ages
+rolled on, the nebula gradually dispersed away by radiation its
+original stores of heat, and, in accordance with well-known physical
+principles, the materials of which it was formed would tend to
+coalesce. The greater part of those materials would become
+concentrated in a mighty mass surrounded by outlying uncondensed
+vapours. There would, however, also be regions throughout the extent
+of the nebula, in which subsidiary centres of condensation would be
+found. In its long course of cooling, the nebula would, therefore,
+tend ultimately to form a mighty central body with a number of
+smaller bodies disposed around it. As the nebula was initially
+endowed with a movement of rotation, the central mass into which it
+had chiefly condensed would also revolve, and the subsidiary bodies
+would be animated by movements of revolution around the central
+body. These movements would be all pursued in one common direction,
+and it follows, from well-known mechanical principles, that each of
+the subsidiary masses, besides participating in the general
+revolution around the central body, would also possess a rotation
+around its axis, which must likewise be performed in the same
+direction. Around the subsidiary bodies other objects still smaller
+would be formed, just as they themselves were formed relatively to
+the great central mass.</p>
+
+<p>As the ages sped by, and the heat of these bodies became gradually
+dissipated, the various objects would coalesce, first into molten
+liquid masses, and thence, at a further stage of cooling, they would
+assume the appearance of solid masses, thus producing the planetary
+bodies such as we now know them. The great central mass, on account
+of its preponderating dimensions, would still retain, for further
+uncounted ages, a large quantity of its primeval heat, and would thus
+display the splendours of a glowing sun. In this way Laplace was
+able to account for the remarkable phenomena presented in the
+movements of the bodies of the solar system. There are many other
+points also in which the nebular theory is known to tally with the
+facts of observation. In fact, each advance in science only seems to
+make it more certain that the Nebular Hypothesis substantially
+represents the way in which our solar system has grown to its present
+form.</p>
+
+<p>Not satisfied with a career which should be merely scientific,
+Laplace sought to connect himself with public affairs. Napoleon
+appreciated his genius, and desired to enlist him in the service of
+the State. Accordingly he appointed Laplace to be Minister of the
+Interior. The experiment was not successful, for he was not by
+nature a statesman. Napoleon was much disappointed at the ineptitude
+which the great mathematician showed for official life, and, in
+despair of Laplace's capacity as an administrator, declared that he
+carried the spirit of his infinitesimal calculus into the management
+of business. Indeed, Laplace's political conduct hardly admits of
+much defence. While he accepted the honours which Napoleon showered
+on him in the time of his prosperity, he seems to have forgotten all
+this when Napoleon could no longer render him service. Laplace was
+made a Marquis by Louis XVIII., a rank which he transmitted to his
+son, who was born in 1789. During the latter part of his life the
+philosopher lived in a retired country place at Arcueile. Here he
+pursued his studies, and by strict abstemiousness, preserved himself
+from many of the infirmities of old age. He died on March the 5th,
+1827, in his seventy-eighth year, his last words being, "What we know
+is but little, what we do not know is immense."</p>
+
+<h3><a name="BRINKLEY" id="BRINKLEY"></a>BRINKLEY.</h3>
+<p>Provost Baldwin held absolute sway in the University of Dublin for
+forty-one years. His memory is well preserved there. The Bursar
+still dispenses the satisfactory revenues which Baldwin left to the
+College. None of us ever can forget the marble angels round the
+figure of the dying Provost on which we used to gaze during the pangs
+of the Examination Hall.</p>
+
+<p>Baldwin died in 1785, and was succeeded by Francis Andrews, a Fellow
+of seventeen years' standing. As to the scholastic acquirements of
+Andrews, all I can find is a statement that he was complimented by
+the polite Professors of Padua on the elegance and purity with which
+he discoursed to them in Latin. Andrews was also reputed to be a
+skilful lawyer. He was certainly a Privy Councillor and a prominent
+member of the Irish House of Commons, and his social qualities were
+excellent. Perhaps it was Baldwin's example that stimulated a desire
+in Andrews to become a benefactor to his college. He accordingly
+bequeathed a sum of 3,000 pounds and an annual income of 250 pounds
+wherewith to build and endow an astronomical Observatory in the
+University. The figures just stated ought to be qualified by the
+words of cautious Ussher (afterwards the first Professor of
+Astronomy), that "this money was to arise from an accumulation of a
+part of his property, to commence upon a particular contingency
+happening to his family." The astronomical endowment was soon in
+jeopardy by litigation. Andrews thought he had provided for his
+relations by leaving to them certain leasehold interests connected
+with the Provost's estate. The law courts, however, held that these
+interests were not at the disposal of the testator, and handed them
+over to Hely Hutchinson, the next Provost. The disappointed
+relations then petitioned the Irish Parliament to redress this
+grievance by transferring to them the moneys designed by Andrews for
+the Observatory. It would not be right, they contended, that the
+kindly intentions of the late Provost towards his kindred should be
+frustrated for the sake of maintaining what they described as "a
+purely ornamental institution." The authorities of the College
+protested against this claim. Counsel were heard, and a Committee of
+the House made a report declaring the situation of the relations to
+be a hard one. Accordingly, a compromise was made, and the dispute
+terminated.</p>
+
+<p>The selection of a site for the new astronomical Observatory was made
+by the Board of Trinity College. The beautiful neighbourhood of
+Dublin offered a choice of excellent localities. On the north side
+of the Liffey an Observatory could have been admirably placed, either
+on the remarkable promontory of Howth or on the elevation of which
+Dunsink is the summit. On the south side of Dublin there are several
+eminences that would have been suitable: the breezy heaths at
+Foxrock combine all necessary conditions; the obelisk hill at
+Killiney would have given one of the most picturesque sites for an
+Observatory in the world; while near Delgany two or three other good
+situations could be mentioned. But the Board of those pre-railway
+days was naturally guided by the question of proximity. Dunsink was
+accordingly chosen as the most suitable site within the distance of a
+reasonable walk from Trinity College.</p>
+
+<p>The northern boundary of the Phoenix Park approaches the little river
+Tolka, which winds through a succession of delightful bits of sylvan
+scenery, such as may be found in the wide demesne of Abbotstown and
+the classic shades of Glasnevin. From the banks of the Tolka, on the
+opposite side of the park, the pastures ascend in a gentle slope to
+culminate at Dunsink, where at a distance of half a mile from the
+stream, of four miles from Dublin, and at a height of 300 feet above
+the sea, now stands the Observatory. From the commanding position of
+Dunsink a magnificent view is obtained. To the east the sea is
+visible, while the southern prospect over the valley of the Liffey is
+bounded by a range of hills and mountains extending from Killiney to
+Bray Head, thence to the little Sugar Loaf, the Two Rock and the
+Three Rock Mountains, over the flank of which the summit of the Great
+Sugar Loaf is just perceptible. Directly in front opens the fine
+valley of Glenasmole, with Kippure Mountain, while the range can be
+followed to its western extremity at Lyons. The climate of Dunsink
+is well suited for astronomical observation. No doubt here, as
+elsewhere in Ireland, clouds are abundant, but mists or haze are
+comparatively unusual, and fogs are almost unknown.</p>
+
+<p>The legal formalities to be observed in assuming occupation exacted a
+delay of many months; accordingly, it was not until the 10th
+December, 1782, that a contract could be made with Mr. Graham Moyers
+for the erection of a meridian-room and a dome for an equatorial, in
+conjunction with a becoming residence for the astronomer. Before the
+work was commenced at Dunsink, the Board thought it expedient to
+appoint the first Professor of Astronomy. They met for this purpose
+on the 22nd January, 1783, and chose the Rev. Henry Ussher, a Senior
+Fellow of Trinity College, Dublin. The wisdom of the appointment was
+immediately shown by the assiduity with which Ussher engaged in
+founding the observatory. In three years he had erected the
+buildings and equipped them with instruments, several of which were
+of his own invention. On the 19th of February, 1785, a special grant
+of 200 pounds was made by the Board to Dr. Ussher as some recompense
+for his labours. It happened that the observatory was not the only
+scientific institution which came into being in Ireland at this
+period; the newly-kindled ardour for the pursuit of knowledge led, at
+the same time, to the foundation of the Royal Irish Academy. By a
+fitting coincidence, the first memoir published in the "Transactions
+Of The Royal Irish Academy," was by the first Andrews, Professor of
+Astronomy. It was read on the 13th of June, 1785, and bore the
+title, "Account of the Observatory belonging to Trinity College," by
+the Rev. H. Ussher, D.D., M.R.I.A., F.R.S. This communication shows
+the extensive design that had been originally intended for Dunsink,
+only a part of which was, however, carried out. For instance, two
+long corridors, running north and south from the central edifice,
+which are figured in the paper, never developed into bricks and
+mortar. We are not told why the original scheme had to be
+contracted; but perhaps the reason may be not unconnected with a
+remark of Ussher's, that the College had already advanced from its
+own funds a sum considerably exceeding the original bequest. The
+picture of the building shows also the dome for the South equatorial,
+which was erected many years later.</p>
+
+<p>Ussher died in 1790. During his brief career at the observatory, he
+observed eclipses, and is stated to have done other scientific work.
+The minutes of the Board declare that the infant institution had
+already obtained celebrity by his labours, and they urge the claims
+of his widow to a pension, on the ground that the disease from which
+he died had been contracted by his nightly vigils. The Board also
+promised a grant of fifty guineas as a help to bring out Dr. Ussher's
+sermons. They advanced twenty guineas to his widow towards the
+publication of his astronomical papers. They ordered his bust to be
+executed for the observatory, and offered "The Death of Ussher" as
+the subject of a prize essay; but, so far as I can find, neither the
+sermons nor the papers, neither the bust nor the prize essay, ever
+came into being.</p>
+
+<p>There was keen competition for the chair of Astronomy which the death
+of Ussher vacated. The two candidates were Rev. John Brinkley, of
+Caius College, Cambridge, a Senior Wrangler (born at Woodbridge,
+Suffolk, in 1763), and Mr. Stack, Fellow of Trinity College, Dublin,
+and author of a book on Optics. A majority of the Board at first
+supported Stack, while Provost Hely Hutchinson and one or two others
+supported Brinkley. In those days the Provost had a veto at
+elections, so that ultimately Stack was withdrawn and Brinkley was
+elected. This took place on the 11th December, 1790. The national
+press of the day commented on the preference shown to the young
+Englishman, Brinkley, over his Irish rival. An animated controversy
+ensued. The Provost himself condescended to enter the lists and to
+vindicate his policy by a long letter in the "Public Register" or
+"Freeman's Journal," of 21st December, 1790. This letter was
+anonymous, but its authorship is obvious. It gives the
+correspondence with Maskelyne and other eminent astronomers, whose
+advice and guidance had been sought by the Provost. It also contends
+that "the transactions of the Board ought not to be canvassed in the
+newspapers." For this reference, as well as for much other
+information, I am indebted to my friend, the Rev. John Stubbs, D.D.</p>
+
+<p><a name="dunsink"  id="dunsink"></a></p>
+
+<div class="figcenter" style="width: 747px;">
+<a href="images/ill_observatory_dunsink.jpg">
+<img src="images/ill_observatory_dunsink_sml.jpg" width="747" height="451" alt="THE OBSERVATORY, DUNSINK. From a Photograph by W. Lawrence,
+Upper Sackville Street, Dublin." title="" /></a>
+<span class="caption">THE OBSERVATORY, DUNSINK. From a Photograph by W. Lawrence,
+Upper Sackville Street, Dublin.</span>
+</div>
+
+<p>The next event in the history of the Observatory was the issue of
+Letters Patent (32 Geo. III., A.D. 1792), in which it is recited that
+"We grant and ordain that there shall be forever hereafter a
+Professor of Astronomy, on the foundation of Dr. Andrews, to be
+called and known by the name of the Royal Astronomer of Ireland." The
+letters prescribe the various duties of the astronomer and the mode
+of his election. They lay down regulations as to the conduct of the
+astronomical work, and as to the choice of an assistant. They direct
+that the Provost and the Senior Fellows shall make a thorough
+inspection of the observatory once every year in June or July; and
+this duty was first undertaken on the 5th of July, 1792. It may be
+noted that the date on which the celebration of the tercentenary of
+the University was held happens to coincide with the centenary of the
+first visitation of the observatory. The visitors on the first
+occasion were A. Murray, Matthew Young, George Hall, and John
+Barrett. They record that they find the buildings, books and
+instruments in good condition; but the chief feature in this report,
+as well as in many which followed it, related to a circumstance to
+which we have not yet referred.</p>
+
+<p>In the original equipment of the observatory, Ussher, with the
+natural ambition of a founder, desired to place in it a telescope of
+more magnificent proportions than could be found anywhere else. The
+Board gave a spirited support to this enterprise, and negotiations
+were entered into with the most eminent instrument-maker of those
+days. This was Jesse Ramsden (1735-1800), famous as the improver of
+the sextant, as the constructor of the great theodolite used by
+General Roy in the English Survey, and as the inventor of the
+dividing engine for graduating astronomical instruments. Ramsden had
+built for Sir George Schuckburgh the largest and most perfect
+equatorial ever attempted. He had constructed mural quadrants for
+Padua and Verona, which elicited the wonder of astronomers when Dr.
+Maskelyne declared he could detect no error in their graduation so
+large as two seconds and a half. But Ramsden maintained that even
+better results would be obtained by superseding the entire quadrant
+by the circle. He obtained the means of testing this prediction when
+he completed a superb circle for Palermo of five feet diameter.
+Finding his anticipations were realised, he desired to apply the same
+principles on a still grander scale. Ramsden was in this mood when
+he met with Dr. Ussher. The enthusiasm of the astronomer and the
+instrument-maker communicated itself to the Board, and a tremendous
+circle, to be ten feet in diameter, was forthwith projected.</p>
+
+<p>Projected, but never carried out. After Ramsden had to some extent
+completed a 10-foot circle, he found such difficulties that he tried
+a 9-foot, and this again he discarded for an 8-foot, which was
+ultimately accomplished, though not entirely by himself.
+Notwithstanding the contraction from the vast proportions originally
+designed, the completed instrument must still be regarded as a
+colossal piece of astronomical workmanship. Even at this day I do
+not know that any other observatory can show a circle eight feet in
+diameter graduated all round.</p>
+
+<p>I think it is Professor Piazzi Smith who tells us how grateful he was
+to find a large telescope he had ordered finished by the opticians on
+the very day they had promised it. The day was perfectly correct; it
+was only the year that was wrong. A somewhat remarkable experience
+in this direction is chronicled by the early reports of the visitors
+to Dunsink Observatory. I cannot find the date on which the great
+circle was ordered from Ramsden, but it is fixed with sufficient
+precision by an allusion in Ussher's paper to the Royal Irish
+Academy, which shows that by the 13th June, 1785, the order had been
+given, but that the abandonment of the 10-foot scale had not then
+been contemplated. It was reasonable that the board should allow
+Ramsden ample time for the completion of a work at once so elaborate
+and so novel. It could not have been finished in a year, nor would
+there have been much reason for complaint if the maker had found he
+required two or even three years more.</p>
+
+<p>Seven years gone, and still no telescope, was the condition in which
+the Board found matters at their first visitation in 1792. They had,
+however, assurances from Ramsden that the instrument would be
+completed within the year; but, alas for such promises, another seven
+years rolled on, and in 1799 the place for the great circle was still
+vacant at Dunsink. Ramsden had fallen into bad health, and the Board
+considerately directed that "inquiries should be made." Next year
+there was still no progress, so the Board were roused to threaten
+Ramsden with a suit at law; but the menace was never executed, for
+the malady of the great optician grew worse, and he died that year.</p>
+
+<p>Affairs had now assumed a critical aspect, for the college had
+advanced much money to Ramsden during these fifteen years, and the
+instrument was still unfinished. An appeal was made by the Provost
+to Dr. Maskelyne, the Astronomer Royal of England, for his advice and
+kindly offices in this emergency. Maskelyne responds&mdash;in terms
+calculated to allay the anxiety of the Bursar&mdash;"Mr. Ramsden has left
+property behind him, and the College can be in no danger of losing
+both their money and the instrument." The business of Ramsden was
+then undertaken by Berge, who proceeded to finish the circle quite as
+deliberately as his predecessor. After four years Berge promised the
+instrument in the following August, but it did not come. Two years
+later (1806) the professor complains that he can get no answer from
+Berge. In 1807, it is stated that Berge will send the telescope in a
+month. He did not; but in the next year (1808), about twenty-three
+years after the great circle was ordered, it was erected at Dunsink,
+where it is still to be seen.</p>
+
+<p>The following circumstances have been authenticated by the signatures
+of Provosts, Proctors, Bursars, and other College dignitaries:&mdash;In
+1793 the Board ordered two of the clocks at the observatory to be
+sent to Mr. Crosthwaite for repairs. Seven years later, in 1800, Mr.
+Crosthwaite was asked if the clocks were ready. This impatience was
+clearly unreasonable, for even in four more years, 1804, we find the
+two clocks were still in hand. Two years later, in 1806, the Board
+determined to take vigorous action by asking the Bursar to call upon
+Crosthwaite. This evidently produced some effect, for in the
+following year, 1807, the Professor had no doubt that the clocks
+would be speedily returned. After eight years more, in 1815, one of
+the clocks was still being repaired, and so it was in 1816, which is
+the last record we have of these interesting time-pieces. Astronomers
+are, however, accustomed to deal with such stupendous periods in
+their calculations, that even the time taken to repair a clock seems
+but small in comparison.</p>
+
+<p>The long tenure of the chair of Astronomy by Brinkley is divided into
+two nearly equal periods by the year in which the great circle was
+erected. Brinkley was eighteen years waiting for his telescope, and
+he had eighteen years more in which to use it. During the first of
+these periods Brinkley devoted himself to mathematical research;
+during the latter he became a celebrated astronomer. Brinkley's
+mathematical labours procured for their author some reputation as a
+mathematician. They appear to be works of considerable mathematical
+elegance, but not indicating any great power of original thought.
+Perhaps it has been prejudicial to Brinkley's fame in this direction,
+that he was immediately followed in his chair by so mighty a genius
+as William Rowan Hamilton.</p>
+
+<p>After the great circle had been at last erected, Brinkley was able to
+begin his astronomical work in earnest. Nor was there much time to
+lose. He was already forty-five years old, a year older than was
+Herschel when he commenced his immortal career at Slough. Stimulated
+by the consciousness of having the command of an instrument of unique
+perfection, Brinkley loftily attempted the very highest class of
+astronomical research. He resolved to measure anew with his own eye
+and with his own hand the constants of aberration and of nutation. He
+also strove to solve that great problem of the universe, the
+discovery of the distance of a fixed star.</p>
+
+<p>These were noble problems, and they were nobly attacked. But to
+appraise with justice this work of Brinkley, done seventy years ago,
+we must not apply to it the same criterion as we would think right to
+apply to similar work were it done now. We do not any longer use
+Brinkley's constant of aberration, nor do we now think that
+Brinkley's determinations of the star distances were reliable. But,
+nevertheless, his investigations exercised a marked influence on the
+progress of science; they stimulated the study of the principles on
+which exact measurements were to be conducted.</p>
+
+<p>Brinkley had another profession in addition to that of an
+astronomer. He was a divine. When a man endeavours to pursue two
+distinct occupations concurrently, it will be equally easy to explain
+why his career should be successful, or why it should be the
+reverse. If he succeeds, he will, of course, exemplify the wisdom of
+having two strings to his bow. Should he fail, it is, of course,
+because he has attempted to sit on two stools at once. In Brinkley's
+case, his two professions must be likened to the two strings rather
+than to the two stools. It is true that his practical experience of
+his clerical life was very slender. He had made no attempt to
+combine the routine of a parish with his labours in the observatory.
+Nor do we associate a special eminence in any department of religious
+work with his name. If, however, we are to measure Brinkley's merits
+as a divine by the ecclesiastical preferment which he received, his
+services to theology must have rivalled his services to astronomy.
+Having been raised step by step in the Church, he was at last
+appointed to the See of Cloyne, in 1826, as the successor of Bishop
+Berkeley.</p>
+
+<p>Now, though it was permissible for the Archdeacon to be also the
+Andrews Professor, yet when the Archdeacon became a Bishop, it was
+understood that he should transfer his residence from the observatory
+to the palace. The chair of Astronomy accordingly became vacant.
+Brinkley's subsequent career seems to have been devoted entirely to
+ecclesiastical matters, and for the last ten years of his life he did
+not contribute a paper to any scientific society. Arago, after a
+characteristic lament that Brinkley should have forsaken the pursuit
+of science for the temporal and spiritual attractions of a bishopric,
+pays a tribute to the conscientiousness of the quondam astronomer,
+who would not even allow a telescope to be brought into the palace
+lest his mind should be distracted from his sacred duties.</p>
+
+<p>The good bishop died on the 13th September, 1835. He was buried in
+the chapel of Trinity College, and a fine monument to his memory is a
+familiar object at the foot of the noble old staircase of the library.
+The best memorial of Brinkley is his admirable book on the "Elements
+of Plane Astronomy." It passed through many editions in his lifetime,
+and even at the present day the same work, revised first by Dr. Luby,
+and more recently by the Rev. Dr. Stubbs and Dr. Brunnow, has a large
+and well-merited circulation.</p>
+
+<h3><a name="JOHN_HERSCHEL" id="JOHN_HERSCHEL"></a>JOHN HERSCHEL.</h3>
+<p>This illustrious son of an illustrious father was born at Slough,
+near Windsor, on the 7th March, 1792. He was the only child of Sir
+William Herschel, who had married somewhat late in life, as we have
+already mentioned.</p>
+
+<p><a name="astronometer"  id="astronometer"></a></p>
+
+<div class="figcenter" style="width: 438px;">
+<a href="images/ill_astronometer_herschel.jpg">
+<img src="images/ill_astronometer_herschel_sml.jpg" width="438" height="232" alt="ASTRONOMETER MADE BY SIR J. HERSCHEL to compare the light
+of certain stars by the intervention of the moon." title="" /></a>
+<span class="caption">ASTRONOMETER MADE BY SIR J. HERSCHEL to compare the light
+of certain stars by the intervention of the moon.</span>
+</div>
+
+<p>The surroundings among which the young astronomer was reared afforded
+him an excellent training for that career on which he was to enter,
+and in which he was destined to attain a fame only less brilliant
+than that of his father. The circumstances of his youth permitted
+him to enjoy one great advantage which was denied to the elder
+Herschel. He was able, from his childhood, to devote himself almost
+exclusively to intellectual pursuits. William Herschel, in the early
+part of his career, had only been able to snatch occasional hours for
+study from his busy life as a professional musician. But the son,
+having been born with a taste for the student's life, was fortunate
+enough to have been endowed with the leisure and the means to enjoy
+it from the commencement. His early years have been so well
+described by the late Professor Pritchard in the "Report of the
+Council of the Royal Astronomical Society for 1872," that I venture
+to make an extract here:&mdash;</p>
+
+<p>"A few traits of John Herschel's boyhood, mentioned by himself in his
+maturer life, have been treasured up by those who were dear to him,
+and the record of some of them may satisfy a curiosity as pardonable
+as inevitable, which craves to learn through what early steps great
+men or great nations become illustrious. His home was singular, and
+singularly calculated to nurture into greatness any child born as
+John Herschel was with natural gifts, capable of wide development. At
+the head of the house there was the aged, observant, reticent
+philosopher, and rarely far away his devoted sister, Caroline
+Herschel, whose labours and whose fame are still cognisable as a
+beneficent satellite to the brighter light of her illustrious
+brother. It was in the companionship of these remarkable persons,
+and under the shadow of his father's wonderful telescope, that John
+Herschel passed his boyish years. He saw them, in silent but
+ceaseless industry, busied about things which had no apparent concern
+with the world outside the walls of that well-known house, but which,
+at a later period of his life, he, with an unrivalled eloquence,
+taught his countrymen to appreciate as foremost among those living
+influences which but satisfy and elevate the noblest instincts of our
+nature. What sort of intercourse passed between the father and the
+boy may be gathered from an incident or two which he narrated as
+having impressed themselves permanently on the memory of his youth.
+He once asked his father what he thought was the oldest of all
+things. The father replied, after the Socratic method, by putting
+another question: 'And what do you yourself suppose is the oldest of
+all things?' The boy was not successful in his answers, thereon the
+old astronomer took up a small stone from the garden walk: 'There, my
+child, there is the oldest of all the things that I certainly know.'
+On another occasion his father is said to have asked the boy, 'What
+sort of things, do you think, are most alike?' The delicate,
+blue-eyed boy, after a short pause, replied, 'The leaves of the same
+tree are most like each other.' 'Gather, then, a handful of leaves of
+that tree,' rejoined the philosopher, 'and choose two that are
+alike.' The boy failed; but he hid the lesson in his heart, and his
+thoughts were revealed after many days. These incidents may be
+trifles; nor should we record them here had not John Herschel
+himself, though singularly reticent about his personal emotions,
+recorded them as having made a strong impression on his mind. Beyond
+all doubt we can trace therein, first, that grasp and grouping of
+many things in one, implied in the stone as the oldest of things;
+and, secondly, that fine and subtle discrimination of each thing out
+of many like things as forming the main features which characterized
+the habit of our venerated friend's philosophy."</p>
+
+<p>John Herschel entered St. John's College, Cambridge, when he was
+seventeen years of age. His university career abundantly fulfilled
+his father's eager desire, that his only son should develop a
+capacity for the pursuit of science. After obtaining many lesser
+distinctions, he finally came out as Senior Wrangler in 1813. It
+was, indeed, a notable year in the mathematical annals of the
+University. Second on that list, in which Herschel's name was first,
+appeared that of the illustrious Peacock, afterwards Dean of Ely, who
+remained throughout life one of Herschel's most intimate friends.</p>
+
+<p>Almost immediately after taking his degree, Herschel gave evidence of
+possessing a special aptitude for original scientific investigation.
+He sent to the Royal Society a mathematical paper which was published
+in the PHILOSOPHICAL TRANSACTIONS. Doubtless the splendour that
+attached to the name he bore assisted him in procuring early
+recognition of his own great powers. Certain it is that he was made
+a Fellow of the Royal Society at the unprecedentedly early age of
+twenty-one. Even after this remarkable encouragement to adopt a
+scientific career as the business of his life, it does not seem that
+John Herschel at first contemplated devoting himself exclusively to
+science. He commenced to prepare for the profession of the Law by
+entering as a student at the Middle Temple, and reading with a
+practising barrister.</p>
+
+<p>But a lawyer John Herschel was not destined to become. Circumstances
+brought him into association with some leading scientific men. He
+presently discovered that his inclinations tended more and more in
+the direction of purely scientific pursuits. Thus it came to pass
+that the original intention as to the calling which he should follow
+was gradually abandoned. Fortunately for science Herschel found its
+pursuit so attractive that he was led, as his father had been before
+him, to give up his whole life to the advancement of knowledge. Nor
+was it unnatural that a Senior Wrangler, who had once tasted the
+delights of mathematical research, should have been tempted to devote
+much time to this fascinating pursuit. By the time John Herschel was
+twenty-nine he had published so much mathematical work, and his
+researches were considered to possess so much merit, that the Royal
+Society awarded him the Copley Medal, which was the highest
+distinction it was capable of conferring.</p>
+
+<p>At the death of his father in 1822, John Herschel, with his tastes
+already formed for a scientific career, found himself in the
+possession of ample means. To him also passed all his father's great
+telescopes and apparatus. These material aids, together with a
+dutiful sense of filial obligation, decided him to make practical
+astronomy the main work of his life. He decided to continue to its
+completion that great survey of the heavens which had already been
+inaugurated, and, indeed, to a large extent accomplished, by his
+father.</p>
+
+<p>The first systematic piece of practical astronomical work which John
+Herschel undertook was connected with the measurement of what are
+known as "Double Stars." It should be observed, that there are in
+the heavens a number of instances in which two stars are seen in very
+close association. In the case of those objects to which the
+expression "Double Stars" is generally applied, the two luminous
+points are so close together that even though they might each be
+quite bright enough to be visible to the unaided eye, yet their
+proximity is such that they cannot be distinguished as two separate
+objects without optical aid. The two stars seem fused together into
+one. In the telescope, however, the bodies may be discerned
+separately, though they are frequently so close together that it
+taxes the utmost power of the instrument to indicate the division
+between them.</p>
+
+<p>The appearance presented by a double star might arise from the
+circumstance that the two stars, though really separated from each
+other by prodigious distances, happened to lie nearly in the same
+line of vision, as seen from our point of view. No doubt, many of
+the so-called double stars could be accounted for on this
+supposition. Indeed, in the early days when but few double stars
+were known, and when telescopes were not powerful enough to exhibit
+the numerous close doubles which have since been brought to light,
+there seems to have been a tendency to regard all double stars as
+merely such perspective effects. It was not at first suggested that
+there could be any physical connection between the components of each
+pair. The appearance presented was regarded as merely due to the
+circumstance that the line joining the two bodies happened to pass
+near the earth.</p>
+
+<p><a name="john_herschel_ill"  id="john_herschel_ill"></a></p>
+
+<div class="figcenter" style="width: 439px;">
+<a href="images/ill_john_herschel.jpg">
+<img src="images/ill_john_herschel_sml.jpg" width="439" height="516" alt="SIR JOHN HERSCHEL." title="" /></a>
+<span class="caption">SIR JOHN HERSCHEL.</span>
+</div>
+
+<p>In the early part of his career, Sir William Herschel seems to have
+entertained the view then generally held by other astronomers with
+regard to the nature of these stellar pairs. The great observer
+thought that the double stars could therefore be made to afford a
+means of solving that problem in which so many of the observers of
+the skies had been engaged, namely, the determination of the
+distances of the stars from the earth. Herschel saw that the
+displacement of the earth in its annual movement round the sun would
+produce an apparent shift in the place of the nearer of the two stars
+relatively to the other, supposed to be much more remote. If this
+shift could be measured, then the distance of the nearer of the stars
+could be estimated with some degree of precision.</p>
+
+<p>As has not unfrequently happened in the history of science, an effect
+was perceived of a very different nature from that which had been
+anticipated. If the relative places of the two stars had been
+apparently deranged merely in consequence of the motion of the earth,
+then the phenomenon would be an annual one. After the lapse of a
+year the two stars would have regained their original relative
+positions. This was the effect for which William Herschel was
+looking. In certain of the so called double stars, he, no doubt, did
+find a movement. He detected the remarkable fact that both the
+apparent distance and the relative positions of the two bodies were
+changing. But what was his surprise to observe that these
+alterations were not of an annually periodic character. It became
+evident then that in some cases one of the component stars was
+actually revolving around the other, in an orbit which required many
+years for its completion. Here was indeed a remarkable discovery. It
+was clearly impossible to suppose that movements of this kind could
+be mere apparent displacements, arising from the annual shift in our
+point of view, in consequence of the revolution of the earth.
+Herschel's discovery established the interesting fact that, in
+certain of these double stars, or binary stars, as these particular
+objects are more expressively designated, there is an actual orbital
+revolution of a character similar to that which the earth performs
+around the sun. Thus it was demonstrated that in these particular
+double stars the nearness of the two components was not merely
+apparent. The objects must actually lie close together at a distance
+which is small in comparison with the distance at which either of
+them is separated from the earth. The fact that the heavens contain
+pairs of twin suns in mutual revolution was thus brought to light.</p>
+
+<p>In consequence of this beautiful discovery, the attention of
+astronomers was directed to the subject of double stars with a degree
+of interest which these objects had never before excited. It was
+therefore not unnatural that John Herschel should have been attracted
+to this branch of astronomical work. Admiration for his father's
+discovery alone might have suggested that the son should strive to
+develop this territory newly opened up to research. But it also
+happened that the mathematical talents of the younger Herschel
+inclined his inquiries in the same direction. He saw clearly that,
+when sufficient observations of any particular binary star had been
+accumulated, it would then be within the power of the mathematician
+to elicit from those observations the shape and the position in space
+of the path which each of the revolving stars described around the
+other. Indeed, in some cases he would be able to perform the
+astonishing feat of determining from his calculations the weight of
+these distant suns, and thus be enabled to compare them with the mass
+of our own sun.</p>
+
+<p><a name="nebula"  id="nebula"></a></p>
+
+<div class="figleft" style="width: 188px;">
+<a href="images/ill_nebula_drawn_john_herschel.jpg">
+<img src="images/ill_nebula_drawn_john_herschel_sml.jpg" width="188" height="249" alt="NEBULA IN SOUTHERN HEMISPHERE, drawn by Sir John Herschel." title="" /></a>
+<span class="caption">NEBULA IN SOUTHERN HEMISPHERE, drawn by Sir John Herschel.</span>
+</div>
+
+<p>But this work must follow the observations, it could not precede
+them. The first step was therefore to observe and to measure with
+the utmost care the positions and distances of those particular
+double stars which appear to offer the greatest promise in this
+particular research. In 1821, Herschel and a friend of his, Mr.
+James South, agreed to work together with this object. South was a
+medical man with an ardent devotion to science, and possessed of
+considerable wealth. He procured the best astronomical instruments
+that money could obtain, and became a most enthusiastic astronomer
+and a practical observer of tremendous energy.</p>
+
+<p>South and John Herschel worked together for two years in the
+observation and measurement of the double stars discovered by Sir
+William Herschel. In the course of this time their assiduity was
+rewarded by the accumulation of so great a mass of careful
+measurements that when published, they formed quite a volume in the
+"Philosophical Transactions." The value and accuracy of the work,
+when estimated by standards which form proper criteria for that
+period, is universally recognised. It greatly promoted the progress
+of sidereal astronomy, and the authors were in consequence awarded
+medals from the Royal Society, and the Royal Astronomical Society,
+as well as similar testimonials from various foreign institutions.</p>
+
+<p>This work must, however, be regarded as merely introductory to the
+main labours of John Herschel's life. His father devoted the greater
+part of his years as an observer to what he called his "sweeps" of
+the heavens. The great reflecting telescope, twenty feet long, was
+moved slowly up and down through an arc of about two degrees towards
+and from the pole, while the celestial panorama passed slowly in the
+course of the diurnal motion before the keenly watching eye of the
+astronomer. Whenever a double star traversed the field Herschel
+described it to his sister Caroline, who, as we have already
+mentioned, was his invariable assistant in his midnight watches. When
+a nebula appeared, then he estimated its size and its brightness, he
+noticed whether it had a nucleus, or whether it had stars disposed in
+any significant manner with regard to it. He also dictated any other
+circumstance which he deemed worthy of record. These observations
+were duly committed to writing by the same faithful and indefatigable
+scribe, whose business it also was to take a memorandum of the exact
+position of the object as indicated by a dial placed in front of her
+desk, and connected with the telescope.</p>
+
+<p>John Herschel undertook the important task of re-observing the
+various double stars and nebulae which had been discovered during
+these memorable vigils. The son, however, lacked one inestimable
+advantage which had been possessed by the father. John Herschel had
+no assistant to discharge all those duties which Caroline had so
+efficiently accomplished. He had, therefore, to modify the system of
+sweeping previously adopted in order to enable all the work both of
+observing and of recording to be done by himself. This, in many
+ways, was a great drawback to the work of the younger astronomer. The
+division of labour between the observer and the scribe enables a
+greatly increased quantity of work to be got through. It is also
+distinctly disadvantageous to an observer to have to use his eye at
+the telescope directly after he has been employing it for reading the
+graduations on a circle, by the light of a lamp, or for entering
+memoranda in a note book. Nebulae, especially, are often so
+excessively faint that they can only be properly observed by an eye
+which is in that highly sensitive condition which is obtained by long
+continuance in darkness. The frequent withdrawal of the eye from the
+dark field of the telescope, and the application of it to reading by
+artificial light, is very prejudicial to its use for the more
+delicate purpose. John Herschel, no doubt, availed himself of every
+precaution to mitigate the ill effects of this inconvenience as much
+as possible, but it must have told upon his labours as compared with
+those of his father.</p>
+
+<p>But nevertheless John Herschel did great work during his "sweeps." He
+was specially particular to note all the double stars which presented
+themselves to his observation. Of course some little discretion must
+be allowed in deciding as to what degree of proximity in adjacent
+stars does actually bring them within the category of "double
+stars." Sir John set down all such objects as seemed to him likely
+to be of interest, and the results of his discoveries in this branch
+of astronomy amount to some thousands. Six or seven great memoirs in
+the TRANSACTIONS of the Royal Astronomical Society have been devoted
+to giving an account of his labours in this department of astronomy.</p>
+
+<p><a name="centaur"  id="centaur"></a></p>
+
+<div class="figcenter" style="width: 328px;">
+<a href="images/ill_cluster_centaur.jpg">
+<img src="images/ill_cluster_centaur_sml.jpg" width="328" height="314" alt="THE CLUSTER IN THE CENTAUR, drawn by Sir John Herschel." title="" /></a>
+<span class="caption">THE CLUSTER IN THE CENTAUR, drawn by Sir John Herschel.</span>
+</div>
+
+<p>One of the achievements by which Sir John Herschel is best known is
+his invention of a method by which the orbits of binary stars could
+be determined. It will be observed that when one star revolves
+around another in consequence of the law of gravitation, the orbit
+described must be an ellipse. This ellipse, however, generally
+speaking, appears to us more or less foreshortened, for it is easily
+seen that only under highly exceptional circumstances would the plane
+in which the stars move happen to be directly square to the line of
+view. It therefore follows that what we observe is not exactly the
+track of one star around the other; it is rather the projection of
+that track as seen on the surface of the sky. Now it is remarkable
+that this apparent path is still an ellipse. Herschel contrived a
+very ingenious and simple method by which he could discover from the
+observations the size and position of the ellipse in which the
+revolution actually takes place. He showed how, from the study of
+the apparent orbit of the star, and from certain measurements which
+could easily be effected upon it, the determination of the true
+ellipse in which the movement is performed could be arrived at. In
+other words, Herschel solved in a beautiful manner the problem of
+finding the true orbits of double stars. The importance of this work
+may be inferred from the fact that it has served as the basis on
+which scores of other investigators have studied the fascinating
+subject of the movement of binary stars.</p>
+
+<p>The labours, both in the discovery and measurement of the double
+stars, and in the discussion of the observations with the object of
+finding the orbits of such stars as are in actual revolution,
+received due recognition in yet another gold medal awarded by the
+Royal Society. An address was delivered on the occasion by the Duke
+of Sussex (30th November, 1833), in the course of which, after
+stating that the medal had been conferred on Sir John Herschel, he
+remarks:&mdash;</p>
+
+<p>"It has been said that distance of place confers the same privilege
+as distance of time, and I should gladly avail myself of the
+privilege which is thus afforded me by Sir John Herschel's separation
+from his country and friends, to express my admiration of his
+character in stronger terms than I should otherwise venture to use;
+for the language of panegyric, however sincerely it may flow from the
+heart, might be mistaken for that of flattery, if it could not thus
+claim somewhat of an historical character; but his great attainments
+in almost every department of human knowledge, his fine powers as a
+philosophical writer, his great services and his distinguished
+devotion to science, the high principles which have regulated his
+conduct in every relation of life, and, above all, his engaging
+modesty, which is the crown of all his other virtues, presenting such
+a model of an accomplished philosopher as can rarely be found beyond
+the regions of fiction, demand abler pens than mine to describe them
+in adequate terms, however much inclined I might feel to undertake
+the task."</p>
+
+<p>The first few lines of the eulogium just quoted allude to Herschel's
+absence from England. This was not merely an episode of interest in
+the career of Herschel, it was the occasion of one of the greatest
+scientific expeditions in the whole history of astronomy.</p>
+
+<p>Herschel had, as we have seen, undertaken a revision of his father's
+"sweeps" for new objects, in those skies which are visible from our
+latitudes in the northern hemisphere. He had well-nigh completed
+this task. Zone by zone the whole of the heavens which could be
+observed from Windsor had passed under his review. He had added
+hundreds to the list of nebulae discovered by his father. He had
+announced thousands of double stars. At last, however, the great
+survey was accomplished. The contents of the northern hemisphere, so
+far at least as they could be disclosed by his telescope of twenty
+feet focal length, had been revealed.</p>
+
+<p><a name="herschel_observatory_feldhausen"  id="herschel_observatory_feldhausen"></a></p>
+
+<div class="figcenter" style="width: 442px;">
+<a href="images/ill_john_herschel_observatory_feldhausen.jpg">
+<img src="images/ill_john_herschel_observatory_feldhausen_sml.jpg" width="442" height="373" alt="SIR JOHN HERSCHEL&#39;S OBSERVATORY AT FELDHAUSEN,
+Cape of Good Hope." title="" /></a>
+<span class="caption">SIR JOHN HERSCHEL&#39;S OBSERVATORY AT FELDHAUSEN,
+Cape of Good Hope.</span>
+</div>
+
+<p>But Herschel felt that this mighty task had to be supplemented by
+another of almost equal proportions, before it could be said that the
+twenty-foot telescope had done its work. It was only the northern
+half of the celestial sphere which had been fully explored. The
+southern half was almost virgin territory, for no other astronomer
+was possessed of a telescope of such power as those which the
+Herschels had used. It is true, of course, that as a certain margin
+of the southern hemisphere was visible from these latitudes, it had
+been more or less scrutinized by observers in northern skies. And
+the glimpses which had thus been obtained of the celestial objects in
+the southern sky, were such as to make an eager astronomer long for a
+closer acquaintance with the celestial wonders of the south. The
+most glorious object in the sidereal heavens, the Great Nebula in
+Orion, lies indeed in that southern hemisphere to which the younger
+Herschel's attention now became directed. It fortunately happens,
+however, for votaries of astronomy all the world over, that Nature
+has kindly placed her most astounding object, the great Nebula in
+Orion, in such a favoured position, near the equator, that from a
+considerable range of latitudes, both north and south, the wonders of
+the Nebula can be explored. There are grounds for thinking that the
+southern heavens contain noteworthy objects which, on the whole, are
+nearer to the solar system than are the noteworthy objects in the
+northern skies. The nearest star whose distance is known, Alpha
+Centauri, lies in the southern hemisphere, and so also does the most
+splendid cluster of stars.</p>
+
+<p>Influenced by the desire to examine these objects, Sir John Herschel
+determined to take his great telescope to a station in the southern
+hemisphere, and thus complete his survey of the sidereal heavens. The
+latitude of the Cape of Good Hope is such that a suitable site could
+be there found for his purpose. The purity of the skies in South
+Africa promised to provide for the astronomer those clear nights
+which his delicate task of surveying the nebulae would require.</p>
+
+<p>On November 13, 1833, Sir John Herschel, who had by this time
+received the honour of knighthood from William IV., sailed from
+Portsmouth for the Cape of Good Hope, taking with him his gigantic
+instruments. After a voyage of two months, which was considered to
+be a fair passage in those days, he landed in Table Bay, and having
+duly reconnoitred various localities, he decided to place his
+observatory at a place called Feldhausen, about six miles from Cape
+Town, near the base of the Table Mountain. A commodious residence
+was there available, and in it he settled with his family. A
+temporary building was erected to contain the equatorial, but the
+great twenty-foot telescope was accommodated with no more shelter
+than is provided by the open canopy of heaven.</p>
+
+<p>As in his earlier researches at home, the attention of the great
+astronomer at the Cape of Good Hope was chiefly directed to the
+measurement of the relative positions and distances apart of the
+double stars, and to the close examination of the nebulae. In the
+delineation of the form of these latter objects Herschel found ample
+employment for his skilful pencil. Many of the drawings he has made
+of the celestial wonders in the southern sky are admirable examples
+of celestial portraiture.</p>
+
+<p>The number of the nebulae and of those kindred objects, the star
+clusters, which Herschel studied in the southern heavens, during four
+years of delightful labour, amount in all to one thousand seven
+hundred and seven. His notes on their appearance, and the
+determinations of their positions, as well as his measurements of
+double stars, and much other valuable astronomical research, were
+published in a splendid volume, brought out at the cost of the Duke
+of Northumberland. This is, indeed, a monumental work, full of
+interesting and instructive reading for any one who has a taste for
+astronomy.</p>
+
+<p>Herschel had the good fortune to be at the Cape on the occasion of
+the periodical return of Halley's great comet in 1833. To the study
+of this body he gave assiduous attention, and the records of his
+observations form one of the most interesting chapters in that
+remarkable volume to which we have just referred.</p>
+
+<p><a name="column"  id="column"></a></p>
+
+<div class="figcenter" style="width: 412px;">
+<a href="images/ill_granite_column_feldhausen.jpg">
+<img src="images/ill_granite_column_feldhausen_sml.jpg" width="412" height="304" alt="COLUMN AT FELDHAUSEN, CAPE TOWN, to commemorate Sir John
+Herschel&#39;s survey of the Southern Heavens." title="" /></a>
+<span class="caption">COLUMN AT FELDHAUSEN, CAPE TOWN, to commemorate Sir John
+Herschel&#39;s survey of the Southern Heavens.</span>
+</div>
+
+<p>Early in 1838 Sir John Herschel returned to England. He had made
+many friends at the Cape, who deeply sympathised with his self-
+imposed labours while he was resident among them. They desired to
+preserve the recollection of this visit, which would always, they
+considered, be a source of gratification in the colony. Accordingly,
+a number of scientific friends in that part of the world raised a
+monument with a suitable inscription, on the spot which had been
+occupied by the great twenty-foot reflector at Feldhausen.</p>
+
+<p>His return to England after five years of absence was naturally an
+occasion for much rejoicing among the lovers of astronomy. He was
+entertained at a memorable banquet, and the Queen, at her coronation,
+made him a baronet. His famous aunt Caroline, at that time aged
+eighty, was still in the enjoyment of her faculties, and was able to
+estimate at its true value the further lustre which was added to the
+name she bore. But there is reason to believe that her satisfaction
+was not quite unmixed with other feelings. With whatever favour she
+might regard her nephew, he was still not the brother to whom her
+life had been devoted. So jealous was this vigorous old lady of the
+fame of the great brother William, that she could hardly hear with
+patience of the achievements of any other astronomer, and this
+failing existed in some degree even when that other astronomer
+happened to be her illustrious nephew.</p>
+
+<p>With Sir John Herschel's survey of the Southern Hemisphere it may be
+said that his career as an observing astronomer came to a close. He
+did not again engage in any systematic telescopic research. But it
+must not be inferred from this statement that he desisted from active
+astronomical work. It has been well observed that Sir John Herschel
+was perhaps the only astronomer who has studied with success, and
+advanced by original research, every department of the great science
+with which his name is associated. It was to some other branches of
+astronomy besides those concerned with looking through telescopes,
+that the rest of the astronomer's life was to be devoted.</p>
+
+<p>To the general student Sir John Herschel is best known by the volume
+which he published under the title of "Outlines of Astronomy." This
+is, indeed, a masterly work, in which the characteristic difficulties
+of the subject are resolutely faced and expounded with as much
+simplicity as their nature will admit. As a literary effort this
+work is admirable, both on account of its picturesque language and
+the ennobling conceptions of the universe which it unfolds. The
+student who desires to become acquainted with those recondite
+departments of astronomy, in which the effects of the disturbing
+action of one planet upon the motions of another planet are
+considered, will turn to the chapters in Herschel's famous work on
+the subject. There he will find this complex matter elucidated,
+without resort to difficult mathematics. Edition after edition of
+this valuable work has appeared, and though the advances of modern
+astronomy have left it somewhat out of date in certain departments,
+yet the expositions it contains of the fundamental parts of the
+science still remain unrivalled.</p>
+
+<p>Another great work which Sir John undertook after his return from the
+Cape, was a natural climax to those labours on which his father and
+he had been occupied for so many years. We have already explained
+how the work of both these observers had been mainly devoted to the
+study of the nebulae and the star clusters. The results of their
+discoveries had been announced to the world in numerous isolated
+memoirs. The disjointed nature of these publications made their use
+very inconvenient. But still it was necessary for those who desired
+to study the marvellous objects discovered by the Herschels, to have
+frequent recourse to the original works. To incorporate all the
+several observations of nebular into one great systematic catalogue,
+seemed, therefore, to be an indispensable condition of progress in
+this branch of knowledge. No one could have been so fitted for this
+task as Sir John Herschel. He, therefore, attacked and carried
+through the great undertaking. Thus at last a grand catalogue of
+nebulae and clusters was produced. Never before was there so
+majestic an inventory. If we remember that each of the nebulae is an
+object so vast, that the whole of the solar system would form an
+inconsiderable speck by comparison, what are we to think of a
+collection in which these objects are enumerated in thousands? In
+this great catalogue we find arranged in systematic order all the
+nebulae and all the clusters which had been revealed by the diligence
+of the Herschels, father and son, in the Northern Hemisphere, and of
+the son alone in the Southern Hemisphere. Nor should we omit to
+mention that the labours of other astronomers were likewise
+incorporated. It was unavoidable that the descriptions given to each
+of the objects should be very slight. Abbreviations are used, which
+indicate that a nebula is bright, or very bright, or extremely
+bright, or faint, or very faint, or extremely faint. Such phrases
+have certainly but a relative and technical meaning in such a
+catalogue. The nebulae entered as extremely bright by the
+experienced astronomer are only so described by way of contrast to
+the great majority of these delicate telescopic objects. Most of the
+nebulae, indeed, are so difficult to see, that they admit of but very
+slight description. It should be observed that Herschel's catalogue
+augmented the number of known nebulous objects to more than ten times
+that collected into any catalogue which had ever been compiled before
+the days of William Herschel's observing began. But the study of
+these objects still advances, and the great telescopes now in use
+could probably show at least twice as many of these objects as are
+contained in the list of Herschel, of which a new and enlarged
+edition has since been brought out by Dr. Dreyer.</p>
+
+<p>One of the best illustrations of Sir John Herschel's literary powers
+is to be found in the address which he delivered at the Royal
+Astronomical Society, on the occasion of presenting a medal to Mr.
+Francis Baily, in recognition of his catalogue of stars. The passage
+I shall here cite places in its proper aspect the true merit of the
+laborious duty involved in such a task as that which Mr. Baily had
+carried through with such success:&mdash;</p>
+
+<p>"If we ask to what end magnificent establishments are maintained by
+states and sovereigns, furnished with masterpieces of art, and placed
+under the direction of men of first-rate talent and high-minded
+enthusiasm, sought out for those qualities among the foremost in the
+ranks of science, if we demand QUI BONO? for what good a Bradley has
+toiled, or a Maskelyne or a Piazzi has worn out his venerable age in
+watching, the answer is&mdash;not to settle mere speculative points in the
+doctrine of the universe; not to cater for the pride of man by
+refined inquiries into the remoter mysteries of nature; not to trace
+the path of our system through space, or its history through past and
+future eternities. These, indeed, are noble ends and which I am far
+from any thought of depreciating; the mind swells in their
+contemplation, and attains in their pursuit an expansion and a
+hardihood which fit it for the boldest enterprise. But the direct
+practical utility of such labours is fully worthy of their
+speculative grandeur. The stars are the landmarks of the universe;
+and, amidst the endless and complicated fluctuations of our system,
+seem placed by its Creator as guides and records, not merely to
+elevate our minds by the contemplation of what is vast, but to teach
+us to direct our actions by reference to what is immutable in His
+works. It is, indeed, hardly possible to over-appreciate their value
+in this point of view. Every well-determined star, from the moment
+its place is registered, becomes to the astronomer, the geographer,
+the navigator, the surveyor, a point of departure which can never
+deceive or fail him, the same for ever and in all places, of a
+delicacy so extreme as to be a test for every instrument yet invented
+by man, yet equally adapted for the most ordinary purposes; as
+available for regulating a town clock as for conducting a navy to the
+Indies; as effective for mapping down the intricacies of a petty
+barony as for adjusting the boundaries of Transatlantic empires. When
+once its place has been thoroughly ascertained and carefully
+recorded, the brazen circle with which that useful work was done may
+moulder, the marble pillar may totter on its base, and the astronomer
+himself survive only in the gratitude of posterity; but the record
+remains, and transfuses all its own exactness into every
+determination which takes it for a groundwork, giving to inferior
+instruments&mdash;nay, even to temporary contrivances, and to the
+observations of a few weeks or days&mdash;all the precision attained
+originally at the cost of so much time, labour, and expense."</p>
+
+<p>Sir John Herschel wrote many other works besides those we have
+mentioned. His "Treatise on Meteorology" is, indeed, a standard work
+on this subject, and numerous articles from the same pen on
+miscellaneous subjects, which have been collected and reprinted,
+seemed as a relaxation from his severe scientific studies. Like
+certain other great mathematicians Herschel was also a poet, and he
+published a translation of the Iliad into blank verse.</p>
+
+<p>In his later years Sir John Herschel lived a retired life. For a
+brief period he had, indeed, been induced to accept the office of
+Master of the Mint. It was, however, evident that the routine of
+such an occupation was not in accordance with his tastes, and he
+gladly resigned it, to return to the seclusion of his study in his
+beautiful home at Collingwood, in Kent.</p>
+
+<p>His health having gradually failed, he died on the 11th May, 1871, in
+the seventy-ninth year of his age.</p>
+
+<h3><a name="THE_EARL_OF_ROSSE" id="THE_EARL_OF_ROSSE"></a>THE EARL OF ROSSE.</h3>
+<p>The subject of our present sketch occupies quite a distinct position
+in scientific history. Unlike many others who have risen by their
+scientific discoveries from obscurity to fame, the great Earl of
+Rosse was himself born in the purple. His father, who, under the
+title of Sir Lawrence Parsons, had occupied a distinguished position
+in the Irish Parliament, succeeded on the death of his father to the
+Earldom which had been recently created. The subject of our present
+memoir was, therefore, the third of the Earls of Rosse, and he was
+born in York on June 17, 1800. Prior to his father's death in 1841,
+he was known as Lord Oxmantown.</p>
+
+<p>The University education of the illustrious astronomer was begun in
+Dublin and completed at Oxford. We do not hear in his case of any
+very remarkable University career. Lord Rosse was, however, a
+diligent student, and obtained a first-class in mathematics. He
+always took a great deal of interest in social questions, and was a
+profound student of political economy. He had a seat in the House of
+Commons, as member for King's County, from 1821 to 1834, his
+ancestral estate being situated in this part of Ireland.</p>
+
+<p><a name="rosse_ill"  id="rosse_ill"></a></p>
+
+<div class="figcenter" style="width: 409px;">
+<a href="images/ill_earl_rosse.jpg">
+<img src="images/ill_earl_rosse_sml.jpg" width="409" height="476" alt="THE EARL OF ROSSE." title="" /></a>
+<span class="caption">THE EARL OF ROSSE.</span>
+</div>
+
+<p>Lord Rosse was endowed by nature with a special taste for mechanical
+pursuits. Not only had he the qualifications of a scientific
+engineer, but he had the manual dexterity which qualified him
+personally to carry out many practical arts. Lord Rosse was, in
+fact, a skilful mechanic, an experienced founder, and an ingenious
+optician. His acquaintances were largely among those who were
+interested in mechanical pursuits, and it was his delight to visit
+the works or engineering establishments where refined processes in
+the arts were being carried on. It has often been stated&mdash;and as I
+have been told by members of his family, truly stated&mdash;that on one
+occasion, after he had been shown over some large works in the north
+of England, the proprietor bluntly said that he was greatly in want
+of a foreman, and would indeed be pleased if his visitor, who had
+evinced such extraordinary capacity for mechanical operations, would
+accept the post. Lord Rosse produced his card, and gently explained
+that he was not exactly the right man, but he appreciated the
+compliment, and this led to a pleasant dinner, and was the basis of a
+long friendship.</p>
+
+<p>I remember on one occasion hearing Lord Rosse explain how it was that
+he came to devote his attention to astronomy. It appears that when
+he found himself in the possession of leisure and of means, he
+deliberately cast around to think how that means and that leisure
+could be most usefully employed. Nor was it surprising that he
+should search for a direction which would offer special scope for his
+mechanical tastes. He came to the conclusion that the building of
+great telescopes was an art which had received no substantial advance
+since the great days of William Herschel. He saw that to construct
+mighty instruments for studying the heavens required at once the
+command of time and the command of wealth, while he also felt that
+this was a subject the inherent difficulties of which would tax to
+the uttermost whatever mechanical skill he might possess. Thus it
+was he decided that the construction of great telescopes should
+become the business of his life.</p>
+
+<p><a name="birr"  id="birr"></a></p>
+
+<div class="figcenter" style="width: 651px;">
+<a href="images/ill_birr_castle.jpg">
+<img src="images/ill_birr_castle_sml.jpg" width="651" height="428" alt="BIRR CASTLE." /></a>
+<span class="caption">BIRR CASTLE.</span>
+</div>
+
+<p><a name="mall" id="mall"></a></p>
+
+<div class="figcenter" style="width: 651px;">
+<a href="images/ill_mall_parsonstown.jpg">
+<img src="images/ill_mall_parsonstown_sml.jpg" width="651" height="432" alt="THE MALL, PARSONSTOWN." title="" /></a>
+<span class="caption">THE MALL, PARSONSTOWN.</span>
+</div>
+
+<p>In the centre of Ireland, seventy miles from Dublin, on the border
+between King's County and Tipperary, is a little town whereof we must
+be cautious before writing the name. The inhabitants of that town
+frequently insist that its name is Birr,[<a name="ast" id="ast"></a><a href="#note">*</a>] while the official
+designation is Parsonstown, and to this day for every six people who
+apply one name to the town, there will be half a dozen who use the
+other. But whichever it may be, Birr or Parsonstown&mdash;and I shall
+generally call it by the latter name&mdash;it is a favourable specimen of
+an Irish county town. The widest street is called the Oxmantown
+Mall. It is bordered by the dwelling-houses of the chief residents,
+and adorned with rows of stately trees. At one end of this
+distinctly good feature in the town is the Parish Church, while at
+the opposite end are the gates leading into Birr Castle, the
+ancestral home of the house of Parsons. Passing through the gates
+the visitor enters a spacious demesne, possessing much beauty of wood
+and water, one of the most pleasing features being the junction of
+the two rivers, which unite at a spot ornamented by beautiful
+timber. At various points illustrations of the engineering skill of
+the great Earl will be observed. The beauty of the park has been
+greatly enhanced by the construction of an ample lake, designed with
+the consummate art by which art is concealed. Even in mid-summer it
+is enlivened by troops of wild ducks preening themselves in that
+confidence which they enjoy in those happy localities where the sound
+of a gun is seldom heard. The water is led into the lake by a tube
+which passes under one of the two rivers just mentioned, while the
+overflow from the lake turns a water-wheel, which works a pair of
+elevators ingeniously constructed for draining the low-lying parts of
+the estate.</p>
+
+<div class="footnote">
+<a name="note" id="note"></a>
+<p>[<a href="#ast">*</a>] Considering the fame acquired by Parsonstown from Lord Rosse's
+   mirrors, it may be interesting to note the following extract from
+   "The Natural History of Ireland," by Dr. Gerard Boate, Thomas
+   Molyneux M.D., F.R.S., and others, which shows that 150 years ago
+   Parsonstown was famous for its glass:&mdash;</p>
+
+<p>"We shall conclude this chapter with the glass, there having been
+   several glasshouses set up by the English in Ireland, none in Dublin
+   or other cities, but all of them in the country; amongst which the
+   principal was that of Birre, a market town, otherwise called
+   Parsonstown, after one Sir Lawrence Parsons, who, having purchased
+   that lordship, built a goodly house upon it; his son William Parsons
+   having succeeded him in the possession of it; which town is situate
+   in Queen's County, about fifty miles (Irish) to the southwest of
+   Dublin, upon the borders of the two provinces of Leinster and Munster;
+   from this place Dublin was furnished with all sorts of window and
+   drinking glasses, and such other as commonly are in use. One part of
+   the materials, viz., the sand, they had out of England; the other,
+   to wit the ashes, they made in the place of ash-tree, and used no
+   other. The chiefest difficulty was to get the clay for the pots to
+   melt the materials in; this they had out of the north."&mdash;Chap. XXI.,
+   Sect. VIII. "Of the Glass made in Ireland."</p>
+</div>
+
+<p>Birr Castle itself is a noble mansion with reminiscences from the
+time of Cromwell. It is surrounded by a moat and a drawbridge of
+modern construction, and from its windows beautiful views can be had
+over the varied features of the park. But while the visitors to
+Parsonstown will look with great interest on this residence of an
+Irish landlord, whose delight it was to dwell in his own country, and
+among his own people, yet the feature which they have specially come
+to observe is not to be found in the castle itself. On an extensive
+lawn, sweeping down from the moat towards the lake, stand two noble
+masonry walls. They are turreted and clad with ivy, and considerably
+loftier than any ordinary house. As the visitor approaches, he will
+see between those walls what may at first sight appear to him to be
+the funnel of a steamer lying down horizontally. On closer approach
+he will find that it is an immense wooden tube, sixty feet long, and
+upwards of six feet in diameter. It is in fact large enough to admit
+of a tall man entering into it and walking erect right through from
+one end to the other. This is indeed the most gigantic instrument
+which has ever been constructed for the purpose of exploring the
+heavens. Closely adjoining the walls between which the great tube
+swings, is a little building called "The Observatory." In this the
+smaller instruments are contained, and there are kept the books which
+are necessary for reference. The observatory also offers shelter to
+the observers, and provides the bright fire and the cup of warm tea,
+which are so acceptable in the occasional intervals of a night's
+observation passed on the top of the walls with no canopy but the
+winter sky.</p>
+
+<p>Almost the first point which would strike the visitor to Lord Rosse's
+telescope is that the instrument at which he is looking is not only
+enormously greater than anything of the kind that he has ever seen
+before, but also that it is something of a totally different nature.
+In an ordinary telescope he is accustomed to find a tube with lenses
+of glass at either end, while the large telescopes that we see in our
+observatories are also in general constructed on the same principle.
+At one end there is the object-glass, and at the other end the
+eye-piece, and of course it is obvious that with an instrument of
+this construction it is to the lower end of the tube that the eye of
+the observer must be placed when the telescope is pointed to the
+skies. But in Lord Rosse's telescope you would look in vain for
+these glasses, and it is not at the lower end of the instrument that
+you are to take your station when you are going to make your
+observations. The astronomer at Parsonstown has rather to avail
+himself of the ingenious system of staircases and galleries, by which
+he is enabled to obtain access to the mouth of the great tube. The
+colossal telescope which swings between the great walls, like
+Herschel's great telescope already mentioned, is a reflector, the
+original invention of which is due of course to Newton. The optical
+work which is accomplished by the lenses in the ordinary telescope is
+effected in the type of instrument constructed by Lord Rosse by a
+reflecting mirror which is placed at the lower end of the vast tube.
+The mirror in this instrument is made of a metal consisting of two
+parts of copper to one of tin. As we have already seen, this mixture
+forms an alloy of a very peculiar nature. The copper and the tin
+both surrender their distinctive qualities, and unite to form a
+material of a very different physical character. The copper is tough
+and brown, the tin is no doubt silvery in hue, but soft and almost
+fibrous in texture. When the two metals are mixed together in the
+proportions I have stated, the alloy obtained is intensely hard and
+quite brittle being in both these respects utterly unlike either of
+the two ingredients of which it is composed. It does, however,
+resemble the tin in its whiteness, but it acquires a lustre far
+brighter than tin; in fact, this alloy hardly falls short of silver
+itself in its brilliance when polished.</p>
+
+<p><a name="lord_rosse_telescope"  id="lord_rosse_telescope"></a></p>
+
+<div class="figcenter" style="width: 641px;">
+<a href="images/ill_rosse_telescope.jpg">
+<img src="images/ill_rosse_telescope_sml.jpg" width="641" height="475" alt="LORD ROSSE&#39;S TELESCOPE. From a photograph by W. Lawrence,
+Upper Sackville Street, Dublin." title="" /></a>
+<span class="caption">LORD ROSSE&#39;S TELESCOPE. From a photograph by W. Lawrence,
+Upper Sackville Street, Dublin.</span>
+</div>
+
+<p>The first duty that Lord Rosse had to undertake was the construction
+of this tremendous mirror, six feet across, and about four or five
+inches thick. The dimensions were far in excess of those which had
+been contemplated in any previous attempt of the same kind. Herschel
+had no doubt fashioned one mirror of four feet in diameter, and many
+others of smaller dimensions, but the processes which he employed had
+never been fully published, and it was obvious that, with a large
+increase in dimensions, great additional difficulties had to be
+encountered. Difficulties began at the very commencement of the
+process, and were experienced in one form or another at every
+subsequent stage. In the first place, the mere casting of a great
+disc of this mixture of tin and copper, weighing something like three
+or four tons, involved very troublesome problems. No doubt a casting
+of this size, if the material had been, for example, iron, would have
+offered no difficulties beyond those with which every practical
+founder is well acquainted, and which he has to encounter daily in
+the course of his ordinary work. But speculum metal is a material of
+a very intractable description. There is, of course, no practical
+difficulty in melting the copper, nor in adding the proper proportion
+of tin when the copper has been melted. There may be no great
+difficulty in arranging an organization by which several crucibles,
+filled with the molten material, shall be poured simultaneously so as
+to obtain the requisite mass of metal, but from this point the
+difficulties begin. For speculum metal when cold is excessively
+brittle, and were the casting permitted to cool like an ordinary
+copper or iron casting, the mirror would inevitably fly into pieces.
+Lord Rosse, therefore, found it necessary to anneal the casting with
+extreme care by allowing it to cool very slowly. This was
+accomplished by drawing the disc of metal as soon as it had entered
+into the solid state, though still glowing red, into an annealing
+oven. There the temperature was allowed to subside so gradually,
+that six weeks elapsed before the mirror had reached the temperature
+of the external air. The necessity for extreme precaution in the
+operation of annealing will be manifest if we reflect on one of the
+accidents which happened. On a certain occasion, after the cooling
+of a great casting had been completed, it was found, on withdrawing
+the speculum, that it was cracked into two pieces. This mishap was
+eventually traced to the fact that one of the walls of the oven had
+only a single brick in its thickness, and that therefore the heat had
+escaped more easily through that side than through the other sides
+which were built of double thickness. The speculum had,
+consequently, not cooled uniformly, and hence the fracture had
+resulted. Undeterred, however, by this failure, as well as by not a
+few other difficulties, into a description of which we cannot now
+enter, Lord Rosse steadily adhered to his self-imposed task, and at
+last succeeded in casting two perfect discs on which to commence the
+tedious processes of grinding and polishing. The magnitude of the
+operations involved may perhaps be appreciated if I mention that the
+value of the mere copper and tin entering into the composition of
+each of the mirrors was about 500 pounds.</p>
+
+<p>In no part of his undertaking was Lord Rosse's mechanical ingenuity
+more taxed than in the devising of the mechanism for carrying out the
+delicate operations of grinding and polishing the mirrors, whose
+casting we have just mentioned. In the ordinary operations of the
+telescope-maker, such processes had hitherto been generally effected
+by hand, but, of course, such methods became impossible when dealing
+with mirrors which were as large as a good-sized dinner table, and
+whose weight was measured by tons. The rough grinding was effected
+by means of a tool of cast iron about the same size as the mirror,
+which was moved by suitable machinery both backwards and forwards,
+and round and round, plenty of sand and water being supplied between
+the mirror and the tool to produce the necessary attrition. As the
+process proceeded and as the surface became smooth, emery was used
+instead of sand; and when this stage was complete, the grinding tool
+was removed and the polishing tool was substituted. The essential
+part of this was a surface of pitch, which, having been temporarily
+softened by heat, was then placed on the mirror, and accepted from
+the mirror the proper form. Rouge was then introduced as the
+polishing powder, and the operation was continued about nine hours,
+by which time the great mirror had acquired the appearance of highly
+polished silver. When completed, the disc of speculum metal was
+about six feet across and four inches thick. The depression in the
+centre was about half an inch. Mounted on a little truck, the great
+speculum was then conveyed to the instrument, to be placed in its
+receptacle at the bottom of the tube, the length of which was sixty
+feet, this being the focal distance of the mirror. Another small
+reflector was inserted in the great tube sideways, so as to direct
+the gaze of the observer down upon the great reflector. Thus was
+completed the most colossal instrument for the exploration of the
+heavens which the art of man has ever constructed.</p>
+
+<p><a name="roman"  id="roman"></a></p>
+
+<div class="figcenter" style="width: 655px;">
+<a href="images/ill_church_parsonstown.jpg">
+<img src="images/ill_church_parsonstown_sml.jpg" width="655" height="483" alt="ROMAN CATHOLIC CHURCH AT PARSONSTOWN." title="" /></a>
+<span class="caption">ROMAN CATHOLIC CHURCH AT PARSONSTOWN.</span>
+</div>
+
+<p>It was once my privilege to be one of those to whom the illustrious
+builder of the great telescope entrusted its use. For two seasons in
+1865 and 1866 I had the honour of being Lord Rosse's astronomer.
+During that time I passed many a fine night in the observer's
+gallery, examining different objects in the heavens with the aid of
+this remarkable instrument. At the time I was there, the objects
+principally studied were the nebulae, those faint stains of light
+which lie on the background of the sky. Lord Rosse's telescope was
+specially suited for the scrutiny of these objects, inasmuch as their
+delicacy required all the light-grasping power which could be
+provided.</p>
+
+<p>One of the greatest discoveries made by Lord Rosse, when his huge
+instrument was first turned towards the heavens, consisted in the
+detection of the spiral character of some of the nebulous forms.
+When the extraordinary structure of these objects was first
+announced, the discovery was received with some degree of
+incredulity. Other astronomers looked at the same objects, and when
+they failed to discern&mdash;and they frequently did fail to discern&mdash;the
+spiral structure which Lord Rosse had indicated, they drew the
+conclusion that this spiral structure did not exist. They thought it
+must be due possibly to some instrumental defect or to the
+imagination of the observer. It was, however, hardly possible for
+any one who was both willing and competent to examine into the
+evidence, to doubt the reality of Lord Rosse's discoveries. It
+happens, however, that they have been recently placed beyond all
+doubt by testimony which it is impossible to gainsay. A witness
+never influenced by imagination has now come forward, and the
+infallible photographic plate has justified Lord Rosse. Among the
+remarkable discoveries which Dr. Isaac Roberts has recently made in
+the application of his photographic apparatus to the heavens, there
+is none more striking than that which declares, not only that the
+nebulae which Lord Rosse described as spirals, actually do possess
+the character so indicated, but that there are many others of the
+same description. He has even brought to light the astonishingly
+interesting fact that there are invisible objects of this class which
+have never been seen by human eye, but whose spiral character is
+visible to the peculiar delicacy of the photographic telescope.</p>
+
+<p>In his earlier years, Lord Rosse himself used to be a diligent
+observer of the heavenly bodies with the great telescope which was
+completed in the year 1845. But I think that those who knew Lord
+Rosse well, will agree that it was more the mechanical processes
+incidental to the making of the telescope which engaged his interest
+than the actual observations with the telescope when it was
+completed. Indeed one who was well acquainted with him believed Lord
+Rosse's special interest in the great telescope ceased when the last
+nail had been driven into it. But the telescope was never allowed to
+lie idle, for Lord Rosse always had associated with him some ardent
+young astronomer, whose delight it was to employ to the uttermost the
+advantages of his position in exploring the wonders of the sky. Among
+those who were in this capacity in the early days of the great
+telescope, I may mention my esteemed friend Dr. Johnston Stoney.</p>
+
+<p>Such was the renown of Lord Rosse himself, brought about by his
+consummate mechanical genius and his astronomical discoveries, and
+such the interest which gathered around the marvellous workshops at
+Birr castle, wherein his monumental exhibitions of optical skill were
+constructed, that visitors thronged to see him from all parts of the
+world. His home at Parsonstown became one of the most remarkable
+scientific centres in Great Britain; thither assembled from time to
+time all the leading men of science in the country, as well as many
+illustrious foreigners. For many years Lord Rosse filled with marked
+distinction the exalted position of President of the Royal Society,
+and his advice and experience in practical mechanical matters were
+always at the disposal of those who sought his assistance. Personally
+and socially Lord Rosse endeared himself to all with whom he came in
+contact. I remember one of the attendants telling me that on one
+occasion he had the misfortune to let fall and break one of the small
+mirrors on which Lord Rosse had himself expended many hours of hard
+personal labour. The only remark of his lordship was that "accidents
+will happen."</p>
+
+<p>The latter years of his life Lord Rosse passed in comparative
+seclusion; he occasionally went to London for a brief sojourn during
+the season, and he occasionally went for a cruise in his yacht; but
+the greater part of the year he spent at Birr Castle, devoting
+himself largely to the study of political and social questions, and
+rarely going outside the walls of his demesne, except to church on
+Sunday mornings. He died on October 31, 1867.</p>
+
+<p>He was succeeded by his eldest son, the present Earl of Rosse, who
+has inherited his father's scientific abilities, and done much
+notable work with the great telescope.</p>
+
+<h3><a name="AIRY" id="AIRY"></a>AIRY.</h3>
+<p>In our sketch of the life of Flamsteed, we have referred to the
+circumstances under which the famous Observatory that crowns
+Greenwich Hill was founded. We have also had occasion to mention
+that among the illustrious successors of Flamsteed both Halley and
+Bradley are to be included. But a remarkable development of
+Greenwich Observatory from the modest establishment of early days
+took place under the direction of the distinguished astronomer whose
+name is at the head of this chapter. By his labours this temple of
+science was organised to such a degree of perfection that it has
+served in many respects as a model for other astronomical
+establishments in various parts of the world. An excellent account
+of Airy's career has been given by Professor H. H. Turner, in the
+obituary notice published by the Royal Astronomical Society. To this
+I am indebted for many of the particulars here to be set down
+concerning the life of the illustrious Astronomer Royal.</p>
+
+<p>The family from which Airy took his origin came from Kentmere, in
+Westmoreland. His father, William Airy, belonged to a Lincolnshire
+branch of the same stock. His mother's maiden name was Ann Biddell,
+and her family resided at Playford, near Ipswich. William Airy held
+some small government post which necessitated an occasional change of
+residence to different parts of the country, and thus it was that his
+son, George Biddell, came to be born at Alnwick, on 27th July, 1801.
+The boy's education, so far as his school life was concerned was
+partly conducted at Hereford and partly at Colchester. He does not,
+however, seem to have derived much benefit from the hours which he
+passed in the schoolroom. But it was delightful to him to spend his
+holidays on the farm at Playford, where his uncle, Arthur Biddell,
+showed him much kindness. The scenes of his early youth remained
+dear to Airy throughout his life, and in subsequent years he himself
+owned a house at Playford, to which it was his special delight to
+resort for relaxation during the course of his arduous career. In
+spite of the defects of his school training he seems to have
+manifested such remarkable abilities that his uncle decided to enter
+him in Cambridge University. He accordingly joined Trinity College
+as a sizar in 1819, and after a brilliant career in mathematical and
+physical science he graduated as Senior Wrangler in 1823. It may be
+noted as an exceptional circumstance that, notwithstanding the
+demands on his time in studying for his tripos, he was able, after
+his second term of residence, to support himself entirely by taking
+private pupils. In the year after he had taken his degree he was
+elected to a Fellowship at Trinity College.</p>
+
+<p>Having thus gained an independent position, Airy immediately entered
+upon that career of scientific work which he prosecuted without
+intermission almost to the very close of his life. One of his most
+interesting researches in these early days is on the subject of
+Astigmatism, which defect he had discovered in his own eyes. His
+investigations led him to suggest a means of correcting this defect
+by using a pair of spectacles with lenses so shaped as to counteract
+the derangement which the astigmatic eye impressed upon the rays of
+light. His researches on this subject were of a very complete
+character, and the principles he laid down are to the present day
+practically employed by oculists in the treatment of this
+malformation.</p>
+
+<p>On the 7th of December, 1826, Airy was elected to the Lucasian
+Professorship of Mathematics in the University of Cambridge, the
+chair which Newton's occupancy had rendered so illustrious. His
+tenure of this office only lasted for two years, when he exchanged it
+for the Plumian Professorship. The attraction which led him to
+desire this change is doubtless to be found in the circumstance that
+the Plumian Professorship of Astronomy carried with it at that time
+the appointment of director of the new astronomical observatory, the
+origin of which must now be described.</p>
+
+<p>Those most interested in the scientific side of University life
+decided in 1820 that it would be proper to found an astronomical
+observatory at Cambridge. Donations were accordingly sought for this
+purpose, and upwards of 6,000 pounds were contributed by members of
+the University and the public. To this sum 5,000 pounds were added
+by a grant from the University chest, and in 1824 further sums
+amounting altogether to 7,115 pounds were given by the University for
+the same object. The regulations as to the administration of the new
+observatory placed it under the management of the Plumian Professor,
+who was to be provided with two assistants. Their duties were to
+consist in making meridian observations of the sun, moon, and the
+stars, and the observations made each year were to be printed and
+published. The observatory was also to be used in the educational
+work of the University, for it was arranged that smaller instruments
+were to be provided by which students could be instructed in the
+practical art of making astronomical observations.</p>
+
+<p>The building of the Cambridge Astronomical Observatory was completed
+in 1824, but in 1828, when Airy entered on the discharge of his
+duties as Director, the establishment was still far from completion,
+in so far as its organisation was concerned. Airy commenced his work
+so energetically that in the next year after his appointment he was
+able to publish the first volume of "Cambridge Astronomical
+Observations," notwithstanding that every part of the work, from the
+making of observations to the revising of the proof-sheets, had to be
+done by himself.</p>
+
+<p>It may here be remarked that these early volumes of the publications
+of the Cambridge Observatory contained the first exposition of those
+systematic methods of astronomical work which Airy afterwards
+developed to such a great extent at Greenwich, and which have been
+subsequently adopted in many other places. No more profitable
+instruction for the astronomical beginner can be found than that
+which can be had by the study of these volumes, in which the Plumian
+Professor has laid down with admirable clearness the true principles
+on which meridian work should be conducted.</p>
+
+<p><a name="sir_airy"  id="sir_airy"></a></p>
+
+<div class="figcenter" style="width: 451px;">
+<a href="images/ill_george_airy.jpg">
+<img src="images/ill_george_airy_sml.jpg" width="451" height="517" alt="SIR GEORGE AIRY.
+From a Photograph by Mr. E.P. Adams, Greenwich." title="" /></a>
+<span class="caption">SIR GEORGE AIRY.
+From a Photograph by Mr. E.P. Adams, Greenwich.</span>
+</div>
+
+<p>Airy gradually added to the instruments with which the observatory
+was originally equipped. A mural circle was mounted in 1832, and in
+the same year a small equatorial was erected by Jones. This was made
+use of by Airy in a well-known series of observations of Jupiter's
+fourth satellite for the determination of the mass of the great
+planet. His memoir on this subject fully ex pounds the method of
+finding the weight of a planet from observations of the movements of
+a satellite by which the planet is attended. This is, indeed, a
+valuable investigation which no student of astronomy can afford to
+neglect. The ardour with which Airy devoted himself to astronomical
+studies may be gathered from a remarkable report on the progress of
+astronomy during the present century, which he communicated to the
+British Association at its second meeting in 1832. In the early
+years of his life at Cambridge his most famous achievement was
+connected with a research in theoretical astronomy for which
+consummate mathematical power was required. We can only give a brief
+account of the Subject, for to enter into any full detail with regard
+to it would be quite out of the question.</p>
+
+<p>Venus is a planet of about the same size and the same weight as the
+earth, revolving in an orbit which lies within that described by our
+globe. Venus, consequently, takes less time than the earth to
+accomplish one revolution round the sun, and it happens that the
+relative movements of Venus and the earth are so proportioned that in
+the time in which our earth accomplishes eight of her revolutions the
+other planet will have accomplished almost exactly thirteen. It,
+therefore, follows that if the earth and Venus are in line with the
+sun at one date, then in eight years later both planets will again be
+found at the same points in their orbits. In those eight years the
+earth has gone round eight times, and has, therefore, regained its
+original position, while in the same period Venus has accomplished
+thirteen complete revolutions, and, therefore, this planet also has
+reached the same spot where it was at first. Venus and the earth, of
+course, attract each other, and in consequence of these mutual
+attractions the earth is swayed from the elliptic track which it
+would otherwise pursue. In like manner Venus is also forced by the
+attraction of the earth to revolve in a track which deviates from
+that which it would otherwise follow. Owing to the fact that the sun
+is of such preponderating magnitude (being, in fact, upwards of
+300,000 times as heavy as either Venus or the earth), the
+disturbances induced in the motion of either planet, in consequence
+of the attraction of the other, are relatively insignificant to the
+main controlling agency by which each of the movements is governed.
+It is, however, possible under certain circumstances that the
+disturbing effects produced upon one planet by the other can become
+so multiplied as to produce peculiar effects which attain measurable
+dimensions. Suppose that the periodic times in which the earth and
+Venus revolved had no simple relation to each other, then the points
+of their tracks in which the two planets came into line with the sun
+would be found at different parts of the orbits, and consequently the
+disturbances would to a great extent neutralise each other, and
+produce but little appreciable effect. As, however, Venus and the
+earth come back every eight years to nearly the same positions at the
+same points of their track, an accumulative effect is produced. For
+the disturbance of one planet upon the other will, of course, be
+greatest when those two planets are nearest, that is, when they lie
+in line with the sun and on the same side of it. Every eight years a
+certain part of the orbit of the earth is, therefore, disturbed by
+the attraction of Venus with peculiar vigour. The consequence is
+that, owing to the numerical relation between the movements of the
+planets to which I have referred, disturbing effects become
+appreciable which would otherwise be too small to permit of
+recognition. Airy proposed to himself to compute the effects which
+Venus would have on the movement of the earth in consequence of the
+circumstance that eight revolutions of the one planet required almost
+the same time as thirteen revolutions of the other. This is a
+mathematical inquiry of the most arduous description, but the Plumian
+Professor succeeded in working it out, and he had, accordingly, the
+gratification of announcing to the Royal Society that he had detected
+the influence which Venus was thus able to assert on the movement of
+our earth around the sun. This remarkable investigation gained for
+its author the gold medal of the Royal Astronomical Society in the
+year 1832.</p>
+
+<p>In consequence of his numerous discoveries, Airy's scientific fame
+had become so well recognised that the Government awarded him a
+special pension, and in 1835, when Pond, who was then Astronomer
+Royal, resigned, Airy was offered the post at Greenwich. There was
+in truth, no scientific inducement to the Plumian Professor to leave
+the comparatively easy post he held at Cambridge, in which he had
+ample leisure to devote himself to those researches which specially
+interested him, and accept that of the much more arduous observatory
+at Greenwich. There were not even pecuniary inducements to make the
+change; however, he felt it to be his duty to accede to the request
+which the Government had made that he would take up the position
+which Pond had vacated, and accordingly Airy went to Greenwich as
+Astronomer Royal on October 1st, 1835.</p>
+
+<p>He immediately began with his usual energy to organise the systematic
+conduct of the business of the National Observatory. To realise one
+of the main characteristics of Airy's great work at Greenwich, it is
+necessary to explain a point that might not perhaps be understood
+without a little explanation by those who have no practical
+experience in an observatory. In the work of an establishment such
+as Greenwich, an observation almost always consists of a measurement
+of some kind. The observer may, for instance, be making a
+measurement of the time at which a star passes across a spider line
+stretched through the field of view; on another occasion his object
+may be the measurement of an angle which is read off by examining
+through a microscope the lines of division on a graduated circle when
+the telescope is so pointed that the star is placed on a certain mark
+in the field of view. In either case the immediate result of the
+astronomical observation is a purely numerical one, but it rarely
+happens, indeed we may say it never happens, that the immediate
+numerical result which the observation gives expresses directly the
+quantity which we are really seeking for. No doubt the observation
+has been so designed that the quantity we want to find can be
+obtained from the figures which the measurement gives, but the object
+sought is not those figures, for there are always a multitude of
+other influences by which those figures are affected. For example,
+if an observation were to be perfect, then the telescope with which
+the observation is made should be perfectly placed in the exact
+position which it ought to occupy; this is, however, never the case,
+for no mechanic can ever construct or adjust a telescope so perfectly
+as the wants of the astronomer demand. The clock also by which we
+determine the time of the observation should be correct, but this is
+rarely if ever the case. We have to correct our observations for
+such errors, that is to say, we have to determine the errors in the
+positions of our telescopes and the errors in the going of our
+clocks, and then we have to determine what the observations would
+have been had our telescopes been absolutely perfect, and had our
+clocks been absolutely correct. There are also many other matters
+which have to be attended to in order to reduce our observations so
+as to obtain from the figures as yielded to the observer at the
+telescope the actual quantities which it is his object to determine.</p>
+
+<p>The work of effecting these reductions is generally a very intricate
+and laborious matter, so that it has not unfrequently happened that
+while observations have accumulated in an observatory, yet the
+tedious duty of reducing these observations has been allowed to fall
+into arrear. When Airy entered on his duties at Greenwich he found
+there an enormous mass of observations which, though implicitly
+containing materials of the greatest value to astronomers, were, in
+their unreduced form, entirely unavailable for any useful purpose.
+He, therefore, devoted himself to coping with the reduction of the
+observations of his predecessors. He framed systematic methods by
+which the reductions were to be effected, and he so arranged the work
+that little more than careful attention to numerical accuracy would
+be required for the conduct of the operations. Encouraged by the
+Admiralty, for it is under this department that Greenwich Observatory
+is placed, the Astronomer Royal employed a large force of computers
+to deal with the work. BY his energy and admirable organisation he
+managed to reduce an extremely valuable series of planetary
+observations, and to publish the results, which have been of the
+greatest importance to astronomical investigation.</p>
+
+<p>The Astronomer Royal was a capable, practical engineer as well as an
+optician, and he presently occupied himself by designing astronomical
+instruments of improved pattern, which should replace the antiquated
+instruments he found in the observatory. In the course of years the
+entire equipment underwent a total transformation. He ordered a
+great meridian circle, every part of which may be said to have been
+formed from his own designs. He also designed the mounting for a
+fine equatorial telescope worked by a driving clock, which he had
+himself invented. Gradually the establishment at Greenwich waxed
+great under his incessant care. It was the custom for the
+observatory to be inspected every year by a board of visitors, whose
+chairman was the President of the Royal Society. At each annual
+visitation, held on the first Saturday in June, the visitors received
+a report from the Astronomer Royal, in which he set forth the
+business which had been accomplished during the past year. It was on
+these occasions that applications were made to the Admiralty, either
+for new instruments or for developing the work of the observatory in
+some other way. After the more official business of the inspection
+was over, the observatory was thrown open to visitors, and hundreds
+of people enjoyed on that day the privilege of seeing the national
+observatory. These annual gatherings are happily still continued,
+and the first Saturday in June is known to be the occasion of one of
+the most interesting reunions of scientific men which takes place in
+the course of the year.</p>
+
+<p>Airy's scientific work was, however, by no means confined to the
+observatory. He interested himself largely in expeditions for the
+observation of eclipses and in projects for the measurement of arcs
+on the earth. He devoted much attention to the collection of magnetic
+observations from various parts of the world. Especially will it be
+remembered that the circumstances of the transits of Venus, which
+occurred in 1874 and in 1882, were investigated by him, and under his
+guidance expeditions were sent forth to observe the transits from
+those localities in remote parts of the earth where observations most
+suitable for the determination of the sun's distance from the earth
+could be obtained. The Astronomer Royal also studied tidal
+phenomena, and he rendered great service to the country in the
+restoration of the standards of length and weight which had been
+destroyed in the great fire at the House of Parliament in October,
+1834. In the most practical scientific matters his advice was often
+sought, and was as cheerfully rendered. Now we find him engaged in
+an investigation of the irregularities of the compass in iron ships,
+with a view to remedying its defects; now we find him reporting on
+the best gauge for railways. Among the most generally useful
+developments of the observatory must be mentioned the telegraphic
+method for the distribution of exact time. By arrangement with the
+Post Office, the astronomers at Greenwich despatch each morning a
+signal from the observatory to London at ten o'clock precisely. By
+special apparatus, this signal is thence distributed automatically
+over the country, so as to enable the time to be known everywhere
+accurately to a single second. It was part of the same system that a
+time ball should be dropped daily at one o'clock at Deal, as well as
+at other places, for the purpose of enabling ship's chronometers to
+be regulated.</p>
+
+<p>Airy's writings were most voluminous, and no fewer than forty-eight
+memoirs by him are mentioned in the "Catalogue of Scientific
+Memoirs," published by the Royal Society up to the year 1873, and
+this only included ten years out of an entire life of most
+extraordinary activity. Many other subjects besides those of a
+purely scientific character from time to time engaged his attention.
+He wrote, for instance, a very interesting treatise on the Roman
+invasion of Britain, especially with a view of determining the port
+from which Caesar set forth from Gaul, and the point at which he
+landed on the British coast. Airy was doubtless led to this
+investigation by his study of the tidal phenomena in the Straits of
+Dover. Perhaps the Astronomer Royal is best known to the general
+reading public by his excellent lectures on astronomy, delivered at
+the Ipswich Museum in 1848. This book has passed through many
+editions, and it gives a most admirable account of the manner in
+which the fundamental problems in astronomy have to be attacked.</p>
+
+<p>As years rolled by almost every honour and distinction that could be
+conferred upon a scientific man was awarded to Sir George Airy. He
+was, indeed, the recipient of other honours not often awarded for
+scientific distinction. Among these we may mention that in 1875 he
+received the freedom of the City of London, "as a recognition of his
+indefatigable labours in astronomy, and of his eminent services in
+the advancement of practical science, whereby he has so materially
+benefited the cause of commerce and civilisation."</p>
+
+<p>Until his eightieth year Airy continued to discharge his labours at
+Greenwich with unflagging energy. At last, on August 15th, 1881, he
+resigned the office which he had held so long with such distinction
+to himself and such benefit to his country. He had married in 1830
+the daughter of the Rev. Richard Smith, of Edensor. Lady Airy died
+in 1875, and three sons and three daughters survived him. One
+daughter is the wife of Dr. Routh, of Cambridge, and his other
+daughters were the constant companions of their father during the
+declining years of his life. Up to the age of ninety he enjoyed
+perfect physical health, but an accidental fall which then occurred
+was attended with serious results. He died on Saturday, January 2nd,
+1892, and was buried in the churchyard at Playford.</p>
+
+<h3><a name="HAMILTON" id="HAMILTON"></a>HAMILTON.</h3>
+<p>William Rowan Hamilton was born at midnight between the 3rd and 4th
+of August, 1805, at Dublin, in the house which was then 29, but
+subsequently 36, Dominick Street. His father, Archibald Hamilton,
+was a solicitor, and William was the fourth of a family of nine. With
+reference to his descent, it may be sufficient to notice that his
+ancestors appear to have been chiefly of gentle Irish families, but
+that his maternal grandmother was of Scottish birth. When he was
+about a year old, his father and mother decided to hand over the
+education of the child to his uncle, James Hamilton, a clergyman of
+Trim, in County Meath. James Hamilton's sister, Sydney, resided with
+him, and it was in their home that the days of William's childhood
+were passed.</p>
+
+<p>In Mr. Graves' "Life of Sir William Rowan Hamilton" a series of
+letters will be found, in which Aunt Sydney details the progress of
+the boy to his mother in Dublin. Probably there is no record of an
+infant prodigy more extraordinary than that which these letters
+contain. At three years old his aunt assured the mother that William
+is "a hopeful blade," but at that time it was his physical vigour to
+which she apparently referred; for the proofs of his capacity, which
+she adduces, related to his prowess in making boys older than himself
+fly before him. In the second letter, a month later, we hear that
+William is brought in to read the Bible for the purpose of putting to
+shame other boys double his age who could not read nearly so well.
+Uncle James appears to have taken much pains with William's
+schooling, but his aunt said that "how he picks up everything is
+astonishing, for he never stops playing and jumping about." When he
+was four years and three months old, we hear that he went out to dine
+at the vicar's, and amused the company by reading for them equally
+well whether the book was turned upside down or held in any other
+fashion. His aunt assures the mother that "Willie is a most sensible
+little creature, but at the same time has a great deal of roguery."
+At four years and five months old he came up to pay his mother a
+visit in town, and she writes to her sister a description of the
+boy;&mdash;</p>
+
+<p>"His reciting is astonishing, and his clear and accurate knowledge of
+geography is beyond belief; he even draws the countries with a pencil
+on paper, and will cut them out, though not perfectly accurate, yet
+so well that a anybody knowing the countries could not mistake them;
+but, you will think this nothing when I tell you that he reads Latin,
+Greek, and Hebrew."</p>
+
+<p>Aunt Sydney recorded that the moment Willie got back to Trim he was
+desirous of at once resuming his former pursuits. He would not eat
+his breakfast till his uncle had heard him his Hebrew, and he
+comments on the importance of proper pronunciation. At five he was
+taken to see a friend, to whom he repeated long passages from
+Dryden. A gentleman present, who was not unnaturally sceptical about
+Willie's attainments, desired to test him in Greek, and took down a
+copy of Homer which happened to have the contracted type, and to his
+amazement Willie went on with the greatest ease. At six years and
+nine months he was translating Homer and Virgil; a year later his
+uncle tells us that William finds so little difficulty in learning
+French and Italian, that he wishes to read Homer in French. He is
+enraptured with the Iliad, and carries it about with him, repeating
+from it whatever particularly pleases him. At eight years and one
+month the boy was one of a party who visited the Scalp in the Dublin
+mountains, and he was so delighted with the scenery that he forthwith
+delivered an oration in Latin. At nine years and six months he is
+not satisfied until he learns Sanscrit; three months later his thirst
+for the Oriental languages is unabated, and at ten years and four
+months he is studying Arabic and Persian. When nearly twelve he
+prepared a manuscript ready for publication. It was a "Syriac
+Grammar," in Syriac letters and characters compiled from that of
+Buxtorf, by William Hamilton, Esq., of Dublin and Trim. When he was
+fourteen, the Persian ambassador, Mirza Abul Hassan Khan, paid a
+visit to Dublin, and, as a practical exercise in his Oriental
+languages, the young scholar addressed to his Excellency a letter in
+Persian; a translation of which production is given by Mr. Graves.
+When William was fourteen he had the misfortune to lose his father;
+and he had lost his mother two years previously. The boy and his
+three sisters were kindly provided for by different members of the
+family on both sides.</p>
+
+<p>It was when William was about fifteen that his attention began to be
+turned towards scientific subjects. These were at first regarded
+rather as a relaxation from the linguistic studies with which he had
+been so largely occupied. On November 22nd, 1820, he notes in his
+journal that he had begun Newton's "Principia": he commenced also the
+study of astronomy by observing eclipses, occultations, and similar
+phenomena. When he was sixteen we learn that he had read conic
+sections, and that he was engaged in the study of pendulums. After
+an attack of illness, he was moved for change to Dublin, and in May,
+1822, we find him reading the differential calculus and Laplace's
+"Mecanique Celeste." He criticises an important part of Laplace's
+work relative to the demonstration of the parallelogram of forces. In
+this same year appeared the first gushes of those poems which
+afterwards flowed in torrents.</p>
+
+<p>His somewhat discursive studies had, however, now to give place to a
+more definite course of reading in preparation for entrance to the
+University of Dublin. The tutor under whom he entered, Charles
+Boyton, was himself a distinguished man, but he frankly told the
+young William that he could be of little use to him as a tutor, for
+his pupil was quite as fit to be his tutor. Eliza Hamilton, by whom
+this is recorded, adds, "But there is one thing which Boyton would
+promise to be to him, and that was a FRIEND; and that one proof he
+would give of this should be that, if ever he saw William beginning
+to be UPSET by the sensation he would excite, and the notice he would
+attract, he would tell him of it." At the beginning of his college
+career he distanced all his competitors in every intellectual
+pursuit. At his first term examination in the University he was
+first in Classics and first in Mathematics, while he received the
+Chancellor's prize for a poem on the Ionian Islands, and another for
+his poem on Eustace de St. Pierre.</p>
+
+<p>There is abundant testimony that Hamilton had "a heart for friendship
+formed." Among the warmest of the friends whom he made in these
+early days was the gifted Maria Edgeworth, who writes to her sister
+about "young Mr. Hamilton, an admirable Crichton of eighteen, a real
+prodigy of talents, who Dr. Brinkley says may be a second Newton,
+quiet, gentle, and simple." His sister Eliza, to whom he was
+affectionately attached, writes to him in 1824:&mdash;</p>
+
+<p>"I had been drawing pictures of you in my mind in your study at
+Cumberland Street with 'Xenophon,' &amp;c., on the table, and you, with
+your most awfully sublime face of thought, now sitting down, and now
+walking about, at times rubbing your hands with an air of
+satisfaction, and at times bursting forth into some very heroical
+strain of poetry in an unknown language, and in your own internal
+solemn ventriloquist-like voice, when you address yourself to the
+silence and solitude of your own room, and indeed, at times, even
+when your mysterious poetical addresses are not quite unheard."</p>
+
+<p>This letter is quoted because it refers to a circumstance which all
+who ever met with Hamilton, even in his latest years, will remember.
+He was endowed with two distinct voices, one a high treble, the other
+a deep bass, and he alternately employed these voices not only in
+ordinary conversation, but when he was delivering an address on the
+profundities of Quaternions to the Royal Irish Academy, or on
+similar occasions. His friends had long grown so familiar with this
+peculiarity that they were sometimes rather surprised to find how
+ludicrous it appeared to strangers.</p>
+
+<p>Hamilton was fortunate in finding, while still at a very early age, a
+career open before him which was worthy of his talents. He had not
+ceased to be an undergraduate before he was called to fill an
+illustrious chair in his university. The circumstances are briefly
+as follows.</p>
+
+<p>We have already mentioned that, in 1826, Brinkley was appointed
+Bishop of Cloyne, and the professorship of astronomy thereupon became
+vacant. Such was Hamilton's conspicuous eminence that,
+notwithstanding he was still an undergraduate, and had only just
+completed his twenty-first year, he was immediately thought of as a
+suitable successor to the chair. Indeed, so remarkable were his
+talents in almost every direction that had the vacancy been in the
+professorship of classics or of mathematics, of English literature or
+of metaphysics, of modern or of Oriental languages, it seems
+difficult to suppose that he would not have occurred to every one as
+a possible successor. The chief ground, however, on which the
+friends of Hamilton urged his appointment was the earnest of original
+power which he had already shown in a research on the theory of
+Systems of Rays. This profound work created a new branch of optics,
+and led a few years later to a superb discovery, by which the fame of
+its author became world-wide.</p>
+
+<p>At first Hamilton thought it would be presumption for him to apply
+for so exalted a position; he accordingly retired to the country, and
+resumed his studies for his degree. Other eminent candidates came
+forward, among them some from Cambridge, and a few of the Fellows
+from Trinity College, Dublin, also sent in their claims. It was not
+until Hamilton received an urgent letter from his tutor Boyton, in
+which he was assured of the favourable disposition of the Board
+towards his candidature, that he consented to come forward, and on
+June 16th, 1827, he was unanimously chosen to succeed the Bishop of
+Cloyne as Professor of Astronomy in the University. The appointment
+met with almost universal approval. It should, however, be noted
+that Brinkley, whom Hamilton succeeded, did not concur in the general
+sentiment. No one could have formed a higher opinion than he had
+done of Hamilton's transcendent powers; indeed, it was on that very
+ground that he seemed to view the appointment with disapprobation.
+He considered that it would have been wiser for Hamilton to have
+obtained a Fellowship, in which capacity he would have been able to
+exercise a greater freedom in his choice of intellectual pursuits.
+The bishop seems to have thought, and not without reason, that
+Hamilton's genius would rather recoil from much of the routine work
+of an astronomical establishment. Now that Hamilton's whole life is
+before us, it is easy to see that the bishop was entirely wrong. It
+is quite true that Hamilton never became a skilled astronomical
+observer; but the seclusion of the observatory was eminently
+favourable to those gigantic labours to which his life was devoted,
+and which have shed so much lustre, not only on Hamilton himself, but
+also on his University and his country.</p>
+
+<p>In his early years at Dunsink, Hamilton did make some attempts at a
+practical use of the telescopes, but he possessed no natural aptitude
+for such work, while exposure which it involved seems to have acted
+injuriously on his health. He, therefore, gradually allowed his
+attention to be devoted to those mathematical researches in which he
+had already given such promise of distinction. Although it was in
+pure mathematics that he ultimately won his greatest fame, yet he
+always maintained and maintained with justice, that he had ample
+claims to the title of an astronomer. In his later years he set
+forth this position himself in a rather striking manner. De Morgan
+had written commending to Hamilton's notice Grant's "History of
+Physical Astronomy." After becoming acquainted with the book,
+Hamilton writes to his friend as follows:&mdash;</p>
+
+<p>"The book is very valuable, and very creditable to its composer. But
+your humble servant may be pardoned if he finds himself somewhat
+amused at the title, 'History of Physical Astronomy from the Earliest
+Ages to the Middle of the Nineteenth Century,' when he fails to
+observe any notice of the discoveries of Sir W. R. Hamilton in the
+theory of the 'Dynamics of the Heavens.'"</p>
+
+<p>The intimacy between the two correspondents will account for the tone
+of this letter; and, indeed, Hamilton supplies in the lines which
+follow ample grounds for his complaint. He tells how Jacobi spoke of
+him in Manchester in 1842 as "le Lagrange de votre pays," and how
+Donkin had said that, "The Analytical Theory of Dynamics as it exists
+at present is due mainly to the labours of La Grange Poisson,
+Sir W. R. Hamilton, and Jacobi, whose researches on this subject
+present a series of discoveries hardly paralleled for their elegance
+and importance in any other branch of mathematics." In the same
+letter Hamilton also alludes to the success which had attended the
+applications of his methods in other hands than his own to the
+elucidation of the difficult subject of Planetary Perturbations.
+Even had his contributions to science amounted to no more than these
+discoveries, his tenure of the chair would have been an illustrious
+one. It happens, however, that in the gigantic mass of his
+intellectual work these researches, though intrinsically of such
+importance, assume what might almost be described as a relative
+insignificance.</p>
+
+<p>The most famous achievement of Hamilton's earlier years at the
+observatory was the discovery of conical refraction. This was one of
+those rare events in the history of science, in which a sagacious
+calculation has predicted a result of an almost startling character,
+subsequently confirmed by observation. At once this conferred on the
+young professor a world-wide renown. Indeed, though he was still
+only twenty-seven, he had already lived through an amount of
+intellectual activity which would have been remarkable for a man of
+threescore and ten.</p>
+
+<p>Simultaneously with his growth in fame came the growth of his several
+friendships. There were, in the first place, his scientific
+friendships with Herschel, Robinson, and many others with whom he had
+copious correspondence. In the excellent biography to which I have
+referred, Hamilton's correspondence with Coleridge may be read, as
+can also the letters to his lady correspondents, among them being
+Maria Edgeworth, Lady Dunraven, and Lady Campbell. Many of these
+sheets relate to literary matters, but they are largely intermingled
+With genial pleasantry, and serve at all events to show the affection
+and esteem with which he was regarded by all who had the privilege of
+knowing him. There are also the letters to the sisters whom he
+adored, letters brimming over with such exalted sentiment, that most
+ordinary sisters would be tempted to receive them with a smile in the
+excessively improbable event of their still more ordinary brothers
+attempting to pen such effusions. There are also indications of
+letters to and from other young ladies who from time to time were the
+objects of Hamilton's tender admiration. We use the plural
+advisedly, for, as Mr. Graves has set forth, Hamilton's love affairs
+pursued a rather troubled course. The attention which he lavished on
+one or two fair ones was not reciprocated, and even the intense
+charms of mathematical discovery could not assuage the pangs which
+the disappointed lover experienced. At last he reached the haven of
+matrimony in 1833, when he was married to Miss Bayly. Of his married
+life Hamilton said, many years later to De Morgan, that it was as
+happy as he expected, and happier than he deserved. He had two sons,
+William and Archibald, and one daughter, Helen, who became the wife
+of Archdeacon O'Regan.</p>
+
+<p><a name="rowan_hamilton"  id="rowan_hamilton"></a></p>
+
+<div class="figcenter" style="width: 418px;">
+<a href="images/ill_rowan_hamilton.jpg">
+<img src="images/ill_rowan_hamilton_sml.jpg" width="418" height="479" alt="SIR W. ROWAN HAMILTON." title="" /></a>
+<span class="caption">SIR W. ROWAN HAMILTON.</span>
+</div>
+
+<p>The most remarkable of Hamilton's friendships in his early years was
+unquestionably that with Wordsworth. It commenced with Hamilton's
+visit to Keswick; and on the first evening, when the poet met the
+young mathematician, an incident occurred which showed the mutual
+interest that was aroused. Hamilton thus describes it in a letter to
+his sister Eliza:&mdash;</p>
+
+<p>"He (Wordsworth) walked back with our party as far as their lodge,
+and then, on our bidding Mrs. Harrison good-night, I offered to walk
+back with him while my party proceeded to the hotel. This offer he
+accepted, and our conversation had become so interesting that when we
+had arrived at his home, a distance of about a mile, he proposed to
+walk back with me on my way to Ambleside, a proposal which you may be
+sure I did not reject; so far from it that when he came to turn once
+more towards his home I also turned once more along with him. It was
+very late when I reached the hotel after all this walking."</p>
+
+<p>Hamilton also submitted to Wordsworth an original poem, entitled
+"It Haunts me Yet." The reply of Wordsworth is worth repeating:&mdash;</p>
+
+<p>"With a safe conscience I can assure you that, in my judgment, your
+verses are animated with the poetic spirit, as they are evidently the
+product of strong feeling. The sixth and seventh stanzas affected me
+much, even to the dimming of my eyes and faltering of my voice while
+I was reading them aloud. Having said this, I have said enough. Now
+for the per contra. You will not, I am sure, be hurt when I tell you
+that the workmanship (what else could be expected from so young a
+writer?) is not what it ought to be. . .</p>
+
+<p>"My household desire to be remembered to you in no formal way.
+Seldom have I parted&mdash;never, I was going to say&mdash;with one whom after
+so short an acquaintance I lost sight of with more regret. I trust
+we shall meet again."</p>
+
+<p>The further affectionate intercourse between Hamilton and Wordsworth
+is fully set forth, and to Hamilton's latest years a recollection of
+his "Rydal hours" was carefully treasured and frequently referred
+to. Wordsworth visited Hamilton at the observatory, where a
+beautiful shady path in the garden is to the present day spoken of as
+"Wordsworth's Walk."</p>
+
+<p>It was the practice of Hamilton to produce a sonnet on almost every
+occasion which admitted of poetical treatment, and it was his delight
+to communicate his verses to his friends all round. When Whewell was
+producing his "Bridgewater Treatises," he writes to Hamilton in
+1833:&mdash;</p>
+
+<p>"Your sonnet which you showed me expressed much better than I could
+express it the feeling with which I tried to write this book, and I
+once intended to ask your permission to prefix the sonnet to my book,
+but my friends persuaded me that I ought to tell my story in my own
+prose, however much better your verse might be."</p>
+
+<p>The first epoch-marking contribution to Theoretical Dynamics after
+the time of Newton was undoubtedly made by Lagrange, in his discovery
+of the general equations of Motion. The next great step in the same
+direction was that taken by Hamilton in his discovery of a still more
+comprehensive method. Of this contribution Hamilton writes to
+Whewell, March 31st, 1834:&mdash;</p>
+
+<p>"As to my late paper, a day or two ago sent off to London, it is
+merely mathematical and deductive. I ventured, indeed, to call it
+the 'Mecanique Analytique' of Lagrange, 'a scientific poem'; and
+spoke of Dynamics, or the Science of Force, as treating of 'Power
+acting by Law in Space and Time.' In other respects it is as
+unpoetical and unmetaphysical as my gravest friends could desire."</p>
+
+<p>It may well be doubted whether there is a more beautiful chapter in
+the whole of mathematical philosophy than that which contains
+Hamilton's dynamical theory. It is disfigured by no tedious
+complexity of symbols; it condescends not to any particular problems;
+it is an all embracing theory, which gives an intellectual grasp of
+the most appropriate method for discovering the result of the
+application of force to matter. It is the very generality of this
+doctrine which has somewhat impeded the applications of which it is
+susceptible. The exigencies of examinations are partly responsible
+for the fact that the method has not become more familiar to students
+of the higher mathematics. An eminent professor has complained that
+Hamilton's essay on dynamics was of such an extremely abstract
+character, that he found himself unable to extract from it problems
+suitable for his examination papers.</p>
+
+<p>The following extract is from a letter of Professor Sylvester to
+Hamilton, dated 20th of September, 1841. It will show how his works
+were appreciated by so consummate a mathematician as the writer:&mdash;</p>
+
+<p>"Believe me, sir, it is not the least of my regrets in quitting this
+empire to feel that I forego the casual occasion of meeting those
+masters of my art, yourself chief amongst the number, whose
+acquaintance, whose conversation, or even notice, have in themselves
+the power to inspire, and almost to impart fresh vigour to the
+understanding, and the courage and faith without which the efforts of
+invention are in vain. The golden moments I enjoyed under your
+hospitable roof at Dunsink, or moments such as they were, may
+probably never again fall to my lot.</p>
+
+<p>"At a vast distance, and in an humble eminence, I still promise myself
+the calm satisfaction of observing your blazing course in the
+elevated regions of discovery. Such national honour as you are able
+to confer on your country is, perhaps, the only species of that
+luxury for the rich (I mean what is termed one's glory) which is not
+bought at the expense of the comforts of the million."</p>
+
+<p>The study of metaphysics was always a favourite recreation when
+Hamilton sought for a change from the pursuit of mathematics. In the
+year 1834 we find him a diligent student of Kant; and, to show the
+views of the author of Quaternions and of Algebra as the Science of
+Pure Time on the "Critique of the Pure Reason," we quote the
+following letter, dated 18th of July, 1834, from Hamilton to Viscount
+Adare:&mdash;</p>
+
+<p>"I have read a large part of the 'Critique of the Pure Reason,' and
+find it wonderfully clear, and generally quite convincing.
+Notwithstanding some previous preparation from Berkeley, and from my
+own thoughts, I seem to have learned much from Kant's own statement
+of his views of 'Space and Time.' Yet, on the whole, a large part of
+my pleasure consists in recognising through Kant's works, opinions,
+or rather views, which have been long familiar to myself, although
+far more clearly and systematically expressed and combined by him.
+. . . Kant is, I think, much more indebted than he owns, or, perhaps
+knows, to Berkeley, whom he calls by a sneer, 'GUTEM Berkeley'. . .
+as it were, 'good soul, well meaning man,' who was able for all that
+to shake to its centre the world of human thought, and to effect a
+revolution among the early consequences of which was the growth of
+Kant himself."</p>
+
+<p>At several meetings of the British Association Hamilton was a very
+conspicuous figure. Especially was this the case in 1835, when the
+Association met in Dublin, and when Hamilton, though then but thirty
+years old, had attained such celebrity that even among a very
+brilliant gathering his name was perhaps the most renowned. A
+banquet was given at Trinity College in honour of the meeting. The
+distinguished visitors assembled in the Library of the University.
+The Earl of Mulgrave, then Lord Lieutenant of Ireland, made this the
+opportunity of conferring on Hamilton the honour of knighthood,
+gracefully adding, as he did so: "I but set the royal, and therefore
+the national mark, on a distinction already acquired by your genius
+and labours."</p>
+
+<p>The banquet followed, writes Mr. Graves. "It was no little addition
+to the honour Hamilton had already received that, when Professor
+Whewell returned thanks for the toast of the University of Cambridge,
+he thought it appropriate to add the words, 'There was one point
+which strongly pressed upon him at that moment: it was now one
+hundred and thirty years since a great man in another Trinity College
+knelt down before his sovereign, and rose up Sir Isaac Newton.' The
+compliment was welcomed by immense applause."</p>
+
+<p>A more substantial recognition of the labours of Hamilton took place
+subsequently. He thus describes it in a letter to Mr. Graves of 14th
+of November, 1843:&mdash;</p>
+
+<p>"The Queen has been pleased&mdash;and you will not doubt that it was
+entirely unsolicited, and even unexpected, on my part&mdash;'to express
+her entire approbation of the grant of a pension of two hundred
+pounds per annum from the Civil List' to me for scientific services.
+The letters from Sir Robert Peel and from the Lord Lieutenant of
+Ireland in which this grant has been communicated or referred to have
+been really more gratifying to my feelings than the addition to my
+income, however useful, and almost necessary, that may have been."</p>
+
+<p>The circumstances we have mentioned might lead to the supposition
+that Hamilton was then at the zenith of his fame but this was not
+so. It might more truly be said, that his achievements up to this
+point were rather the preliminary exercises which fitted him for the
+gigantic task of his life. The name of Hamilton is now chiefly
+associated with his memorable invention of the calculus of
+Quaternions. It was to the creation of this branch of mathematics
+that the maturer powers of his life were devoted; in fact he gives us
+himself an illustration of how completely habituated he became to the
+new modes of thought which Quaternions originated. In one of his
+later years he happened to take up a copy of his famous paper on
+Dynamics, a paper which at the time created such a sensation among
+mathematicians, and which is at this moment regarded as one of the
+classics of dynamical literature. He read, he tells us, his paper
+with considerable interest, and expressed his feelings of
+gratification that he found himself still able to follow its
+reasoning without undue effort. But it seemed to him all the time as
+a work belonging to an age of analysis now entirely superseded.</p>
+
+<p>In order to realise the magnitude of the revolution which Hamilton
+has wrought in the application of symbols to mathematical
+investigation, it is necessary to think of what Hamilton did beside
+the mighty advance made by Descartes. To describe the character of
+the quaternion calculus would be unsuited to the pages of this work,
+but we may quote an interesting letter, written by Hamilton from his
+death-bed, twenty-two years later, to his son Archibald, in which he
+has recorded the circumstances of the discovery:&mdash;</p>
+
+<p>"Indeed, I happen to be able to put the finger of memory upon the year
+and month&mdash;October, 1843&mdash;when having recently returned from visits
+to Cork and Parsonstown, connected with a meeting of the British
+Association, the desire to discover the laws of multiplication
+referred to, regained with me a certain strength and earnestness
+which had for years been dormant, but was then on the point of being
+gratified, and was occasionally talked of with you. Every morning in
+the early part of the above-cited month, on my coming down to
+breakfast, your (then) little brother William Edwin, and yourself,
+used to ask me, 'Well papa, can you multiply triplets?' Whereto I
+was always obliged to reply, with a sad shake of the head: 'No, I
+can only ADD and subtract them,'</p>
+
+<p>"But on the 16th day of the same month&mdash;which happened to be Monday,
+and a Council day of the Royal Irish Academy&mdash;I was walking in to
+attend and preside, and your mother was walking with me along the
+Royal Canal, to which she had perhaps driven; and although she talked
+with me now and then, yet an UNDERCURRENT of thought was going on in
+my mind which gave at last a RESULT, whereof it is not too much to
+say that I felt AT ONCE the importance. An ELECTRIC circuit seemed
+to CLOSE; and a spark flashed forth the herald (as I FORESAW
+IMMEDIATELY) of many long years to come of definitely directed
+thought and work by MYSELF, if spared, and, at all events, on the
+part of OTHERS if I should even be allowed to live long enough
+distinctly to communicate the discovery. Nor could I resist the
+impulse&mdash;unphilosophical as it may have been&mdash;to cut with a knife on
+a stone of Brougham Bridge as we passed it, the fundamental formula
+which contains the SOLUTION of the PROBLEM, but, of course, the
+inscription has long since mouldered away. A more durable notice
+remains, however, on the Council Books of the Academy for that day
+(October 16, 1843), which records the fact that I then asked for and
+obtained leave to read a Paper on 'Quaternions,' at the First General
+Meeting of the Session; which reading took place accordingly, on
+Monday, the 13th of November following."</p>
+
+<p>Writing to Professor Tait, Hamilton gives further particulars of the
+same event. And again in a letter to the Rev. J. W. Stubbs:&mdash;</p>
+
+<p>"To-morrow will be the fifteenth birthday of the Quaternions. They
+started into life full-grown on the 16th October, 1843, as I was
+walking with Lady Hamilton to Dublin, and came up to Brougham
+Bridge&mdash;which my boys have since called Quaternion Bridge. I pulled
+out a pocketbook which still exists, and made entry, on which at the
+very moment I felt that it might be worth my while to expend the
+labour of at least ten or fifteen years to come. But then it is fair
+to say that this was because I felt a problem to have been at that
+moment solved, an intellectual want relieved which had haunted me for
+at least fifteen years before.</p>
+
+<p>"But did the thought of establishing such a system, in which
+geometrically opposite facts&mdash;namely, two lines (or areas) which are
+opposite IN SPACE give ALWAYS a positive product&mdash;ever come into
+anybody's head till I was led to it in October, 1843, by trying to
+extend my old theory of algebraic couples, and of algebra as the
+science of pure time? As to my regarding geometrical addition of
+lines as equivalent to composition of motions (and as performed by
+the same rules), that is indeed essential in my theory but not
+peculiar to it; on the contrary, I am only one of many who have been
+led to this view of addition."</p>
+
+<p>Pilgrims in future ages will doubtless visit the spot commemorated by
+the invention of Quaternions. Perhaps as they look at that by no
+means graceful structure Quaternion Bridge, they will regret that the
+hand of some Old Mortality had not been occasionally employed in
+cutting the memorable inscription afresh. It is now irrecoverably
+lost.</p>
+
+<p>It was ten years after the discovery that the great volume appeared
+under the title of "Lectures on Quaternions," Dublin, 1853. The
+reception of this work by the scientific world was such as might have
+been expected from the extraordinary reputation of its author, and
+the novelty and importance of the new calculus. His valued friend,
+Sir John Herschel, writes to him in that style of which he was a
+master:&mdash;</p>
+
+<p>"Now, most heartily let me congratulate you on getting out your
+book&mdash;on having found utterance, ore rotundo, for all that labouring
+and seething mass of thought which has been from time to time sending
+out sparks, and gleams, and smokes, and shaking the soil about you;
+but now breaks into a good honest eruption, with a lava stream and a
+shower of fertilizing ashes.</p>
+
+<p>"Metaphor and simile apart, there is work for a twelve-month to any
+man to read such a book, and for half a lifetime to digest it, and I
+am glad to see it brought to a conclusion."</p>
+
+<p>We may also record Hamilton's own opinion expressed to Humphrey
+Lloyd:&mdash;</p>
+
+<p>"In general, although in one sense I hope that I am actually growing
+modest about the quaternions, from my seeing so many peeps and vistas
+into future expansions of their principles, I still must assert that
+this discovery appears to me to be as important for the middle of the
+nineteenth century as the discovery of fluxions was for the close of
+the seventeenth."</p>
+
+<p>Bartholomew Lloyd died in 1837. He had been the Provost of Trinity
+College, and the President of the Royal Irish Academy. Three
+candidates were put forward by their respective friends for the
+vacant Presidency. One was Humphrey Lloyd, the son of the late
+Provost, and the two others were Hamilton and Archbishop Whately.
+Lloyd from the first urged strongly the claims of Hamilton, and
+deprecated the putting forward of his own name. Hamilton in like
+manner desired to withdraw in favour of Lloyd. The wish was strongly
+felt by many of the Fellows of the College that Lloyd should be
+elected, in consequence of his having a more intimate association
+with collegiate life than Hamilton; while his scientific eminence was
+world-wide. The election ultimately gave Hamilton a considerable
+majority over Lloyd, behind whom the Archbishop followed at a
+considerable distance. All concluded happily, for both Lloyd and the
+Archbishop expressed, and no doubt felt, the pre-eminent claims of
+Hamilton, and both of them cordially accepted the office of a
+Vice-President, to which, according to the constitution of the
+Academy, it is the privilege of the incoming President to nominate.</p>
+
+<p>In another chapter I have mentioned as a memorable episode in
+astronomical history, that Sir J. Herschel went for a prolonged
+sojourn to the Cape of Good Hope, for the purpose of submitting the
+southern skies to the same scrutiny with the great telescope that his
+father had given to the northern skies. The occasion of Herschel's
+return after the brilliant success of his enterprise, was celebrated
+by a banquet. On June 15th, 1838, Hamilton was assigned the high
+honour of proposing the health of Herschel. This banquet is
+otherwise memorable in Hamilton's career as being one of the two
+occasions in which he was in the company of his intimate friend De
+Morgan.</p>
+
+<p>In the year 1838 a scheme was adopted by the Royal Irish Academy for
+the award of medals to the authors of papers which appeared to
+possess exceptionally high merit. At the institution of the medal
+two papers were named in competition for the prize. One was
+Hamilton's "Memoir on Algebra, as the Science of Pure Time." The
+other was Macullagh's paper on the "Laws of Crystalline Reflection
+and Refraction." Hamilton expresses his gratification that, mainly
+in consequence of his own exertions, he succeeded in having the medal
+awarded to Macullagh rather than to himself. Indeed, it would almost
+appear as if Hamilton had procured a letter from Sir J. Herschel,
+which indicated the importance of Macullagh's memoir in such a way as
+to decide the issue. It then became Hamilton's duty to award the
+medal from the chair, and to deliver an address in which he expressed
+his own sense of the excellence of Macullagh's scientific work. It
+is the more necessary to allude to these points, because in the whole
+of his scientific career it would seem that Macullagh was the only
+man with whom Hamilton had ever even an approach to a dispute about
+priority. The incident referred to took place in connection with the
+discovery of conical refraction, the fame of which Macullagh made a
+preposterous attempt to wrest from Hamilton. This is evidently
+alluded to in Hamilton's letter to the Marquis of Northampton, dated
+June 28th, 1838, in which we read:&mdash;</p>
+
+<p>"And though some former circumstances prevented me from applying to
+the person thus distinguished the sacred name of FRIEND, I had the
+pleasure of doing justice...to his high intellectual merits... I
+believe he was not only gratified but touched, and may, perhaps,
+regard me in future with feelings more like those which I long to
+entertain towards him."</p>
+
+<p>Hamilton was in the habit, from time to time, of commencing the
+keeping of a journal, but it does not appear to have been
+systematically conducted. Whatever difficulties the biographer may
+have experienced from its imperfections and irregularities, seem to
+be amply compensated for by the practice which Hamilton had of
+preserving copies of his letters, and even of comparatively
+insignificant memoranda. In fact, the minuteness with which
+apparently trivial matters were often noted down appears almost
+whimsical. He frequently made a memorandum of the name of the person
+who carried a letter to the post, and of the hour in which it was
+despatched. On the other hand, the letters which he received were
+also carefully preserved in a mighty mass of manuscripts, with which
+his study was encumbered, and with which many other parts of the
+house were not unfrequently invaded. If a letter was laid aside for
+a few hours, it would become lost to view amid the seething mass of
+papers, though occasionally, to use his own expression, it might be
+seen "eddying" to the surface in some later disturbance.</p>
+
+<p>The great volume of "Lectures on Quaternions" had been issued, and
+the author had received the honours which the completion of such a
+task would rightfully bring him. The publication of an immortal work
+does not, however, necessarily provide the means for paying the
+printer's bill. The printing of so robust a volume was necessarily
+costly; and even if all the copies could be sold, which at the time
+did not seem very likely, they would hardly have met the inevitable
+expenses. The provision of the necessary funds was, therefore, a
+matter for consideration. The Board of Trinity College had already
+contributed 200 pounds to the printing, but yet another hundred was
+required. Even the discoverer of Quaternions found this a source of
+much anxiety. However, the board, urged by the representation of
+Humphrey Lloyd, now one of its members, and, as we have already seen,
+one of Hamilton's staunchest friends, relieved him of all liability.
+We may here note that, notwithstanding the pension which Hamilton
+enjoyed in addition to the salary of his chair, he seems always to
+have been in some what straitened circumstances, or, to use his own
+words in one of his letters to De Morgan, "Though not an embarrassed
+man, I am anything rather than a rich one." It appears that,
+notwithstanding the world-wide fame of Hamilton's discoveries, the
+only profit in a pecuniary sense that he ever obtained from any of
+his works was by the sale of what he called his Icosian Game. Some
+enterprising publisher, on the urgent representations of one of
+Hamilton's friends in London, bought the copyright of the Icosian
+Game for 25 pounds. Even this little speculation proved unfortunate
+for the purchaser, as the public could not be induced to take the
+necessary interest in the matter.</p>
+
+<p>After the completion of his great book, Hamilton appeared for awhile
+to permit himself a greater indulgence than usual in literary
+relaxations. He had copious correspondence with his intimate friend,
+Aubrey de Vere, and there were multitudes of letters from those
+troops of friends whom it was Hamilton's privilege to possess. He
+had been greatly affected by the death of his beloved sister Eliza, a
+poetess of much taste and feeling. She left to him her many papers
+to preserve or to destroy, but he said it was only after the
+expiration of four years of mourning that he took courage to open her
+pet box of letters.</p>
+
+<p>The religious side of Hamilton's character is frequently illustrated
+in these letters; especially is this brought out in the
+correspondence with De Vere, who had seceded to the Church of Rome.
+Hamilton writes, August 4, 1855:&mdash;</p>
+
+<p>"If, then, it be painfully evident to both, that under such
+circumstances there CANNOT (whatever we may both DESIRE) be NOW in
+the nature of things, or of minds, the same degree of INTIMACY
+between us as of old; since we could no longer TALK with the same
+degree of unreserve on every subject which happened to present
+itself, but MUST, from the simplest instincts of courtesy, be each on
+his guard not to say what might be offensive, or, at least, painful
+to the other; yet WE were ONCE so intimate, and retain still, and, as
+I trust, shall always retain, so much of regard and esteem and
+appreciation for each other, made tender by so many associations of
+my early youth and your boyhood, which can never be forgotten by
+either of us, that (as times go) TWO OR THREE VERY RESPECTABLE
+FRIENDSHIPS might easily be carved out from the fragments of our
+former and ever-to-be-remembered INTIMACY. It would be no
+exaggeration to quote the words: 'Heu! quanto minus est cum reliquis
+versari, quam tui meminisse!'"</p>
+
+<p>In 1858 a correspondence on the subject of Quaternions commenced
+between Professor Tait and Sir William Hamilton. It was particularly
+gratifying to the discoverer that so competent a mathematician as
+Professor Tait should have made himself acquainted with the new
+calculus. It is, of course, well known that Professor Tait
+subsequently brought out a most valuable elementary treatise on
+Quaternions, to which those who are anxious to become acquainted with
+the subject will often turn in preference to the tremendous work of
+Hamilton.</p>
+
+<p>In the year 1861 gratifying information came to hand of the progress
+which the study of Quaternions was making abroad. Especially did the
+subject attract the attention of that accomplished mathematician,
+Moebius, who had already in his "Barycentrische Calculus" been led to
+conceptions which bore more affinity to Quaternions than could be
+found in the writings of any other mathematician. Such notices of
+his work were always pleasing to Hamilton, and they served, perhaps,
+as incentives to that still closer and more engrossing labour by
+which he became more and more absorbed. During the last few years of
+his life he was observed to be even more of a recluse than he had
+hitherto been. His powers of long and continuous study seemed to
+grow with advancing years, and his intervals of relaxation, such as
+they were, became more brief and more infrequent.</p>
+
+<p>It was not unusual for him to work for twelve hours at a stretch.
+The dawn would frequently surprise him as he looked up to snuff his
+candles after a night of fascinating labour at original research.
+Regularity in habits was impossible to a student who had prolonged
+fits of what he called his mathematical trances. Hours for rest and
+hours for meals could only be snatched in the occasional the lucid
+intervals between one attack of Quaternions and the next. When
+hungry, he would go to see whether anything could be found on the
+sideboard; when thirsty, he would visit the locker, and the one
+blemish in the man's personal character is that these latter visits
+were sometimes paid too often.</p>
+
+<p>As an example of one of Hamilton's rare diversions from the all-
+absorbing pursuit of Quaternions, we find that he was seized with
+curiosity to calculate back to the date of the Hegira, which he found
+on the 15th July, 622. He speaks of the satisfaction with which he
+ascertained subsequently that Herschel had assigned precisely the
+same date. Metaphysics remained also, as it had ever been, a
+favourite subject of Hamilton's readings and meditations and of
+correspondence with his friends. He wrote a very long letter to Dr.
+Ingleby on the subject of his "Introduction to Metaphysics." In it
+Hamilton alludes, as he has done also in other places, to a
+peculiarity of his own vision. It was habitual to him, by some
+defect in the correlation of his eyes, to see always a distinct image
+with each; in fact, he speaks of the remarkable effect which the use
+of a good stereoscope had on his sensations of vision. It was then,
+for the first time, that he realised how the two images which he had
+always seen hitherto would, under normal circumstances, be blended
+into one. He cites this fact as bearing on the phenomena of
+binocular vision, and he draws from it the inference that the
+necessity of binocular vision for the correct appreciation of
+distance is unfounded. "I am quite sure," he says, "that I SEE
+DISTANCE with EACH EYE SEPARATELY."</p>
+
+<p>The commencement of 1865, the last year of his life saw Hamilton as
+diligent as ever, and corresponding with Salmon and Cayley. On April
+26th he writes to a friend to say, that his health has not been good
+for years past, and that so much work has injured his constitution;
+and he adds, that it is not conducive to good spirits to find that he
+is accumulating another heavy bill with the printer for the
+publication of the "Elements." This was, indeed, up to the day of
+his death, a cause for serious anxiety. It may, however, be
+mentioned that the whole cost, which amounted to nearly 500 pounds,
+was, like that of the previous volume, ultimately borne by the
+College. Contrary to anticipation, the enterprise, even in a
+pecuniary sense, cannot have been a very unprofitable one. The whole
+edition has long been out of print, and as much as 5 pounds has since
+been paid for a single copy.</p>
+
+<p>It was on the 9th of May, 1865, that Hamilton was in Dublin for the
+last time. A few days later he had a violent attack of gout, and on
+the 4th of June he became alarmingly ill, and on the next day had an
+attack of epileptic convulsions. However, he slightly rallied, so
+that before the end of the month he was again at work at the
+"Elements." A gratifying incident brightened some of the last days
+of his life. The National Academy of Science in America had then
+been just formed. A list of foreign Associates had to be chosen from
+the whole world, and a discussion took place as to what name should
+be placed first on the list. Hamilton was informed by private
+communication that this great distinction was awarded to him by a
+majority of two-thirds.</p>
+
+<p>In August he was still at work on the table of contents of the
+"Elements," and one of his very latest efforts was his letter to Mr.
+Gould, in America, communicating his acknowledgements of the honour
+which had been just conferred upon him by the National Academy. On
+the 2nd of September Mr. Graves went to the observatory, in response
+to a summons, and the great mathematician at once admitted to his
+friend that he felt the end was approaching. He mentioned that he
+had found in the 145th Psalm a wonderfully suitable expression of his
+thoughts and feelings, and he wished to testify his faith and
+thankfulness as a Christian by partaking of the Lord's Supper. He
+died at half-past two on the afternoon of the 2nd of September, 1865,
+aged sixty years and one month. He was buried in Mount Jerome
+Cemetery on the 7th of September.</p>
+
+<p>Many were the letters and other more public manifestations of the
+feelings awakened by Hamilton's death. Sir John Herschel wrote to
+the widow:&mdash;</p>
+
+<p>"Permit me only to add that among the many scientific friends whom
+time has deprived me of, there has been none whom I more deeply
+lament, not only for his splendid talents, but for the excellence of
+his disposition and the perfect simplicity of his manners&mdash;so great,
+and yet devoid of pretensions."</p>
+
+<p>De Morgan, his old mathematical crony, as Hamilton affectionately
+styled him, also wrote to Lady Hamilton:&mdash;</p>
+
+<p>"I have called him one of my dearest friends, and most truly; for I
+know not how much longer than twenty-five years we have been in
+intimate correspondence, of most friendly agreement or disagreement,
+of most cordial interest in each other. And yet we did not know each
+other's faces. I met him about 1830 at Babbage's breakfast table,
+and there for the only time in our lives we conversed. I saw him, a
+long way off, at the dinner given to Herschel (about 1838) on his
+return from the Cape and there we were not near enough, nor on that
+crowded day could we get near enough, to exchange a word. And this
+is all I ever saw, and, so it has pleased God, all I shall see in
+this world of a man whose friendly communications were among my
+greatest social enjoyments, and greatest intellectual treats."</p>
+
+<p>There is a very interesting memoir of Hamilton written by De Morgan,
+in the "Gentleman's Magazine" for 1866, in which he produces an
+excellent sketch of his friend, illustrated by personal reminiscences
+and anecdotes. He alludes, among other things, to the picturesque
+confusion of the papers in his study. There was some sort of order
+in the mass, discernible however, by Hamilton alone, and any invasion
+of the domestics, with a view to tidying up, would throw the
+mathematician as we are informed, into "a good honest thundering
+passion."</p>
+
+<p>Hardly any two men, who were both powerful mathematicians, could have
+been more dissimilar in every other respect than were Hamilton and De
+Morgan. The highly poetical temperament of Hamilton was remarkably
+contrasted with the practical realism of De Morgan. Hamilton sends
+sonnets to his friend, who replies by giving the poet advice about
+making his will. The metaphysical subtleties, with which Hamilton
+often filled his sheets, did not seem to have the same attraction for
+De Morgan that he found in battles about the quantification of the
+Predicate. De Morgan was exquisitely witty, and though his jokes
+were always appreciated by his correspondent, yet Hamilton seldom
+ventured on anything of the same kind in reply; indeed his rare
+attempts at humour only produced results of the most ponderous
+description. But never were two scientific correspondents more
+perfectly in sympathy with each other. Hamilton's work on
+Quaternions, his labours in Dynamics, his literary tastes, his
+metaphysics, and his poetry, were all heartily welcomed by his
+friend, whose letters in reply invariably evince the kindliest
+interest in all Hamilton's concerns. In a similar way De Morgan's
+letters to Hamilton always met with a heartfelt response.</p>
+
+<p>Alike for the memory of Hamilton, for the credit of his University,
+and for the benefit of science, let us hope that a collected edition
+of his works will ere long appear&mdash;a collection which shall show
+those early achievements in splendid optical theory, those
+achievements of his more mature powers which made him the Lagrange of
+his country, and finally those creations of the Quaternion Calculus
+by which new capabilities have been bestowed on the human intellect.</p>
+
+<h3><a name="LE_VERRIER" id="LE_VERRIER"></a>LE VERRIER.</h3>
+<p>The name of Le Verrier is one that goes down to fame on account of
+very different discoveries from those which have given renown to
+several of the other astronomers whom we have mentioned. We are
+sometimes apt to identify the idea of an astronomer with that of a
+man who looks through a telescope at the stars; but the word
+astronomer has really much wider significance. No man who ever lived
+has been more entitled to be designated an astronomer than Le
+Verrier, and yet it is certain that he never made a telescopic
+discovery of any kind. Indeed, so far as his scientific achievements
+have been concerned, he might never have looked through a telescope
+at all.</p>
+
+<p>For the full interpretation of the movements of the heavenly bodies,
+mathematical knowledge of the most advanced character is demanded.
+The mathematician at the outset calls upon the astronomer who uses
+the instruments in the observatory, to ascertain for him at various
+times the exact positions occupied by the sun, the moon, and the
+planets. These observations, obtained with the greatest care, and
+purified as far as possible from the errors by which they may be
+affected form, as it were, the raw material on which the
+mathematician exercises his skill. It is for him to elicit from the
+observed places the true laws which govern the movements of the
+heavenly bodies. Here is indeed a task in which the highest powers
+of the human intellect may be worthily employed.</p>
+
+<p>Among those who have laboured with the greatest success in the
+interpretation of the observations made with instruments of
+precision, Le Verrier holds a highly honoured place. To him it has
+been given to provide a superb illustration of the success with which
+the mind of man can penetrate the deep things of Nature.</p>
+
+<p>The illustrious Frenchman, Urban Jean Joseph Le Verrier, was born on
+the 11th March, 1811, at St. Lo, in the department of Manche. He
+received his education in that famous school for education in the
+higher branches of science, the Ecole Polytechnique, and acquired
+there considerable fame as a mathematician. On leaving the school Le
+Verrier at first purposed to devote himself to the public service, in
+the department of civil engineering; and it is worthy of note that
+his earliest scientific work was not in those mathematical researches
+in which he was ultimately to become so famous. His duties in the
+engineering department involved practical chemical research in the
+laboratory. In this he seems to have become very expert, and
+probably fame as a chemist would have been thus attained, had not
+destiny led him into another direction. As it was, he did engage in
+some original chemical research. His first contributions to science
+were the fruits of his laboratory work; one of his papers was on the
+combination of phosphorus and hydrogen, and another on the
+combination of phosphorus and oxygen.</p>
+
+<p>His mathematical labours at the Ecole Polytechnique had, however,
+revealed to Le Verrier that he was endowed with the powers requisite
+for dealing with the subtlest instruments of mathematical analysis.
+When he was twenty-eight years old, his first great astronomical
+investigation was brought forth. It will be necessary to enter into
+some explanation as to the nature of this, inasmuch as it was the
+commencement of the life-work which he was to pursue.</p>
+
+<p>If but a single planet revolved around the sun, then the orbit of
+that planet would be an ellipse, and the shape and size, as well as
+the position of the ellipse, would never alter. One revolution after
+another would be traced out, exactly in the same manner, in
+compliance with the force continuously exerted by the sun. Suppose,
+however, that a second planet be introduced into the system. The sun
+will exert its attraction on this second planet also, and it will
+likewise describe an orbit round the central globe. We can, however,
+no longer assert that the orbit in which either of the planets moves
+remains exactly an ellipse. We may, indeed, assume that the mass of
+the sun is enormously greater than that of either of the planets. In
+this case the attraction of the sun is a force of such preponderating
+magnitude, that the actual path of each planet remains nearly the
+same as if the other planet were absent. But it is impossible for
+the orbit of each planet not to be affected in some degree by the
+attraction of the other planet. The general law of nature asserts
+that every body in space attracts every other body. So long as there
+is only a single planet, it is the single attraction between the sun
+and that planet which is the sole controlling principle of the
+movement, and in consequence of it the ellipse is described. But
+when a second planet is introduced, each of the two bodies is not
+only subject to the attraction of the sun, but each one of the
+planets attracts the other. It is true that this mutual attraction
+is but small, but, nevertheless, it produces some effect. It
+"disturbs," as the astronomer says, the elliptic orbit which would
+otherwise have been pursued. Hence it follows that in the actual
+planetary system where there are several planets disturbing each
+other, it is not true to say that the orbits are absolutely elliptic.</p>
+
+<p>At the same time in any single revolution a planet may for most
+practical purposes be said to be actually moving in an ellipse. As,
+however, time goes on, the ellipse gradually varies. It alters its
+shape, it alters its plane, and it alters its position in that
+plane. If, therefore, we want to study the movements of the planets,
+when great intervals of time are concerned, it is necessary to have
+the means of learning the nature of the movement of the orbit in
+consequence of the disturbances it has experienced.</p>
+
+<p>We may illustrate the matter by supposing the planet to be running
+like a railway engine on a track which has been laid in a long
+elliptic path. We may suppose that while the planet is coursing
+along, the shape of the track is gradually altering. But this
+alteration may be so slow, that it does not appreciably affect the
+movement of the engine in a single revolution. We can also suppose
+that the plane in which the rails have been laid has a slow
+oscillation in level, and that the whole orbit is with more or less
+uniformity moved slowly about in the plane.</p>
+
+<p>In short periods of time the changes in the shapes and positions of
+the planetary orbits, in consequence of their mutual attractions, are
+of no great consequence. When, however, we bring thousands of years
+into consideration, then the displacements of the planetary orbits
+attain considerable dimensions, and have, in fact, produced a
+profound effect on the system.</p>
+
+<p>It is of the utmost interest to investigate the extent to which one
+planet can affect another in virtue of their mutual attractions. Such
+investigations demand the exercise of the highest mathematical
+gifts. But not alone is intellectual ability necessary for success
+in such inquiries. It must be united with a patient capacity for
+calculations of an arduous type, protracted, as they frequently have
+to be, through many years of labour. Le Verrier soon found in these
+profound inquiries adequate scope for the exercise of his peculiar
+gifts. His first important astronomical publication contained an
+investigation of the changes which the orbits of several of the
+planets, including the earth, have undergone in times past, and which
+they will undergo in times to come.</p>
+
+<p>As an illustration of these researches, we may take the case of the
+planet in which we are, of course, especially interested, namely, the
+earth, and we can investigate the changes which, in the lapse of
+time, the earth's orbit has undergone, in consequence of the
+disturbance to which it has been subjected by the other planets. In
+a century, or even in a thousand years, there is but little
+recognisable difference in the shape of the track pursued by the
+earth. Vast periods of time are required for the development of the
+large consequences of planetary perturbation. Le Verrier has,
+however, given us the particulars of what the earth's journey through
+space has been at intervals of 20,000 years back from the present
+date. His furthest calculation throws our glance back to the state
+of the earth's track 100,000 years ago, while, with a bound forward,
+he shows us what the earth's orbit is to be in the future, at
+successive intervals of 20,000 years, till a date is reached which is
+100,000 years in advance of A.D. 1800.</p>
+
+<p>The talent which these researches displayed brought Le Verrier into
+notice. At that time the Paris Observatory was presided over by
+Arago, a SAVANT who occupies a distinguished position in French
+scientific annals. Arago at once perceived that Le Verrier was just
+the man who possessed the qualifications suitable for undertaking a
+problem of great importance and difficulty that had begun to force
+itself on the attention of astronomers. What this great problem was,
+and how astonishing was the solution it received, must now be
+considered.</p>
+
+<p>Ever since Herschel brought himself into fame by his superb discovery
+of the great planet Uranus, the movements of this new addition to the
+solar system were scrutinized with care and attention. The position
+of Uranus was thus accurately determined from time to time. At
+length, when sufficient observations of this remote planet had been
+brought together, the route which the newly-discovered body pursued
+through the heavens was ascertained by those calculations with which
+astronomers are familiar. It happens, however, that Uranus possesses
+a superficial resemblance to a star. Indeed the resemblance is so
+often deceptive that long ere its detection as a planet by Herschel,
+it had been observed time after time by skilful astronomers, who
+little thought that the star-like point at which they looked was
+anything but a star. From these early observations it was possible
+to determine the track of Uranus, and it was found that the great
+planet takes a period of no less than eighty-four years to accomplish
+a circuit. Calculations were made of the shape of the orbit in which
+it revolved before its discovery by Herschel, and these were compared
+with the orbit which observations showed the same body to pursue in
+those later years when its planetary character was known. It could
+not, of course, be expected that the orbit should remain unaltered;
+the fact that the great planets Jupiter and Saturn revolve in the
+vicinity of Uranus must necessarily imply that the orbit of the
+latter undergoes considerable changes. When, however, due allowance
+has been made for whatever influence the attraction of Jupiter and
+Saturn, and we may add of the earth and all the other Planets, could
+possibly produce, the movements of Uranus were still inexplicable. It
+was perfectly obvious that there must be some other influence at work
+besides that which could be attributed to the planets already known.</p>
+
+<p>Astronomers could only recognise one solution of such a difficulty.
+It was impossible to doubt that there must be some other planet in
+addition to the bodies at that time known, and that the perturbations
+of Uranus hitherto unaccounted for, were due to the disturbances
+caused by the action of this unknown planet. Arago urged Le Verrier
+to undertake the great problem of searching for this body, whose
+theoretical existence seemed demonstrated. But the conditions of the
+search were such that it must needs be conducted on principles wholly
+different from any search which had ever before been undertaken for a
+celestial object. For this was not a case in which mere survey with
+a telescope might be expected to lead to the discovery.</p>
+
+<p>Certain facts might be immediately presumed with reference to the
+unknown object. There could be no doubt that the unknown disturber
+of Uranus must be a large body with a mass far exceeding that of the
+earth. It was certain, however, that it must be so distant that it
+could only appear from our point of view as a very small object.
+Uranus itself lay beyond the range, or almost beyond the range, of
+unassisted vision. It could be shown that the planet by which the
+disturbance was produced revolved in an orbit which must lie outside
+that of Uranus. It seemed thus certain that the planet could not be
+a body visible to the unaided eye. Indeed, had it been at all
+conspicuous its planetary character would doubtless have been
+detected ages ago. The unknown body must therefore be a planet which
+would have to be sought for by telescopic aid.</p>
+
+<p>There is, of course, a profound physical difference between a planet
+and a star, for the star is a luminous sun, and the planet is merely
+a dark body, rendered visible by the sunlight which falls upon it.
+Notwithstanding that a star is a sun thousands of times larger than
+the planet and millions of times more remote, yet it is a singular
+fact that telescopic planets possess an illusory resemblance to the
+stars among which their course happens to lie. So far as actual
+appearance goes, there is indeed only one criterion by which a planet
+of this kind can be discriminated from a star. If the planet be
+large enough the telescope will show that it possesses a disc, and
+has a visible and measurable circular outline. This feature a star
+does not exhibit. The stars are indeed so remote that no matter how
+large they may be intrinsically, they only exhibit radiant points of
+light, which the utmost powers of the telescope fail to magnify into
+objects with an appreciable diameter. The older and well-known
+planets, such as Jupiter and Mars, possess discs, which, though not
+visible to the unaided eye, were clearly enough discernible with the
+slightest telescopic power. But a very remote planet like Uranus,
+though it possessed a disc large enough to be quickly appreciated by
+the consummate observing skill of Herschel, was nevertheless so
+stellar in its appearance, that it had been observed no fewer than
+seventeen times by experienced astronomers prior to Herschel. In
+each case the planetary nature of the object had been overlooked, and
+it had been taken for granted that it was a star. It presented no
+difference which was sufficient to arrest attention.</p>
+
+<p>As the unknown body by which Uranus was disturbed was certainly much
+more remote than Uranus, it seemed to be certain that though it might
+show a disc perceptible to very close inspection, yet that the disc
+must be so minute as not to be detected except with extreme care. In
+other words, it seemed probable that the body which was to be sought
+for could not readily be discriminated from a small star, to which
+class of object it bore a superficial resemblance, though, as a
+matter of fact, there was the profoundest difference between the two
+bodies.</p>
+
+<p>There are on the heavens many hundreds of thousands of stars, and the
+problem of identifying the planet, if indeed it should lie among
+these stars, seemed a very complex matter. Of course it is the
+abundant presence of the stars which causes the difficulty. If the
+stars could have been got rid of, a sweep over the heavens would at
+once disclose all the planets which are bright enough to be visible
+with the telescopic power employed. It is the fortuitous resemblance
+of the planet to the stars which enables it to escape detection. To
+discriminate the planet among stars everywhere in the sky would be
+almost impossible. If, however, some method could be devised for
+localizing that precise region in which the planet's existence might
+be presumed, then the search could be undertaken with some prospect
+of success.</p>
+
+<p>To a certain extent the problem of localizing the region on the sky
+in which the planet might be expected admitted of an immediate
+limitation. It is known that all the planets, or perhaps I ought
+rather to say, all the great planets, confine their movements to a
+certain zone around the heavens. This zone extends some way on
+either side of that line called the ecliptic in which the earth
+pursues its journey around the sun. It was therefore to be inferred
+that the new planet need not be sought for outside this zone. It is
+obvious that this consideration at once reduces the area to be
+scrutinized to a small fraction of the entire heavens. But even
+within the zone thus defined there are many thousands of stars. It
+would seem a hopeless task to detect the new planet unless some
+further limitation to its position could be assigned.</p>
+
+<p>It was accordingly suggested to Le Verrier that he should endeavour
+to discover in what particular part of the strip of the celestial
+sphere which we have indicated the search for the unknown planet
+should be instituted. The materials available to the mathematician
+for the solution of this problem were to be derived solely from the
+discrepancies between the calculated places in which Uranus should be
+found, taking into account the known causes of disturbance, and the
+actual places in which observation had shown the planet to exist.
+Here was indeed an unprecedented problem, and one of extraordinary
+difficulty. Le Verrier, however, faced it, and, to the astonishment
+of the world, succeeded in carrying it through to a brilliant
+solution. We cannot here attempt to enter into any account of the
+mathematical investigations that were necessary. All that we can do
+is to give a general indication of the method which had to be
+adopted.</p>
+
+<p>Let us suppose that a planet is revolving outside Uranus, at a
+distance which is suggested by the several distances at which the
+other planets are dispersed around the sun. Let us assume that this
+outer planet has started on its course, in a prescribed path, and
+that it has a certain mass. It will, of course, disturb the motion
+of Uranus, and in consequence of that disturbance Uranus will follow
+a path the nature of which can be determined by calculation. It
+will, however, generally be found that the path so ascertained does
+not tally with the actual path which observations have indicated for
+Uranus. This demonstrates that the assumed circumstances of the
+unknown planet must be in some respects erroneous, and the astronomer
+commences afresh with an amended orbit. At last after many trials,
+Le Verrier ascertained that, by assuming a certain size, shape, and
+position for the unknown Planet's orbit, and a certain value for the
+mass of the hypothetical body, it would be possible to account for
+the observed disturbances of Uranus. Gradually it became clear to
+the perception of this consummate mathematician, not only that the
+difficulties in the movements of Uranus could be thus explained, but
+that no other explanation need be sought for. It accordingly
+appeared that a planet possessing the mass which he had assigned, and
+moving in the orbit which his calculations had indicated, must indeed
+exist, though no eye had ever beheld any such body. Here was,
+indeed, an astonishing result. The mathematician sitting at his
+desk, by studying the observations which had been supplied to him of
+one planet, is able to discover the existence of another planet, and
+even to assign the very position which it must occupy, ere ever the
+telescope is invoked for its discovery.</p>
+
+<p>Thus it was that the calculations of Le Verrier narrowed greatly the
+area to be scrutinised in the telescopic search which was presently
+to be instituted. It was already known, as we have just pointed out,
+that the planet must lie somewhere on the ecliptic. The French
+mathematician had now further indicated the spot on the ecliptic at
+which, according to his calculations, the planet must actually be
+found. And now for an episode in this history which will be
+celebrated so long as science shall endure. It is nothing less than
+the telescopic confirmation of the existence of this new planet,
+which had previously been indicated only by mathematical
+calculation. Le Verrier had not himself the instruments necessary
+for studying the heavens, nor did he possess the skill of the
+practical astronomer. He, therefore, wrote to Dr. Galle, of the
+Observatory at Berlin, requesting him to undertake a telescopic
+search for the new planet in the vicinity which the mathematical
+calculation had indicated for the whereabouts of the planet at that
+particular time. Le Verrier added that he thought the planet ought
+to admit of being recognised by the possession of a disc sufficiently
+definite to mark the distinction between it and the surrounding
+stars.</p>
+
+<p>It was the 23rd September, 1846, when the request from Le Verrier
+reached the Berlin Observatory, and the night was clear, so that the
+memorable search was made on the same evening. The investigation was
+facilitated by the circumstance that a diligent observer had recently
+compiled elaborate star maps for certain tracts of the heavens lying
+in a sufficiently wide zone on both sides of the equator. These maps
+were as yet only partially complete, but it happened that Hora. XXI.,
+which included the very spot which Le Verrier's results referred to,
+had been just issued. Dr. Galle had thus before his, eyes a chart of
+all the stars which were visible in that part of the heavens at the
+time when the map was made. The advantage of such an assistance to
+the search could hardly be over-estimated. It at once gave the
+astronomer another method of recognising the planet besides that
+afforded by its possible possession of a disc. For as the planet was
+a moving body, it would not have been in the same place relatively to
+the stars at the time when the map was constructed, as it occupied
+some years later when the search was being made. If the body should
+be situated in the spot which Le Verrier's calculations indicated in
+the autumn of 1846, then it might be regarded as certain that it
+would not be found in that same place on a map drawn some years
+previously.</p>
+
+<p>The search to be undertaken consisted in a comparison made point by
+point between the bodies shown on the map, and those stars in the sky
+which Dr. Galle's telescope revealed. In the course of this
+comparison it presently appeared that a star-like object of the
+eighth magnitude, which was quite a conspicuous body in the
+telescope, was not represented in the map. This at once attracted
+the earnest attention of the astronomer, and raised his hopes that
+here was indeed the planet. Nor were these hopes destined to be
+disappointed. It could not be supposed that a star of the eighth
+magnitude would have been overlooked in the preparation of a chart
+whereon stars of many lower degrees of brightness were set down. One
+other supposition was of course conceivable. It might have been that
+this suspicious object belonged to the class of variables, for there
+are many such stars whose brightness fluctuates, and if it had
+happened that the map was constructed at a time when the star in
+question had but feeble brilliance, it might have escaped notice. It
+is also well known that sometimes new stars suddenly develop, so that
+the possibility that what Dr. Galle saw should have been a variable
+star or should have been a totally new star had to be provided
+against.</p>
+
+<p>Fortunately a test was immediately available to decide whether the
+new object was indeed the long sought for planet, or whether it was a
+star of one of the two classes to which I have just referred. A star
+remains fixed, but a planet is in motion. No doubt when a planet
+lies at the distance at which this new planet was believed to be
+situated, its apparent motion would be so slow that it would not be
+easy to detect any change in the course of a single night's
+observation. Dr. Galle, however, addressed himself with much skill
+to the examination of the place of the new body. Even in the course
+of the night he thought he detected slight movements, and he awaited
+with much anxiety the renewal of his observations on the subsequent
+evenings. His suspicions as to the movement of the body were then
+amply confirmed, and the planetary nature of the new object was thus
+unmistakably detected.</p>
+
+<p>Great indeed was the admiration of the scientific world at this
+superb triumph. Here was a mighty planet whose very existence was
+revealed by the indications afforded by refined mathematical
+calculation. At once the name of Le Verrier, already known to those
+conversant with the more profound branches of astronomy, became
+everywhere celebrated. It soon, however, appeared, that the fame
+belonging to this great achievement had to be shared between Le
+Verrier and another astronomer, J. C. Adams, of Cambridge. In our
+chapter on this great English mathematician we shall describe the
+manner in which he was independently led to the same discovery.</p>
+
+<p>Directly the planetary nature of the newly-discovered body had been
+established, the great observatories naturally included this
+additional member of the solar system in their working lists, so that
+day after day its place was carefully determined. When sufficient
+time had elapsed the shape and position of the orbit of the body
+became known. Of course, it need hardly be said that observations
+applied to the planet itself must necessarily provide a far more
+accurate method of determining the path which it follows, than would
+be possible to Le Verrier, when all he had to base his calculations
+upon was the influence of the planet reflected, so to speak, from
+Uranus. It may be noted that the true elements of the planet, when
+revealed by direct observation, showed that there was a considerable
+discrepancy between the track of the planet which Le Verrier had
+announced, and that which the planet was actually found to pursue.</p>
+
+<p>The name of the newly-discovered body had next to be considered. As
+the older members of the system were already known by the same names
+as great heathen divinities, it was obvious that some similar source
+should be invoked for a suggestion as to a name for the most recent
+planet. The fact that this body was so remote in the depths of
+space, not unnaturally suggested the name "Neptune." Such is
+accordingly the accepted designation of that mighty globe which
+revolves in the track that at present seems to trace out the
+frontiers of our system.</p>
+
+<p>Le Verrier attained so much fame by this discovery, that when, in
+1854, Arago's place had to be filled at the head of the great Paris
+Observatory, it was universally felt that the discoverer of Neptune
+was the suitable man to assume the office which corresponds in France
+to that of the Astronomer Royal in England. It was true that the
+work of the astronomical mathematician had hitherto been of an
+abstract character. His discoveries had been made at his desk and
+not in the observatory, and he had no practical acquaintance with the
+use of astronomical instruments. However, he threw himself into the
+technical duties of the observatory with vigour and determination. He
+endeavoured to inspire the officers of the establishment with
+enthusiasm for that systematic work which is so necessary for the
+accomplishment of useful astronomical research. It must, however, be
+admitted that Le Verrier was not gifted with those natural qualities
+which would make him adapted for the successful administration of
+such an establishment. Unfortunately disputes arose between the
+Director and his staff. At last the difficulties of the situation
+became so great that the only possible solution was to supersede Le
+Verrier, and he was accordingly obliged to retire. He was succeeded
+in his high office by another eminent mathematician, M. Delaunay,
+only less distinguished than Le Verrier himself.</p>
+
+<p>Relieved of his official duties, Le Verrier returned to the
+mathematics he loved. In his non-official capacity he continued to
+work with the greatest ardour at his researches on the movements of
+the planets. After the death of M. Delaunay, who was accidentally
+drowned in 1873, Le Verrier was restored to the directorship of the
+observatory, and he continued to hold the office until his death.</p>
+
+<p>The nature of the researches to which the life of Le Verrier was
+subsequently devoted are not such as admit of description in a
+general sketch like this, where the language, and still less the
+symbols, of mathematics could not be suitably introduced. It may,
+however, be said in general that he was particularly engaged with the
+study of the effects produced on the movements of the planets by
+their mutual attractions. The importance of this work to astronomy
+consists, to a considerable extent, in the fact that by such
+calculations we are enabled to prepare tables by which the places of
+the different heavenly bodies can be predicted for our almanacs. To
+this task Le Verrier devoted himself, and the amount of work he has
+accomplished would perhaps have been deemed impossible had it not
+been actually done.</p>
+
+<p>The superb success which had attended Le Verrier's efforts to explain
+the cause of the perturbations of Uranus, naturally led this
+wonderful computer to look for a similar explanation of certain other
+irregularities in planetary movements. To a large extent he
+succeeded in showing how the movements of each of the great planets
+could be satisfactorily accounted for by the influence of the
+attractions of the other bodies of the same class. One circumstance
+in connection with these investigations is sufficiently noteworthy to
+require a few words here. Just as at the opening of his career, Le
+Verrier had discovered that Uranus, the outermost planet of the then
+known system, exhibited the influence of an unknown external body, so
+now it appeared to him that Mercury, the innermost body of our
+system, was also subjected to some disturbances, which could not be
+satisfactorily accounted for as consequences of any known agents of
+attraction. The ellipse in which Mercury revolved was animated by a
+slow movement, which caused it to revolve in its plane. It appeared
+to Le Verrier that this displacement was incapable of explanation by
+the action of any of the known bodies of our system. He was,
+therefore, induced to try whether he could not determine from the
+disturbances of Mercury the existence of some other planet, at
+present unknown, which revolved inside the orbit of the known
+planet. Theory seemed to indicate that the observed alteration in
+the track of the planet could be thus accounted for. He naturally
+desired to obtain telescopic confirmation which might verify the
+existence of such a body in the same way as Dr. Galle verified the
+existence of Neptune. If there were, indeed, an intramercurial
+planet, then it must occasionally cross between the earth and the
+sun, and might now and then be expected to be witnessed in the actual
+act of transit. So confident did Le Verrier feel in the existence of
+such a body that an observation of a dark object in transit, by
+Lescarbault on 26th March, 1859, was believed by the mathematician to
+be the object which his theory indicated. Le Verrier also thought it
+likely that another transit of the same object would be seen in
+March, 1877. Nothing of the kind was, however, witnessed,
+notwithstanding that an assiduous watch was kept, and the explanation
+of the change in Mercury's orbit must, therefore, be regarded as
+still to be sought for.</p>
+
+<p>Le Verrier naturally received every honour that could be bestowed
+upon a man of science. The latter part of his life was passed during
+the most troubled period of modern French history. He was a
+supporter of the Imperial Dynasty, and during the Commune he
+experienced much anxiety; indeed, at one time grave fears were
+entertained for his personal safety.</p>
+
+<p>Early in 1877 his health, which had been gradually failing for some
+years, began to give way. He appeared to rally somewhat in the
+summer, but in September he sank rapidly, and died on Sunday, the
+23rd of that month.</p>
+
+<p>His remains were borne to the cemetery on Mont Parnasse in a public
+funeral. Among his pallbearers were leading men of science, from
+other countries as well as France, and the memorial discourses
+pronounced at the grave expressed their admiration of his talents and
+of the greatness of the services he had rendered to science.</p>
+
+<h3><a name="ADAMS" id="ADAMS"></a>ADAMS.</h3>
+<p>The illustrious mathematician who, among Englishmen, at all events,
+was second only to Newton by his discoveries in theoretical
+astronomy, was born on June the 5th, 1819, at the farmhouse of
+Lidcot, seven miles from Launceston, in Cornwall. His early
+education was imparted under the guidance of the Rev. John Couch
+Grylls, a first cousin of his mother. He appears to have received an
+education of the ordinary school type in classics and mathematics,
+but his leisure hours were largely devoted to studying what
+astronomical books he could find in the library of the Mechanics'
+Institute at Devonport. He was twenty years old when he entered St.
+John's College, Cambridge. His career in the University was one of
+almost unparalleled distinction, and it is recorded that his
+answering at the Wranglership examination, where he came out at the
+head of the list in 1843, was so high that he received more than
+double the marks awarded to the Second Wrangler.</p>
+
+<p>Among the papers found after his death was the following memorandum,
+dated July the 3rd, 1841: "Formed a design at the beginning of this
+week of investigating, as soon as possible after taking my degree,
+the irregularities in the motion of Uranus, which are as yet
+unaccounted for, in order to find whether they may be attributed to
+the action of an undiscovered planet beyond it; and, if possible,
+thence to determine the elements of its orbit approximately, which
+would lead probably to its discovery."</p>
+
+<p>After he had taken his degree, and had thus obtained a little
+relaxation from the lines within which his studies had previously
+been necessarily confined, Adams devoted himself to the study of the
+perturbations of Uranus, in accordance with the resolve which we have
+just seen that he formed while he was still an undergraduate. As a
+first attempt he made the supposition that there might be a planet
+exterior to Uranus, at a distance which was double that of Uranus
+from the sun. Having completed his calculation as to the effect
+which such a hypothetical planet might exercise upon the movement of
+Uranus, he came to the conclusion that it would be quite possible to
+account completely for the unexplained difficulties by the action of
+an exterior planet, if only that planet were of adequate size and had
+its orbit properly placed. It was necessary, however, to follow up
+the problem more precisely, and accordingly an application was made
+through Professor Challis, the Director of the Cambridge Observatory,
+to the Astronomer Royal, with the object of obtaining from the
+observations made at Greenwich Observatory more accurate values for
+the disturbances suffered by Uranus. Basing his work on the more
+precise materials thus available, Adams undertook his calculations
+anew, and at last, with his completed results, he called at Greenwich
+Observatory on October the 21st, 1845. He there left for the
+Astronomer Royal a paper which contained the results at which he had
+arrived for the mass and the mean distance of the hypothetical planet
+as well as the other elements necessary for calculating its exact
+position.</p>
+
+<p><a name="john"  id="john"></a></p>
+
+<div class="figcenter" style="width: 433px;">
+<a href="images/ill_john_adams.jpg">
+<img src="images/ill_john_adams_sml.jpg" width="433" height="496" alt="JOHN COUCH ADAMS." title="" /></a>
+<span class="caption">JOHN COUCH ADAMS.</span>
+</div>
+
+<p>As we have seen in the preceding chapter, Le Verrier had been also
+investigating the same problem. The place which Le Verrier assigned
+to the hypothetical disturbing planet for the beginning of the year
+1847, was within a degree of that to which Adams's computations
+pointed, and which he had communicated to the Astronomer Royal seven
+months before Le Verrier's work appeared. On July the 29th, 1846,
+Professor Challis commenced to search for the unknown object with the
+Northumberland telescope belonging to the Cambridge Observatory. He
+confined his attention to a limited region in the heavens, extending
+around that point to which Mr. Adams' calculations pointed. The
+relative places of all the stars, or rather star-like objects within
+this area, were to be carefully measured. When the same observations
+were repeated a week or two later, then the distances of the several
+pairs of stars from each other would be found unaltered, but any
+planet which happened to lie among the objects measured would
+disclose its existence by the alterations in distance due to its
+motion in the interval. This method of search, though no doubt it
+must ultimately have proved successful, was necessarily a very
+tedious one, but to Professor Challis, unfortunately, no other method
+was available. Thus it happened that, though Challis commenced his
+search at Cambridge two months earlier than Galle at Berlin, yet, as
+we have already explained, the possession of accurate star-maps by
+Dr. Galle enabled him to discover the planet on the very first night
+that he looked for it.</p>
+
+<p>The rival claims of Adams and Le Verrier to the discovery of Neptune,
+or rather, we should say, the claims put forward by their respective
+champions, for neither of the illustrious investigators themselves
+condescended to enter into the personal aspect of the question, need
+not be further discussed here. The main points of the controversy
+have been long since settled, and we cannot do better than quote the
+words of Sir John Herschel when he addressed the Royal Astronomical
+Society in 1848:&mdash;</p>
+
+<p>"As genius and destiny have joined the names of Le Verrier and Adams,
+I shall by no means put them asunder; nor will they ever be
+pronounced apart so long as language shall celebrate the triumphs of
+science in her sublimest walks. On the great discovery of Neptune,
+which may be said to have surpassed, by intelligible and legitimate
+means, the wildest pretensions of clairvoyance, it Would now be quite
+superfluous for me to dilate. That glorious event and the steps
+which led to it, and the various lights in which it has been placed,
+are already familiar to every one having the least tincture of
+science. I will only add that as there is not, nor henceforth ever
+can be, the slightest rivalry on the subject between these two
+illustrious men&mdash;as they have met as brothers, and as such will, I
+trust, ever regard each other&mdash;we have made, we could make, no
+distinction between then, on this occasion. May they both long adorn
+and augment our science, and add to their own fame already so high
+and pure, by fresh achievements."</p>
+
+<p>Adams was elected a Fellow of St. John's College, Cambridge, in 1843;
+but as he did not take holy orders, his Fellowship, in accordance
+with the rules then existing came to an end in 1852. In the
+following year he was, however, elected to a Fellowship at Pembroke
+College, which he retained until the end of his life. In 1858 he was
+appointed Professor of Mathematics in the University of St. Andrews,
+but his residence in the north was only a brief one, for in the same
+year he was recalled to Cambridge as Lowndean Professor of Astronomy
+and Geometry, in succession to Peacock. In 1861 Challis retired from
+the Directorship of the Cambridge Observatory, and Adams was
+appointed to succeed him.</p>
+
+<p>The discovery of Neptune was a brilliant inauguration of the
+astronomical career of Adams. He worked at, and wrote upon, the
+theory of the motions of Biela's comet; he made important corrections
+to the theory of Saturn; he investigated the mass of Uranus, a
+subject in which he was naturally interested from its importance in
+the theory of Neptune; he also improved the methods of computing the
+orbits of double stars. But all these must be regarded as his minor
+labours, for next to the discovery of Neptune the fame of Adams
+mainly rests on his researches upon certain movements of the moon,
+and upon the November meteors.</p>
+
+<p>The periodic time of the moon is the interval required for one
+circuit of its orbit. This interval is known with accuracy at the
+present day, and by means of the ancient eclipses the period of the
+moon's revolution two thousand years ago can be also ascertained. It
+had been discovered by Halley that the period which the moon requires
+to accomplish each of its revolutions around the earth has been
+steadily, though no doubt slowly, diminishing. The change thus
+produced is not appreciable when only small intervals of time are
+considered, but it becomes appreciable when we have to deal with
+intervals of thousands of years. The actual effect which is produced
+by the lunar acceleration, for so this phenomenon is called, may be
+thus estimated. If we suppose that the moon had, throughout the
+ages, revolved around the earth in precisely the same periodic time
+which it has at present, and if from this assumption we calculate
+back to find where the moon must have been about two thousand years
+ago, we obtain a position which the ancient eclipses show to be
+different from that in which the moon was actually situated. The
+interval between the position in which the moon would have been found
+two thousand years ago if there had been no acceleration, and the
+position in which the moon was actually placed, amounts to about a
+degree, that is to say, to an arc on the heavens which is twice the
+moon's apparent diameter.</p>
+
+<p>If no other bodies save the earth and the moon were present in the
+universe, it seems certain that the motion of the moon would never
+have exhibited this acceleration. In such a simple case as that
+which I have supposed the orbit of the moon would have remained for
+ever absolutely unchanged. It is, however, well known that the
+presence of the sun exerts a disturbing influence upon the movements
+of the moon. In each revolution our satellite is continually drawn
+aside by the action of the sun from the place which it would
+otherwise have occupied. These irregularities are known as the
+perturbations of the lunar orbit, they have long been studied, and
+the majority of them have been satisfactorily accounted for. It
+seems, however, to those who first investigated the question that the
+phenomenon of the lunar acceleration could not be explained as a
+consequence of solar perturbation, and, as no other agent competent
+to produce such effects was recognised by astronomers, the lunar
+acceleration presented an unsolved enigma.</p>
+
+<p>At the end of the last century the illustrious French mathematician
+Laplace undertook a new investigation of the famous problem, and was
+rewarded with a success which for a long time appeared to be quite
+complete. Let us suppose that the moon lies directly between the
+earth and the sun, then both earth and moon are pulled towards the
+sun by the solar attraction; as, however, the moon is the nearer of
+the two bodies to the attracting centre it is pulled the more
+energetically, and consequently there is an increase in the distance
+between the earth and the moon. Similarly when the moon happens to
+lie on the other side of the earth, so that the earth is interposed
+directly between the moon and the sun, the solar attraction exerted
+upon the earth is more powerful than the same influence upon the
+moon. Consequently in this case, also, the distance of the moon from
+the earth is increased by the solar disturbance. These instances
+will illustrate the general truth, that, as one of the consequences
+of the disturbing influence exerted by the sun upon the earth-moon
+system, there is an increase in the dimensions of the average orbit
+which the moon describes around the earth. As the time required by
+the moon to accomplish a journey round the earth depends upon its
+distance from the earth, it follows that among the influences of the
+sun upon the moon there must be an enlargement of the periodic time,
+from what it would have been had there been no solar disturbing
+action.</p>
+
+<p>This was known long before the time of Laplace, but it did not
+directly convey any explanation of the lunar acceleration. It no
+doubt amounted to the assertion that the moon's periodic time was
+slightly augmented by the disturbance, but it did not give any
+grounds for suspecting that there was a continuous change in
+progress. It was, however, apparent that the periodic time was
+connected with the solar disturbance, so that, if there were any
+alteration in the amount of the sun's disturbing effect, there must
+be a corresponding alteration in the moon's periodic time. Laplace,
+therefore, perceived that, if he could discover any continuous change
+in the ability of the sun for disturbing the moon, he would then have
+accounted for a continuous change in the moon's periodic time, and
+that thus an explanation of the long-vexed question of the lunar
+acceleration might be forthcoming.</p>
+
+<p>The capability of the sun for disturbing the earth-moon system is
+obviously connected with the distance of the earth from the sun. If
+the earth moved in an orbit which underwent no change whatever, then
+the efficiency of the sun as a disturbing agent would not undergo any
+change of the kind which was sought for. But if there were any
+alteration in the shape or size of the earth's orbit, then that might
+involve such changes in the distance between the earth and the sun as
+would possibly afford the desired agent for producing the observed
+lunar effect. It is known that the earth revolves in an orbit which,
+though nearly circular, is strictly an ellipse. If the earth were
+the only planet revolving around the sun then that ellipse would
+remain unaltered from age to age. The earth is, however, only one of
+a large number of planets which circulate around the great luminary,
+and are guided and controlled by his supreme attracting power. These
+planets mutually attract each other, and in consequence of their
+mutual attractions the orbits of the planets are disturbed from the
+simple elliptic form which they would otherwise possess. The
+movement of the earth, for instance, is not, strictly speaking,
+performed in an elliptical orbit. We may, however, regard it as
+revolving in an ellipse provided we admit that the ellipse is itself
+in slow motion.</p>
+
+<p>It is a remarkable characteristic of the disturbing effects of the
+planets that the ellipse in which the earth is at any moment moving
+always retains the same length; that is to say, its longest diameter
+is invariable. In all other respects the ellipse is continually
+changing. It alters its position, it changes its plane, and, most
+important of all, it changes its eccentricity. Thus, from age to age
+the shape of the track which the earth describes may at one time be
+growing more nearly a circle, or at another time may be departing
+more widely from a circle. These alterations are very small in
+amount, and they take place with extreme slowness, but they are in
+incessant progress, and their amount admits of being accurately
+calculated. At the present time, and for thousands of years past, as
+well as for thousands of years to come, the eccentricity of the
+earth's orbit is diminishing, and consequently the orbit described by
+the earth each year is becoming more nearly circular. We must,
+however, remember that under all circumstances the length of the
+longest axis of the ellipse is unaltered, and consequently the size
+of the track which the earth describes around the sun is gradually
+increasing. In other words, it may be said that during the present
+ages the average distance between the earth and the sun is waxing
+greater in consequence of the perturbations which the earth
+experiences from the attraction of the other planets. We have,
+however, already seen that the efficiency of the solar attraction for
+disturbing the moon's movement depends on the distance between the
+earth and the sun. As therefore the average distance between the
+earth and the sun is increasing, at all events during the thousands
+of years over which our observations extend, it follows that the
+ability of the sun for disturbing the moon must be gradually
+diminishing.</p>
+
+<p><a name="cambridge"  id="cambridge"></a></p>
+
+<div class="figcenter" style="width: 720px;">
+<a href="images/ill_cambridge_observatory.jpg">
+<img src="images/ill_cambridge_observatory_sml.jpg" width="720" height="425" alt="CAMBRIDGE OBSERVATORY." title="" /></a>
+<span class="caption">CAMBRIDGE OBSERVATORY.</span>
+</div>
+
+<p>It has been pointed out that, in consequence of the solar
+disturbance, the orbit of the moon must be some what enlarged. As it
+now appears that the solar disturbance is on the whole declining, it
+follows that the orbit of the moon, which has to be adjusted
+relatively to the average value of the solar disturbance, must also
+be gradually declining. In other words, the moon must be approaching
+nearer to the earth in consequence of the alterations in the
+eccentricity of the earth's orbit produced by the attraction of the
+other planets. It is true that the change in the moon's position
+thus arising is an extremely small one, and the consequent effect in
+accelerating the moon's motion is but very slight. It is in fact
+almost imperceptible, except when great periods of time are
+involved. Laplace undertook a calculation on this subject. He knew
+what the efficiency of the planets in altering the dimensions of the
+earth's orbit amounted to; from this he was able to determine the
+changes that would be propagated into the motion of the moon. Thus
+he ascertained, or at all events thought he had ascertained, that the
+acceleration of the moon's motion, as it had been inferred from the
+observations of the ancient eclipses which have been handed down to
+us, could be completely accounted for as a consequence of planetary
+perturbation. This was regarded as a great scientific triumph. Our
+belief in the universality of the law of gravitation would, in fact,
+have been seriously challenged unless some explanation of the lunar
+acceleration had been forthcoming. For about fifty years no one
+questioned the truth of Laplace's investigation. When a
+mathematician of his eminence had rendered an explanation of the
+remarkable facts of observation which seemed so complete, it is not
+surprising that there should have been but little temptation to doubt
+it. On undertaking a new calculation of the same question, Professor
+Adams found that Laplace had not pursued this approximation
+sufficiently far, and that consequently there was a considerable
+error in the result of his analysis. Adams, it must be observed, did
+not impugn the value of the lunar acceleration which Halley had
+deduced from the observations, but what he did show was, that the
+calculation by which Laplace thought he had provided an explanation
+of this acceleration was erroneous. Adams, in fact, proved that the
+planetary influence which Laplace had detected only possessed about
+half the efficiency which the great French mathematician had
+attributed to it. There were not wanting illustrious mathematicians
+who came forward to defend the calculations of Laplace. They
+computed the question anew and arrived at results practically
+coincident with those he had given. On the other hand certain
+distinguished mathematicians at home and abroad verified the results
+of Adams. The issue was merely a mathematical one. It had only one
+correct solution. Gradually it appeared that those who opposed Adams
+presented a number of different solutions, all of them discordant
+with his, and, usually, discordant with each other. Adams showed
+distinctly where each of these investigators had fallen into error,
+and at last it became universally admitted that the Cambridge
+Professor had corrected Laplace in a very fundamental point of
+astronomical theory.</p>
+
+<p>Though it was desirable to have learned the truth, yet the breach
+between observation and calculation which Laplace was believed to
+have closed thus became reopened. Laplace's investigation, had it
+been correct, would have exactly explained the observed facts. It
+was, however, now shown that his solution was not correct, and that
+the lunar acceleration, when strictly calculated as a consequence of
+solar perturbations, only produced about half the effect which was
+wanted to explain the ancient eclipses completely. It now seems
+certain that there is no means of accounting for the lunar
+acceleration as a direct consequence of the laws of gravitation, if
+we suppose, as we have been in the habit of supposing, that the
+members of the solar system concerned may be regarded as rigid
+particles. It has, however, been suggested that another explanation
+of a very interesting kind may be forthcoming, and this we must
+endeavour to set forth.</p>
+
+<p>It will be remembered that we have to explain why the period of
+revolution of the moon is now shorter than it used to be. If we
+imagine the length of the period to be expressed in terms of days and
+fractions of a day, that is to say, in terms of the rotations of the
+earth around its axis, then the difficulty encountered is, that the
+moon now requires for each of its revolutions around the earth rather
+a smaller number of rotations of the earth around its axis than used
+formerly to be the case. Of course this may be explained by the fact
+that the moon is now moving more swiftly than of yore, but it is
+obvious that an explanation of quite a different kind might be
+conceivable. The moon may be moving just at the same pace as ever,
+but the length of the day may be increasing. If the length of the
+day is increasing, then, of course, a smaller number of days will be
+required for the moon to perform each revolution even though the
+moon's period was itself really unchanged. It would, therefore, seem
+as if the phenomenon known as the lunar acceleration is the result of
+the two causes. The first of these is that discovered by Laplace,
+though its value was over-estimated by him, in which the perturbations
+of the earth by the planets indirectly affect the motion of the
+moon. The remaining part of the acceleration of our satellite is
+apparent rather than real, it is not that the moon is moving more
+quickly, but that our time-piece, the earth, is revolving more
+slowly, and is thus actually losing time. It is interesting to note
+that we can detect a physical explanation for the apparent checking
+of the earth's motion which is thus manifested. The tides which ebb
+and flow on the earth exert a brake-like action on the revolving
+globe, and there can be no doubt that they are gradually reducing its
+speed, and thus lengthening the day. It has accordingly been
+suggested that it is this action of the tides which produces the
+supplementary effect necessary to complete the physical explanation
+of the lunar acceleration, though it would perhaps be a little
+premature to assert that this has been fully demonstrated.</p>
+
+<p>The third of Professor Adams' most notable achievements was connected
+with the great shower of November meteors which astonished the world
+in 1866. This splendid display concentrated the attention of
+astronomers on the theory of the movements of the little objects by
+which the display was produced. For the definite discovery of the
+track in which these bodies revolve, we are indebted to the labours
+of Professor Adams, who, by a brilliant piece of mathematical work,
+completed the edifice whose foundations had been laid by Professor
+Newton, of Yale, and other astronomers.</p>
+
+<p>Meteors revolve around the sun in a vast swarm, every individual
+member of which pursues an orbit in accordance with the well-known
+laws of Kepler. In order to understand the movements of these
+objects, to account satisfactorily for their periodic recurrence, and
+to predict the times of their appearance, it became necessary to
+learn the size and the shape of the track which the swarm followed,
+as well as the position which it occupied. Certain features of the
+track could no doubt be readily assigned. The fact that the shower
+recurs on one particular day of the year, viz., November 13th,
+defines one point through which the orbit must pass. The position on
+the heavens of the radiant point from which the meteors appear to
+diverge, gives another element in the track. The sun must of course
+be situated at the focus, so that only one further piece of
+information, namely, the periodic time, will be necessary to complete
+our knowledge of the movements of the system. Professor H. Newton,
+of Yale, had shown that the choice of possible orbits for the
+meteoric swarm is limited to five. There is, first, the great
+ellipse in which we now know the meteors revolve once every thirty
+three and one quarter years. There is next an orbit of a nearly
+circular kind in which the periodic time would be a little more than
+a year. There is a similar track in which the periodic time would be
+a few days short of a year, while two other smaller orbits would also
+be conceivable. Professor Newton had pointed out a test by which it
+would be possible to select the true orbit, which we know must be one
+or other of these five. The mathematical difficulties which attended
+the application of this test were no doubt great, but they did not
+baffle Professor Adams.</p>
+
+<p>There is a continuous advance in the date of this meteoric shower.
+The meteors now cross our track at the point occupied by the earth on
+November 13th, but this point is gradually altering. The only
+influence known to us which could account for the continuous change
+in the plane of the meteor's orbit arises from the attraction of the
+various planets. The problem to be solved may therefore be attacked
+in this manner. A specified amount of change in the plane of the
+orbit of the meteors is known to arise, and the changes which ought
+to result from the attraction of the planets can be computed for each
+of the five possible orbits, in one of which it is certain that the
+meteors must revolve. Professor Adams undertook the work. Its
+difficulty principally arises from the high eccentricity of the
+largest of the orbits, which renders the more ordinary methods of
+calculation inapplicable. After some months of arduous labour the
+work was completed, and in April, 1867, Adams announced his solution
+of the problem. He showed that if the meteors revolved in the
+largest of the five orbits, with the periodic time of thirty three
+and one quarter years, the perturbations of Jupiter would account for
+a change to the extent of twenty minutes of arc in the point in which
+the orbit crosses the earth's track. The attraction of Saturn would
+augment this by seven minutes, and Uranus would add one minute more,
+while the influence of the Earth and of the other planets would be
+inappreciable. The accumulated effect is thus twenty-eight minutes,
+which is practically coincident with the observed value as determined
+by Professor Newton from an examination of all the showers of which
+there is any historical record. Having thus showed that the great
+orbit was a possible path for the meteors, Adams next proved that no
+one of the other four orbits would be disturbed in the same manner.
+Indeed, it appeared that not half the observed amount of change could
+arise in any orbit except in that one with the long period. Thus was
+brought to completion the interesting research which demonstrated the
+true relation of the meteor swarm to the solar system.</p>
+
+<p>Besides those memorable scientific labours with which his attention
+was so largely engaged, Professor Adams found time for much other
+study. He occasionally allowed himself to undertake as a relaxation
+some pieces of numerical calculation, so tremendously long that we
+can only look on them with astonishment. He has calculated certain
+important mathematical constants accurately to more than two hundred
+places of decimals. He was a diligent reader of works on history,
+geology, and botany, and his arduous labours were often beguiled by
+novels, of which, like many other great men, he was very fond. He
+had also the taste of a collector, and he brought together about
+eight hundred volumes of early printed works, many of considerable
+rarity and value. As to his personal character, I may quote the
+words of Dr. Glaisher when he says, "Strangers who first met him were
+invariably struck by his simple and unaffected manner. He was a
+delightful companion, always cheerful and genial, showing in society
+but few traces of his really shy and retiring disposition. His
+nature was sympathetic and generous, and in few men have the moral
+and intellectual qualities been more perfectly balanced."</p>
+
+<p>In 1863 he married the daughter of Haliday Bruce, Esq., of Dublin and
+up to the close of his life he lived at the Cambridge Observatory,
+pursuing his mathematical work and enjoying the society of his
+friends.</p>
+
+<p>He died, after a long illness, on 21st January, 1892, and was
+interred in St. Giles's Cemetery, on the Huntingdon Road, Cambridge.</p>
+
+
+
+
+
+
+
+<pre>
+
+
+
+
+
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+The Project Gutenberg EBook of Great Astronomers, by R. S. Ball
+
+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: Great Astronomers
+
+Author: R. S. Ball
+
+Posting Date: October 24, 2010 [EBook #2298]
+Release Date: August 2000 [EBook #2298]
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK GREAT ASTRONOMERS ***
+
+
+
+
+Produced by Chris Brennen cbrennen@freenet.co.uk
+Jill R. Diffendal, Barb Grow pebareka@iexpress.net.au
+Christine L. Hall Goleta, CA. USA
+Pamela L. Hall pamhall@www.edu
+
+
+
+
+
+
+
+
+GREAT ASTRONOMERS
+
+by
+
+SIR ROBERT S. BALL D.Sc. LL.D. F.R.S.
+
+Lowndean Professor of Astronomy and Geometry in the
+University of Cambridge
+
+Author of "In Starry Realms" "In the High Heavens" etc.
+
+WITH NUMEROUS ILLUSTRATIONS
+
+
+[PLATE: GREENWICH OBSERVATORY.]
+
+
+
+
+PREFACE.
+
+
+It has been my object in these pages to present the life of each
+astronomer in such detail as to enable the reader to realise in
+some degree the man's character and surroundings; and I have
+endeavoured to indicate as clearly as circumstances would permit
+the main features of the discoveries by which he has become known.
+
+There are many types of astronomers--from the stargazer who merely
+watches the heavens, to the abstract mathematician who merely
+works at his desk; it has, consequently, been necessary in the
+case of some lives to adopt a very different treatment from that
+which seemed suitable for others.
+
+While the work was in progress, some of the sketches appeared in
+"Good Words." The chapter on Brinkley has been chiefly derived from
+an article on the "History of Dunsink Observatory," which was
+published on the occasion of the tercentenary celebration of the
+University of Dublin in 1892, and the life of Sir William Rowan
+Hamilton is taken, with a few alterations and omissions, from an
+article contributed to the "Quarterly Review" on Graves' life of
+the great mathematician. The remaining chapters now appear for
+the first time. For many of the facts contained in the sketch of
+the late Professor Adams, I am indebted to the obituary notice
+written by my friend Dr. J. W. L. Glaisher, for the Royal Astronomical
+Society; while with regard to the late Sir George Airy, I have a
+similar acknowledgment to make to Professor H. H. Turner. To my
+friend Dr. Arthur A. Rambaut I owe my hearty thanks for his
+kindness in aiding me in the revision of the work.
+
+R.S.B.
+The Observatory, Cambridge.
+October, 1895
+
+
+
+
+CONTENTS.
+
+
+INTRODUCTION.
+
+PTOLEMY.
+
+COPERNICUS.
+
+TYCHO BRAHE.
+
+GALILEO.
+
+KEPLER.
+
+ISAAC NEWTON.
+
+FLAMSTEED.
+
+HALLEY.
+
+BRADLEY.
+
+WILLIAM HERSCHEL.
+
+LAPLACE.
+
+BRINKLEY.
+
+JOHN HERSCHEL.
+
+THE EARL OF ROSSE.
+
+AIRY.
+
+HAMILTON.
+
+LE VERRIER.
+
+ADAMS.
+
+
+
+
+LIST OF ILLUSTRATIONS.
+
+THE OBSERVATORY, GREENWICH.
+
+PTOLEMY.
+
+PTOLEMY'S PLANETARY SCHEME.
+
+PTOLEMY'S THEORY OF THE MOVEMENT OF MARS.
+
+THORN, FROM AN OLD PRINT.
+
+COPERNICUS.
+
+FRAUENBURG, FROM AN OLD PRINT.
+
+EXPLANATION OF PLANETARY MOVEMENTS.
+
+TYCHO BRAHE.
+
+TYCHO'S CROSS STAFF.
+
+TYCHO'S "NEW STAR" SEXTANT OF 1572.
+
+TYCHO'S TRIGONIC SEXTANT.
+
+TYCHO'S ASTRONOMIC SEXTANT.
+
+TYCHO'S EQUATORIAL ARMILLARY.
+
+THE GREAT AUGSBURG QUADRANT.
+
+TYCHO'S "NEW SCHEME OF THE TERRESTRIAL SYSTEM," 1577.
+
+URANIBORG AND ITS GROUNDS.
+
+GROUND-PLAN OF THE OBSERVATORY.
+
+THE OBSERVATORY OF URANIBORG, ISLAND OF HVEN.
+
+EFFIGY ON TYCHO'S TOMB AT PRAGUE.
+  By Permission of Messrs. A. & C. Black.
+
+TYCHO'S MURAL QUADRANT, URANIBORG.
+
+GALILEO'S PENDULUM.
+
+GALILEO.
+
+THE VILLA ARCETRI.
+
+FACSIMILE SKETCH OF LUNAR SURFACE BY GALILEO.
+
+CREST OF GALILEO'S FAMILY.
+
+KEPLER'S SYSTEM OF REGULAR SOLIDS.
+
+KEPLER.
+
+SYMBOLICAL REPRESENTATION OF THE PLANETARY SYSTEM.
+
+THE COMMEMORATION OF THE RUDOLPHINE TABLES.
+
+WOOLSTHORPE MANOR.
+
+TRINITY COLLEGE, CAMBRIDGE.
+
+DIAGRAM OF A SUNBEAM.
+
+ISAAC NEWTON.
+
+SIR ISAAC NEWTON'S LITTLE REFLECTOR.
+
+SIR ISAAC NEWTON'S SUN-DIAL.
+
+SIR ISAAC NEWTON'S TELESCOPE.
+
+SIR ISAAC NEWTON'S ASTROLABE.
+
+SIR ISAAC NEWTON'S SUN-DIAL IN THE ROYAL SOCIETY.
+
+FLAMSTEED'S HOUSE.
+
+FLAMSTEED.
+
+HALLEY.
+
+GREENWICH OBSERVATORY IN HALLEY'S TIME.
+
+7, NEW KING STREET, BATH.
+   From a Photograph by John Poole, Bath.
+
+WILLIAM HERSCHEL.
+
+CAROLINE HERSCHEL.
+
+STREET VIEW, HERSCHEL HOUSE, SLOUGH.
+   From a Photograph by Hill & Saunders, Eton.
+
+GARDEN VIEW, HERSCHEL HOUSE, SLOUGH.
+   From a Photograph by Hill & Saunders, Eton.
+
+OBSERVATORY, HERSCHEL HOUSE, SLOUGH.
+   From a Photograph by Hill & Saunders, Eton.
+
+THE 40-FOOT TELESCOPE, HERSCHEL HOUSE, SLOUGH.
+   From a Photograph by Hill & Saunders, Eton.
+
+LAPLACE.
+
+THE OBSERVATORY, DUNSINK.
+   From a Photograph by W. Lawrence, Dublin.
+
+ASTRONOMETER MADE BY SIR JOHN HERSCHEL.
+
+SIR JOHN HERSCHEL.
+
+NEBULA IN SOUTHERN HEMISPHERE.
+
+THE CLUSTER IN THE CENTAUR.
+
+OBSERVATORY AT FELDHAUSEN.
+
+GRANITE COLUMN AT FELDHAUSEN.
+
+THE EARL OF ROSSE.
+
+BIRR CASTLE.
+   From a Photograph by W. Lawrence, Dublin.
+
+THE MALL, PARSONSTOWN.
+   From a Photograph by W. Lawrence, Dublin.
+
+LORD ROSSE'S TELESCOPE.
+   From a Photograph by W. Lawrence, Dublin.
+
+ROMAN CATHOLIC CHURCH, PARSONSTOWN.
+   From a Photograph by W. Lawrence, Dublin.
+
+AIRY.
+   From a Photograph by E.P. Adams, Greenwich.
+
+HAMILTON.
+
+ADAMS.
+
+THE OBSERVATORY, CAMBRIDGE.
+
+
+
+
+INTRODUCTION.
+
+
+Of all the natural sciences there is not one which offers such
+sublime objects to the attention of the inquirer as does the science
+of astronomy. From the earliest ages the study of the stars has
+exercised the same fascination as it possesses at the present day.
+Among the most primitive peoples, the movements of the sun, the moon,
+and the stars commanded attention from their supposed influence on
+human affairs.
+
+The practical utilities of astronomy were also obvious in primeval
+times. Maxims of extreme antiquity show how the avocations of the
+husbandman are to be guided by the movements of the heavenly bodies.
+The positions of the stars indicated the time to plough, and the time
+to sow. To the mariner who was seeking a way across the trackless
+ocean, the heavenly bodies offered the only reliable marks by which
+his path could be guided. There was, accordingly, a stimulus both
+from intellectual curiosity and from practical necessity to follow
+the movements of the stars. Thus began a search for the causes of
+the ever-varying phenomena which the heavens display.
+
+Many of the earliest discoveries are indeed prehistoric. The great
+diurnal movement of the heavens, and the annual revolution of the
+sun, seem to have been known in times far more ancient than those to
+which any human monuments can be referred. The acuteness of the
+early observers enabled them to single out the more important of the
+wanderers which we now call planets. They saw that the star-like
+objects, Jupiter, Saturn, and Mars, with the more conspicuous Venus,
+constituted a class of bodies wholly distinct from the fixed stars
+among which their movements lay, and to which they bear such a
+superficial resemblance. But the penetration of the early
+astronomers went even further, for they recognized that Mercury also
+belongs to the same group, though this particular object is seen so
+rarely. It would seem that eclipses and other phenomena were
+observed at Babylon from a very remote period, while the most ancient
+records of celestial observations that we possess are to be found in
+the Chinese annals.
+
+The study of astronomy, in the sense in which we understand the word,
+may be said to have commenced under the reign of the Ptolemies at
+Alexandria. The most famous name in the science of this period is
+that of Hipparchus who lived and worked at Rhodes about the year
+160BC. It was his splendid investigations that first wrought the
+observed facts into a coherent branch of knowledge. He recognized
+the primary obligation which lies on the student of the heavens to
+compile as complete an inventory as possible of the objects which are
+there to be found. Hipparchus accordingly commenced by undertaking,
+on a small scale, a task exactly similar to that on which modern
+astronomers, with all available appliances of meridian circles, and
+photographic telescopes, are constantly engaged at the present day.
+He compiled a catalogue of the principal fixed stars, which is of
+special value to astronomers, as being the earliest work of its kind
+which has been handed down. He also studied the movements of the sun
+and the moon, and framed theories to account for the incessant
+changes which he saw in progress. He found a much more difficult
+problem in his attempt to interpret satisfactorily the complicated
+movements of the planets. With the view of constructing a theory
+which should give some coherent account of the subject, he made many
+observations of the places of these wandering stars. How great were
+the advances which Hipparchus accomplished may be appreciated if we
+reflect that, as a preliminary task to his more purely astronomical
+labours, he had to invent that branch of mathematical science by
+which alone the problems he proposed could be solved. It was for
+this purpose that he devised the indispensable method of calculation
+which we now know so well as trigonometry. Without the aid rendered
+by this beautiful art it would have been impossible for any really
+important advance in astronomical calculation to have been effected.
+
+But the discovery which shows, beyond all others, that Hipparchus
+possessed one of the master-minds of all time was the detection of
+that remarkable celestial movement known as the precession of the
+equinoxes. The inquiry which conducted to this discovery involved a
+most profound investigation, especially when it is remembered that in
+the days of Hipparchus the means of observation of the heavenly
+bodies were only of the rudest description, and the available
+observations of earlier dates were extremely scanty. We can but look
+with astonishment on the genius of the man who, in spite of such
+difficulties, was able to detect such a phenomenon as the precession,
+and to exhibit its actual magnitude. I shall endeavour to explain
+the nature of this singular celestial movement, for it may be said to
+offer the first instance in the history of science in which we find
+that combination of accurate observation with skilful interpretation,
+of which, in the subsequent development of astronomy, we have so many
+splendid examples.
+
+The word equinox implies the condition that the night is equal to the
+day. To a resident on the equator the night is no doubt equal to the
+day at all times in the year, but to one who lives on any other part
+of the earth, in either hemisphere, the night and the day are not
+generally equal. There is, however, one occasion in spring, and
+another in autumn, on which the day and the night are each twelve
+hours at all places on the earth. When the night and day are equal
+in spring, the point which the sun occupies on the heavens is termed
+the vernal equinox. There is similarly another point in which the
+sun is situated at the time of the autumnal equinox. In any
+investigation of the celestial movements the positions of these two
+equinoxes on the heavens are of primary importance, and Hipparchus,
+with the instinct of genius, perceived their significance, and
+commenced to study them. It will be understood that we can always
+define the position of a point on the sky with reference to the
+surrounding stars. No doubt we do not see the stars near the sun
+when the sun is shining, but they are there nevertheless. The
+ingenuity of Hipparchus enabled him to determine the positions of
+each of the two equinoxes relatively to the stars which lie in its
+immediate vicinity. After examination of the celestial places of
+these points at different periods, he was led to the conclusion that
+each equinox was moving relatively to the stars, though that movement
+was so slow that twenty five thousand years would necessarily elapse
+before a complete circuit of the heavens was accomplished. Hipparchus
+traced out this phenomenon, and established it on an impregnable
+basis, so that all astronomers have ever since recognised the
+precession of the equinoxes as one of the fundamental facts of
+astronomy. Not until nearly two thousand years after Hipparchus had
+made this splendid discovery was the explanation of its cause given
+by Newton.
+
+From the days of Hipparchus down to the present hour the science of
+astronomy has steadily grown. One great observer after another has
+appeared from time to time, to reveal some new phenomenon with regard
+to the celestial bodies or their movements, while from time to time
+one commanding intellect after another has arisen to explain the true
+import of the facts of observations. The history of astronomy thus
+becomes inseparable from the history of the great men to whose
+labours its development is due.
+
+In the ensuing chapters we have endeavoured to sketch the lives and
+the work of the great philosophers, by whose labours the science of
+astronomy has been created. We shall commence with Ptolemy, who,
+after the foundations of the science had been laid by Hipparchus,
+gave to astronomy the form in which it was taught throughout the
+Middle Ages. We shall next see the mighty revolution in our
+conceptions of the universe which are associated with the name of
+Copernicus. We then pass to those periods illumined by the genius of
+Galileo and Newton, and afterwards we shall trace the careers of
+other more recent discoverers, by whose industry and genius the
+boundaries of human knowledge have been so greatly extended. Our
+history will be brought down late enough to include some of the
+illustrious astronomers who laboured in the generation which has just
+passed away.
+
+
+
+
+PTOLEMY.
+
+
+[PLATE: PTOLEMY.]
+
+The career of the famous man whose name stands at the head of this
+chapter is one of the most remarkable in the history of human
+learning. There may have been other discoverers who have done more
+for science than ever Ptolemy accomplished, but there never has been
+any other discoverer whose authority on the subject of the movements
+of the heavenly bodies has held sway over the minds of men for so
+long a period as the fourteen centuries during which his opinions
+reigned supreme. The doctrines he laid down in his famous book, "The
+Almagest," prevailed throughout those ages. No substantial addition
+was made in all that time to the undoubted truths which this work
+contained. No important correction was made of the serious errors
+with which Ptolemy's theories were contaminated. The authority of
+Ptolemy as to all things in the heavens, and as to a good many things
+on the earth (for the same illustrious man was also a diligent
+geographer), was invariably final.
+
+Though every child may now know more of the actual truths of the
+celestial motions than ever Ptolemy knew, yet the fact that his work
+exercised such an astonishing effect on the human intellect for some
+sixty generations, shows that it must have been an extraordinary
+production. We must look into the career of this wonderful man to
+discover wherein lay the secret of that marvellous success which made
+him the unchallenged instructor of the human race for such a
+protracted period.
+
+Unfortunately, we know very little as to the personal history of
+Ptolemy. He was a native of Egypt, and though it has been sometimes
+conjectured that he belonged to the royal families of the same name,
+yet there is nothing to support such a belief. The name, Ptolemy,
+appears to have been a common one in Egypt in those days. The time
+at which he lived is fixed by the fact that his first recorded
+observation was made in 127 AD, and his last in 151 AD. When we add
+that he seems to have lived in or near Alexandria, or to use his own
+words, "on the parallel of Alexandria," we have said everything that
+can be said so far as his individuality is concerned.
+
+Ptolemy is, without doubt, the greatest figure in ancient astronomy.
+He gathered up the wisdom of the philosophers who had preceded him.
+He incorporated this with the results of his own observations, and
+illumined it with his theories. His speculations, even when they
+were, as we now know, quite erroneous, had such an astonishing
+verisimilitude to the actual facts of nature that they commanded
+universal assent. Even in these modern days we not unfrequently find
+lovers of paradox who maintain that Ptolemy's doctrines not only seem
+true, but actually are true.
+
+In the absence of any accurate knowledge of the science of mechanics,
+philosophers in early times were forced to fall back on certain
+principles of more or less validity, which they derived from their
+imagination as to what the natural fitness of things ought to be.
+There was no geometrical figure so simple and so symmetrical as a
+circle, and as it was apparent that the heavenly bodies pursued
+tracks which were not straight lines, the conclusion obviously
+followed that their movements ought to be circular. There was no
+argument in favour of this notion, other than the merely imaginary
+reflection that circular movement, and circular movement alone, was
+"perfect," whatever "perfect" may have meant. It was further
+believed to be impossible that the heavenly bodies could have any
+other movements save those which were perfect. Assuming this, it
+followed, in Ptolemy's opinion, and in that of those who came after
+him for fourteen centuries, that all the tracks of the heavenly
+bodies were in some way or other to be reduced to circles.
+
+Ptolemy succeeded in devising a scheme by which the apparent changes
+that take place in the heavens could, so far as he knew them, be
+explained by certain combinations of circular movement. This seemed
+to reconcile so completely the scheme of things celestial with the
+geometrical instincts which pointed to the circle as the type of
+perfect movement, that we can hardly wonder Ptolemy's theory met with
+the astonishing success that attended it. We shall, therefore, set
+forth with sufficient detail the various steps of this famous
+doctrine.
+
+Ptolemy commences with laying down the undoubted truth that the shape
+of the earth is globular. The proofs which he gives of this
+fundamental fact are quite satisfactory; they are indeed the same
+proofs as we give today. There is, first of all, the well-known
+circumstance of which our books on geography remind us, that when an
+object is viewed at a distance across the sea, the lower part of the
+object appears cut off by the interposing curved mass of water.
+
+The sagacity of Ptolemy enabled him to adduce another argument,
+which, though not quite so obvious as that just mentioned,
+demonstrates the curvature of the earth in a very impressive manner
+to anyone who will take the trouble to understand it. Ptolemy
+mentions that travellers who went to the south reported, that, as
+they did so, the appearance of the heavens at night underwent a
+gradual change. Stars that they were familiar with in the northern
+skies gradually sank lower in the heavens. The constellation of the
+Great Bear, which in our skies never sets during its revolution round
+the pole, did set and rise when a sufficient southern latitude had
+been attained. On the other hand, constellations new to the
+inhabitants of northern climes were seen to rise above the southern
+horizon. These circumstances would be quite incompatible with the
+supposition that the earth was a flat surface. Had this been so, a
+little reflection will show that no such changes in the apparent
+movements of the stars would be the consequence of a voyage to the
+south. Ptolemy set forth with much insight the significance of this
+reasoning, and even now, with the resources of modern discoveries to
+help us, we can hardly improve upon his arguments.
+
+Ptolemy, like a true philosopher disclosing a new truth to the world,
+illustrated and enforced his subject by a variety of happy
+demonstrations. I must add one of them, not only on account of its
+striking nature, but also because it exemplifies Ptolemy's
+acuteness. If the earth were flat, said this ingenious reasoner,
+sunset must necessarily take place at the same instant, no matter in
+what country the observer may happen to be placed. Ptolemy, however,
+proved that the time of sunset did vary greatly as the observer's
+longitude was altered. To us, of course, this is quite obvious;
+everybody knows that the hour of sunset may have been reached in
+Great Britain while it is still noon on the western coast of
+America. Ptolemy had, however, few of those sources of knowledge
+which are now accessible. How was he to show that the sun actually
+did set earlier at Alexandria than it would in a city which lay a
+hundred miles to the west? There was no telegraph wire by which
+astronomers at the two Places could communicate. There was no
+chronometer or watch which could be transported from place to place;
+there was not any other reliable contrivance for the keeping of
+time. Ptolemy's ingenuity, however, pointed out a thoroughly
+satisfactory method by which the times of sunset at two places could
+be compared. He was acquainted with the fact, which must indeed have
+been known from the very earliest times, that the illumination of the
+moon is derived entirely from the sun. He knew that an eclipse of
+the moon was due to the interposition of the earth which cuts off the
+light of the sun. It was, therefore, plain that an eclipse of the
+moon must be a phenomenon which would begin at the same instant from
+whatever part of the earth the moon could be seen at the time.
+Ptolemy, therefore, brought together from various quarters the local
+times at which different observers had recorded the beginning of a
+lunar eclipse. He found that the observers to the west made the time
+earlier and earlier the further away their stations were from
+Alexandria. On the other hand, the eastern observers set down the
+hour as later than that at which the phenomenon appeared at
+Alexandria. As these observers all recorded something which indeed
+appeared to them simultaneously, the only interpretation was, that
+the more easterly a place the later its time. Suppose there were a
+number of observers along a parallel of latitude, and each noted the
+hour of sunset to be six o'clock, then, since the eastern times are
+earlier than western times, 6 p.m. at one station A will correspond
+to 5 p.m. at a station B sufficiently to the west. If, therefore,
+it is sunset to the observer at A, the hour of sunset will not yet be
+reached for the observer at B. This proves conclusively that the
+time of sunset is not the same all over the earth. We have, however,
+already seen that the apparent time of sunset would be the same from
+all stations if the earth were flat. When Ptolemy, therefore,
+demonstrated that the time of sunset was not the same at various
+places, he showed conclusively that the earth was not flat.
+
+As the same arguments applied to all parts of the earth where Ptolemy
+had either been himself, or from which he could gain the necessary
+information, it followed that the earth, instead of being the flat
+plain, girdled with an illimitable ocean, as was generally supposed,
+must be in reality globular. This led at once to a startling
+consequence. It was obvious that there could be no supports of any
+kind by which this globe was sustained; it therefore followed that
+the mighty object must be simply poised in space. This is indeed an
+astonishing doctrine to anyone who relies on what merely seems the
+evidence of the senses, without giving to that evidence its due
+intellectual interpretation. According to our ordinary experience,
+the very idea of an object poised without support in space, appears
+preposterous. Would it not fall? we are immediately asked. Yes,
+doubtless it could not remain poised in any way in which we try the
+experiment. We must, however, observe that there are no such ideas
+as upwards or downwards in relation to open space. To say that a
+body falls downwards, merely means that it tries to fall as nearly as
+possible towards the centre of the earth. There is no one direction
+along which a body will tend to move in space, in preference to any
+other. This may be illustrated by the fact that a stone let fall at
+New Zealand will, in its approach towards the earth's centre, be
+actually moving upwards as far as any locality in our hemisphere is
+concerned. Why, then, argued Ptolemy, may not the earth remain
+poised in space, for as all directions are equally upward or equally
+downward, there seems no reason why the earth should require any
+support? By this reasoning he arrives at the fundamental conclusion
+that the earth is a globular body freely lying in space, and
+surrounded above, below, and on all sides by the glittering stars of
+heaven.
+
+The perception of this sublime truth marks a notable epoch in the
+history of the gradual development of the human intellect. No doubt,
+other philosophers, in groping after knowledge, may have set forth
+certain assertions that are more or less equivalent to this
+fundamental truth. It is to Ptolemy we must give credit, however,
+not only for announcing this doctrine, but for demonstrating it by
+clear and logical argument. We cannot easily project our minds back
+to the conception of an intellectual state in which this truth was
+unfamiliar. It may, however, be well imagined that, to one who
+thought the earth was a flat plain of indefinite extent, it would be
+nothing less than an intellectual convulsion for him to be forced to
+believe that he stood upon a spherical earth, forming merely a
+particle relatively to the immense sphere of the heavens.
+
+What Ptolemy saw in the movements of the stars led him to the
+conclusion that they were bright points attached to the inside of a
+tremendous globe. The movements of this globe which carried the
+stars were only compatible with the supposition that the earth
+occupied its centre. The imperceptible effect produced by a change
+in the locality of the observer on the apparent brightness of the
+stars made it plain that the dimensions of the terrestrial globe must
+be quite insignificant in comparison with those of the celestial
+sphere. The earth might, in fact, be regarded as a grain of sand
+while the stars lay upon a globe many yards in diameter.
+
+So tremendous was the revolution in human knowledge implied by this
+discovery, that we can well imagine how Ptolemy, dazzled as it were
+by the fame which had so justly accrued to him, failed to make one
+further step. Had he made that step, it would have emancipated the
+human intellect from the bondage of fourteen centuries of servitude
+to a wholly monstrous notion of this earth's importance in the scheme
+of the heavens. The obvious fact that the sun, the moon, and the
+stars rose day by day, moved across the sky in a glorious
+never-ending procession, and duly set when their appointed courses
+had been run, demanded some explanation. The circumstance that the
+fixed stars preserved their mutual distances from year to year, and
+from age to age, appeared to Ptolemy to prove that the sphere which
+contained those stars, and on whose surface they were believed by him
+to be fixed, revolved completely around the earth once every day. He
+would thus account for all the phenomena of rising and setting
+consistently with the supposition that our globe was stationary.
+Probably this supposition must have appeared monstrous, even to
+Ptolemy. He knew that the earth was a gigantic object, but, large as
+it may have been, he knew that it was only a particle in comparison
+with the celestial sphere, yet he apparently believed, and certainly
+succeeded in persuading other men to believe, that the celestial
+sphere did actually perform these movements.
+
+Ptolemy was an excellent geometer. He knew that the rising and the
+setting of the sun, the moon, and the myriad stars, could have been
+accounted for in a different way. If the earth turned round
+uniformly once a day while poised at the centre of the sphere of the
+heavens, all the phenomena of rising and setting could be completely
+explained. This is, indeed, obvious after a moment's reflection.
+Consider yourself to be standing on the earth at the centre of the
+heavens. There are stars over your head, and half the contents of
+the heavens are visible, while the other half are below your
+horizon. As the earth turns round, the stars over your head will
+change, and unless it should happen that you have taken up your
+position at either of the poles, new stars will pass into your view,
+and others will disappear, for at no time can you have more than half
+of the whole sphere visible. The observer on the earth would,
+therefore, say that some stars were rising, and that some stars were
+setting. We have, therefore, two totally distinct methods, each of
+which would completely explain all the observed facts of the diurnal
+movement. One of these suppositions requires that the celestial
+sphere, bearing with it the stars and other celestial bodies, turns
+uniformly around an invisible axis, while the earth remains
+stationary at the centre. The other supposition would be, that it is
+the stupendous celestial sphere which remains stationary, while the
+earth at the centre rotates about the same axis as the celestial
+sphere did before, but in an opposite direction, and with a uniform
+velocity which would enable it to complete one turn in twenty-four
+hours. Ptolemy was mathematician enough to know that either of these
+suppositions would suffice for the explanation of the observed
+facts. Indeed, the phenomena of the movements of the stars, so far
+as he could observe them, could not be called upon to pronounce which
+of these views was true, and which was false.
+
+Ptolemy had, therefore, to resort for guidance to indirect lines of
+reasoning. One of these suppositions must be true, and yet it
+appeared that the adoption of either was accompanied by a great
+difficulty. It is one of his chief merits to have demonstrated that
+the celestial sphere was so stupendous that the earth itself was
+absolutely insignificant in comparison therewith. If, then, this
+stupendous sphere rotated once in twenty-four hours, the speed with
+which the movement of some of the stars must be executed would be so
+portentous as to seem well-nigh impossible. It would, therefore,
+seem much simpler on this ground to adopt the other alternative, and
+to suppose the diurnal movements were due to the rotation of the
+earth. Here Ptolemy saw, or at all events fancied he saw, objections
+of the weightiest description. The evidence of the senses appeared
+directly to controvert the supposition that this earth is anything
+but stationary. Ptolemy might, perhaps, have dismissed this
+objection on the ground that the testimony of the senses on such a
+matter should be entirely subordinated to the interpretation which
+our intelligence would place upon the facts to which the senses
+deposed. Another objection, however, appeared to him to possess the
+gravest moment. It was argued that if the earth were rotating, there
+is nothing to make the air participate in this motion, mankind would
+therefore be swept from the earth by the furious blasts which would
+arise from the movement of the earth through an atmosphere at rest.
+Even if we could imagine that the air were carried round with the
+earth, the same would not apply, so thought Ptolemy, to any object
+suspended in the air. So long as a bird was perched on a tree, he
+might very well be carried onward by the moving earth, but the moment
+he took wing, the ground would slip from under him at a frightful
+pace, so that when he dropped down again he would find himself at a
+distance perhaps ten times as great as that which a carrier-pigeon or
+a swallow could have traversed in the same time. Some vague delusion
+of this description seems even still to crop up occasionally. I
+remember hearing of a proposition for balloon travelling of a very
+remarkable kind. The voyager who wanted to reach any other place in
+the same latitude was simply to ascend in a balloon, and wait there
+till the rotation of the earth conveyed the locality which happened
+to be his destination directly beneath him, whereupon he was to let
+out the gas and drop down! Ptolemy knew quite enough natural
+philosophy to be aware that such a proposal for locomotion would be
+an utter absurdity; he knew that there was no such relative shift
+between the air and the earth as this motion would imply. It
+appeared to him to be necessary that the air should lag behind, if
+the earth had been animated by a movement of rotation. In this he
+was, as we know, entirely wrong. There were, however, in his days no
+accurate notions on the subject of the laws of motion.
+
+Assiduous as Ptolemy may have been in the study of the heavenly
+bodies, it seems evident that he cannot have devoted much thought to
+the phenomena of motion of terrestrial objects. Simple, indeed, are
+the experiments which might have convinced a philosopher much less
+acute than Ptolemy, that, if the earth did revolve, the air must
+necessarily accompany it. If a rider galloping on horseback tosses a
+ball into the air, it drops again into his hand, just as it would
+have done had he been remaining at rest during the ball's flight; the
+ball in fact participates in the horizontal motion, so that though it
+really describes a curve as any passer-by would observe, yet it
+appears to the rider himself merely to move up and down in a straight
+line. This fact, and many others similar to it, demonstrate clearly
+that if the earth were endowed with a movement of rotation, the
+atmosphere surrounding it must participate in that movement. Ptolemy
+did not know this, and consequently he came to the conclusion that
+the earth did not rotate, and that, therefore, notwithstanding the
+tremendous improbability of so mighty an object as the celestial
+sphere spinning round once in every twenty-four hours, there was no
+course open except to believe that this very improbable thing did
+really happen. Thus it came to pass that Ptolemy adopted as the
+cardinal doctrine of his system a stationary earth poised at the
+centre of the celestial sphere, which stretched around on all sides
+at a distance so vast that the diameter of the earth was an
+inappreciable point in comparison therewith.
+
+Ptolemy having thus deliberately rejected the doctrine of the earth's
+rotation, had to make certain other entirely erroneous suppositions.
+It was easily seen that each star required exactly the same period
+for the performance of a complete revolution of the heavens. Ptolemy
+knew that the stars were at enormous distances from the earth, though
+no doubt his notions on this point came very far short of what we
+know to be the reality. If the stars had been at very varied
+distances, then it would be so wildly improbable that they should all
+accomplish their revolutions in the same time, that Ptolemy came to
+the conclusion that they must be all at the same distance, that is,
+that they must be all on the surface of a sphere. This view, however
+erroneous, was corroborated by the obvious fact that the stars in the
+constellations preserved their relative places unaltered for
+centuries. Thus it was that Ptolemy came to the conclusion that they
+were all fixed on one spherical surface, though we are not informed
+as to the material of this marvellous setting which sustained the
+stars like jewels.
+
+Nor should we hastily pronounce this doctrine to be absurd. The
+stars do appear to lie on the surface of a sphere, of which the
+observer is at the centre; not only is this the aspect which the
+skies present to the untechnical observer, but it is the aspect in
+which the skies are presented to the most experienced astronomer of
+modern days. No doubt he knows well that the stars are at the most
+varied distances from him; he knows that certain stars are ten times,
+or a hundred times, or a thousand times, as far as other stars.
+Nevertheless, to his eye the stars appear on the surface of the
+sphere, it is on that surface that his measurements of the relative
+places of the stars are made; indeed, it may be said that almost all
+the accurate observations in the observatory relate to the places of
+the stars, not as they really are, but as they appear to be projected
+on that celestial sphere whose conception we owe to the genius of
+Ptolemy.
+
+This great philosopher shows very ingeniously that the earth must be
+at the centre of the sphere. He proves that, unless this were the
+case, each star would not appear to move with the absolute uniformity
+which does, as a matter of fact, characterise it. In all these
+reasonings we cannot but have the most profound admiration for the
+genius of Ptolemy, even though he had made an error so enormous in
+the fundamental point of the stability of the earth. Another error
+of a somewhat similar kind seemed to Ptolemy to be demonstrated. He
+had shown that the earth was an isolated object in space, and being
+such was, of course, capable of movement. It could either be turned
+round, or it could be moved from one place to another. We know that
+Ptolemy deliberately adopted the view that the earth did not turn
+round; he had then to investigate the other question, as to whether
+the earth was animated by any movement of translation. He came to
+the conclusion that to attribute any motion to the earth would be
+incompatible with the truths at which he had already arrived. The
+earth, argued Ptolemy, lies at the centre of the celestial sphere.
+If the earth were to be endowed with movement, it would not lie
+always at this point, it must, therefore, shift to some other part of
+the sphere. The movements of the stars, however, preclude the
+possibility of this; and, therefore, the earth must be as devoid of
+any movement of translation as it is devoid of rotation. Thus it was
+that Ptolemy convinced himself that the stability of the earth, as it
+appeared to the ordinary senses, had a rational philosophical
+foundation.
+
+Not unfrequently it is the lot of the philosophers to contend against
+the doctrines of the vulgar, but when it happens, as in the case of
+Ptolemy's researches, that the doctrines of the vulgar are
+corroborated by philosophical investigation which bear the stamp of
+the highest authority, it is not to be wondered at that such
+doctrines should be deemed well-nigh impregnable. In this way we
+may, perhaps, account for the remarkable fact that the theories of
+Ptolemy held unchallenged sway over the human intellect for the vast
+period already mentioned.
+
+Up to the present we have been speaking only of those primary motions
+of the heavens, by which the whole sphere appeared to revolve once
+every twenty-four hours. We have now to discuss the remarkable
+theories by which Ptolemy endeavoured to account for the monthly
+movement of the moon, for the annual movement of the sun, and for the
+periodic movements of the planets which had gained for them the
+titles of the wandering stars.
+
+Possessed with the idea that these movements must be circular, or
+must be capable, directly or indirectly, of being explained by
+circular movements, it seemed obvious to Ptolemy, as indeed it had
+done to previous astronomers, that the track of the moon through the
+stars was a circle of which the earth is the centre. A similar
+movement with a yearly period must also be attributed to the sun, for
+the changes in the positions of the constellations in accordance with
+the progress of the seasons, placed it beyond doubt that the sun made
+a circuit of the celestial sphere, even though the bright light of
+the sun prevented the stars in its vicinity, from being seen in
+daylight. Thus the movements both of the sun and the moon, as well
+as the diurnal rotation of the celestial sphere, seemed to justify
+the notion that all celestial movements must be "perfect," that is to
+say, described uniformly in those circles which were the only perfect
+curves.
+
+The simplest observations, however, show that the movements of the
+planets cannot be explained in this simple fashion. Here the
+geometrical genius of Ptolemy shone forth, and he devised a scheme by
+which the apparent wanderings of the planets could be accounted for
+without the introduction of aught save "perfect" movements.
+
+To understand his reasoning, let us first set forth clearly those
+facts of observation which require to be explained. I shall take, in
+particular, two planets, Venus and Mars, as these illustrate, in the
+most striking manner, the peculiarities of the inner and the outer
+planets respectively. The simplest observations would show that
+Venus did not move round the heavens in the same fashion as the sun
+or the moon. Look at the evening star when brightest, as it appears
+in the west after sunset. Instead of moving towards the east among
+the stars, like the sun or the moon, we find, week after week, that
+Venus is drawing in towards the sun, until it is lost in the
+sunbeams. Then the planet emerges on the other side, not to be seen
+as an evening star, but as a morning star. In fact, it was plain
+that in some ways Venus accompanied the sun in its annual movement.
+Now it is found advancing in front of the sun to a certain limited
+distance, and now it is lagging to an equal extent behind the sun.
+
+[FIG. 1. PTOLEMY'S PLANETARY SCHEME.]
+
+These movements were wholly incompatible with the supposition that
+the journeys of Venus were described by a single motion of the kind
+regarded as perfect. It was obvious that the movement was connected
+in some strange manner with the revolution of the sun, and here was
+the ingenious method by which Ptolemy sought to render account of
+it. Imagine a fixed arm to extend from the earth to the sun, as
+shown in the accompanying figure (Fig. 1), then this arm will move
+round uniformly, in consequence of the sun's movement. At a point P
+on this arm let a small circle be described. Venus is supposed to
+revolve uniformly in this small circle, while the circle itself is
+carried round continuously by the movement of the sun. In this way
+it was possible to account for the chief peculiarities in the
+movement of Venus. It will be seen that, in consequence of the
+revolution around P, the spectator on the earth will sometimes see
+Venus on one side of the sun, and sometimes on the other side, so
+that the planet always remains in the sun's vicinity. By properly
+proportioning the movements, this little contrivance simulated the
+transitions from the morning star to the evening star. Thus the
+changes of Venus could be accounted for by a Combination of the
+"perfect" movement of P in the circle which it described uniformly
+round the earth, combined with the "perfect" motion of Venus in the
+circle which it described uniformly around the moving centre.
+
+In a precisely similar manner Ptolemy rendered an explanation of the
+fitful apparitions of Mercury. Now just on one side of the sun, and
+now just on the other, this rarely-seen planet moved like Venus on a
+circle whereof the centre was also carried by the line joining the
+sun and the earth. The circle, however, in which Mercury actually
+revolved had to be smaller than that of Venus, in order to account
+for the fact that Mercury lies always much closer to the sun than the
+better-known planet.
+
+[FIG. 2. PTOLEMY'S THEORY OF THE MOVEMENT OF MARS.]
+
+The explanation of the movement of an outer planet like Mars could
+also be deduced from the joint effect of two perfect motions. The
+changes through which Mars goes are, however, so different from the
+movements of Venus that quite a different disposition of the circles
+is necessary. For consider the facts which characterise the
+movements of an outer planet such as Mars. In the first place, Mars
+accomplishes an entire circuit of the heaven. In this respect, no
+doubt, it may be said to resemble the sun or the moon. A little
+attention will, however, show that there are extraordinary
+irregularities in the movement of the planet. Generally speaking, it
+speeds its way from west to east among the stars, but sometimes the
+attentive observer will note that the speed with which the planet
+advances is slackening, and then it will seem to become stationary.
+Some days later the direction of the planet's movement will be
+reversed, and it will be found moving from the east towards the
+west. At first it proceeds slowly and then quickens its pace, until
+a certain speed is attained, which afterwards declines until a second
+stationary position is reached. After a due pause the original
+motion from west to east is resumed, and is continued until a similar
+cycle of changes again commences. Such movements as these were
+obviously quite at variance with any perfect movement in a single
+circle round the earth. Here, again, the geometrical sagacity of
+Ptolemy provided him with the means of representing the apparent
+movements of Mars, and, at the same time, restricting the explanation
+to those perfect movements which he deemed so essential. In Fig. 2
+we exhibit Ptolemy's theory as to the movement of Mars. We have, as
+before, the earth at the centre, and the sun describing its circular
+orbit around that centre. The path of Mars is to be taken as
+exterior to that of the sun. We are to suppose that at a point
+marked M there is a fictitious planet, which revolves around the
+earth uniformly, in a circle called the DEFERENT. This point M,
+which is thus animated by a perfect movement, is the centre of a
+circle which is carried onwards with M, and around the circumference
+of which Mars revolves uniformly. It is easy to show that the
+combined effect of these two perfect movements is to produce exactly
+that displacement of Mars in the heavens which observation
+discloses. In the position represented in the figure, Mars is
+obviously pursuing a course which will appear to the observer as a
+movement from west to east. When, however, the planet gets round to
+such a position as R, it is then moving from east to west in
+consequence of its revolution in the moving circle, as indicated by
+the arrow-head. On the other hand, the whole circle is carried
+forward in the opposite direction. If the latter movement be less
+rapid than the former, then we shall have the backward movement of
+Mars on the heavens which it was desired to explain. By a proper
+adjustment of the relative lengths of these arms the movements of the
+planet as actually observed could be completely accounted for.
+
+The other outer planets with which Ptolemy was acquainted, namely,
+Jupiter and Saturn, had movements of the same general character as
+those of Mars. Ptolemy was equally successful in explaining the
+movements they performed by the supposition that each planet had
+perfect rotation in a circle of its own, which circle itself had
+perfect movement around the earth in the centre.
+
+It is somewhat strange that Ptolemy did not advance one step further,
+as by so doing he would have given great simplicity to his system. He
+might, for instance, have represented the movements of Venus equally
+well by putting the centre of the moving circle at the sun itself,
+and correspondingly enlarging the circle in which Venus revolved. He
+might, too, have arranged that the several circles which the outer
+planets traversed should also have had their centres at the sun. The
+planetary system would then have consisted of an earth fixed at the
+centre, of a sun revolving uniformly around it, and of a system of
+planets each describing its own circle around a moving centre placed
+in the sun. Perhaps Ptolemy had not thought of this, or perhaps he
+may have seen arguments against it. This important step was,
+however, taken by Tycho. He considered that all the planets revolved
+around the sun in circles, and that the sun itself, bearing all these
+orbits, described a mighty circle around the earth. This point
+having been reached, only one more step would have been necessary to
+reach the glorious truths that revealed the structure of the solar
+system. That last step was taken by Copernicus.
+
+
+
+
+COPERNICUS
+
+
+[PLATE: THORN, FROM AN OLD PRINT.]
+
+The quaint town of Thorn, on the Vistula, was more than two centuries
+old when Copernicus was born there on the 19th of February, 1473. The
+situation of this town on the frontier between Prussia and Poland,
+with the commodious waterway offered by the river, made it a place of
+considerable trade. A view of the town, as it was at the time of the
+birth of Copernicus, is here given. The walls, with their
+watch-towers, will be noted, and the strategic importance which the
+situation of Thorn gave to it in the fifteenth century still belongs
+thereto, so much so that the German Government recently constituted
+the town a fortress of the first class.
+
+Copernicus, the astronomer, whose discoveries make him the great
+predecessor of Kepler and Newton, did not come from a noble family,
+as certain other early astronomers have done, for his father was a
+tradesman. Chroniclers are, however, careful to tell us that one of
+his uncles was a bishop. We are not acquainted with any of those
+details of his childhood or youth which are often of such interest in
+other cases where men have risen to exalted fame. It would appear
+that the young Nicolaus, for such was his Christian name, received
+his education at home until such time as he was deemed sufficiently
+advanced to be sent to the University at Cracow. The education that
+he there obtained must have been in those days of a very primitive
+description, but Copernicus seems to have availed himself of it to
+the utmost. He devoted himself more particularly to the study of
+medicine, with the view of adopting its practice as the profession of
+his life. The tendencies of the future astronomer were, however,
+revealed in the fact that he worked hard at mathematics, and, like
+one of his illustrious successors, Galileo, the practice of the art
+of painting had for him a very great interest, and in it he obtained
+some measure of success.
+
+By the time he was twenty-seven years old, it would seem that
+Copernicus had given up the notion of becoming a medical
+practitioner, and had resolved to devote himself to science. He was
+engaged in teaching mathematics, and appears to have acquired some
+reputation. His growing fame attracted the notice of his uncle the
+bishop, at whose suggestion Copernicus took holy orders, and he was
+presently appointed to a canonry in the cathedral of Frauenburg, near
+the mouth of the Vistula.
+
+To Frauenburg, accordingly, this man of varied gifts retired.
+Possessing somewhat of the ascetic spirit, he resolved to devote his
+life to work of the most serious description. He eschewed all
+ordinary society, restricting his intimacies to very grave and
+learned companions, and refusing to engage in conversation of any
+useless kind. It would seem as if his gifts for painting were
+condemned as frivolous; at all events, we do not learn that he
+continued to practise them. In addition to the discharge of his
+theological duties, his life was occupied partly in ministering
+medically to the wants of the poor, and partly with his researches in
+astronomy and mathematics. His equipment in the matter of
+instruments for the study of the heavens seems to have been of a very
+meagre description. He arranged apertures in the walls of his house
+at Allenstein, so that he could observe in some fashion the passage
+of the stars across the meridian. That he possessed some talent for
+practical mechanics is proved by his construction of a contrivance
+for raising water from a stream, for the use of the inhabitants of
+Frauenburg. Relics of this machine are still to be seen.
+
+[PLATE: COPERNICUS.]
+
+The intellectual slumber of the Middle Ages was destined to be
+awakened by the revolutionary doctrines of Copernicus. It may be
+noted, as an interesting circumstance, that the time at which he
+discovered the scheme of the solar system has coincided with a
+remarkable epoch in the world's history. The great astronomer had
+just reached manhood at the time when Columbus discovered the new
+world.
+
+Before the publication of the researches of Copernicus, the orthodox
+scientific creed averred that the earth was stationary, and that the
+apparent movements of the heavenly bodies were indeed real
+movements. Ptolemy had laid down this doctrine 1,400 years before.
+In his theory this huge error was associated with so much important
+truth, and the whole presented such a coherent scheme for the
+explanation of the heavenly movements, that the Ptolemaic theory was
+not seriously questioned until the great work of Copernicus
+appeared. No doubt others, before Copernicus, had from time to time
+in some vague fashion surmised, with more or less plausibility, that
+the sun, and not the earth, was the centre about which the system
+really revolved. It is, however, one thing to state a scientific
+fact; it is quite another thing to be in possession of the train of
+reasoning, founded on observation or experiment, by which that fact
+may be established. Pythagoras, it appears, had indeed told his
+disciples that it was the sun, and not the earth, which was the
+centre of movement, but it does not seem at all certain that
+Pythagoras had any grounds which science could recognise for the
+belief which is attributed to him. So far as information is
+available to us, it would seem that Pythagoras associated his scheme
+of things celestial with a number of preposterous notions in natural
+philosophy. He may certainly have made a correct statement as to
+which was the most important body in the solar system, but he
+certainly did not provide any rational demonstration of the fact.
+Copernicus, by a strict train of reasoning, convinced those who would
+listen to him that the sun was the centre of the system. It is
+useful for us to consider the arguments which he urged, and by which
+he effected that intellectual revolution which is always connected
+with his name.
+
+The first of the great discoveries which Copernicus made relates to
+the rotation of the earth on its axis. That general diurnal
+movement, by which the stars and all other celestial bodies appear to
+be carried completely round the heavens once every twenty-four hours,
+had been accounted for by Ptolemy on the supposition that the
+apparent movements were the real movements. As we have already seen,
+Ptolemy himself felt the extraordinary difficulty involved in the
+supposition that so stupendous a fabric as the celestial sphere
+should spin in the way supposed. Such movements required that many
+of the stars should travel with almost inconceivable velocity.
+Copernicus also saw that the daily rising and setting of the heavenly
+bodies could be accounted for either by the supposition that the
+celestial sphere moved round and that the earth remained at rest, or
+by the supposition that the celestial sphere was at rest while the
+earth turned round in the opposite direction. He weighed the
+arguments on both sides as Ptolemy had done, and, as the result of
+his deliberations, Copernicus came to an opposite conclusion from
+Ptolemy. To Copernicus it appeared that the difficulties attending
+the supposition that the celestial sphere revolved, were vastly
+greater than those which appeared so weighty to Ptolemy as to force
+him to deny the earth's rotation.
+
+Copernicus shows clearly how the observed phenomena could be
+accounted for just as completely by a rotation of the earth as by a
+rotation of the heavens. He alludes to the fact that, to those on
+board a vessel which is moving through smooth water, the vessel
+itself appears to be at rest, while the objects on shore seem to be
+moving past. If, therefore, the earth were rotating uniformly, we
+dwellers upon the earth, oblivious of our own movement, would wrongly
+attribute to the stars the displacement which was actually the
+consequence of our own motion.
+
+Copernicus saw the futility of the arguments by which Ptolemy had
+endeavoured to demonstrate that a revolution of the earth was
+impossible. It was plain to him that there was nothing whatever to
+warrant refusal to believe in the rotation of the earth. In his
+clear-sightedness on this matter we have specially to admire the
+sagacity of Copernicus as a natural philosopher. It had been urged
+that, if the earth moved round, its motion would not be imparted to
+the air, and that therefore the earth would be uninhabitable by the
+terrific winds which would be the result of our being carried through
+the air. Copernicus convinced himself that this deduction was
+preposterous. He proved that the air must accompany the earth, just
+as his coat remains round him, notwithstanding the fact that he is
+walking down the street. In this way he was able to show that all a
+priori objections to the earth's movements were absurd, and therefore
+he was able to compare together the plausibilities of the two rival
+schemes for explaining the diurnal movement.
+
+[PLATE: FRAUENBURG, FROM AN OLD PRINT.]
+
+Once the issue had been placed in this form, the result could not be
+long in doubt. Here is the question: Which is it more likely--that
+the earth, like a grain of sand at the centre of a mighty globe,
+should turn round once in twenty-four hours, or that the whole of
+that vast globe should complete a rotation in the opposite direction
+in the same time? Obviously, the former is far the more simple
+supposition. But the case is really much stronger than this. Ptolemy
+had supposed that all the stars were attached to the surface of a
+sphere. He had no ground whatever for this supposition, except that
+otherwise it would have been well-nigh impossible to have devised a
+scheme by which the rotation of the heavens around a fixed earth
+could have been arranged. Copernicus, however, with the just
+instinct of a philosopher, considered that the celestial sphere,
+however convenient from a geometrical point of view, as a means of
+representing apparent phenomena, could not actually have a material
+existence. In the first place, the existence of a material celestial
+sphere would require that all the myriad stars should be at exactly
+the same distances from the earth. Of course, no one will say that
+this or any other arbitrary disposition of the stars is actually
+impossible, but as there was no conceivable physical reason why the
+distances of all the stars from the earth should be identical, it
+seemed in the very highest degree improbable that the stars should be
+so placed.
+
+Doubtless, also, Copernicus felt a considerable difficulty as to the
+nature of the materials from which Ptolemy's wonderful sphere was to
+be constructed. Nor could a philosopher of his penetration have
+failed to observe that, unless that sphere were infinitely large,
+there must have been space outside it, a consideration which would
+open up other difficult questions. Whether infinite or not, it was
+obvious that the celestial sphere must have a diameter at least many
+thousands of times as great as that of the earth. From these
+considerations Copernicus deduced the important fact that the stars
+and the other celestial bodies must all be vast objects. He was thus
+enabled to put the question in such a form that it could hardly
+receive any answer but the correct one. Which is it more rational to
+suppose, that the earth should turn round on its axis once in
+twenty-four hours, or that thousands of mighty stars should circle
+round the earth in the same time, many of them having to describe
+circles many thousands of times greater in circumference than the
+circuit of the earth at the equator? The obvious answer pressed upon
+Copernicus with so much force that he was compelled to reject
+Ptolemy's theory of the stationary earth, and to attribute the
+diurnal rotation of the heavens to the revolution of the earth on its
+axis.
+
+Once this tremendous step had been taken, the great difficulties
+which beset the monstrous conception of the celestial sphere
+vanished, for the stars need no longer be regarded as situated at
+equal distances from the earth. Copernicus saw that they might lie
+at the most varied degrees of remoteness, some being hundreds or
+thousands of times farther away than others. The complicated
+structure of the celestial sphere as a material object disappeared
+altogether; it remained only as a geometrical conception, whereon we
+find it convenient to indicate the places of the stars. Once the
+Copernican doctrine had been fully set forth, it was impossible for
+anyone, who had both the inclination and the capacity to understand
+it, to withhold acceptance of its truth. The doctrine of a
+stationary earth had gone for ever.
+
+Copernicus having established a theory of the celestial movements
+which deliberately set aside the stability of the earth, it seemed
+natural that he should inquire whether the doctrine of a moving earth
+might not remove the difficulties presented in other celestial
+phenomena. It had been universally admitted that the earth lay
+unsupported in space. Copernicus had further shown that it possessed
+a movement of rotation. Its want of stability being thus recognised,
+it seemed reasonable to suppose that the earth might also have some
+other kinds of movements as well. In this, Copernicus essayed to
+solve a problem far more difficult than that which had hitherto
+occupied his attention. It was a comparatively easy task to show how
+the diurnal rising and setting could be accounted for by the rotation
+of the earth. It was a much more difficult undertaking to
+demonstrate that the planetary movements, which Ptolemy had
+represented with so much success, could be completely explained by
+the supposition that each of those planets revolved uniformly round
+the sun, and that the earth was also a planet, accomplishing a
+complete circuit of the sun once in the course of a year.
+
+[PLATE: EXPLANATION OF PLANETARY MOVEMENTS.]
+
+It would be impossible in a sketch like the present to enter into any
+detail as to the geometrical propositions on which this beautiful
+investigation of Copernicus depended. We can only mention a few of
+the leading principles. It may be laid down in general that, if an
+observer is in movement, he will, if unconscious of the fact,
+attribute to the fixed objects around him a movement equal and
+opposite to that which he actually possesses. A passenger on a
+canal-boat sees the objects on the banks apparently moving backward
+with a speed equal to that by which he is himself advancing
+forwards. By an application of this principle, we can account for
+all the phenomena of the movements of the planets, which Ptolemy had
+so ingeniously represented by his circles. Let us take, for
+instance, the most characteristic feature in the irregularities of
+the outer planets. We have already remarked that Mars, though
+generally advancing from west to east among the stars, occasionally
+pauses, retraces his steps for awhile, again pauses, and then resumes
+his ordinary onward progress. Copernicus showed clearly how this
+effect was produced by the real motion of the earth, combined with
+the real motion of Mars. In the adjoining figure we represent a
+portion of the circular tracks in which the earth and Mars move in
+accordance with the Copernican doctrine. I show particularly the
+case where the earth comes directly between the planet and the sun,
+because it is on such occasions that the retrograde movement (for so
+this backward movement of Mars is termed) is at its highest. Mars is
+then advancing in the direction shown by the arrow-head, and the
+earth is also advancing in the same direction. We, on the earth,
+however, being unconscious of our own motion, attribute, by the
+principle I have already explained, an equal and opposite motion to
+Mars. The visible effect upon the planet is, that Mars has two
+movements, a real onward movement in one direction, and an apparent
+movement in the opposite direction. If it so happened that the earth
+was moving with the same speed as Mars, then the apparent movement
+would exactly neutralise the real movement, and Mars would seem to be
+at rest relatively to the surrounding stars. Under the actual
+circumstances represented, however, the earth is moving faster than
+Mars, and the consequence is, that the apparent movement of the
+planet backwards exceeds the real movement forwards, the net result
+being an apparent retrograde movement.
+
+With consummate skill, Copernicus showed how the applications of the
+same principles could account for the characteristic movements of the
+planets. His reasoning in due time bore down all opposition. The
+supreme importance of the earth in the system vanished. It had now
+merely to take rank as one of the planets.
+
+The same great astronomer now, for the first time, rendered something
+like a rational account of the changes of the seasons. Nor did
+certain of the more obscure astronomical phenomena escape his
+attention.
+
+He delayed publishing his wonderful discoveries to the world until he
+was quite an old man. He had a well-founded apprehension of the
+storm of opposition which they would arouse. However, he yielded at
+last to the entreaties of his friends, and his book was sent to the
+press. But ere it made its appearance to the world, Copernicus was
+seized by mortal illness. A copy of the book was brought to him on
+May 23, 1543. We are told that he was able to see it and to touch
+it, but no more, and he died a few hours afterwards. He was buried
+in that Cathedral of Frauenburg, with which his life had been so
+closely associated.
+
+
+
+
+TYCHO BRAHE.
+
+
+The most picturesque figure in the history of astronomy is
+undoubtedly that of the famous old Danish astronomer whose name
+stands at the head of this chapter. Tycho Brahe was alike notable
+for his astronomical genius and for the extraordinary vehemence of a
+character which was by no means perfect. His romantic career as a
+philosopher, and his taste for splendour as a Danish noble, his
+ardent friendships and his furious quarrels, make him an ideal
+subject for a biographer, while the magnificent astronomical work
+which he accomplished, has given him imperishable fame.
+
+The history of Tycho Brahe has been admirably told by Dr. Dreyer, the
+accomplished astronomer who now directs the observatory at Armagh,
+though himself a countryman of Tycho. Every student of the career of
+the great Dane must necessarily look on Dr. Dreyer's work as the
+chief authority on the subject. Tycho sprang from an illustrious
+stock. His family had flourished for centuries, both in Sweden and
+in Denmark, where his descendants are to be met with at the present
+day. The astronomer's father was a privy councillor, and having
+filled important positions in the Danish government, he was
+ultimately promoted to be governor of Helsingborg Castle, where he
+spent the last years of his life. His illustrious son Tycho was born
+in 1546, and was the second child and eldest boy in a family of ten.
+
+It appears that Otto, the father of Tycho, had a brother named
+George, who was childless. George, however, desired to adopt a boy
+on whom he could lavish his affection and to whom he could bequeath
+his wealth. A somewhat singular arrangement was accordingly entered
+into by the brothers at the time when Otto was married. It was
+agreed that the first son who might be born to Otto should be
+forthwith handed over by the parents to George to be reared and
+adopted by him. In due time little Tycho appeared, and was
+immediately claimed by George in pursuance of the compact. But it
+was not unnatural that the parental instinct, which had been dormant
+when the agreement was made, should here interpose. Tycho's father
+and mother receded from the bargain, and refused to part with their
+son. George thought he was badly treated. However, he took no
+violent steps until a year later, when a brother was born to Tycho.
+The uncle then felt no scruple in asserting what he believed to be
+his rights by the simple process of stealing the first-born nephew,
+which the original bargain had promised him. After a little time it
+would seem that the parents acquiesced in the loss, and thus it was
+in Uncle George's home that the future astronomer passed his
+childhood.
+
+When we read that Tycho was no more than thirteen years old at the
+time he entered the University of Copenhagen, it might be at first
+supposed that even in his boyish years he must have exhibited some of
+those remarkable talents with which he was afterwards to astonish the
+world. Such an inference should not, however, be drawn. The fact is
+that in those days it was customary for students to enter the
+universities at a much earlier age than is now the case. Not,
+indeed, that the boys of thirteen knew more then than the boys of
+thirteen know now. But the education imparted in the universities at
+that time was of a much more rudimentary kind than that which we
+understand by university education at present. In illustration of
+this Dr. Dreyer tells us how, in the University of Wittenberg, one of
+the professors, in his opening address, was accustomed to point out
+that even the processes of multiplication and division in arithmetic
+might be learned by any student who possessed the necessary
+diligence.
+
+It was the wish and the intention of his uncle that Tycho's education
+should be specially directed to those branches of rhetoric and
+philosophy which were then supposed to be a necessary preparation for
+the career of a statesman. Tycho, however, speedily made it plain to
+his teachers that though he was an ardent student, yet the things
+which interested him were the movements of the heavenly bodies and
+not the subtleties of metaphysics.
+
+[PLATE: TYCHO BRAHE.]
+
+On the 21st October, 1560, an eclipse of the sun occurred, which was
+partially visible at Copenhagen. Tycho, boy though he was, took the
+utmost interest in this event. His ardour and astonishment in
+connection with the circumstance were chiefly excited by the fact
+that the time of the occurrence of the phenomenon could be predicted
+with so much accuracy. Urged by his desire to understand the matter
+thoroughly, Tycho sought to procure some book which might explain
+what he so greatly wanted to know. In those days books of any kind
+were but few and scarce, and scientific books were especially
+unattainable. It so happened, however, that a Latin version of
+Ptolemy's astronomical works had appeared a few years before the
+eclipse took place, and Tycho managed to buy a copy of this book,
+which was then the chief authority on celestial matters. Young as
+the boy astronomer was, he studied hard, although perhaps not always
+successfully, to understand Ptolemy, and to this day his copy of the
+great work, copiously annotated and marked by the schoolboy hand, is
+preserved as one of the chief treasures in the library of the
+University at Prague.
+
+After Tycho had studied for about three years at the University of
+Copenhagen, his uncle thought it would be better to send him, as was
+usual in those days, to complete his education by a course of study
+in some foreign university. The uncle cherished the hope that in
+this way the attention of the young astronomer might be withdrawn
+from the study of the stars and directed in what appeared to him a
+more useful way. Indeed, to the wise heads of those days, the
+pursuit of natural science seemed so much waste of good time which
+might otherwise be devoted to logic or rhetoric or some other branch
+of study more in vogue at that time. To assist in this attempt to
+wean Tycho from his scientific tastes, his uncle chose as a tutor to
+accompany him an intelligent and upright young man named Vedel, who
+was four years senior to his pupil, and accordingly, in 1562, we find
+the pair taking up their abode at the University of Leipzig.
+
+The tutor, however, soon found that he had undertaken a most hopeless
+task. He could not succeed in imbuing Tycho with the slightest taste
+for the study of the law or the other branches of knowledge which
+were then thought so desirable. The stars, and nothing but the
+stars, engrossed the attention of his pupil. We are told that all
+the money he could obtain was spent secretly in buying astronomical
+books and instruments. He learned the name of the stars from a
+little globe, which he kept hidden from Vedel, and only ventured to
+use during the latter's absence. No little friction was at first
+caused by all this, but in after years a fast and enduring friendship
+grew up between Tycho and his tutor, each of whom learned to respect
+and to love the other.
+
+Before Tycho was seventeen he had commenced the difficult task of
+calculating the movements of the planets and the places which they
+occupied on the sky from time to time. He was not a little surprised
+to find that the actual positions of the planets differed very widely
+from those which were assigned to them by calculations from the best
+existing works of astronomers. With the insight of genius he saw
+that the only true method of investigating the movements of the
+heavenly bodies would be to carry on a protracted series of
+measurements of their places. This, which now seems to us so
+obvious, was then entirely new doctrine. Tycho at once commenced
+regular observations in such fashion as he could. His first
+instrument was, indeed, a very primitive one, consisting of a simple
+pair of compasses, which he used in this way. He placed his eye at
+the hinge, and then opened the legs of the compass so that one leg
+pointed to one star and the other leg to the other star. The compass
+was then brought down to a divided circle, by which means the number
+of degrees in the apparent angular distance of the two stars was
+determined.
+
+His next advance in instrumental equipment was to provide himself
+with the contrivance known as the "cross-staff," which he used to
+observe the stars whenever opportunity offered. It must, of course,
+be remembered that in those days there were no telescopes. In the
+absence of optical aid, such as lenses afford the modern observers,
+astronomers had to rely on mechanical appliances alone to measure the
+places of the stars. Of such appliances, perhaps the most ingenious
+was one known before Tycho's time, which we have represented in the
+adjoining figure.
+
+[PLATE: TYCHO'S CROSS STAFF.]
+
+Let us suppose that it be desired to measure the angle between two
+stars, then if the angle be not too large it can be determined in the
+following manner. Let the rod AB be divided into inches and parts of
+an inch, and let another rod, CD, slide up and down along AB in such
+a way that the two always remain perpendicular to each other.
+"Sights," like those on a rifle, are placed at A and C, and there is
+a pin at D. It will easily be seen that, by sliding the movable bar
+along the fixed one, it must always be possible when the stars are
+not too far apart to bring the sights into such positions that one
+star can be seen along DC and the other along DA. This having been
+accomplished, the length from A to the cross-bar is read off on the
+scale, and then, by means of a table previously prepared, the value
+of the required angular distance is obtained. If the angle between
+the two stars were greater than it would be possible to measure in
+the way already described, then there was a provision by which the
+pin at D might be moved along CD into some other position, so as to
+bring the angular distance of the stars within the range of the
+instrument.
+
+[PLATE: TYCHO'S "NEW STAR" SEXTANT OF 1572.
+(The arms, of walnut wood, are about 5 1/2 ft. long.)]
+
+No doubt the cross-staff is a very primitive contrivance, but when
+handled by one so skilful as Tycho it afforded results of
+considerable accuracy. I would recommend any reader who may have a
+taste for such pursuits to construct a cross-staff for himself, and
+see what measurements he can accomplish with its aid.
+
+To employ this little instrument Tycho had to evade the vigilance of
+his conscientious tutor, who felt it his duty to interdict all such
+occupations as being a frivolous waste of time. It was when Vedel
+was asleep that Tycho managed to escape with his cross staff and
+measure the places of the heavenly bodies. Even at this early age
+Tycho used to conduct his observations on those thoroughly sound
+principles which lie at the foundation of all accurate modern
+astronomy. Recognising the inevitable errors of workmanship in his
+little instrument, he ascertained their amount and allowed for their
+influence on the results which he deduced. This principle, employed
+by the boy with his cross-staff in 1564, is employed at the present
+day by the Astronomer Royal at Greenwich with the most superb
+instruments that the skill of modern opticians has been able to
+construct.
+
+[PLATE: TYCHO'S TRIGONIC SEXTANT.
+(The arms, AB and AC, are about 5 1/2 ft. long.)]
+
+After the death of his uncle, when Tycho was nineteen years of age,
+it appears that the young philosopher was no longer interfered with
+in so far as the line which his studies were to take was concerned.
+Always of a somewhat restless temperament, we now find that he
+shifted his abode to the University of Rostock, where he speedily
+made himself notable in connection with an eclipse of the moon on
+28th October, 1566. Like every other astronomer of those days, Tycho
+had always associated astronomy with astrology. He considered that
+the phenomena of the heavenly bodies always had some significance in
+connection with human affairs. Tycho was also a poet, and in the
+united capacity of poet, astrologer, and astronomer, he posted up
+some verses in the college at Rostock announcing that the lunar
+eclipse was a prognostication of the death of the great Turkish
+Sultan, whose mighty deeds at that time filled men's minds. Presently
+news did arrive of the death of the Sultan, and Tycho was accordingly
+triumphant; but a little later it appeared that the decease had taken
+place BEFORE the eclipse, a circumstance which caused many a laugh at
+Tycho's expense.
+
+[PLATE: TYCHO'S ASTRONOMIC SEXTANT.
+(Made of steel: the arms, AB, AC, measure 4 ft.)
+
+PLATE: TYCHO'S EQUATORIAL ARMILLARY.
+(The meridian circle, E B C A D, made of solid steel,
+is nearly 6 ft. in diameter.)]
+
+Tycho being of a somewhat turbulent disposition, it appears that,
+while at the University of Rostock, he had a serious quarrel with
+another Danish nobleman. We are not told for certain what was the
+cause of the dispute. It does not, however, seem to have had any
+more romantic origin than a difference of opinion as to which of them
+knew the more mathematics. They fought, as perhaps it was becoming
+for two astronomers to fight, under the canopy of heaven in utter
+darkness at the dead of night, and the duel was honourably terminated
+when a slice was taken off Tycho's nose by the insinuating sword of
+his antagonist. For the repair of this injury the ingenuity of the
+great instrument-maker was here again useful, and he made a
+substitute for his nose "with a composition of gold and silver." The
+imitation was so good that it is declared to have been quite equal to
+the original. Dr. Lodge, however, pointedly observes that it does
+not appear whether this remark was made by a friend or an enemy.
+
+[PLATE: THE GREAT AUGSBURG QUADRANT.
+(Built of heart of oak; the radii about 19 ft.)
+
+PLATE: TYCHO'S "NEW SCHEME OF THE TERRESTRIAL SYSTEM," 1577.]
+
+The next few years Tycho spent in various places ardently pursuing
+somewhat varied branches of scientific study. At one time we hear of
+him assisting an astronomical alderman, in the ancient city of
+Augsburg, to erect a tremendous wooden machine--a quadrant of 19-feet
+radius--to be used in observing the heavens. At another time we
+learn that the King of Denmark had recognised the talents of his
+illustrious subject, and promised to confer on him a pleasant
+sinecure in the shape of a canonry, which would assist him with the
+means for indulging his scientific pursuits. Again we are told that
+Tycho is pursuing experiments in chemistry with the greatest energy,
+nor is this so incompatible as might at first be thought with his
+devotion to astronomy. In those early days of knowledge the
+different sciences seemed bound together by mysterious bonds.
+Alchemists and astrologers taught that the several planets were
+correlated in some mysterious manner with the several metals. It
+was, therefore hardly surprising that Tycho should have included a
+study of the properties of the metals in the programme of his
+astronomical work.
+
+[PLATE: URANIBORG AND ITS GROUNDS.
+
+PLATE: GROUND-PLAN OF THE OBSERVATORY.]
+
+An event, however, occurred in 1572 which stimulated Tycho's
+astronomical labours, and started him on his life's work. On the
+11th of November in that year, he was returning home to supper after
+a day's work in his laboratory, when he happened to lift his face to
+the sky, and there he beheld a brilliant new star. It was in the
+constellation of Cassiopeia, and occupied a position in which there
+had certainly been no bright star visible when his attention had last
+been directed to that part of the heavens. Such a phenomenon was so
+startling that he found it hard to trust the evidence of his senses.
+He thought he must be the subject of some hallucination. He
+therefore called to the servants who were accompanying him, and asked
+them whether they, too, could see a brilliant object in the direction
+in which he pointed. They certainly could, and thus he became
+convinced that this marvellous object was no mere creation of the
+fancy, but a veritable celestial body--a new star of surpassing
+splendour which had suddenly burst forth. In these days of careful
+scrutiny of the heavens, we are accustomed to the occasional outbreak
+of new stars. It is not, however, believed that any new star which
+has ever appeared has displayed the same phenomenal brilliance as was
+exhibited by the star of 1572.
+
+This object has a value in astronomy far greater than it might at
+first appear. It is true, in one sense, that Tycho discovered the
+new star, but it is equally true, in a different sense, that it was
+the new star which discovered Tycho. Had it not been for this
+opportune apparition, it is quite possible that Tycho might have
+found a career in some direction less beneficial to science than that
+which he ultimately pursued.
+
+[PLATE: THE OBSERVATORY OF URANIBORG, ISLAND OF HVEN.]
+
+When he reached his home on this memorable evening, Tycho immediately
+applied his great quadrant to the measurement of the place of the new
+star. His observations were specially directed to the determination
+of the distance of the object. He rightly conjectured that if it
+were very much nearer to us than the stars in its vicinity, the
+distance of the brilliant body might be determined in a short time by
+the apparent changes in its distance from the surrounding points. It
+was speedily demonstrated that the new star could not be as near as
+the moon, by the simple fact that its apparent place, as compared
+with the stars in its neighbourhood, was not appreciably altered when
+it was observed below the pole, and again above the pole at an
+interval of twelve hours. Such observations were possible, inasmuch
+as the star was bright enough to be seen in full daylight. Tycho
+thus showed conclusively that the body was so remote that the
+diameter of the earth bore an insignificant ratio to the star's
+distance. His success in this respect is the more noteworthy when we
+find that many other observers, who studied the same object, came to
+the erroneous conclusion that the new star was quite as near as the
+moon, or even much nearer. In fact, it may be said, that with regard
+to this object Tycho discovered everything which could possibly have
+been discovered in the days before telescopes were invented. He not
+only proved that the star's distance was too great for measurement,
+but he showed that it had no proper motion on the heavens. He
+recorded the successive changes in its brightness from week to week,
+as well as the fluctuations in hue with which the alterations in
+lustre were accompanied.
+
+It seems, nowadays, strange to find that such thoroughly scientific
+observations of the new star as those which Tycho made, possessed,
+even in the eyes of the great astronomer himself, a profound
+astrological significance. We learn from Dr. Dreyer that, in Tycho's
+opinion, "the star was at first like Venus and Jupiter, and its
+effects will therefore, first, be pleasant; but as it then became
+like Mars, there will next come a period of wars, seditions,
+captivity, and death of princes, and destruction of cities, together
+with dryness and fiery meteors in the air, pestilence, and venomous
+snakes. Lastly, the star became like Saturn, and thus will finally
+come a time of want, death, imprisonment, and all kinds of sad
+things!" Ideas of this kind were, however, universally entertained.
+It seemed, indeed, obvious to learned men of that period that such an
+apparition must forebode startling events. One of the chief theories
+then held was, that just as the Star of Bethlehem announced the first
+coming of Christ, so the second coming, and the end of the world, was
+heralded by the new star of 1572.
+
+The researches of Tycho on this object were the occasion of his first
+appearance as an author. The publication of his book was however,
+for some time delayed by the urgent remonstrances of his friends, who
+thought it was beneath the dignity of a nobleman to condescend to
+write a book. Happily, Tycho determined to brave the opinion of his
+order; the book appeared, and was the first of a series of great
+astronomical productions from the same pen.
+
+[PLATE: EFFIGY ON TYCHO'S TOMB AT PRAGUE.]
+
+The fame of the noble Dane being now widespread, the King of Denmark
+entreated him to return to his native country, and to deliver a
+course of lectures on astronomy in the University of Copenhagen. With
+some reluctance he consented, and his introductory oration has been
+preserved. He dwells, in fervent language, upon the beauty and the
+interest of the celestial phenomena. He points out the imperative
+necessity of continuous and systematic observation of the heavenly
+bodies in order to extend our knowledge. He appeals to the practical
+utility of the science, for what civilised nation could exist without
+having the means of measuring time? He sets forth how the study of
+these beautiful objects "exalts the mind from earthly and trivial
+things to heavenly ones;" and then he winds up by assuring them that
+"a special use of astronomy is that it enables us to draw conclusions
+from the movements in the celestial regions as to human fate."
+
+An interesting event, which occurred in 1572, distracted Tycho's
+attention from astronomical matters. He fell in love. The young
+girl on whom his affections were set appears to have sprung from
+humble origin. Here again his august family friends sought to
+dissuade him from a match they thought unsuitable for a nobleman.
+But Tycho never gave way in anything. It is suggested that he did
+not seek a wife among the highborn dames of his own rank from the
+dread that the demands of a fashionable lady would make too great an
+inroad on the time that he wished to devote to science. At all
+events, Tycho's union seems to have been a happy one, and he had a
+large family of children; none of whom, however, inherited their
+father's talents.
+
+[PLATE: TYCHO'S MURAL QUADRANT PICTURE, URANIBORG.]
+
+Tycho had many scientific friends in Germany, among whom his work was
+held in high esteem. The treatment that he there met with seemed to
+him so much more encouraging than that which he received in Denmark
+that he formed the notion of emigrating to Basle and making it his
+permanent abode. A whisper of this intention was conveyed to the
+large-hearted King of Denmark, Frederick II. He wisely realised how
+great would be the fame which would accrue to his realm if he could
+induce Tycho to remain within Danish territory and carry on there the
+great work of his life. A resolution to make a splendid proposal to
+Tycho was immediately formed. A noble youth was forthwith despatched
+as a messenger, and ordered to travel day and night until he reached
+Tycho, whom he was to summon to the king. The astronomer was in bed
+on the morning of 11th February, 1576, when the message was
+delivered. Tycho, of course, set off at once and had an audience of
+the king at Copenhagen. The astronomer explained that what he wanted
+was the means to pursue his studies unmolested, whereupon the king
+offered him the Island of Hven, in the Sound near Elsinore. There he
+would enjoy all the seclusion that he could desire. The king further
+promised that he would provide the funds necessary for building a
+house and for founding the greatest observatory that had ever yet
+been reared for the study of the heavens. After due deliberation and
+consultation with his friends, Tycho accepted the king's offer. He
+was forthwith granted a pension, and a deed was drawn up formally
+assigning the Island of Hven to his use all the days of his life.
+
+The foundation of the famous castle of Uraniborg was laid on 30th
+August, 1576. The ceremony was a formal and imposing one, in
+accordance with Tycho's ideas of splendour. A party of scientific
+friends had assembled, and the time had been chosen so that the
+heavenly bodies were auspiciously placed. Libations of costly wines
+were poured forth, and the stone was placed with due solemnity. The
+picturesque character of this wonderful temple for the study of the
+stars may be seen in the figures with which this chapter is
+illustrated.
+
+One of the most remarkable instruments that has ever been employed in
+studying the heavens was the mural quadrant which Tycho erected in
+one of the apartments of Uraniborg. By its means the altitudes of
+the celestial bodies could be observed with much greater accuracy
+than had been previously attainable. This wonderful contrivance is
+represented on the preceding page. It will be observed that the
+walls of the room are adorned by pictures with a lavishness of
+decoration not usually to be found in scientific establishments.
+
+A few years later, when the fame of the observatory at Hven became
+more widely spread, a number of young men flocked to Tycho to study
+under his direction. He therefore built another observatory for
+their use in which the instruments were placed in subterranean rooms
+of which only the roofs appeared above the ground. There was a
+wonderful poetical inscription over the entrance to this underground
+observatory, expressing the astonishment of Urania at finding, even
+in the interior of the earth, a cavern devoted to the study of the
+heavens. Tycho was indeed always fond of versifying, and he lost no
+opportunity of indulging this taste whenever an occasion presented
+itself.
+
+Around the walls of the subterranean observatory were the pictures of
+eight astronomers, each with a suitable inscription--one of these of
+course represented Tycho himself, and beneath were written words to
+the effect that posterity should judge of his work. The eighth
+picture depicted an astronomer who has not yet come into existence.
+Tychonides was his name, and the inscription presses the modest hope
+that when he does appear he will be worthy of his great predecessor.
+The vast expenses incurred in the erection and the maintenance of
+this strange establishment were defrayed by a succession of grants
+from the royal purse.
+
+For twenty years Tycho laboured hard at Uraniborg in the pursuit of
+science. His work mainly consisted in the determination of the
+places of the moon, the planets, and the stars on the celestial
+sphere. The extraordinary pains taken by Tycho to have his
+observations as accurate as his instruments would permit, have justly
+entitled him to the admiration of all succeeding astronomers. His
+island home provided the means of recreation as well as a place for
+work. He was surrounded by his family, troops of friends were not
+wanting, and a pet dwarf seems to have been an inmate of his curious
+residence. By way of change from his astronomical labours he used
+frequently to work with his students in his chemical laboratory. It
+is not indeed known what particular problems in chemistry occupied
+his attention. We are told, however, that he engaged largely in the
+production of medicines, and as these appear to have been dispensed
+gratuitously there was no lack of patients.
+
+Tycho's imperious and grasping character frequently brought him into
+difficulties, which seem to have increased with his advancing years.
+He had ill-treated one of his tenants on Hven, and an adverse
+decision by the courts seems to have greatly exasperated the
+astronomer. Serious changes also took place in his relations to the
+court at Copenhagen. When the young king was crowned in 1596, he
+reversed the policy of his predecessor with reference to Hven. The
+liberal allowances to Tycho were one after another withdrawn, and
+finally even his pension was stopped. Tycho accordingly abandoned
+Hven in a tumult of rage and mortification. A few years later we
+find him in Bohemia a prematurely aged man, and he died on the 24th
+October, 1601.
+
+
+
+
+GALILEO.
+
+
+Among the ranks of the great astronomers it would be difficult to
+find one whose life presents more interesting features and remarkable
+vicissitudes than does that of Galileo. We may consider him as the
+patient investigator and brilliant discoverer. We may consider him
+in his private relations, especially to his daughter, Sister Maria
+Celeste, a woman of very remarkable character; and we have also the
+pathetic drama at the close of Galileo's life, when the philosopher
+drew down upon himself the thunders of the Inquisition.
+
+The materials for the sketch of this astonishing man are sufficiently
+abundant. We make special use in this place of those charming
+letters which his daughter wrote to him from her convent home. More
+than a hundred of these have been preserved, and it may well be
+doubted whether any more beautiful and touching series of letters
+addressed to a parent by a dearly loved child have ever been
+written. An admirable account of this correspondence is contained in
+a little book entitled "The Private Life of Galileo," published
+anonymously by Messrs. Macmillan in 1870, and I have been much
+indebted to the author of that volume for many of the facts contained
+in this chapter.
+
+Galileo was born at Pisa, on 18th February, 1564. He was the eldest
+son of Vincenzo de' Bonajuti de' Galilei, a Florentine noble.
+Notwithstanding his illustrious birth and descent, it would seem that
+the home in which the great philosopher's childhood was spent was an
+impoverished one. It was obvious at least that the young Galileo
+would have to be provided with some profession by which he might earn
+a livelihood. From his father he derived both by inheritance and by
+precept a keen taste for music, and it appears that he became an
+excellent performer on the lute. He was also endowed with
+considerable artistic power, which he cultivated diligently. Indeed,
+it would seem that for some time the future astronomer entertained
+the idea of devoting himself to painting as a profession. His
+father, however, decided that he should study medicine. Accordingly,
+we find that when Galileo was seventeen years of age, and had added a
+knowledge of Greek and Latin to his acquaintance with the fine arts,
+he was duly entered at the University of Pisa.
+
+Here the young philosopher obtained some inkling of mathematics,
+whereupon he became so much interested in this branch of science,
+that he begged to be allowed to study geometry. In compliance with
+his request, his father permitted a tutor to be engaged for this
+purpose; but he did so with reluctance, fearing that the attention of
+the young student might thus be withdrawn from that medical work
+which was regarded as his primary occupation. The event speedily
+proved that these anxieties were not without some justification. The
+propositions of Euclid proved so engrossing to Galileo that it was
+thought wise to avoid further distraction by terminating the
+mathematical tutor's engagement. But it was too late for the desired
+end to be attained. Galileo had now made such progress that he was
+able to continue his geometrical studies by himself. Presently he
+advanced to that famous 47th proposition which won his lively
+admiration, and on he went until he had mastered the six books of
+Euclid, which was a considerable achievement for those days.
+
+The diligence and brilliance of the young student at Pisa did not,
+however, bring him much credit with the University authorities. In
+those days the doctrines of Aristotle were regarded as the embodiment
+of all human wisdom in natural science as well as in everything
+else. It was regarded as the duty of every student to learn
+Aristotle off by heart, and any disposition to doubt or even to
+question the doctrines of the venerated teacher was regarded as
+intolerable presumption. But young Galileo had the audacity to think
+for himself about the laws of nature. He would not take any
+assertion of fact on the authority of Aristotle when he had the means
+of questioning nature directly as to its truth or falsehood. His
+teachers thus came to regard him as a somewhat misguided youth,
+though they could not but respect the unflagging industry with which
+he amassed all the knowledge he could acquire.
+
+[PLATE: GALILEO'S PENDULUM.]
+
+We are so accustomed to the use of pendulums in our clocks that
+perhaps we do not often realise that the introduction of this method
+of regulating time-pieces was really a notable invention worthy the
+fame of the great astronomer to whom it was due. It appears that
+sitting one day in the Cathedral of Pisa, Galileo's attention became
+concentrated on the swinging of a chandelier which hung from the
+ceiling. It struck him as a significant point, that whether the arc
+through which the pendulum oscillated was a long one or a short one,
+the time occupied in each vibration was sensibly the same. This
+suggested to the thoughtful observer that a pendulum would afford the
+means by which a time-keeper might be controlled, and accordingly
+Galileo constructed for the first time a clock on this principle. The
+immediate object sought in this apparatus was to provide a means of
+aiding physicians in counting the pulses of their patients.
+
+The talents of Galileo having at length extorted due recognition from
+the authorities, he was appointed, at the age of twenty-five,
+Professor of Mathematics at the University of Pisa. Then came the
+time when he felt himself strong enough to throw down the gauntlet to
+the adherents of the old philosophy. As a necessary part of his
+doctrine on the movement of bodies Aristotle had asserted that the
+time occupied by a stone in falling depends upon its weight, so that
+the heavier the stone the less time would it require to fall from a
+certain height to the earth. It might have been thought that a
+statement so easily confuted by the simplest experiments could never
+have maintained its position in any accepted scheme of philosophy.
+But Aristotle had said it, and to anyone who ventured to express a
+doubt the ready sneer was forthcoming, "Do you think yourself a
+cleverer man than Aristotle?" Galileo determined to demonstrate in
+the most emphatic manner the absurdity of a doctrine which had for
+centuries received the sanction of the learned. The summit of the
+Leaning Tower of Pisa offered a highly dramatic site for the great
+experiment. The youthful professor let fall from the overhanging top
+a large heavy body and a small light body simultaneously. According
+to Aristotle the large body ought to have reached the ground much
+sooner than the small one, but such was found not to be the case. In
+the sight of a large concourse of people the simple fact was
+demonstrated that the two bodies fell side by side, and reached the
+ground at the same time. Thus the first great step was taken in the
+overthrow of that preposterous system of unquestioning adhesion to
+dogma, which had impeded the development of the knowledge of nature
+for nearly two thousand years.
+
+This revolutionary attitude towards the ancient beliefs was not
+calculated to render Galileo's relations with the University
+authorities harmonious. He had also the misfortune to make enemies
+in other quarters. Don Giovanni de Medici, who was then the Governor
+of the Port of Leghorn, had designed some contrivance by which he
+proposed to pump out a dock. But Galileo showed up the absurdity of
+this enterprise in such an aggressive manner that Don Giovanni took
+mortal offence, nor was he mollified when the truths of Galileo's
+criticisms were abundantly verified by the total failure of his
+ridiculous invention. In various ways Galileo was made to feel his
+position at Pisa so unpleasant that he was at length compelled to
+abandon his chair in the University. The active exertions of his
+friends, of whom Galileo was so fortunate as to have had throughout
+his life an abundant supply, then secured his election to the
+Professorship of Mathematics at Padua, whither he went in 1592.
+
+[PLATE: PORTRAIT OF GALILEO.]
+
+It was in this new position that Galileo entered on that marvellous
+career of investigation which was destined to revolutionize science.
+The zeal with which he discharged his professorial duties was indeed
+of the most unremitting character. He speedily drew such crowds to
+listen to his discourses on Natural Philosophy that his lecture-room
+was filled to overflowing. He also received many private pupils in
+his house for special instruction. Every moment that could be spared
+from these labours was devoted to his private study and to his
+incessant experiments.
+
+Like many another philosopher who has greatly extended our knowledge
+of nature, Galileo had a remarkable aptitude for the invention of
+instruments designed for philosophical research. To facilitate his
+practical work, we find that in 1599 he had engaged a skilled workman
+who was to live in his house, and thus be constantly at hand to try
+the devices for ever springing from Galileo's fertile brain. Among
+the earliest of his inventions appears to have been the thermometer,
+which he constructed in 1602. No doubt this apparatus in its
+primitive form differed in some respects from the contrivance we call
+by the same name. Galileo at first employed water as the agent, by
+the expansion of which the temperature was to be measured. He
+afterwards saw the advantage of using spirits for the same purpose.
+It was not until about half a century later that mercury came to be
+recognised as the liquid most generally suitable for the thermometer.
+
+The time was now approaching when Galileo was to make that mighty
+step in the advancement of human knowledge which followed on the
+application of the telescope to astronomy. As to how his idea of
+such an instrument originated, we had best let him tell us in his own
+words. The passage is given in a letter which he writes to his
+brother-in-law, Landucci.
+
+"I write now because I have a piece of news for you, though whether
+you will be glad or sorry to hear it I cannot say; for I have now no
+hope of returning to my own country, though the occurrence which has
+destroyed that hope has had results both useful and honourable. You
+must know, then, that two months ago there was a report spread here
+that in Flanders some one had presented to Count Maurice of Nassau a
+glass manufactured in such a way as to make distant objects appear
+very near, so that a man at the distance of two miles could be
+clearly seen. This seemed to me so marvellous that I began to think
+about it. As it appeared to me to have a foundation in the Theory of
+Perspective, I set about contriving how to make it, and at length I
+found out, and have succeeded so well that the one I have made is far
+superior to the Dutch telescope. It was reported in Venice that I
+had made one, and a week since I was commanded to show it to his
+Serenity and to all the members of the senate, to their infinite
+amazement. Many gentlemen and senators, even the oldest, have
+ascended at various times the highest bell-towers in Venice to spy
+out ships at sea making sail for the mouth of the harbour, and have
+seen them clearly, though without my telescope they would have been
+invisible for more than two hours. The effect of this instrument is
+to show an object at a distance of say fifty miles, as if it were but
+five miles."
+
+The remarkable properties of the telescope at once commanded
+universal attention among intellectual men. Galileo received
+applications from several quarters for his new instrument, of which
+it would seem that he manufactured a large number to be distributed
+as gifts to various illustrious personages.
+
+But it was reserved for Galileo himself to make that application of
+the instrument to the celestial bodies by which its peculiar powers
+were to inaugurate the new era in astronomy. The first discovery
+that was made in this direction appears to have been connected with
+the number of the stars. Galileo saw to his amazement that through
+his little tube he could count ten times as many stars in the sky as
+his unaided eye could detect. Here was, indeed, a surprise. We are
+now so familiar with the elementary facts of astronomy that it is not
+always easy to realise how the heavens were interpreted by the
+observers in those ages prior to the invention of the telescope. We
+can hardly, indeed, suppose that Galileo, like the majority of those
+who ever thought of such matters, entertained the erroneous belief
+that the stars were on the surface of a sphere at equal distances
+from the observer. No one would be likely to have retained his
+belief in such a doctrine when he saw how the number of visible stars
+could be increased tenfold by means of Galileo's telescope. It would
+have been almost impossible to refuse to draw the inference that the
+stars thus brought into view were still more remote objects which the
+telescope was able to reveal, just in the same way as it showed
+certain ships to the astonished Venetians, when at the time these
+ships were beyond the reach of unaided vision.
+
+Galileo's celestial discoveries now succeeded each other rapidly.
+That beautiful Milky Way, which has for ages been the object of
+admiration to all lovers of nature, never disclosed its true nature
+to the eye of man till the astronomer of Padua turned on it his magic
+tube. The splendid zone of silvery light was then displayed as
+star-dust scattered over the black background of the sky. It was
+observed that though the individual stars were too small to be seen
+severally without optical aid, yet such was their incredible number
+that the celestial radiance produced that luminosity with which every
+stargazer was so familiar.
+
+But the greatest discovery made by the telescope in these early days,
+perhaps, indeed, the greatest discovery that the telescope has ever
+accomplished, was the detection of the system of four satellites
+revolving around the great planet Jupiter. This phenomenon was so
+wholly unexpected by Galileo that, at first, he could hardly believe
+his eyes. However, the reality of the existence of a system of four
+moons attending the great planet was soon established beyond all
+question. Numbers of great personages crowded to Galileo to see for
+themselves this beautiful miniature representing the sun with its
+system of revolving planets.
+
+Of course there were, as usual, a few incredulous people who refused
+to believe the assertion that four more moving bodies had to be added
+to the planetary system. They scoffed at the notion; they said the
+satellites may have been in the telescope, but that they were not in
+the sky. One sceptical philosopher is reported to have affirmed,
+that even if he saw the moons of Jupiter himself he would not believe
+in them, as their existence was contrary to the principles of
+common-sense!
+
+There can be no doubt that a special significance attached to the new
+discovery at this particular epoch in the history of science. It
+must be remembered that in those days the doctrine of Copernicus,
+declaring that the sun, and not the earth, was the centre of the
+system, that the earth revolved on its axis once a day, and that it
+described a mighty circle round the sun once a year, had only
+recently been promulgated. This new view of the scheme of nature had
+been encountered with the most furious opposition. It may possibly
+have been that Galileo himself had not felt quite confident in the
+soundness of the Copernican theory, prior to the discovery of the
+satellites of Jupiter. But when a picture was there exhibited in
+which a number of relatively small globes were shown to be revolving
+around a single large globe in the centre, it seemed impossible not
+to feel that the beautiful spectacle so displayed was an emblem of
+the relations of the planets to the sun. It was thus made manifest
+to Galileo that the Copernican theory of the planetary system must be
+the true one. The momentous import of this opinion upon the future
+welfare of the great philosopher will presently appear.
+
+It would seem that Galileo regarded his residence at Padua as a state
+of undesirable exile from his beloved Tuscany. He had always a
+yearning to go back to his own country and at last the desired
+opportunity presented itself. For now that Galileo's fame had become
+so great, the Grand Duke of Tuscany desired to have the philosopher
+resident at Florence, in the belief that he would shed lustre on the
+Duke's dominions. Overtures were accordingly made to Galileo, and
+the consequence was that in 1616 we find him residing at Florence,
+bearing the title of Mathematician and Philosopher to the Grand Duke.
+
+Two daughters, Polissena and Virginia, and one son, Vincenzo, had
+been born to Galileo in Padua. It was the custom in those days that
+as soon as the daughter of an Italian gentleman had grown up, her
+future career was somewhat summarily decided. Either a husband was
+to be forthwith sought out, or she was to enter the convent with the
+object of taking the veil as a professed nun. It was arranged that
+the two daughters of Galileo, while still scarcely more than
+children, should both enter the Franciscan convent of St. Matthew, at
+Arcetri. The elder daughter Polissena, took the name of Sister Maria
+Celeste, while Virginia became Sister Arcangela. The latter seems to
+have been always delicate and subject to prolonged melancholy, and
+she is of but little account in the narrative of the life of
+Galileo. But Sister Maria Celeste, though never leaving the convent,
+managed to preserve a close intimacy with her beloved father. This
+was maintained only partly by Galileo's visits, which were very
+irregular and were, indeed, often suspended for long intervals. But
+his letters to this daughter were evidently frequent and
+affectionate, especially in the latter part of his life. Most
+unfortunately, however, all his letters have been lost. There are
+grounds for believing that they were deliberately destroyed when
+Galileo was seized by the Inquisition, lest they should have been
+used as evidence against him, or lest they should have compromised
+the convent where they were received. But Sister Maria Celeste's
+letters to her father have happily been preserved, and most touching
+these letters are. We can hardly read them without thinking how the
+sweet and gentle nun would have shrunk from the idea of their
+publication.
+
+Her loving little notes to her "dearest lord and father," as she used
+affectionately to call Galileo, were almost invariably accompanied by
+some gift, trifling it may be, but always the best the poor nun had
+to bestow. The tender grace of these endearing communications was
+all the more precious to him from the fact that the rest of Galileo's
+relatives were of quite a worthless description. He always
+acknowledged the ties of his kindred in the most generous way, but
+their follies and their vices, their selfishness and their
+importunities, were an incessant source of annoyance to him, almost
+to the last day of his life.
+
+On 19th December, 1625, Sister Maria Celeste writes:--
+
+"I send two baked pears for these days of vigil. But as the greatest
+treat of all, I send you a rose, which ought to please you extremely,
+seeing what a rarity it is at this season; and with the rose you must
+accept its thorns, which represent the bitter passion of our Lord,
+whilst the green leaves represent the hope we may entertain that
+through the same sacred passion we, having passed through the
+darkness of the short winter of our mortal life, may attain to the
+brightness and felicity of an eternal spring in heaven."
+
+When the wife and children of Galileo's shiftless brother came to
+take up their abode in the philosopher's home, Sister Maria Celeste
+feels glad to think that her father has now some one who, however
+imperfectly, may fulfil the duty of looking after him. A graceful
+note on Christmas Eve accompanies her little gifts. She hopes that--
+
+"In these holy days the peace of God may rest on him and all the
+house. The largest collar and sleeves I mean for Albertino, the
+other two for the two younger boys, the little dog for baby, and the
+cakes for everybody, except the spice-cakes, which are for you.
+Accept the good-will which would readily do much more."
+
+The extraordinary forbearance with which Galileo continually placed
+his time, his purse, and his influence at the service of those who
+had repeatedly proved themselves utterly unworthy of his countenance,
+is thus commented on by the good nun.--
+
+"Now it seems to me, dearest lord and father, that your lordship is
+walking in the right path, since you take hold of every occasion that
+presents itself to shower continual benefits on those who only repay
+you with ingratitude. This is an action which is all the more
+virtuous and perfect as it is the more difficult."
+
+When the plague was raging in the neighbourhood, the loving
+daughter's solicitude is thus shown:--
+
+"I send you two pots of electuary as a preventive against the
+plague. The one without the label consists of dried figs, walnuts,
+rue, and salt, mixed together with honey. A piece of the size of a
+walnut to be taken in the morning, fasting, with a little Greek
+wine."
+
+The plague increasing still more, Sister Maria Celeste obtained with
+much difficulty, a small quantity of a renowned liqueur, made by
+Abbess Ursula, an exceptionally saintly nun. This she sends to her
+father with the words:--
+
+"I pray your lordship to have faith in this remedy. For if you have
+so much faith in my poor miserable prayers, much more may you have in
+those of such a holy person; indeed, through her merits you may feel
+sure of escaping all danger from the plague."
+
+Whether Galileo took the remedy we do not know, but at all events
+he escaped the plague.
+
+[PLATE: THE VILLA ARCETRI.
+Galileo's residence, where Milton visited him.]
+
+From Galileo's new home in Florence the telescope was again directed
+to the skies, and again did astounding discoveries reward the
+astronomer's labours. The great success which he had met with in
+studying Jupiter naturally led Galileo to look at Saturn. Here he
+saw a spectacle which was sufficiently amazing, though he failed to
+interpret it accurately. It was quite manifest that Saturn did not
+exhibit a simple circular disc like Jupiter, or like Mars. It seemed
+to Galileo as if the planet consisted of three bodies, a large globe
+in the centre, and a smaller one on each side. The enigmatical
+nature of the discovery led Galileo to announce it in an enigmatical
+manner. He published a string of letters which, when duly
+transposed, made up a sentence which affirmed that the planet Saturn
+was threefold. Of course we now know that this remarkable appearance
+of the planet was due to the two projecting portions of the ring.
+With the feeble power of Galileo's telescope, these seemed merely
+like small globes or appendages to the large central body.
+
+The last of Galileo's great astronomical discoveries related to the
+libration of the moon. I think that the detection of this phenomenon
+shows his acuteness of observation more remarkably than does any one
+of his other achievements with the telescope. It is well known that
+the moon constantly keeps the same face turned towards the earth.
+When, however, careful measurements have been made with regard to the
+spots and marks on the lunar surface, it is found that there is a
+slight periodic variation which permits us to see now a little to the
+east or to the west, now a little to the north or to the south of
+the average lunar disc.
+
+But the circumstances which make the career of Galileo so especially
+interesting from the biographer's point of view, are hardly so much
+the triumphs that he won as the sufferings that he endured. The
+sufferings and the triumphs were, however, closely connected, and it
+is fitting that we should give due consideration to what was perhaps
+the greatest drama in the history of science.
+
+On the appearance of the immortal work of Copernicus, in which it was
+taught that the earth rotated on its axis, and that the earth, like
+the other planets, revolved round the sun, orthodoxy stood aghast.
+The Holy Roman Church submitted this treatise, which bore the name
+"De Revolutionibus Orbium Coelestium," to the Congregation of the
+Index. After due examination it was condemned as heretical in 1615.
+Galileo was suspected, on no doubt excellent grounds, of entertaining
+the objectionable views of Copernicus. He was accordingly privately
+summoned before Cardinal Bellarmine on 26th February 1616, and duly
+admonished that he was on no account to teach or to defend the
+obnoxious doctrines. Galileo was much distressed by this
+intimation. He felt it a serious matter to be deprived of the
+privilege of discoursing with his friends about the Copernican
+system, and of instructing his disciples in the principles of the
+great theory of whose truth he was perfectly convinced. It pained
+him, however, still more to think, devout Catholic as he was, that
+such suspicions of his fervent allegiance to his Church should ever
+have existed, as were implied by the words and monitions of Cardinal
+Bellarmine.
+
+In 1616, Galileo had an interview with Pope Paul V., who received the
+great astronomer very graciously, and walked up and down with him in
+conversation for three-quarters of an hour. Galileo complained to
+his Holiness of the attempts made by his enemies to embarrass him
+with the authorities of the Church, but the Pope bade him be
+comforted. His Holiness had himself no doubts of Galileo's
+orthodoxy, and he assured him that the Congregation of the Index
+should give Galileo no further trouble so long as Paul V. was in the
+chair of St. Peter.
+
+On the death of Paul V. in 1623, Maffeo Barberini was elected Pope,
+as Urban VIII. This new Pope, while a cardinal, had been an intimate
+friend of Galileo's, and had indeed written Latin verses in praise of
+the great astronomer and his discoveries. It was therefore not
+unnatural for Galileo to think that the time had arrived when, with
+the use of due circumspection, he might continue his studies and his
+writings, without fear of incurring the displeasure of the Church.
+Indeed, in 1624, one of Galileo's friends writing from Rome, urges
+Galileo to visit the city again, and added that--
+
+"Under the auspices of this most excellent, learned, and benignant
+Pontiff, science must flourish. Your arrival will be welcome to his
+Holiness. He asked me if you were coming, and when, and in short, he
+seems to love and esteem you more than ever."
+
+The visit was duly paid, and when Galileo returned to Florence, the
+Pope wrote a letter from which the following is an extract,
+commanding the philosopher to the good offices of the young
+Ferdinand, who had shortly before succeeded his father in the Grand
+Duchy of Tuscany.
+
+"We find in Galileo not only literary distinction, but also the love
+of piety, and he is also strong in those qualities by which the
+pontifical good-will is easily obtained. And now, when he has been
+brought to this city to congratulate us on our elevation, we have
+very lovingly embraced him; nor can we suffer him to return to the
+country whither your liberality calls him, without an ample provision
+of pontifical love. And that you may know how dear he is to us, we
+have willed to give him this honourable testimonial of virtue and
+piety. And we further signify that every benefit which you shall
+confer upon him, imitating or even surpassing your father's
+liberality, will conduce to our gratification."
+
+The favourable reception which had been accorded to him by Pope Urban
+VIII. seems to have led Galileo to expect that there might be some
+corresponding change in the attitude of the Papal authorities on the
+great question of the stability of the earth. He accordingly
+proceeded with the preparation of the chief work of his life, "The
+Dialogue of the two Systems." It was submitted for inspection by the
+constituted authorities. The Pope himself thought that, if a few
+conditions which he laid down were duly complied with, there could be
+no objection to the publication of the work. In the first place, the
+title of the book was to be so carefully worded as to show plainly
+that the Copernican doctrine was merely to be regarded as an
+hypothesis, and not as a scientific fact. Galileo was also
+instructed to conclude the book with special arguments which had been
+supplied by the Pope himself, and which appeared to his Holiness to
+be quite conclusive against the new doctrine of Copernicus.
+
+Formal leave for the publication of the Dialogue was then given to
+Galileo by the Inquisitor General, and it was accordingly sent to the
+press. It might be thought that the anxieties of the astronomer
+about his book would then have terminated. As a matter of fact, they
+had not yet seriously begun. Riccardi, the Master of the Sacred
+Palace, having suddenly had some further misgivings, sent to Galileo
+for the manuscript while the work was at the printer's, in order that
+the doctrine it implied might be once again examined. Apparently,
+Riccardi had come to the conclusion that he had not given the matter
+sufficient attention, when the authority to go to press had been
+first and, perhaps, hastily given. Considerable delay in the issue
+of the book was the result of these further deliberations. At last,
+however, in June, 1632, Galileo's great work, "The Dialogue of the
+two Systems," was produced for the instruction of the world, though
+the occasion was fraught with ruin to the immortal author.
+
+[PLATE: FACSIMILE SKETCH OF LUNAR SURFACE BY GALILEO.]
+
+The book, on its publication, was received and read with the greatest
+avidity. But presently the Master of The Sacred Palace found reason
+to regret that he had given his consent to its appearance. He
+accordingly issued a peremptory order to sequestrate every copy in
+Italy. This sudden change in the Papal attitude towards Galileo
+formed the subject of a strong remonstrance addressed to the Roman
+authorities by the Grand Duke of Tuscany. The Pope himself seemed to
+have become impressed all at once with the belief that the work
+contained matter of an heretical description. The general
+interpretation put upon the book seems to have shown the authorities
+that they had mistaken its true tendency, notwithstanding the fact
+that it had been examined again and again by theologians deputed for
+the duty. To the communication from the Grand Duke the Pope returned
+answer, that he had decided to submit the book to a congregation of
+"learned, grave, and saintly men," who would weigh every word in it.
+The views of his Holiness personally on the subject were expressed in
+his belief that the Dialogue contained the most perverse matter that
+could come into a reader's hands.
+
+The Master of the Sacred Palace was greatly blamed by the authorities
+for having given his sanction to its issue. He pleaded that the book
+had not been printed in the precise terms of the original manuscript
+which had been submitted to him. It was also alleged that Galileo
+had not adhered to his promise of inserting properly the arguments
+which the Pope himself had given in support of the old and orthodox
+view. One of these had, no doubt, been introduced, but, so far from
+mending Galileo's case, it had made matters really look worse for the
+poor philosopher. The Pope's argument had been put into the mouth of
+one of the characters in the Dialogue named "Simplicio." Galileo's
+enemies maintained that by adopting such a method for the expression
+of his Holiness's opinion, Galileo had intended to hold the Pope
+himself up to ridicule. Galileo's friends maintained that nothing
+could have been farther from his intention. It seems, however,
+highly probable that the suspicions thus aroused had something to say
+to the sudden change of front on the part of the Papal authorities.
+
+On 1st October, 1632, Galileo received an order to appear before the
+Inquisition at Rome on the grave charge of heresy. Galileo, of
+course, expressed his submission, but pleaded for a respite from
+compliance with the summons, on the ground of his advanced age and
+his failing health. The Pope was, however, inexorable; he said that
+he had warned Galileo of his danger while he was still his friend.
+The command could not be disobeyed. Galileo might perform the
+journey as slowly as he pleased, but it was imperatively necessary
+for him to set forth and at once.
+
+On 20th January, 1633, Galileo started on his weary journey to Rome,
+in compliance with this peremptory summons. On 13th February he was
+received as the guest of Niccolini, the Tuscan ambassador, who had
+acted as his wise and ever-kind friend throughout the whole affair.
+It seemed plain that the Holy Office were inclined to treat Galileo
+with as much clemency and consideration as was consistent with the
+determination that the case against him should be proceeded with to
+the end. The Pope intimated that in consequence of his respect for
+the Grand Duke of Tuscany he should permit Galileo to enjoy the
+privilege, quite unprecedented for a prisoner charged with heresy, of
+remaining as an inmate in the ambassador's house. He ought,
+strictly, to have been placed in the dungeons of the Inquisition.
+When the examination of the accused had actually commenced, Galileo
+was confined, not, indeed, in the dungeons, but in comfortable rooms
+at the Holy Office.
+
+By the judicious and conciliatory language of submission which
+Niccolini had urged Galileo to use before the Inquisitors, they were
+so far satisfied that they interceded with the Pope for his release.
+During the remainder of the trial Galileo was accordingly permitted
+to go back to the ambassador's, where he was most heartily welcomed.
+Sister Maria Celeste, evidently thinking this meant that the whole
+case was at an end, thus expresses herself:--
+
+"The joy that your last dear letter brought me, and the having to
+read it over and over to the nuns, who made quite a jubilee on
+hearing its contents, put me into such an excited state that at last
+I got a severe attack of headache."
+
+In his defence Galileo urged that he had already been acquitted in
+1616 by Cardinal Bellarmine, when a charge of heresy was brought
+against him, and he contended that anything he might now have done,
+was no more than he had done on the preceding occasion, when the
+orthodoxy of his doctrines received solemn confirmation. The
+Inquisition seemed certainly inclined to clemency, but the Pope was
+not satisfied. Galileo was accordingly summoned again on the 21st
+June. He was to be threatened with torture if he did not forthwith
+give satisfactory explanations as to the reasons which led him to
+write the Dialogue. In this proceeding the Pope assured the Tuscan
+ambassador that he was treating Galileo with the utmost consideration
+possible in consequence of his esteem and regard for the Grand Duke,
+whose servant Galileo was. It was, however, necessary that some
+exemplary punishment be meted out to the astronomer, inasmuch as by
+the publication of the Dialogue he had distinctly disobeyed the
+injunction of silence laid upon him by the decree of 1616. Nor was
+it admissible for Galileo to plead that his book had been sanctioned
+by the Master of the Sacred College, to whose inspection it had been
+again and again submitted. It was held, that if the Master of the
+Sacred College had been unaware of the solemn warning the philosopher
+had already received sixteen years previously, it was the duty of
+Galileo to have drawn his attention to that fact.
+
+On the 22nd June, 1633, Galileo was led to the great hall of the
+Inquisition, and compelled to kneel before the cardinals there
+assembled and hear his sentence. In a long document, most
+elaborately drawn up, it is definitely charged against Galileo that,
+in publishing the Dialogue, he committed the essentially grave error
+of treating the doctrine of the earth's motion as open to
+discussion. Galileo knew, so the document affirmed, that the Church
+had emphatically pronounced this notion to be contrary to Holy Writ,
+and that for him to consider a doctrine so stigmatized as having any
+shadow of probability in its favour was an act of disrespect to the
+authority of the Church which could not be overlooked. It was also
+charged against Galileo that in his Dialogue he has put the strongest
+arguments into the mouth, not of those who supported the orthodox
+doctrine, but of those who held the theory as to the earth's motion
+which the Church had so deliberately condemned.
+
+After due consideration of the defence made by the prisoner, it was
+thereupon decreed that he had rendered himself vehemently suspected
+of heresy by the Holy Office, and in consequence had incurred all the
+censures and penalties of the sacred canons, and other decrees
+promulgated against such persons. The graver portion of these
+punishments would be remitted, if Galileo would solemnly repudiate
+the heresies referred to by an abjuration to be pronounced by him in
+the terms laid down.
+
+At the same time it was necessary to mark, in some emphatic manner,
+the serious offence which had been committed, so that it might serve
+both as a punishment to Galileo and as a warning to others. It was
+accordingly decreed that he should be condemned to imprisonment in
+the Holy Office during the pleasure of the Papal authorities, and
+that he should recite once a week for three years the seven
+Penitential Psalms.
+
+Then followed that ever-memorable scene in the great hall of the
+Inquisition, in which the aged and infirm Galileo, the inventor of
+the telescope and the famous astronomer, knelt down to abjure before
+the most eminent and reverend Lords Cardinal, Inquisitors General
+throughout the Christian Republic against heretical depravity. With
+his hands on the Gospels, Galileo was made to curse and detest the
+false opinion that the sun was the centre of the universe and
+immovable, and that the earth was not the centre of the same, and
+that it moved. He swore that for the future he will never say nor
+write such things as may bring him under suspicion, and that if he
+does so he submits to all the pains and penalties of the sacred
+canons. This abjuration was subsequently read in Florence before
+Galileo's disciples, who had been specially summoned to attend.
+
+It has been noted that neither on the first occasion, in 1616, nor on
+the second in 1633, did the reigning Pope sign the decrees concerning
+Galileo. The contention has accordingly been made that Paul V. and
+Urban VIII. are both alike vindicated from any technical
+responsibility for the attitude of the Romish Church towards the
+Copernican doctrines. The significance of this circumstance has been
+commented on in connection with the doctrine of the infallibility of
+the Pope.
+
+We can judge of the anxiety felt by Sister Maria Celeste about her
+beloved father during these terrible trials. The wife of the
+ambassador Niccolini, Galileo's steadfast friend, most kindly wrote
+to give the nun whatever quieting assurances the case would permit.
+There is a renewed flow of these touching epistles from the daughter
+to her father. Thus she sends word--
+
+"The news of your fresh trouble has pierced my soul with grief all
+the more that it came quite unexpectedly."
+
+And again, on hearing that he had been permitted to leave Rome,
+she writes--
+
+"I wish I could describe the rejoicing of all the mothers and sisters
+on hearing of your happy arrival at Siena. It was indeed most
+extraordinary. On hearing the news the Mother Abbess and many of the
+nuns ran to me, embracing me and weeping for joy and tenderness."
+
+The sentence of imprisonment was at first interpreted leniently by
+the Pope. Galileo was allowed to reside in qualified durance in the
+archbishop's house at Siena. Evidently the greatest pain that he
+endured arose from the forced separation from that daughter, whom he
+had at last learned to love with an affection almost comparable with
+that she bore to him. She had often told him that she never had any
+pleasure equal to that with which she rendered any service to her
+father. To her joy, she discovers that she can relieve him from the
+task of reciting the seven Penitential Psalms which had been imposed
+as a Penance:--
+
+"I began to do this a while ago," she writes, "and it gives me much
+pleasure. First, because I am persuaded that prayer in obedience to
+Holy Church must be efficacious; secondly, in order to save you the
+trouble of remembering it. If I had been able to do more, most
+willingly would I have entered a straiter prison than the one I live
+in now, if by so doing I could have set you at liberty."
+
+[PLATE: CREST OF GALILEO'S FAMILY.]
+
+Sister Maria Celeste was gradually failing in health, but the great
+privilege was accorded to her of being able once again to embrace her
+beloved lord and master. Galileo had, in fact, been permitted to
+return to his old home; but on the very day when he heard of his
+daughter's death came the final decree directing him to remain in his
+own house in perpetual solitude.
+
+Amid the advancing infirmities of age, the isolation from friends,
+and the loss of his daughter, Galileo once again sought consolation
+in hard work. He commenced his famous dialogue on Motion. Gradually,
+however, his sight began to fail, and blindness was at last added to
+his other troubles. On January 2nd, 1638, he writes to Diodati:--
+
+"Alas, your dear friend and servant, Galileo, has been for the last
+month perfectly blind, so that this heaven, this earth, this universe
+which I by my marvellous discoveries and clear demonstrations have
+enlarged a hundred thousand times beyond the belief of the wise men
+of bygone ages, henceforward is for me shrunk into such a small space
+as is filled by my own bodily sensations."
+
+But the end was approaching--the great philosopher, was attacked by
+low fever, from which he died on the 8th January, 1643.
+
+
+
+
+KEPLER.
+
+
+While the illustrious astronomer, Tycho Brahe, lay on his death-bed,
+he had an interview which must ever rank as one of the important
+incidents in the history of science. The life of Tycho had been
+passed, as we have seen, in the accumulation of vast stores of
+careful observations of the positions of the heavenly bodies. It was
+not given to him to deduce from his splendid work the results to
+which they were destined to lead. It was reserved for another
+astronomer to distil, so to speak, from the volumes in which Tycho's
+figures were recorded, the great truths of the universe which those
+figures contained. Tycho felt that his work required an interpreter,
+and he recognised in the genius of a young man with whom he was
+acquainted the agent by whom the world was to be taught some of the
+great truths of nature. To the bedside of the great Danish
+astronomer the youthful philosopher was summoned, and with his last
+breath Tycho besought of him to spare no labour in the performance of
+those calculations, by which alone the secrets of the movements of
+the heavens could be revealed. The solemn trust thus imposed was
+duly accepted, and the man who accepted it bore the immortal name of
+Kepler.
+
+Kepler was born on the 27th December, 1571, at Weil, in the Duchy of
+Wurtemberg. It would seem that the circumstances of his childhood
+must have been singularly unhappy. His father, sprung from a
+well-connected family, was but a shiftless and idle adventurer; nor
+was the great astronomer much more fortunate in his other parent. His
+mother was an ignorant and ill-tempered woman; indeed, the
+ill-assorted union came to an abrupt end through the desertion of the
+wife by her husband when their eldest son John, the hero of our
+present sketch, was eighteen years old. The childhood of this lad,
+destined for such fame, was still further embittered by the
+circumstance that when he was four years old he had a severe attack
+of small-pox. Not only was his eyesight permanently injured, but
+even his constitution appears to have been much weakened by this
+terrible malady.
+
+It seems, however, that the bodily infirmities of young John Kepler
+were the immediate cause of his attention being directed to the
+pursuit of knowledge. Had the boy been fitted like other boys for
+ordinary manual work, there can be hardly any doubt that to manual
+work his life must have been devoted. But, though his body was
+feeble, he soon gave indications of the possession of considerable
+mental power. It was accordingly thought that a suitable sphere for
+his talents might be found in the Church which, in those days, was
+almost the only profession that afforded an opening for an
+intellectual career. We thus find that by the time John Kepler was
+seventeen years old he had attained a sufficient standard of
+knowledge to entitle him to admission on the foundation of the
+University at Tubingen.
+
+In the course of his studies at this institution he seems to have
+divided his attention equally between astronomy and divinity. It not
+unfrequently happens that when a man has attained considerable
+proficiency in two branches of knowledge he is not able to see very
+clearly in which of the two pursuits his true vocation lies. His
+friends and onlookers are often able to judge more wisely than he
+himself can do as to which of the two lines it would be better for
+him to pursue. This incapacity for perceiving the path in which
+greatness awaited him, existed in the case of Kepler. Personally, he
+inclined to enter the ministry, in which a promising career seemed
+open to him. He yielded, however, to friends, who evidently knew him
+better than he knew himself, and accepted in 1594, the important
+Professorship of astronomy which had been offered to him in the
+University of Gratz.
+
+It is difficult for us in these modern days to realise the somewhat
+extraordinary duties which were expected from an astronomical
+professor in the sixteenth century. He was, of course, required to
+employ his knowledge of the heavens in the prediction of eclipses,
+and of the movements of the heavenly bodies generally. This seems
+reasonable enough; but what we are not prepared to accept is the
+obligation which lay on the astronomers to predict the fates of
+nations and the destinies of individuals.
+
+It must be remembered that it was the almost universal belief in
+those days, that all the celestial spheres revolved in some
+mysterious fashion around the earth, which appeared by far the most
+important body in the universe. It was imagined that the sun, the
+moon, and the stars indicated, in the vicissitudes of their
+movements, the careers of nations and of individuals. Such being the
+generally accepted notion, it seemed to follow that a professor who
+was charged with the duty of expounding the movements of the heavenly
+bodies must necessarily be looked to for the purpose of deciphering
+the celestial decrees regarding the fate of man which the heavenly
+luminaries were designed to announce.
+
+Kepler threw himself with characteristic ardour into even this
+fantastic phase of the labours of the astronomical professor; he
+diligently studied the rules of astrology, which the fancies of
+antiquity had compiled. Believing sincerely as he did in the
+connection between the aspect of the stars and the state of human
+affairs, he even thought that he perceived, in the events of his own
+life, a corroboration of the doctrine which affirmed the influence of
+the planets upon the fate of individuals.
+
+[PLATE: KEPLER'S SYSTEM OF REGULAR SOLIDS.]
+
+But quite independently of astrology there seem to have been many
+other delusions current among the philosophers of Kepler's time. It
+is now almost incomprehensible how the ablest men of a few centuries
+ago should have entertained such preposterous notions, as they did,
+with respect to the system of the universe. As an instance of what
+is here referred to, we may cite the extraordinary notion which,
+under the designation of a discovery, first brought Kepler into
+fame. Geometers had long known that there were five, but no more
+than five, regular solid figures. There is, for instance, the cube
+with six sides, which is, of course, the most familiar of these
+solids. Besides the cube there are other figures of four, eight,
+twelve, and twenty sides respectively. It also happened that there
+were five planets, but no more than five, known to the ancients,
+namely, Mercury, Venus, Mars, Jupiter, and Saturn. To Kepler's
+lively imaginations this coincidence suggested the idea that the five
+regular solids corresponded to the five planets, and a number of
+fancied numerical relations were adduced on the subject. The
+absurdity of this doctrine is obvious enough, especially when we
+observe that, as is now well known, there are two large planets, and
+a host of small planets, over and above the magical number of the
+regular solids. In Kepler's time, however, this doctrine was so far
+from being regarded as absurd, that its announcement was hailed as a
+great intellectual triumph. Kepler was at once regarded with
+favour. It seems, indeed, to have been the circumstance which
+brought him into correspondence with Tycho Brahe. By its means also
+he became known to Galileo.
+
+The career of a scientific professor in those early days appears
+generally to have been marked by rather more striking vicissitudes
+than usually befall a professor in a modern university. Kepler was a
+Protestant, and as such he had been appointed to his professorship at
+Gratz. A change, however, having taken place in the religious belief
+entertained by the ruling powers of the University, the Protestant
+professors were expelled. It seems that special influence having
+been exerted in Kepler's case on account of his exceptional eminence,
+he was recalled to Gratz and reinstated in the tenure of his chair.
+But his pupils had vanished, so that the great astronomer was glad to
+accept a post offered him by Tycho Brahe in the observatory which the
+latter had recently established near Prague.
+
+On Tycho's death, which occurred soon after, an opening presented
+itself which gave Kepler the opportunity his genius demanded. He was
+appointed to succeed Tycho in the position of imperial mathematician.
+But a far more important point, both for Kepler and for science,
+was that to him was confided the use of Tycho's observations. It was,
+indeed, by the discussion of Tycho's results that Kepler was enabled
+to make the discoveries which form such an important part of
+astronomical history.
+
+Kepler must also be remembered as one of the first great astronomers
+who ever had the privilege of viewing celestial bodies through a
+telescope. It was in 1610 that he first held in his hands one of
+those little instruments which had been so recently applied to the
+heavens by Galileo. It should, however, be borne in mind that the
+epoch-making achievements of Kepler did not arise from any telescopic
+observations that he made, or, indeed, that any one else made. They
+were all elaborately deduced from Tycho's measurements of the
+positions of the planets, obtained with his great instruments, which
+were unprovided with telescopic assistance.
+
+To realise the tremendous advance which science received from
+Kepler's great work, it is to be understood that all the astronomers
+who laboured before him at the difficult subject of the celestial
+motions, took it for granted that the planets must revolve in
+circles. If it did not appear that a planet moved in a fixed circle,
+then the ready answer was provided by Ptolemy's theory that the
+circle in which the planet did move was itself in motion, so that its
+centre described another circle.
+
+When Kepler had before him that wonderful series of observations of
+the planet, Mars, which had been accumulated by the extraordinary
+skill of Tycho, he proved, after much labour, that the movements of
+the planet refused to be represented in a circular form. Nor would
+it do to suppose that Mars revolved in one circle, the centre of
+which revolved in another circle. On no such supposition could the
+movements of the planets be made to tally with those which Tycho had
+actually observed. This led to the astonishing discovery of the true
+form of a planet's orbit. For the first time in the history of
+astronomy the principle was laid down that the movement of a planet
+could not be represented by a circle, nor even by combinations of
+circles, but that it could be represented by an elliptic path. In
+this path the sun is situated at one of those two points in the
+ellipse which are known as its foci.
+
+[PLATE: KEPLER.]
+
+Very simple apparatus is needed for the drawing of one of those
+ellipses which Kepler has shown to possess such astonishing
+astronomical significance. Two pins are stuck through a sheet of
+paper on a board, the point of a pencil is inserted in a loop of
+string which passes over the pins, and as the pencil is moved round
+in such a way as to keep the string stretched, that beautiful curve
+known as the ellipse is delineated, while the positions of the pins
+indicate the two foci of the curve. If the length of the loop of
+string is unchanged then the nearer the pins are together, the
+greater will be the resemblance between the ellipse and the circle,
+whereas the more the pins are separated the more elongated does the
+ellipse become. The orbit of a great planet is, in general, one of
+those ellipses which approaches a nearly circular form. It
+fortunately happens, however, that the orbit of Mars makes a wider
+departure from the circular form than any of the other important
+planets. It is, doubtless, to this circumstance that we must
+attribute the astonishing success of Kepler in detecting the true
+shape of a planetary orbit. Tycho's observations would not have been
+sufficiently accurate to have exhibited the elliptic nature of a
+planetary orbit which, like that of Venus, differed very little from
+a circle.
+
+The more we ponder on this memorable achievement the more striking
+will it appear. It must be remembered that in these days we know of
+the physical necessity which requires that a planet shall revolve in
+an ellipse and not in any other curve. But Kepler had no such
+knowledge. Even to the last hour of his life he remained in
+ignorance of the existence of any natural cause which ordained that
+planets should follow those particular curves which geometers know so
+well. Kepler's assignment of the ellipse as the true form of the
+planetary orbit is to be regarded as a brilliant guess, the truth of
+which Tycho's observations enabled him to verify. Kepler also
+succeeded in pointing out the law according to which the velocity of
+a planet at different points of its path could be accurately
+specified. Here, again, we have to admire the sagacity with which
+this marvellously acute astronomer guessed the deep truth of nature.
+In this case also he was quite unprovided with any reason for
+expecting from physical principles that such a law as he discovered
+must be obeyed. It is quite true that Kepler had some slight
+knowledge of the existence of what we now know as gravitation. He
+had even enunciated the remarkable doctrine that the ebb and flow of
+the tide must be attributed to the attraction of the moon on the
+waters of the earth. He does not, however, appear to have had any
+anticipation of those wonderful discoveries which Newton was destined
+to make a little later, in which he demonstrated that the laws
+detected by Kepler's marvellous acumen were necessary consequences of
+the principle of universal gravitation.
+
+[PLATE: SYMBOLICAL REPRESENTATION OF THE PLANETARY SYSTEM.]
+
+To appreciate the relations of Kepler and Tycho it is necessary to
+note the very different way in which these illustrious astronomers
+viewed the system of the heavens. It should be observed that
+Copernicus had already expounded the true system, which located the
+sun at the centre of the planetary system. But in the days of Tycho
+Brahe this doctrine had not as yet commanded universal assent. In
+fact, the great observer himself did not accept the new views of
+Copernicus. It appeared to Tycho that the earth not only appeared to
+be the centre of things celestial, but that it actually was the
+centre. It is, indeed, not a little remarkable that a student of the
+heavens so accurate as Tycho should have deliberately rejected the
+Copernican doctrine in favour of the system which now seems so
+preposterous. Throughout his great career, Tycho steadily observed
+the places of the sun, the moon, and the planets, and as steadily
+maintained that all those bodies revolved around the earth fixed in
+the centre. Kepler, however, had the advantage of belonging to the
+new school. He utilised the observations of Tycho in developing the
+great Copernican theory whose teaching Tycho stoutly resisted.
+
+Perhaps a chapter in modern science may illustrate the intellectual
+relation of these great men. The revolution produced by Copernicus
+in the doctrine of the heavens has often been likened to the
+revolution which the Darwinian theory produced in the views held by
+biologists as to life on this earth. The Darwinian theory did not at
+first command universal assent even among those naturalists whose
+lives had been devoted with the greatest success to the study of
+organisms. Take, for instance, that great naturalist, Professor
+Owen, by whose labours vast extension has been given to our knowledge
+of the fossil animals which dwelt on the earth in past ages. Now,
+though Owens researches were intimately connected with the great
+labours of Darwin, and afforded the latter material for his
+epoch-making generalization, yet Owen deliberately refused to accept
+the new doctrines. Like Tycho, he kept on rigidly accumulating his
+facts under the influence of a set of ideas as to the origin of
+living forms which are now universally admitted to be erroneous. If,
+therefore, we liken Darwin to Copernicus, and Owen to Tycho, we may
+liken the biologists of the present day to Kepler, who interpreted
+the results of accurate observation upon sound theoretical
+principles.
+
+In reading the works of Kepler in the light of our modern knowledge
+we are often struck by the extent to which his perception of the
+sublimest truths in nature was associated with the most extravagant
+errors and absurdities. But, of course, it must be remembered that
+he wrote in an age in which even the rudiments of science, as we now
+understand it, were almost entirely unknown.
+
+It may well be doubted whether any joy experienced by mortals is more
+genuine than that which rewards the successful searcher after natural
+truths. Every science-worker, be his efforts ever so humble, will be
+able to sympathise with the enthusiastic delight of Kepler when at
+last, after years of toil, the glorious light broke forth, and that
+which he considered to be the greatest of his astonishing laws first
+dawned upon him. Kepler rightly judged that the number of days which
+a planet required to perform its voyage round the sun must be
+connected in some manner with the distance from the planet to the
+sun; that is to say, with the radius of the planet's orbit, inasmuch
+as we may for our present object regard the planet's orbit as
+circular.
+
+Here, again, in his search for the unknown law, Kepler had no
+accurate dynamical principles to guide his steps. Of course, we now
+know not only what the connection between the planet's distance and
+the planet's periodic time actually is, but we also know that it is a
+necessary consequence of the law of universal gravitation. Kepler,
+it is true, was not without certain surmises on the subject, but they
+were of the most fanciful description. His notions of the planets,
+accurate as they were in certain important respects, were mixed up
+with vague ideas as to the properties of metals and the geometrical
+relations of the regular solids. Above all, his reasoning was
+penetrated by the supposed astrological influences of the stars and
+their significant relation to human fate. Under the influence of
+such a farrago of notions, Kepler resolved to make all sorts of
+trials in his search for the connection between the distance of a
+planet from the sun and the time in which the revolution of that
+planet was accomplished.
+
+It was quite easily demonstrated that the greater the distance of the
+planet from the sun the longer was the time required for its
+journey. It might have been thought that the time would be directly
+proportional to the distance. It was, however, easy to show that
+this supposition did not agree with the fact. Finding that this
+simple relation would not do, Kepler undertook a vast series of
+calculations to find out the true method of expressing the
+connection. At last, after many vain attempts, he found, to his
+indescribable joy, that the square of the time in which a planet
+revolves around the sun was proportional to the cube of the average
+distance of the planet from that body.
+
+The extraordinary way in which Kepler's views on celestial matters
+were associated with the wildest speculations, is well illustrated in
+the work in which he propounded his splendid discovery just referred
+to. The announcement of the law connecting the distances of the
+planets from the sun with their periodic times, was then mixed up
+with a preposterous conception about the properties of the different
+planets. They were supposed to be associated with some profound
+music of the spheres inaudible to human ears, and performed only for
+the benefit of that being whose soul formed the animating spirit of
+the sun.
+
+Kepler was also the first astronomer who ever ventured to predict the
+occurrence of that remarkable phenomenon, the transit of a planet in
+front of the sun's disc. He published, in 1629, a notice to the
+curious in things celestial, in which he announced that both of the
+planets, Mercury and Venus, were to make a transit across the sun on
+specified days in the winter of 1631. The transit of Mercury was
+duly observed by Gassendi, and the transit of Venus also took place,
+though, as we now know, the circumstances were such that it was not
+possible for the phenomenon to be witnessed by any European
+astronomer.
+
+In addition to Kepler's discoveries already mentioned, with which his
+name will be for ever associated, his claim on the gratitude of
+astronomers chiefly depends on the publication of his famous
+Rudolphine tables. In this remarkable work means are provided for
+finding the places of the planets with far greater accuracy than had
+previously been attainable.
+
+Kepler, it must be always remembered, was not an astronomical
+observer. It was his function to deal with the observations made by
+Tycho, and, from close study and comparison of the results, to work
+out the movements of the heavenly bodies. It was, in fact, Tycho who
+provided as it were the raw material, while it was the genius of
+Kepler which wrought that material into a beautiful and serviceable
+form. For more than a century the Rudolphine tables were regarded as
+a standard astronomical work. In these days we are accustomed to
+find the movements of the heavenly bodies set forth with all
+desirable exactitude in the NAUTICAL ALMANACK, and the similar
+publication issued by foreign Governments. Let it be remembered that
+it was Kepler who first imparted the proper impulse in this
+direction.
+
+[PLATE: THE COMMEMORATION OF THE RUDOLPHINE TABLES.]
+
+When Kepler was twenty-six he married an heiress from Styria, who,
+though only twenty-three years old, had already had some experience
+in matrimony. Her first husband had died; and it was after her
+second husband had divorced her that she received the addresses of
+Kepler. It will not be surprising to hear that his domestic affairs
+do not appear to have been particularly happy, and his wife died in
+1611. Two years later, undeterred by the want of success in his
+first venture, he sought a second partner, and he evidently
+determined not to make a mistake this time. Indeed, the methodical
+manner in which he made his choice of the lady to whom he should
+propose has been duly set forth by him and preserved for our
+edification. With some self-assurance he asserts that there were no
+fewer than eleven spinsters desirous of sharing his joys and
+sorrows. He has carefully estimated and recorded the merits and
+demerits of each of these would-be brides. The result of his
+deliberations was that he awarded himself to an orphan girl,
+destitute even of a portion. Success attended his choice, and his
+second marriage seems to have proved a much more suitable union than
+his first. He had five children by the first wife and seven by the
+second.
+
+The years of Kepler's middle life were sorely distracted by a trouble
+which, though not uncommon in those days, is one which we find it
+difficult to realise at the present time. His mother, Catherine
+Kepler, had attained undesirable notoriety by the suspicion that she
+was guilty of witchcraft. Years were spent in legal investigations,
+and it was only after unceasing exertions on the part of the
+astronomer for upwards of a twelve-month that he was finally able to
+procure her acquittal and release from prison.
+
+It is interesting for us to note that at one time there was a
+proposal that Kepler should forsake his native country and adopt
+England as a home. It arose in this wise. The great man was
+distressed throughout the greater part of his life by pecuniary
+anxieties. Finding him in a strait of this description, the English
+ambassador in Venice, Sir Henry Wotton, in the year 1620, besought
+Kepler to come over to England, where he assured him that he would
+obtain a favourable reception, and where, he was able to add,
+Kepler's great scientific work was already highly esteemed. But his
+efforts were unavailing; Kepler would not leave his own country. He
+was then forty-nine years of age, and doubtless a home in a foreign
+land, where people spoke a strange tongue, had not sufficient
+attraction for him, even when accompanied with the substantial
+inducements which the ambassador was able to offer. Had Kepler
+accepted this invitation, he would, in transferring his home to
+England, have anticipated the similar change which took place in the
+career of another great astronomer two centuries later. It will be
+remembered that Herschel, in his younger days, did transfer himself
+to England, and thus gave to England the imperishable fame of
+association with his triumphs.
+
+The publication of the Rudolphine tables of the celestial movements
+entailed much expense. A considerable part of this was defrayed by
+the Government at Venice but the balance occasioned no little trouble
+and anxiety to Kepler. No doubt the authorities of those days were
+even less willing to spend money on scientific matters than are the
+Governments of more recent times. For several years the imperial
+Treasury was importuned to relieve him from his anxieties. The
+effects of so much worry, and of the long journeys which were
+involved, at last broke down Kepler's health completely. As we have
+already mentioned, he had never been strong from infancy, and he
+finally succumbed to a fever in November, 1630, at the age of
+fifty-nine. He was interred at St. Peter's Church at Ratisbon.
+
+Though Kepler had not those personal characteristics which have made
+his great predecessor, Tycho Brahe, such a romantic figure, yet a
+picturesque element in Kepler's character is not wanting. It was,
+however, of an intellectual kind. His imagination, as well as his
+reasoning faculties, always worked together. He was incessantly
+prompted by the most extraordinary speculations. The great majority
+of them were in a high degree wild and chimerical, but every now and
+then one of his fancies struck right to the heart of nature, and an
+immortal truth was brought to light.
+
+I remember visiting the observatory of one of our greatest modern
+astronomers, and in a large desk he showed me a multitude of
+photographs which he had attempted but which had not been successful,
+and then he showed me the few and rare pictures which had succeeded,
+and by which important truths had been revealed. With a felicity of
+expression which I have often since thought of, he alluded to the
+contents of the desk as the "chips." They were useless, but they
+were necessary incidents in the truly successful work. So it is in
+all great and good work. Even the most skilful man of science
+pursues many a wrong scent. Time after time he goes off on some
+track that plays him false. The greater the man's genius and
+intellectual resource, the more numerous will be the ventures which
+he makes, and the great majority of those ventures are certain to be
+fruitless. They are in fact, the "chips." In Kepler's case the
+chips were numerous enough. They were of the most extraordinary
+variety and structure. But every now and then a sublime discovery
+was made of such a character as to make us regard even the most
+fantastic of Kepler's chips with the greatest veneration and respect.
+
+
+
+ISAAC NEWTON.
+
+
+It was just a year after the death of Galileo, that an infant came
+into the world who was christened Isaac Newton. Even the great fame
+of Galileo himself must be relegated to a second place in comparison
+with that of the philosopher who first expounded the true theory of
+the universe.
+
+Isaac Newton was born on the 25th of December (old style), 1642, at
+Woolsthorpe, in Lincolnshire, about a half-mile from Colsterworth,
+and eight miles south of Grantham. His father, Mr. Isaac Newton, had
+died a few months after his marriage to Harriet Ayscough, the
+daughter of Mr. James Ayscough, of Market Overton, in Rutlandshire.
+The little Isaac was at first so excessively frail and weakly that
+his life was despaired of. The watchful mother, however, tended her
+delicate child with such success that he seems to have thriven better
+than might have been expected from the circumstances of his infancy,
+and he ultimately acquired a frame strong enough to outlast the
+ordinary span of human life.
+
+For three years they continued to live at Woolsthorpe, the widow's
+means of livelihood being supplemented by the income from another
+small estate at Sewstern, in a neighbouring part of Leicestershire.
+
+[PLATE: WOOLSTHORPE MANOR.
+Showing solar dial made by Newton when a boy.]
+
+In 1645, Mrs. Newton took as a second husband the Rev. Barnabas
+Smith, and on moving to her new home, about a mile from Woolsthorpe,
+she entrusted little Isaac to her mother, Mrs. Ayscough. In due
+time we find that the boy was sent to the public school at Grantham,
+the name of the master being Stokes. For the purpose of being near
+his work, the embryo philosopher was boarded at the house of Mr.
+Clark, an apothecary at Grantham. We learn from Newton himself that
+at first he had a very low place in the class lists of the school,
+and was by no means one of those model school-boys who find favour in
+the eyes of the school-master by attention to Latin grammar. Isaac's
+first incentive to diligent study seems to have been derived from the
+circumstance that he was severely kicked by one of the boys who was
+above him in the class. This indignity had the effect of stimulating
+young Newton's activity to such an extent that he not only attained
+the desired object of passing over the head of the boy who had
+maltreated him, but continued to rise until he became the head of the
+school.
+
+The play-hours of the great philosopher were devoted to pursuits very
+different from those of most school-boys. His chief amusement was
+found in making mechanical toys and various ingenious contrivances.
+He watched day by day with great interest the workmen engaged in
+constructing a windmill in the neighbourhood of the school, the
+result of which was that the boy made a working model of the windmill
+and of its machinery, which seems to have been much admired, as
+indicating his aptitude for mechanics. We are told that Isaac also
+indulged in somewhat higher flights of mechanical enterprise. He
+constructed a carriage, the wheels of which were to be driven by the
+hands of the occupant, while the first philosophical instrument he
+made was a clock, which was actuated by water. He also devoted much
+attention to the construction of paper kites, and his skill in this
+respect was highly appreciated by his school-fellows. Like a true
+philosopher, even at this stage he experimented on the best methods
+of attaching the string, and on the proportions which the tail ought
+to have. He also made lanthorns of paper to provide himself with
+light as he walked to school in the dark winter mornings.
+
+The only love affair in Newton's life appears to have commenced while
+he was still of tender years. The incidents are thus described in
+Brewster's "Life of Newton," a work to which I am much indebted in
+this chapter.
+
+"In the house where he lodged there were some female inmates, in
+whose company he appears to have taken much pleasure. One of these,
+a Miss Storey, sister to Dr. Storey, a physician at Buckminster, near
+Colsterworth, was two or three years younger than Newton and to great
+personal attractions she seems to have added more than the usual
+allotment of female talent. The society of this young lady and her
+companions was always preferred to that of his own school-fellows,
+and it was one of his most agreeable occupations to construct for
+them little tables and cupboards, and other utensils for holding
+their dolls and their trinkets. He had lived nearly six years in the
+same house with Miss Storey, and there is reason to believe that
+their youthful friendship gradually rose to a higher passion; but the
+smallness of her portion, and the inadequacy of his own fortune,
+appear to have prevented the consummation of their happiness. Miss
+Storey was afterwards twice married, and under the name of Mrs.
+Vincent, Dr. Stukeley visited her at Grantham in 1727, at the age of
+eighty-two, and obtained from her many particulars respecting the
+early history of our author. Newton's esteem for her continued
+unabated during his life. He regularly visited her when he went to
+Lincolnshire, and never failed to relieve her from little pecuniary
+difficulties which seem to have beset her family."
+
+The schoolboy at Grantham was only fourteen years of age when his
+mother became a widow for the second time. She then returned to the
+old family home at Woolsthorpe, bringing with her the three children
+of her second marriage. Her means appear to have been somewhat
+scanty, and it was consequently thought necessary to recall Isaac
+from the school. His recently-born industry had been such that he
+had already made good progress in his studies, and his mother hoped
+that he would now lay aside his books, and those silent meditations
+to which, even at this early age, he had become addicted. It was
+expected that, instead of such pursuits, which were deemed quite
+useless, the boy would enter busily into the duties of the farm and
+the details of a country life. But before long it became manifest
+that the study of nature and the pursuit of knowledge had such a
+fascination for the youth that he could give little attention to
+aught else. It was plain that he would make but an indifferent
+farmer. He greatly preferred experimenting on his water-wheels to
+looking after labourers, while he found that working at mathematics
+behind a hedge was much more interesting than chaffering about the
+price of bullocks in the market place. Fortunately for humanity his
+mother, like a wise woman, determined to let her boy's genius have
+the scope which it required. He was accordingly sent back to
+Grantham school, with the object of being trained in the knowledge
+which would fit him for entering the University of Cambridge.
+
+[PLATE: TRINITY COLLEGE, CAMBRIDGE.
+Showing Newton's rooms; on the leads of the gateway he placed
+his telescope.]
+
+It was the 5th of June, 1660, when Isaac Newton, a youth of eighteen,
+was enrolled as an undergraduate of Trinity College, Cambridge.
+Little did those who sent him there dream that this boy was destined
+to be the most illustrious student who ever entered the portals of
+that great seat of learning. Little could the youth himself have
+foreseen that the rooms near the gateway which he occupied would
+acquire a celebrity from the fact that he dwelt in them, or that the
+ante-chapel of his college was in good time to be adorned by that
+noble statue, which is regarded as one of the chief art treasures of
+Cambridge University, both on account of its intrinsic beauty and the
+fact that it commemorates the fame of her most distinguished alumnus,
+Isaac Newton, the immortal astronomer. Indeed, his advent at the
+University seemed to have been by no means auspicious or brilliant.
+His birth was, as we have seen, comparatively obscure, and though he
+had already given indication of his capacity for reflecting on
+philosophical matters, yet he seems to have been but ill-equipped
+with the routine knowledge which youths are generally expected to
+take with them to the Universities.
+
+From the outset of his college career, Newton's attention seems to
+have been mainly directed to mathematics. Here he began to give
+evidence of that marvellous insight into the deep secrets of nature
+which more than a century later led so dispassionate a judge as
+Laplace to pronounce Newton's immortal work as pre-eminent above all
+the productions of the human intellect. But though Newton was one of
+the very greatest mathematicians that ever lived, he was never a
+mathematician for the mere sake of mathematics. He employed his
+mathematics as an instrument for discovering the laws of nature. His
+industry and genius soon brought him under the notice of the
+University authorities. It is stated in the University records that
+he obtained a Scholarship in 1664. Two years later we find that
+Newton, as well as many residents in the University, had to leave
+Cambridge temporarily on account of the breaking out of the plague.
+The philosopher retired for a season to his old home at Woolsthorpe,
+and there he remained until he was appointed a Fellow of Trinity
+College, Cambridge, in 1667. From this time onwards, Newton's
+reputation as a mathematician and as a natural philosopher steadily
+advanced, so that in 1669, while still but twenty-seven years of age,
+he was appointed to the distinguished position of Lucasian Professor
+of Mathematics at Cambridge. Here he found the opportunity to
+continue and develop that marvellous career of discovery which formed
+his life's work.
+
+The earliest of Newton's great achievements in natural philosophy was
+his detection of the composite character of light. That a beam of
+ordinary sunlight is, in fact, a mixture of a very great number of
+different-coloured lights, is a doctrine now familiar to every one
+who has the slightest education in physical science. We must,
+however, remember that this discovery was really a tremendous advance
+in knowledge at the time when Newton announced it.
+
+[PLATE: DIAGRAM OF A SUNBEAM.]
+
+We here give the little diagram originally drawn by Newton, to
+explain the experiment by which he first learned the composition of
+light. A sunbeam is admitted into a darkened room through an
+opening, H, in a shutter. This beam when not interfered with will
+travel in a straight line to the screen, and there reproduce a bright
+spot of the same shape as the hole in the shutter. If, however, a
+prism of glass, A B C, be introduced so that the beam traverse it,
+then it will be seen at once that the light is deflected from its
+original track. There is, however, a further and most important
+change which takes place. The spot of light is not alone removed to
+another part of the screen, but it becomes spread out into a long
+band beautifully coloured, and exhibiting the hues of the rainbow. At
+the top are the violet rays, and then in descending order we have the
+indigo, blue, green, yellow, orange, and red.
+
+The circumstance in this phenomenon which appears to have
+particularly arrested Newton's attention, was the elongation which
+the luminous spot underwent in consequence of its passage through the
+prism. When the prism was absent the spot was nearly circular, but
+when the prism was introduced the spot was about five times as long
+as it was broad. To ascertain the explanation of this was the first
+problem to be solved. It seemed natural to suppose that it might be
+due to the thickness of the glass in the prism which the light
+traversed, or to the angle of incidence at which the light fell upon
+the prism. He found, however, upon careful trial, that the phenomenon
+could not be thus accounted for. It was not until after much patient
+labour that the true explanation dawned upon him. He discovered that
+though the beam of white light looks so pure and so simple, yet in
+reality it is composed of differently coloured lights blended
+together. These are, of course, indistinguishable in the compound
+beam, but they are separated or disentangled, so to speak, by the
+action of the prism. The rays at the blue end of the spectrum are
+more powerfully deflected by the action of the glass than are the
+rays at the red end. Thus, the rays variously coloured red, orange,
+yellow, green, blue, indigo, violet, are each conducted to a
+different part of the screen. In this way the prism has the effect
+of exhibiting the constitution of the composite beam of light.
+
+To us this now seems quite obvious, but Newton did not adopt it
+hastily. With characteristic caution he verified the explanation by
+many different experiments, all of which confirmed his discovery. One
+of these may be mentioned. He made a hole in the screen at that part
+on which the violet rays fell. Thus a violet ray was allowed to pass
+through, all the rest of the light being intercepted, and on this
+beam so isolated he was able to try further experiments. For
+instance, when he interposed another prism in its path, he found, as
+he expected, that it was again deflected, and he measured the amount
+of the deflection. Again he tried the same experiment with one of
+the red rays from the opposite end of the coloured band. He allowed
+it to pass through the same aperture in the screen, and he tested the
+amount by which the second prism was capable of producing deflection.
+He thus found, as he had expected to find, that the second prism was
+more efficacious in bending the violet rays than in bending the red
+rays. Thus he confirmed the fact that the various hues of the
+rainbow were each bent by a prism to a different extent, violet being
+acted upon the most, and red the least.
+
+[PLATE: ISAAC NEWTON.]
+
+Not only did Newton decompose a white beam into its constituent
+colours, but conversely by interposing a second prism with its angle
+turned upwards, he reunited the different colours, and thus
+reproduced the original beam of white light. In several other ways
+also he illustrated his famous proposition, which then seemed so
+startling, that white light was the result of a mixture of all hues
+of the rainbow. By combining painters' colours in the right
+proportion he did not indeed succeed in producing a mixture which
+would ordinarily be called white, but he obtained a grey pigment.
+Some of this he put on the floor of his room for comparison with a
+piece of white paper. He allowed a beam of bright sunlight to fall
+upon the paper and the mixed colours side by side, and a friend he
+called in for his opinion pronounced that under these circumstances
+the mixed colours looked the whiter of the two.
+
+By repeated demonstrations Newton thus established his great
+discovery of the composite character of light. He at once perceived
+that his researches had an important bearing upon the principles
+involved in the construction of a telescope. Those who employed the
+telescope for looking at the stars, had been long aware of the
+imperfections which prevented all the various rays from being
+conducted to the same focus. But this imperfection had hitherto been
+erroneously accounted for. It had been supposed that the reason why
+success had not been attained in the construction of a refracting
+telescope was due to the fact that the object glass, made as it then
+was of a single piece, had not been properly shaped. Mathematicians
+had abundantly demonstrated that a single lens, if properly figured,
+must conduct all rays of light to the same focus, provided all rays
+experienced equal refraction in passing through the glass. Until
+Newton's discovery of the composition of white light, it had been
+taken for granted that the several rays in a white beam were equally
+refrangible. No doubt if this had been the case, a perfect telescope
+could have been produced by properly shaping the object glass. But
+when Newton had demonstrated that light was by no means so simple as
+had been supposed, it became obvious that a satisfactory refracting
+telescope was an impossibility when only a single object lens was
+employed, however carefully that lens might have been wrought. Such
+an objective might, no doubt, be made to conduct any one group of
+rays of a particular shade to the same focus, but the rays of other
+colours in the beam of white light must necessarily travel somewhat
+astray. In this way Newton accounted for a great part of the
+difficulties which had hitherto beset the attempts to construct a
+perfect refracting telescope.
+
+We now know how these difficulties can be, to a great extent,
+overcome, by employing for the objective a composite lens made of two
+pieces of glass possessing different qualities. To these achromatic
+object glasses, as they are called, the great development of
+astronomical knowledge, since Newton's time, is due. But it must be
+remarked that, although the theoretical possibility of constructing
+an achromatic lens was investigated by Newton, he certainly came to
+the conclusion that the difficulty could not be removed by employing
+a composite objective, with two different kinds of glass. In this
+his marvellous sagacity in the interpretation of nature seems for
+once to have deserted him. We can, however, hardly regret that
+Newton failed to discover the achromatic objective, when we observe
+that it was in consequence of his deeming an achromatic objective to
+be impossible that he was led to the invention of the reflecting
+telescope. Finding, as he believed, that the defects of the
+telescope could not be remedied by any application of the principle
+of refraction he was led to look in quite a different direction for
+the improvement of the tool on which the advancement of astronomy
+depended. The REFRACTION of light depended as he had found, upon the
+colour of the light. The laws of REFLECTION were, however, quite
+independent of the colour. Whether rays be red or green, blue or
+yellow, they are all reflected in precisely the same manner from a
+mirror. Accordingly, Newton perceived that if he could construct a
+telescope the action of which depended upon reflection, instead of
+upon refraction, the difficulty which had hitherto proved an
+insuperable obstacle to the improvement of the instrument would be
+evaded.
+
+[PLATE: SIR ISAAC NEWTON'S LITTLE REFLECTOR.]
+
+For this purpose Newton fashioned a concave mirror from a mixture of
+copper and tin, a combination which gives a surface with almost the
+lustre of silver. When the light of a star fell upon the surface, an
+image of the star was produced in the focus of this mirror, and then
+this image was examined by a magnifying eye-piece. Such is the
+principle of the famous reflecting telescope which bears the name of
+Newton. The little reflector which he constructed, represented in
+the adjoining figure, is still preserved as one of the treasures of
+the Royal Society. The telescope tube had the very modest dimension
+of one inch in diameter. It was, however, the precursor of a whole
+series of magnificent instruments, each outstripping the other in
+magnitude, until at last the culminating point was attained in 1845,
+by the construction of Lord Rosse's mammoth reflector of six feet in
+aperture.
+
+Newton's discovery of the composition of light led to an embittered
+controversy, which caused no little worry to the great Philosopher.
+Some of those who attacked him enjoyed considerable and, it must be
+admitted, even well-merited repute in the ranks of science. They
+alleged, however, that the elongation of the coloured band which
+Newton had noticed was due to this, to that, or to the other--to
+anything, in fact, rather than to the true cause which Newton
+assigned. With characteristic patience and love of truth, Newton
+steadily replied to each such attack. He showed most completely how
+utterly his adversaries had misunderstood the subject, and how slight
+indeed was their acquaintance with the natural phenomenon in
+question. In reply to each point raised, he was ever able to cite
+fresh experiments and adduce fresh illustrations, until at last his
+opponents retired worsted from the combat.
+
+It has been often a matter for surprise that Newton, throughout his
+whole career, should have taken so much trouble to expose the errors
+of those who attacked his views. He used even to do this when it
+plainly appeared that his adversaries did not understand the subject
+they were discussing. A philosopher might have said, "I know I am
+right, and whether others think I am right or not may be a matter of
+concern to them, but it is certainly not a matter about which I need
+trouble. If after having been told the truth they elect to remain in
+error, so much the worse for them; my time can be better employed
+than in seeking to put such people right." This, however, was not
+Newton's method. He spent much valuable time in overthrowing
+objections which were often of a very futile description. Indeed, he
+suffered a great deal of annoyance from the persistency, and in some
+cases one might almost say from the rancour, of the attacks which
+were made upon him. Unfortunately for himself, he did not possess
+that capacity for sublime indifference to what men may say, which is
+often the happy possession of intellects greatly inferior to his.
+
+The subject of optics still continuing to engross Newton's attention,
+he followed up his researches into the structure of the sunbeam by
+many other valuable investigations in connection with light. Every
+one has noticed the beautiful colours manifested in a soap-bubble.
+Here was a subject which not unnaturally attracted the attention of
+one who had expounded the colours of the spectrum with such success.
+He perceived that similar hues were produced by other thin plates of
+transparent material besides soap-bubbles, and his ingenuity was
+sufficient to devise a method by which the thicknesses of the
+different films could be measured. We can hardly, indeed, say that a
+like success attended his interpretation of these phenomena to that
+which had been so conspicuous in his explanation of the spectrum. It
+implies no disparagement to the sublime genius of Newton to admit
+that the doctrines he put forth as to the causes of the colours in
+the soap-bubbles can be no longer accepted. We must remember that
+Newton was a pioneer in accounting for the physical properties of
+light. The facts that he established are indeed unquestionable, but
+the explanations which he was led to offer of some of them are seen
+to be untenable in the fuller light of our present knowledge.
+
+[PLATE: SIR ISAAC NEWTON'S SUN-DIAL.]
+
+Had Newton done nothing beyond making his wonderful discoveries in
+light, his fame would have gone down to posterity as one of the
+greatest of Nature's interpreters. But it was reserved for him to
+accomplish other discoveries, which have pushed even his analysis of
+the sunbeam into the background; it is he who has expounded the
+system of the universe by the discovery of the law of universal
+gravitation.
+
+The age had indeed become ripe for the advent of the genius of
+Newton. Kepler had discovered with marvellous penetration the laws
+which govern the movements of the planets around the sun, and in
+various directions it had been more or less vaguely felt that the
+explanation of Kepler's laws, as well as of many other phenomena,
+must be sought for in connection with the attractive power of
+matter. But the mathematical analysis which alone could deal with
+this subject was wanting; it had to be created by Newton.
+
+At Woolsthorpe, in the year 1666, Newton's attention appears to have
+been concentrated upon the subject of gravitation. Whatever may be
+the extent to which we accept the more or less mythical story as to
+how the fall of an apple first directed the attention of the
+philosopher to the fact that gravitation must extend through space,
+it seems, at all events, certain that this is an excellent
+illustration of the line of reasoning which he followed. He argued
+in this way. The earth attracts the apple; it would do so, no matter
+how high might be the tree from which that apple fell. It would then
+seem to follow that this power which resides in the earth by which it
+can draw all external bodies towards it, extends far beyond the
+altitude of the loftiest tree. Indeed, we seem to find no limit to
+it. At the greatest elevation that has ever been attained, the
+attractive power of the earth is still exerted, and though we cannot
+by any actual experiment reach an altitude more than a few miles
+above the earth, yet it is certain that gravitation would extend to
+elevations far greater. It is plain, thought Newton, that an apple
+let fall from a point a hundred miles above this earth's surface,
+would be drawn down by the attraction, and would continually gather
+fresh velocity until it reached the ground. From a hundred miles it
+was natural to think of what would happen at a thousand miles, or at
+hundreds of thousands of miles. No doubt the intensity of the
+attraction becomes weaker with every increase in the altitude, but
+that action would still exist to some extent, however lofty might be
+the elevation which had been attained.
+
+It then occurred to Newton, that though the moon is at a distance of
+two hundred and forty thousand miles from the earth, yet the
+attractive power of the earth must extend to the moon. He was
+particularly led to think of the moon in this connection, not only
+because the moon is so much closer to the earth than are any other
+celestial bodies, but also because the moon is an appendage to the
+earth, always revolving around it. The moon is certainly attracted
+to the earth, and yet the moon does not fall down; how is this to be
+accounted for? The explanation was to be found in the character of
+the moon's present motion. If the moon were left for a moment at
+rest, there can be no doubt that the attraction of the earth would
+begin to draw the lunar globe in towards our globe. In the course of
+a few days our satellite would come down on the earth with a most
+fearful crash. This catastrophe is averted by the circumstance that
+the moon has a movement of revolution around the earth. Newton was
+able to calculate from the known laws of mechanics, which he had
+himself been mainly instrumental in discovering, what the attractive
+power of the earth must be, so that the moon shall move precisely as
+we find it to move. It then appeared that the very power which makes
+an apple fall at the earth's surface is the power which guides the
+moon in its orbit.
+
+[PLATE: SIR ISAAC NEWTON'S TELESCOPE.]
+
+Once this step had been taken, the whole scheme of the universe might
+almost be said to have become unrolled before the eye of the
+philosopher. It was natural to suppose that just as the moon was
+guided and controlled by the attraction of the earth, so the earth
+itself, in the course of its great annual progress, should be guided
+and controlled by the supreme attractive power of the sun. If this
+were so with regard to the earth, then it would be impossible to
+doubt that in the same way the movements of the planets could be
+explained to be consequences of solar attraction.
+
+It was at this point that the great laws of Kepler became especially
+significant. Kepler had shown how each of the planets revolves in an
+ellipse around the sun, which is situated on one of the foci. This
+discovery had been arrived at from the interpretation of
+observations. Kepler had himself assigned no reason why the orbit of
+a planet should be an ellipse rather than any other of the infinite
+number of closed curves which might be traced around the sun. Kepler
+had also shown, and here again he was merely deducing the results
+from observation, that when the movements of two planets were
+compared together, the squares of the periodic times in which each
+planet revolved were proportional to the cubes of their mean
+distances from the sun. This also Kepler merely knew to be true as a
+fact, he gave no demonstration of the reason why nature should have
+adopted this particular relation between the distance and the
+periodic time rather than any other. Then, too, there was the law by
+which Kepler with unparalleled ingenuity, explained the way in which
+the velocity of a planet varies at the different points of its track,
+when he showed how the line drawn from the sun to the planet
+described equal areas around the sun in equal times. These were the
+materials with which Newton set to work. He proposed to infer from
+these the actual laws regulating the force by which the sun guides
+the planets. Here it was that his sublime mathematical genius came
+into play. Step by step Newton advanced until he had completely
+accounted for all the phenomena.
+
+In the first place, he showed that as the planet describes equal
+areas in equal times about the sun, the attractive force which the
+sun exerts upon it must necessarily be directed in a straight line
+towards the sun itself. He also demonstrated the converse truth,
+that whatever be the nature of the force which emanated from a sun,
+yet so long as that force was directed through the sun's centre, any
+body which revolved around it must describe equal areas in equal
+times, and this it must do, whatever be the actual character of the
+law according to which the intensity of the force varies at different
+parts of the planet's journey. Thus the first advance was taken in
+the exposition of the scheme of the universe.
+
+The next step was to determine the law according to which the force
+thus proved to reside in the sun varied with the distance of the
+planet. Newton presently showed by a most superb effort of
+mathematical reasoning, that if the orbit of a planet were an ellipse
+and if the sun were at one of the foci of that ellipse, the intensity
+of the attractive force must vary inversely as the square of the
+planet's distance. If the law had any other expression than the
+inverse square of the distance, then the orbit which the planet must
+follow would not be an ellipse; or if an ellipse, it would, at all
+events, not have the sun in the focus. Hence he was able to show
+from Kepler's laws alone that the force which guided the planets was
+an attractive power emanating from the sun, and that the intensity of
+this attractive power varied with the inverse square of the distance
+between the two bodies.
+
+These circumstances being known, it was then easy to show that the
+last of Kepler's three laws must necessarily follow. If a number of
+planets were revolving around the sun, then supposing the materials
+of all these bodies were equally affected by gravitation, it can be
+demonstrated that the square of the periodic time in which each
+planet completes its orbit is proportional to the cube of the
+greatest diameter in that orbit.
+
+[PLATE: SIR ISAAC NEWTON'S ASTROLABE.]
+
+These superb discoveries were, however, but the starting point from
+which Newton entered on a series of researches, which disclosed many
+of the profoundest secrets in the scheme of celestial mechanics. His
+natural insight showed that not only large masses like the sun and
+the earth, and the moon, attract each other, but that every particle
+in the universe must attract every other particle with a force which
+varies inversely as the square of the distance between them. If, for
+example, the two particles were placed twice as far apart, then the
+intensity of the force which sought to bring them together would be
+reduced to one-fourth. If two particles, originally ten miles
+asunder, attracted each other with a certain force, then, when the
+distance was reduced to one mile, the intensity of the attraction
+between the two particles would be increased one-hundred-fold. This
+fertile principle extends throughout the whole of nature. In some
+cases, however, the calculation of its effect upon the actual
+problems of nature would be hardly possible, were it not for another
+discovery which Newton's genius enabled him to accomplish. In the
+case of two globes like the earth and the moon, we must remember that
+we are dealing not with particles, but with two mighty masses of
+matter, each composed of innumerable myriads of particles. Every
+particle in the earth does attract every particle in the moon with a
+force which varies inversely as the square of their distance. The
+calculation of such attractions is rendered feasible by the following
+principle. Assuming that the earth consists of materials
+symmetrically arranged in shells of varying densities, we may then,
+in calculating its attraction, regard the whole mass of the globe as
+concentrated at its centre. Similarly we may regard the moon as
+concentrated at the centre of its mass. In this way the earth and
+the moon can both be regarded as particles in point of size, each
+particle having, however, the entire mass of the corresponding
+globe. The attraction of one particle for another is a much more
+simple matter to investigate than the attraction of the myriad
+different points of the earth upon the myriad different points of the
+moon.
+
+Many great discoveries now crowded in upon Newton. He first of all
+gave the explanation of the tides that ebb and flow around our
+shores. Even in the earliest times the tides had been shown to be
+related to the moon. It was noticed that the tides were specially
+high during full moon or during new moon, and this circumstance
+obviously pointed to the existence of some connection between the
+moon and these movements of the water, though as to what that
+connection was no one had any accurate conception until Newton
+announced the law of gravitation. Newton then made it plain that the
+rise and fall of the water was simply a consequence of the attractive
+power which the moon exerted upon the oceans lying upon our globe. He
+showed also that to a certain extent the sun produces tides, and he
+was able to explain how it was that when the sun and the moon both
+conspire, the joint result was to produce especially high tides,
+which we call "spring tides"; whereas if the solar tide was low,
+while the lunar tide was high, then we had the phenomenon of "neap"
+tides.
+
+But perhaps the most signal of Newton's applications of the law of
+gravitation was connected with certain irregularities in the
+movements of the moon. In its orbit round the earth our satellite
+is, of course, mainly guided by the great attraction of our globe. If
+there were no other body in the universe, then the centre of the moon
+must necessarily perform an ellipse, and the centre of the earth
+would lie in the focus of that ellipse. Nature, however, does not
+allow the movements to possess the simplicity which this arrangement
+would imply, for the sun is present as a source of disturbance. The
+sun attracts the moon, and the sun attracts the earth, but in
+different degrees, and the consequence is that the moon's movement
+with regard to the earth is seriously affected by the influence of
+the sun. It is not allowed to move exactly in an ellipse, nor is the
+earth exactly in the focus. How great was Newton's achievement in
+the solution of this problem will be appreciated if we realise that
+he not only had to determine from the law of gravitation the nature
+of the disturbance of the moon, but he had actually to construct the
+mathematical tools by which alone such calculations could be
+effected.
+
+The resources of Newton's genius seemed, however, to prove equal to
+almost any demand that could be made upon it. He saw that each
+planet must disturb the other, and in that way he was able to render
+a satisfactory account of certain phenomena which had perplexed all
+preceding investigators. That mysterious movement by which the pole
+of the earth sways about among the stars had been long an unsolved
+enigma, but Newton showed that the moon grasped with its attraction
+the protuberant mass at the equatorial regions of the earth, and thus
+tilted the earth's axis in a way that accounted for the phenomenon
+which had been known but had never been explained for two thousand
+years. All these discoveries were brought together in that immortal
+work, Newton's "Principia."
+
+Down to the year 1687, when the "Principia" was published, Newton had
+lived the life of a recluse at Cambridge, being entirely occupied
+with those transcendent researches to which we have referred. But in
+that year he issued from his seclusion under circumstances of
+considerable historical interest. King James the Second attempted an
+invasion of the rights and privileges of the University of Cambridge
+by issuing a command that Father Francis, a Benedictine monk, should
+be received as a Master of Arts in the University, without having taken
+the oaths of allegiance and supremacy. With this arbitrary command
+the University sternly refused to comply. The Vice-Chancellor was
+accordingly summoned to answer for an act of contempt to the authority
+of the Crown. Newton was one of nine delegates who were chosen to
+defend the independence of the University before the High Court.
+They were able to show that Charles the Second, who had issued a
+MANDAMUS under somewhat similar circumstances, had been induced after
+due consideration to withdraw it. This argument appeared satisfactory,
+and the University gained their case. Newton's next step in public
+life was his election, by a narrow majority, as member for the
+University, and during the years 1688 and 1689, he seems to have
+attended to his parliamentary duties with considerable regularity.
+
+An incident which happened in 1692 was apparently the cause of
+considerable disturbance in Newton's equanimity, if not in his
+health. He had gone to early morning chapel, leaving a lighted
+candle among his papers on his desk. Tradition asserts that his
+little dog "Diamond" upset the candle; at all events, when Newton
+came back he found that many valuable papers had perished in a
+conflagration. The loss of these manuscripts seems to have had a
+serious effect. Indeed, it has been asserted that the distress
+reduced Newton to a state of mental aberration for a considerable
+time. This has, apparently, not been confirmed, but there is no
+doubt that he experienced considerable disquiet, for in writing on
+September 13th, 1693, to Mr. Pepys, he says:
+
+"I am extremely troubled at the embroilment I am in, and have
+neither ate nor slept well this twelve-month, nor have my former
+consistency of mind."
+
+Notwithstanding the fame which Newton had achieved, by the
+publication of his, "Principia," and by all his researches, the State
+had not as yet taken any notice whatever of the most illustrious man
+of science that this or any other country has ever produced. Many of
+his friends had exerted themselves to procure him some permanent
+appointment, but without success. It happened, however, that Mr.
+Montagu, who had sat with Newton in Parliament, was appointed
+Chancellor of the Exchequer in 1694. Ambitious of distinction in his
+new office, Mr. Montagu addressed himself to the improvement of the
+current coin, which was then in a very debased condition. It
+fortunately happened that an opportunity occurred of appointing a new
+official in the Mint; and Mr. Montagu on the 19th of March, 1695,
+wrote to offer Mr. Newton the position of warden. The salary was to
+be five or six hundred a year, and the business would not require
+more attendance than Newton could spare. The Lucasian professor
+accepted this post, and forthwith entered upon his new duties.
+
+The knowledge of physics which Newton had acquired by his experiments
+was of much use in connection with his duties at the Mint. He
+carried out the re-coinage with great skill in the course of two
+years, and as a reward for his exertions, he was appointed, in 1697,
+to the Mastership of the Mint, with a salary between 1,200 Pounds and
+1,500 Pounds per annum. In 1701, his duties at the Mint being so
+engrossing, he resigned his Lucasian professorship at Cambridge, and
+at the same time he had to surrender his fellowship at Trinity
+College. This closed his connection with the University of
+Cambridge. It should, however, be remarked that at a somewhat
+earlier stage in his career he was very nearly being appointed to an
+office which might have enabled the University to retain the great
+philosopher within its precincts. Some of his friends had almost
+succeeded in securing his nomination to the Provostship of King's
+College, Cambridge; the appointment, however, fell through, inasmuch
+as the statute could not be evaded, which required that the Provost
+of King's College should be in holy orders.
+
+In those days it was often the custom for illustrious mathematicians,
+when they had discovered a solution for some new and striking
+problem, to publish that problem as a challenge to the world, while
+withholding their own solution. A famous instance of this is found
+in what is known as the Brachistochrone problem, which was solved by
+John Bernouilli. The nature of this problem may be mentioned. It
+was to find the shape of the curve along which a body would slide
+down from one point (A) to another point (B) in the shortest time. It
+might at first be thought that the straight line from A to B, as it
+is undoubtedly the shortest distance between the points, would also
+be the path of quickest descent; but this is not so. There is a
+curved line, down which a bead, let us say, would run on a smooth
+wire from A to B in a shorter time than the same bead would require
+to run down the straight wire. Bernouilli's problem was to find out
+what that curve must be. Newton solved it correctly; he showed that
+the curve was a part of what is termed a cycloid--that is to say, a
+curve like that which is described by a point on the rim of a
+carriage-wheel as the wheel runs along the ground. Such was Newton's
+geometrical insight that he was able to transmit a solution of the
+problem on the day after he had received it, to the President of the
+Royal Society.
+
+In 1703 Newton, whose world wide fame was now established, was
+elected President of the Royal Society. Year after year he was
+re-elected to this distinguished position, and his tenure, which
+lasted twenty-five years, only terminated with his life. It was in
+discharge of his duties as President of the Royal Society that Newton
+was brought into contact with Prince George of Denmark. In April,
+1705, the Queen paid a visit to Cambridge as the guest of Dr.
+Bentley, the then Master of Trinity, and in a court held at Trinity
+Lodge on April 15th, 1705, the honour of knighthood was conferred
+upon the discoverer of gravitation.
+
+Urged by illustrious friends, who sought the promotion of knowledge,
+Newton gave his attention to the publication of a new edition of the
+"Principia." His duties at the Mint, however, added to the supreme
+duty of carrying on his original investigations, left him but little
+time for the more ordinary task of the revision. He was accordingly
+induced to associate with himself for this purpose a distinguished
+young mathematician, Roger Coates, a Fellow of Trinity College,
+Cambridge, who had recently been appointed Plumian Professor of
+Astronomy. On July 27th, 1713, Newton, by this time a favourite at
+Court, waited on the Queen, and presented her with a copy of the new
+edition of the "Principia."
+
+Throughout his life Newton appears to have been greatly interested in
+theological studies, and he specially devoted his attention to the
+subject of prophecy. He left behind him a manuscript on the
+prophecies of Daniel and the Apocalypse of St. John, and he also
+wrote various theological papers. Many other subjects had from time
+to time engaged his attention. He studied the laws of heat; he
+experimented in pursuit of the dreams of the Alchymist; while the
+philosopher who had revealed the mechanism of the heavens found
+occasional relaxation in trying to interpret hieroglyphics. In the
+last few years of his life he bore with fortitude a painful ailment,
+and on Monday, March 20th, 1727, he died in the eighty-fifth year of
+his age. On Tuesday, March 28th, he was buried in Westminster Abbey.
+
+Though Newton lived long enough to receive the honour that his
+astonishing discoveries so justly merited, and though for many years
+of his life his renown was much greater than that of any of his
+contemporaries, yet it is not too much to say that, in the years
+which have since elapsed, Newton's fame has been ever steadily
+advancing, so that it never stood higher than it does at this moment.
+
+We hardly know whether to admire more the sublime discoveries at
+which he arrived, or the extraordinary character of the intellectual
+processes by which those discoveries were reached. Viewed from
+either standpoint, Newton's "Principia" is incomparably the greatest
+work on science that has ever yet been produced.
+
+[PLATE: SIR ISAAC NEWTON'S SUN-DIAL IN THE ROYAL SOCIETY.]
+
+
+
+
+FLAMSTEED.
+
+
+Among the manuscripts preserved at Greenwich Observatory are certain
+documents in which Flamsteed gives an account of his own life. We
+may commence our sketch by quoting the following passage from this
+autobiography:--"To keep myself from idleness, and to recreate
+myself, I have intended here to give some account of my life, in my
+youth, before the actions thereof, and the providences of God
+therein, be too far passed out of my memory; and to observe the
+accidents of all my years, and inclinations of my mind, that
+whosoever may light upon these papers may see I was not so wholly
+taken up, either with my father's business or my mathematics, but
+that I both admitted and found time for other as weighty
+considerations."
+
+The chief interest which attaches to the name of Flamsteed arises
+from the fact that he was the first of the illustrious series of
+Astronomers Royal who have presided over Greenwich Observatory. In
+that capacity Flamsteed was able to render material assistance to
+Newton by providing him with the observations which his lunar theory
+required.
+
+John Flamsteed was born at Denby, in Derbyshire, on the 19th of
+August, 1646. His mother died when he was three years old, and the
+second wife, whom his father took three years later, only lived until
+Flamsteed was eight, there being also two younger sisters. In his
+boyhood the future astronomer tells us that he was very fond of those
+romances which affect boy's imagination, but as he writes, "At twelve
+years of age I left all the wild ones and betook myself to read the
+better sort of them, which, though they were not probable, yet
+carried no seeming impossibility in the picturing." By the time
+Flamsteed was fifteen years old he had embarked in still more serious
+work, for he had read Plutarch's "Lives," Tacitus' "Roman History,"
+and many other books of a similar description. In 1661 he became ill
+with some serious rheumatic affection, which obliged him to be
+withdrawn from school. It was then for the first time that he
+received the rudiments of a scientific education. He had, however,
+attained his sixteenth year before he made any progress in
+arithmetic. He tells us how his father taught him "the doctrine of
+fractions," and "the golden rule of three"--lessons which he seemed
+to have learned easily and quickly. One of the books which he read
+at this time directed his attention to astronomical instruments, and
+he was thus led to construct for himself a quadrant, by which he
+could take some simple astronomical observations. He further
+calculated a table to give the sun's altitudes at different hours,
+and thus displayed those tastes for practical astronomy which he
+lived to develop so greatly. It appears that these scientific
+studies were discountenanced by his father, who designed that his son
+should follow a business career. Flamsteed's natural inclination,
+however, forced him to prosecute astronomical work, notwithstanding
+the impediments that lay in his path. Unfortunately, his
+constitutional delicacy seems to have increased, and he had just
+completed his eighteenth year, "when," to use his own words, "the
+winter came on and thrust me again into the chimney, whence the heat
+and the dryness of the preceding summer had happily once before
+withdrawn me. But, it not being a fit season for physic, it was
+thought fit to let me alone this winter, and try the skill of another
+physician on me in the spring."
+
+It appears that at this time a quack named Valentine Greatrackes, was
+reputed to have effected most astonishing cures in Ireland merely by
+the stroke of his hands, without the application of any medicine
+whatever. Flamsteed's father, despairing of any remedy for his son
+from the legitimate branch of the profession, despatched him to
+Ireland on August 26th, 1665, he being then, as recorded with
+astronomical accuracy, "nineteen years, six days, and eleven hours
+old." The young astronomer, accompanied by a friend, arrived on a
+Tuesday at Liverpool but the wind not being favourable, they remained
+there till the following Friday, when a shift of the wind to the east
+took place. They embarked accordingly on a vessel called the SUPPLY
+at noon, and on Saturday night came in sight of Dublin. Ere they
+could land, however, they were nearly being wrecked on Lambay
+Island. This peril safely passed, there was a long delay for
+quarantine before they were at last allowed on shore. On Thursday,
+September 6th, they set out from Dublin, where they had been
+sojourning at the "Ship" Hotel, in Dame Street, towards Assaune,
+where Greatrackes received his patients.
+
+[PLATE: FLAMSTEED'S HOUSE.]
+
+Flamsteed gives an interesting account of his travels in Ireland.
+They dined at Naas on the first day, and on September 8th they
+reached Carlow, a town which is described as one of the fairest they
+saw on their journey. By Sunday morning, September 10th, having lost
+their way several times, they reached Castleton, called commonly Four
+Mile Waters. Flamsteed inquired of the host in the inn where they
+might find a church, but was told that the minister lived twelve
+miles away, and that they had no sermon except when he came to
+receive his tithes once a year, and a woman added that "they had
+plenty enough of everything necessary except the word of God." The
+travellers accordingly went on to Cappoquin, which lies up the river
+Blackwater, on the road to Lismore, eight miles from Youghal. Thence
+they immediately started on foot to Assaune. About a mile from
+Cappoquin, and entering into the house of Mr. Greatrackes, they saw
+him touch several patients, "whereof some were nearly cured, others
+were on the mending hand, and some on whom his strokes had no
+effect." Flamsteed was touched by the famous quack on the afternoon
+of September 11th, but we are hardly surprised to hear his remark
+that "he found not his disease to stir." Next morning the astronomer
+came again to see Mr. Greatrackes, who had "a kind of majestical yet
+affable presence, and a composed carriage." Even after the third
+touching had been submitted to, no benefit seems to have been
+derived. We must, however record, to the credit of Mr. Greatrackes,
+that he refused to accept any payment from Flamsteed, because he was
+a stranger.
+
+Finding it useless to protract his stay any longer, Flamsteed and his
+friend set out on their return to Dublin. In the course of his
+journey he seems to have been much impressed with Clonmel, which he
+describes as an "exceedingly pleasantly seated town." But in those
+days a journey to Ireland was so serious an enterprise that when
+Flamsteed did arrive safely back at Derby after an absence of a
+month, he adds, "For God's providence in this journey, His name be
+praised, Amen."
+
+As to the expected benefits to his health from the expedition we may
+quote his own words: "In the winter following I was indifferent
+hearty, and my disease was not so violent as it used to be at that
+time formerly. But whether through God's mercy I received this
+through Mr. Greatrackes' touch, or my journey and vomiting at sea, I
+am uncertain; but, by some circumstances, I guess that I received a
+benefit from both."
+
+It is evident that by this time Flamsteed's interest in all
+astronomical matters had greatly increased. He studied the
+construction of sun-dials, he formed a catalogue of seventy of the
+fixed stars, with their places on the heavens, and he computed the
+circumstances of the solar eclipse which was to happen on June 22nd,
+1666. It is interesting to note that even in those days the
+doctrines of the astrologers still found a considerable degree of
+credence, and Flamsteed spent a good deal of his time in astrological
+studies and computations. He investigated the methods of casting a
+nativity, but a suspicion, or, indeed, rather more than a suspicion,
+seems to have crossed his mind as to the value of these astrological
+predictions, for he says in fine, "I found astrology to give
+generally strong conjectural hints, not perfect declarations."
+
+All this time, however, the future Astronomer Royal was steadily
+advancing in astronomical inquiries of a recondite nature. He had
+investigated the obliquity of the ecliptic with extreme care, so far
+as the circumstances of astronomical observation would at that time
+permit. He had also sought to discover the sun's distance from the
+earth in so far as it could be obtained by determining when the moon
+was exactly half illuminated, and he had measured, with much
+accuracy, the length of the tropical year. It will thus be seen
+that, even at the age of twenty, Flamsteed had made marked progress,
+considering how much his time had been interfered with by ill-health.
+
+Other branches of astronomy began also to claim his attention. We
+learn that in 1669 and 1670 he compared the planets Jupiter and Mars
+with certain fixed stars near which they passed. His instrumental
+means, though very imperfect, were still sufficient to enable him to
+measure the intervals on the celestial sphere between the planets and
+the stars. As the places of the stars were known, Flamsteed was thus
+able to obtain the places of the planets. This is substantially the
+way in which astronomers of the present day still proceed when they
+desire to determine the places of the planets, inasmuch as, directly
+or indirectly those places are always obtained relatively to the
+fixed stars. By his observations at this early period, Flamsteed
+was, it is true, not able to obtain any great degree of accuracy; he
+succeeded, however, in proving that the tables by which the places of
+the planets were ordinarily given were not to be relied upon.
+
+[PLATE: FLAMSTEED.]
+
+Flamsteed's labours in astronomy and in the allied branches of
+science were now becoming generally known, and he gradually came to
+correspond with many distinguished men of learning. One of the first
+occasions which brought the talents of the young astronomer into fame
+was the publication of some calculations concerning certain
+astronomical phenomena which were to happen in the year 1670. In the
+monthly revolution of the moon its disc passes over those stars which
+lie along its track. The disappearance of a star by the
+interposition of the moon is called an "occultation." Owing to the
+fact that our satellite is comparatively near us, the position which
+the moon appears to occupy on the heavens varies from different parts
+of the earth, it consequently happens that a star which would be
+occulted to an observer in one locality, would often not be occulted
+to an observer who was situated elsewhere. Even when an occultation
+is visible from both places, the times at which the star disappears
+from view will, generally speaking, be different. Much calculation
+is therefore necessary to decide the circumstances under which the
+occultations of stars may be visible from any particular station.
+Having a taste for such computations, Flamsteed calculated the
+occultations which were to happen in the year 1670, it being the case
+that several remarkable stars would be passed over by the moon during
+this year. Of course at the present time, we find such information
+duly set forth in the NAUTICAL ALMANAC, but a couple of centuries ago
+there was no such source of astronomical knowledge as is now to be
+found in that invaluable publication, which astronomers and
+navigators know so well. Flamsteed accordingly sent the results of
+his work to the President of the Royal Society. The paper which
+contained them was received very favourably, and at once brought
+Flamsteed into notice among the most eminent members of that
+illustrious body, one of whom, Mr. Collins, became through life his
+faithful friend and constant correspondent. Flamsteed's father was
+naturally gratified with the remarkable notice which his son was
+receiving from the great and learned; accordingly he desired him to
+go to London, that he might make the personal acquaintance of those
+scientific friends whom he had only known by correspondence
+previously. Flamsteed was indeed glad to avail himself of this
+opportunity. Thus he became acquainted with Dr. Barrow, and
+especially with Newton, who was then Lucasian Professor of
+Mathematics at Cambridge. It seems to have been in consequence of
+this visit to London that Flamsteed entered himself as a member of
+Jesus College, Cambridge. We have but little information as to his
+University career, but at all events he took his degree of M.A. on
+June 5th, 1674.
+
+Up to this time it would seem that Flamsteed had been engaged, to a
+certain extent, in the business carried on by his father. It is true
+that he does not give any explicit details, yet there are frequent
+references to journeys which he had to take on business matters. But
+the time now approached when Flamsteed was to start on an independent
+career, and it appears that he took his degree in Cambridge with the
+object of entering into holy orders, so that he might settle in a
+small living near Derby, which was in the gift of a friend of his
+father, and would be at the disposal of the young astronomer. This
+scheme was, however, not carried out, but Flamsteed does not tell us
+why it failed, his only remark being, that "the good providence of
+God that had designed me for another station ordered it otherwise."
+
+Sir Jonas Moore, one of the influential friends whom Flamsteed's
+talents had attracted, seems to have procured for him the position of
+king's astronomer, with a salary of 100 pounds per annum. A larger
+salary appears to have been designed at first for this office, which
+was now being newly created, but as Flamsteed was resolved on taking
+holy orders, a lesser salary was in his case deemed sufficient. The
+building of the observatory, in which the first Astronomer Royal was
+to be installed, seems to have been brought about, or, at all events,
+its progress was accelerated, in a somewhat curious manner.
+
+A Frenchman, named Le Sieur de S. Pierre, came over to London to
+promulgate a scheme for discovering longitudes, then a question of
+much importance. He brought with him introductions to distinguished
+people, and his mission attracted a great deal of attention. The
+proposals which he made came under Flamsteed's notice, who pointed
+out that the Frenchman's projects were quite inapplicable in the
+present state of astronomical science, inasmuch as the places of the
+stars were not known with the degree of accuracy which would be
+necessary if such methods were to be rendered available. Flamsteed
+then goes on to say:--"I heard no more of the Frenchman after this;
+but was told that my letters had been shown King Charles. He was
+startled at the assertion of the fixed stars' places being false in
+the catalogue, and said, with some vehemence, he must have them anew
+observed, examined, and corrected, for the use of his seamen."
+
+The first question to be settled was the site for the new
+observatory. Hyde Park and Chelsea College were both mentioned as
+suitable localities, but, at Sir Christopher Wren's suggestion,
+Greenwich Hill was finally resolved upon. The king made a grant of
+five hundred pounds of money. He gave bricks from Tilbury Fort,
+while materials, in the shape of wood, iron, and lead, were available
+from a gatehouse demolished in the Tower. The king also promised
+whatever further material aid might be shown to be necessary. The
+first stone of the Royal Observatory was laid on August 10th, 1675,
+and within a few years a building was erected in which the art of
+modern practical astronomy was to be created. Flamsteed strove with
+extraordinary diligence, and in spite of many difficulties, to obtain
+a due provision of astronomical instruments, and to arrange for the
+carrying on of his observations. Notwithstanding the king's
+promises, the astronomer was, however, but scantily provided with
+means, and he had no assistants to help him in his work. It follows
+that all the observations, as well as the reductions, and, indeed,
+all the incidental work of the observatory, had to be carried on by
+himself alone. Flamsteed, as we have seen, had, however, many
+staunch friends. Sir Jonas Moore in particular at all times rendered
+him most valuable assistance, and encouraged him by the warm sympathy
+and keen interest which he showed in astronomy. The work of the
+first Astronomer Royal was frequently interrupted by recurrent
+attacks of the complaints to which we have already referred. He says
+himself that "his distempers stick so close that that he cannot
+remove them," and he lost much time by prostration from headaches, as
+well as from more serious affections.
+
+The year 1678 found him in the full tide of work in his observatory.
+He was specially engaged on the problem of the earth's motion, which
+he sought to derive from observations of the sun and of Venus. But
+this, as well as many other astronomical researches which he
+undertook, were only subsidiary to that which he made the main task
+of his life, namely, the formation of a catalogue of fixed stars. At
+the time when Flamsteed commenced his career, the only available
+catalogue of fixed stars was that of Tycho Brahe. This work had been
+published at the commencement of the seventeenth century, and it
+contained about a thousand stars. The positions assigned to these
+stars, though obtained with wonderful skill, considering the many
+difficulties under which Tycho laboured, were quite inaccurate when
+judged by our modern standards. Tycho's instruments were necessarily
+most rudely divided, and he had, of course, no telescopes to aid him.
+Consequently it was merely by a process of sighting that he could
+obtain the places of the stars. It must further be remembered that
+Tycho had no clocks, and no micrometers. He had, indeed, but little
+correct knowledge of the motions of the heavenly bodies to guide
+him. To determine the longitudes of a few principal stars he
+conceived the ingenious idea of measuring by day the position of
+Venus with respect to the sun, an observation which the exceptional
+brightness of this planet rendered possible without telescopic aid,
+and then by night he observed the position of Venus with regard to
+the stars.
+
+It has been well remarked by Mr. Baily, in his introduction to the
+"British Catalogue of Stars," that "Flamsteed's observations, by a
+fortunate combination of circumstances, commenced a new and a
+brilliant era. It happened that, at that period, the powerful mind
+of Newton was directed to this subject; a friendly intercourse then
+existed between these two distinguished characters; and thus the
+first observations that could lay any claim to accuracy were at once
+brought in aid of those deep researches in which our illustrious
+geometer was then engaged. The first edition of the 'Principia'
+bears testimony to the assistance afforded by Flamsteed to Newton in
+these inquiries; although the former considers that the
+acknowledgment is not so ample as it ought to have been."
+
+Although Flamsteed's observations can hardly be said to possess the
+accuracy of those made in more recent times, when instruments so much
+superior to his have been available, yet they possess an interest of
+a special kind from their very antiquity. This circumstance renders
+them of particular importance to the astronomer, inasmuch as they are
+calculated to throw light on the proper motions of the stars.
+Flamsteed's work may, indeed, be regarded as the origin of all
+subsequent catalogues, and the nomenclature which he adopted, though
+in some respects it can hardly be said to be very defensible, is,
+nevertheless, that which has been adopted by all subsequent
+astronomers. There were also a great many errors, as might be
+expected in a work of such extent, composed almost entirely of
+numerical detail. Many of these errors have been corrected by Baily
+himself, the assiduous editor of "Flamsteed's Life and Works," for
+Flamsteed was so harassed from various causes in the latter part of
+his life, and was so subject to infirmities all through his career,
+that he was unable to revise his computations with the care that
+would have been necessary. Indeed, he observed many additional stars
+which he never included in the British Catalogue. It is, as Baily
+well remarks, "rather a matter of astonishment that he accomplished
+so much, considering his slender means, his weak frame, and the
+vexations which he constantly experienced."
+
+Flamsteed had the misfortune, in the latter part of his life, to
+become estranged from his most eminent scientific contemporaries. He
+had supplied Newton with places of the moon, at the urgent
+solicitation of the author of the "Principia," in order that the
+lunar theory should be carefully compared with observation. But
+Flamsteed appears to have thought that in Newton's further request
+for similar information, he appeared to be demanding as a right that
+which Flamsteed considered he was only called upon to render as a
+favour. A considerable dispute grew out of this matter, and there
+are many letters and documents, bearing on the difficulties which
+subsequently arose, that are not, perhaps, very creditable to either
+party.
+
+Notwithstanding his feeble constitution, Flamsteed lived to the age
+of seventy-three, his death occurring on the last day of the year
+1719.
+
+
+
+
+HALLEY.
+
+
+Isaac Newton was just fourteen years of age when the birth of Edmund
+Halley, who was destined in after years to become Newton's warmly
+attached friend, and one of his most illustrious scientific
+contemporaries, took place. There can be little doubt that the fame
+as an astronomer which Halley ultimately acquired, great as it
+certainly was, would have been even greater still had it not been
+somewhat impaired by the misfortune that he had to shine in the same
+sky as that which was illumined by the unparalleled genius of Newton.
+
+Edmund Halley was born at Haggerston, in the Parish of St. Leonard's,
+Shoreditch, on October 29th, 1656. His father, who bore the same
+name as his famous son, was a soap-boiler in Winchester Street,
+London, and he had conducted his business with such success that he
+accumulated an ample fortune. I have been unable to obtain more than
+a very few particulars with respect to the early life of the future
+astronomer. It would, however, appear that from boyhood he showed
+considerable aptitude for the acquisition of various kinds of
+learning, and he also had some capacity for mechanical invention.
+Halley seems to have received a sound education at St. Paul's School,
+then under the care of Dr. Thomas Gale.
+
+Here, the young philosopher rapidly distanced his competitors in the
+various branches of ordinary school instruction. His superiority
+was, however, most conspicuous in mathematical studies, and, as a
+natural development of such tastes, we learn that by the time he had
+left school he had already made good progress in astronomy. At the
+age of seventeen he was entered as a commoner at Queen's College,
+Oxford, and the reputation that he brought with him to the University
+may be inferred from the remark of the writer of "Athenae
+Oxonienses," that Halley came to Oxford "with skill in Latin, Greek,
+and Hebrew, and such a knowledge of geometry as to make a complete
+dial." Though his studies were thus of a somewhat multifarious
+nature, yet it is plain that from the first his most favourite
+pursuit was astronomy. His earliest efforts in practical observation
+were connected with an eclipse which he observed from his father's
+house in Winchester Street. It also appears that he had studied
+theoretical branches of astronomy so far as to be conversant with the
+application of mathematics to somewhat abstruse problems.
+
+Up to the time of Kepler, philosophers had assumed almost as an axiom
+that the heavenly bodies must revolve in circles and that the motion
+of the planet around the orbit which it described must be uniform. We
+have already seen how that great philosopher, after very persevering
+labour, succeeded in proving that the orbits of the planets were not
+circles, but that they were ellipses of small eccentricity. Kepler
+was, however, unable to shake himself free from the prevailing notion
+that the angular motion of the planet ought to be of a uniform
+character around some point. He had indeed proved that the motion
+round the focus of the ellipse in which the sun lies is not of this
+description. One of his most important discoveries even related to
+the fact that at some parts of its orbit a planet swings around the
+sun with greater angular velocity than at others. But it so happens
+that in elliptic tracks which differ but little from circles, as is
+the case with all the more important planetary orbits, the motion
+round the empty focus of the ellipse is very nearly uniform. It
+seemed natural to assume, that this was exactly the case, in which
+event each of the two foci of the ellipse would have had a special
+significance in relation to the movement of the planet. The youthful
+Halley, however, demonstrated that so far as the empty focus was
+concerned, the movement of the planet around it, though so nearly
+uniform, was still not exactly so, and at the age of nineteen, he
+published a treatise on the subject which at once placed him in the
+foremost rank amongst theoretical astronomers.
+
+But Halley had no intention of being merely an astronomer with his
+pen. He longed to engage in the practical work of observing. He saw
+that the progress of exact astronomy must depend largely on the
+determination of the positions of the stars with all attainable
+accuracy. He accordingly determined to take up this branch of work,
+which had been so successfully initiated by Tycho Brahe.
+
+At the present day, astronomers of the great national observatories
+are assiduously engaged in the determination of the places of the
+stars. A knowledge of the exact positions of these bodies is indeed
+of the most fundamental importance, not alone for the purposes of
+scientific astronomy, but also for navigation and for extensive
+operations of surveying in which accuracy is desired. The fact that
+Halley determined to concentrate himself on this work shows clearly
+the scientific acumen of the young astronomer.
+
+Halley, however, found that Hevelius, at Dantzig, and Flamsteed, the
+Astronomer Royal at Greenwich, were both engaged on work of this
+character. He accordingly determined to direct his energies in a way
+that he thought would be more useful to science. He resigned to the
+two astronomers whom I have named the investigation of the stars in
+the northern hemisphere, and he sought for himself a field hitherto
+almost entirely unworked. He determined to go to the southern
+hemisphere, there to measure and survey those stars which were
+invisible in Europe, so that his work should supplement the labours
+of the northern astronomers, and that the joint result of his labours
+and of theirs might be a complete survey of the most important stars
+on the surface of the heavens.
+
+In these days, after so many ardent students everywhere have devoted
+themselves to the study of Nature, it seems difficult for a beginner
+to find a virgin territory in which to commence his explorations.
+Halley may, however, be said to have enjoyed the privilege of
+commencing to work in a magnificent region, the contents of which
+were previously almost entirely unknown. Indeed none of the stars
+which were so situated as to have been invisible from Tycho Brahe's
+observatory at Uraniborg, in Denmark, could be said to have been
+properly observed. There was, no doubt, a rumour that a Dutchman had
+observed southern stars from the island of Sumatra, and certain stars
+were indicated in the southern heavens on a celestial globe. On
+examination, however, Halley found that no reliance could be placed
+on the results which had been obtained, so that practically the field
+before him may be said to have been unworked.
+
+At the age of twenty, without having even waited to take that degree
+at the university which the authorities would have been glad to
+confer on so promising an undergraduate, this ardent student of
+Nature sought his father's permission to go to the southern
+hemisphere for the purpose of studying the stars which lie around the
+southern pole. His father possessed the necessary means, and he had
+likewise the sagacity to encourage the young astronomer. He was
+indeed most anxious to make everything as easy as possible for so
+hopeful a son. He provided him with an allowance of 300 pounds a
+year, which was regarded as a very munificent provision in those
+days. Halley was also furnished with letters of recommendation from
+King Charles II., as well as from the directors of the East India
+Company. He accordingly set sail with his instruments in the year
+1676, in one of the East India Company's ships, for the island of St.
+Helena, which he had selected as the scene of his labours.
+
+[PLATE: HALLEY.]
+
+After an uneventful voyage of three months, the astronomer landed on
+St. Helena, with his sextant of five and a half feet radius, and a
+telescope 24 feet long, and forthwith plunged with ardour into his
+investigation of the southern skies. He met, however, with one very
+considerable disappointment. The climate of this island had been
+represented to him as most favourable for astronomical observation;
+but instead of the pure blue skies he had been led to expect, he
+found that they were almost always more or less clouded, and that
+rain was frequent, so that his observations were very much
+interrupted. On this account he only remained at St. Helena for a
+single year, having, during that time, and in spite of many
+difficulties, accomplished a piece of work which earned for him the
+title of "our southern Tycho." Thus did Halley establish his fame as
+an astronomer on the same lonely rock in mid-Atlantic, which nearly a
+century and a-half later became the scene of Napoleon's imprisonment,
+when his star, in which he believed so firmly, had irretrievably set.
+
+On his return to England, Halley prepared a map which showed the
+result of his labours, and he presented it to the king, in 1677.
+Like his great predecessor Tycho, Halley did not altogether disdain
+the arts of the courtier, for he endeavoured to squeeze a new
+constellation into the group around the southern pole which he styled
+"The Royal Oak," adding a description to the effect that the
+incidents of which "The Royal Oak" was a symbol were of sufficient
+importance to be inscribed on the surface of the heavens.
+
+There is reason to think that Charles II. duly appreciated the
+scientific renown which one of his subjects had achieved, and it was
+probably through the influence of the king that Halley was made a
+Master of Arts at Oxford on November 18th, 1678. Special reference
+was made on the occasion to his observations at St. Helena, as
+evidence of unusual attainments in mathematics and astronomy. This
+degree was no small honour to such a young man, who, as we have seen,
+quitted his university before he had the opportunity of graduating in
+the ordinary manner.
+
+On November 30th, in the same year, the astronomer received a further
+distinction in being elected a Fellow of the Royal Society. From
+this time forward he took a most active part in the affairs of the
+Society, and the numerous papers which he read before it form a very
+valuable part of that notable series of volumes known as the
+"Philosophical Transactions." He was subsequently elected to the
+important office of secretary to the Royal Society, and he discharged
+the duties of his post until his appointment to Greenwich
+necessitated his resignation.
+
+Within a year of Halley's election as a Fellow of the Royal Society,
+he was chosen by the Society to represent them in a discussion which
+had arisen with Hevelius. The nature of this discussion, or rather
+the fact that any discussion should have been necessary, may seem
+strange to modern astronomers, for the point is one on which it would
+now seem impossible for there to be any difference of opinion. We
+must, however, remember that the days of Halley were, comparatively
+speaking, the days of infancy as regards the art of astronomical
+observation, and issues that now seem obvious were often, in those
+early times, the occasions of grave and anxious consideration. The
+particular question on which Halley had to represent the Royal
+Society may be simply stated. When Tycho Brahe made his memorable
+investigations into the places of the stars, he had no telescopes to
+help him. The famous instruments at Uraniborg were merely provided
+with sights, by which the telescope was pointed to a star on the same
+principle as a rifle is sighted for a target. Shortly after Tycho's
+time, Galileo invented the telescope. Of course every one admitted
+at once the extraordinary advantages which the telescope had to
+offer, so far as the mere question of the visibility of objects was
+concerned. But the bearing of Galileo's invention upon what we may
+describe as the measuring part of astronomy was not so immediately
+obvious. If a star be visible to the unaided eye, we can determine
+its place by such instruments as those which Tycho used, in which no
+telescope is employed. We can, however, also avail ourselves of an
+instrument in which we view the star not directly but through the
+intervention of the telescope. Can the place of the star be
+determined more accurately by the latter method than it can when the
+telescope is dispensed with? With our present knowledge, of course,
+there is no doubt about the answer; every one conversant with
+instruments knows that we can determine the place of a star far more
+accurately with the telescope than is possible by any mere sighting
+apparatus. In fact an observer would be as likely to make an error
+of a minute with the sighting apparatus in Tycho's instrument, as he
+would be to make an error of a second with the modern telescope, or,
+to express the matter somewhat differently, we may say, speaking
+quite generally, that the telescopic method of determining the places
+of the stars does not lead to errors more than one-sixtieth part as
+great as which are unavoidable when we make use of Tycho's method.
+
+But though this is so apparent to the modern astronomer, it was not
+at all apparent in the days of Halley, and accordingly he was sent
+off to discuss the question with the Continental astronomers.
+Hevelius, as the representative of the older method, which Tycho had
+employed with such success, maintained that an instrument could be
+pointed more accurately at a star by the use of sights than by the
+use of a telescope, and vigorously disputed the claims put forward by
+those who believed that the latter method was the more suitable. On
+May 14th, 1679, Halley started for Dantzig, and the energetic
+character of the man may be judged from the fact that on the very
+night of his arrival he commenced to make the necessary
+observations. In those days astronomical telescopes had only
+obtained a fractional part of the perfection possessed by the
+instruments in our modern observatories, and therefore it may not be
+surprising that the results of the trial were not immediately
+conclusive. Halley appears to have devoted much time to the
+investigation; indeed, he remained at Dantzig for more than a
+twelve-month. On his return to England, he spoke highly of the skill
+which Hevelius exhibited in the use of his antiquated methods, but
+Halley was nevertheless too sagacious an observer to be shaken in his
+preference for the telescopic method of observation.
+
+The next year we find our young astronomer starting for a Continental
+tour, and we, who complain if the Channel passage lasts more than an
+hour or two, may note Halley's remark in writing to Hooke on June
+15th, 1680: "Having fallen in with bad weather we took forty hours in
+the journey from Dover to Calais." The scientific distinction which
+he had already attained was such that he was received in Paris with
+marked attention. A great deal of his time seems to have been passed
+in the Paris observatory, where Cassini, the presiding genius,
+himself an astronomer of well-deserved repute, had extended a hearty
+welcome to his English visitor. They made observations together of
+the place of the splendid comet which was then attracting universal
+attention, and Halley found the work thus done of much use when he
+subsequently came to investigate the path pursued by this body.
+Halley was wise enough to spare no pains to derive all possible
+advantages from his intercourse with the distinguished savants of the
+French capital. In the further progress of his tour he visited the
+principal cities of the Continent, leaving behind him everywhere the
+memory of an amiable disposition and of a rare intelligence.
+
+After Halley's return to England, in 1682, he married a young lady
+named Mary Tooke, with whom he lived happily, till her death
+fifty-five years later. On his marriage, he took up his abode in
+Islington, where he erected his instruments and recommenced his
+observations.
+
+It has often been the good fortune of astronomers to render practical
+services to humanity by their investigations, and Halley's
+achievements in this respect deserve to be noted. A few years after
+he had settled in England, he published an important paper on the
+variation of the magnetic compass, for so the departure of the needle
+from the true north is termed. This subject had indeed early engaged
+his attention, and he continued to feel much interest in it up to the
+end of his life. With respect to his labours in this direction, Sir
+John Herschel says: "To Halley we owe the first appreciation of the
+real complexity of the subject of magnetism. It is wonderful indeed,
+and a striking proof of the penetration and sagacity of this
+extraordinary man, that with his means of information he should have
+been able to draw such conclusions, and to take so large and
+comprehensive a view of the subject as he appears to have done." In
+1692, Halley explained his theory of terrestrial magnetism, and
+begged captains of ships to take observations of the variations of
+the compass in all parts of the world, and to communicate them to the
+Royal Society, "in order that all the facts may be readily available
+to those who are hereafter to complete this difficult and complicated
+subject."
+
+The extent to which Halley was in advance of his contemporaries, in
+the study of terrestrial magnetism, may be judged from the fact that
+the subject was scarcely touched after his time till the year 1811.
+The interest which he felt in it was not of a merely theoretical
+kind, nor was it one which could be cultivated in an easy-chair. Like
+all true investigators, he longed to submit his theory to the test of
+experiment, and for that purpose Halley determined to observe the
+magnetic variation for himself. He procured from King William III.
+the command of a vessel called the "Paramour Pink," with which he
+started for the South Seas in 1694. This particular enterprise was
+not, however, successful; for, on crossing the line, some of his men
+fell sick and one of his lieutenants mutinied, so that he was obliged
+to return the following year with his mission unaccomplished. The
+government cashiered the lieutenant, and Halley having procured a
+second smaller vessel to accompany the "Paramour Pink," started once
+more in September, 1699. He traversed the Atlantic to the 52nd
+degree of southern latitude, beyond which his further advance was
+stopped. "In these latitudes," he writes to say, "we fell in with
+great islands of ice of so incredible height and magnitude, that I
+scarce dare write my thoughts of it."
+
+On his return in 1700, Halley published a general chart, showing the
+variation of the compass at the different places which he had
+visited. On these charts he set down lines connecting those
+localities at which the magnetic variation was identical. He thus
+set an example of the graphic representation of large masses of
+complex facts, in such a manner as to appeal at once to the eye, a
+method of which we make many applications in the present day.
+
+But probably the greatest service which Halley ever rendered to human
+knowledge was the share in which he took in bringing Newton's
+"Principia" before the world. In fact, as Dr. Glaisher, writing in
+1888, has truly remarked, "but for Halley the 'Principia' would not
+have existed."
+
+It was a visit from Halley in the year 1684 which seems to have first
+suggested to Newton the idea of publishing the results of his
+investigations on gravitation. Halley, and other scientific
+contemporaries, had no doubt some faint glimmering of the great truth
+which only Newton's genius was able fully to reveal. Halley had
+indeed shown how, on the assumptions that the planets move in
+circular orbits round the sun, and that the squares of their periodic
+times are proportional to the cubes of their mean distances, it may
+be proved that the force acting on each planet must vary inversely as
+the square of its distance from the sun. Since, however, each of the
+planets actually moves in an ellipse, and therefore, at continually
+varying distances from the sun, it becomes a much more difficult
+matter to account mathematically for the body's motions on the
+supposition that the attractive force varies inversely as the square
+of the distance. This was the question with which Halley found
+himself confronted, but which his mathematical abilities were not
+adequate to solve. It would seem that both Hooke and Sir Christopher
+Wren were interested in the same problem; in fact, the former claimed
+to have arrived at a solution, but declined to make known his
+results, giving as an excuse his desire that others having tried and
+failed might learn to value his achievements all the more. Halley,
+however, confessed that his attempts at the solution were
+unsuccessful, and Wren, in order to encourage the other two
+philosophers to pursue the inquiry, offered to present a book of
+forty shillings value to either of them who should in the space of
+two months bring him a convincing proof of it. Such was the value
+which Sir Christopher set on the Law of Gravitation, upon which the
+whole fabric of modern astronomy may be said to stand.
+
+Finding himself unequal to the task, Halley went down to Cambridge to
+see Newton on the subject, and was delighted to learn that the great
+mathematician had already completed the investigation. He showed
+Halley that the motions of all the planets could be completely
+accounted for on the hypothesis of a force of attraction directed
+towards the sun, which varies inversely as the square of the distance
+from that body.
+
+Halley had the genius to perceive the tremendous importance of
+Newton's researches, and he ceased not to urge upon the recluse man
+of science the necessity for giving his new discoveries publication.
+He paid another visit to Cambridge with the object of learning more
+with regard to the mathematical methods which had already conducted
+Newton to such sublime truths, and he again encouraged the latter
+both to pursue his investigations, and to give some account of them
+to the world. In December of the same year Halley had the
+gratification of announcing to the Royal Society that Newton had
+promised to send that body a paper containing his researches on
+Gravitation.
+
+It seems that at this epoch the finances of the Royal Society were at
+a very low ebb. This impecuniosity was due to the fact that a book
+by Willoughby, entitled "De Historia Piscium," had been recently
+printed by the society at great expense. In fact, the coffers were
+so low that they had some difficulty in paying the salaries of their
+permanent officials. It appears that the public did not care about
+the history of fishes, or at all events the volume did not meet with
+the ready demand which was expected for it. Indeed, it has been
+recorded that when Halley had undertaken to measure the length of a
+degree of the earth's surface, at the request of the Royal Society,
+it was ordered that his expenses be defrayed either in 50 pounds
+sterling, or in fifty books of fishes. Thus it happened that on June
+2nd, the Council, after due consideration of ways and means in
+connection with the issue of the Principia, "ordered that Halley
+should undertake the business of looking after the book and printing
+it at his own charge," which he engaged to do.
+
+It was, as we have elsewhere mentioned, characteristic of Newton that
+he detested controversies, and he was, in fact, inclined to suppress
+the third book of the "Principia" altogether rather than have any
+conflict with Hooke with respect to the discoveries there
+enunciated. He also thought of changing the name of the work to De
+Motu Corporum Libri Duo, but upon second thoughts, he retained the
+original title, remarking, as he wrote to Halley, "It will help the
+sale of the book, which I ought not to diminish, now it is yours," a
+sentence which shows conclusively, if further proof were necessary,
+that Halley had assumed the responsibility of its publication.
+
+Halley spared no pains in pushing forward the publication of his
+illustrious friend's great work, so that in the same year he was in a
+position to present a complete copy to King James II., with a proper
+discourse of his own. Halley also wrote a set of Latin hexameters in
+praise of Newton's genius, which he printed at the beginning of the
+work. The last line of this specimen of Halley's poetic muse may be
+thus rendered: "Nor mortals nearer may approach the gods."
+
+The intimate friendship between the two greatest astronomers of the
+time continued without interruption till the death of Newton. It
+has, indeed, been alleged that some serious cause of estrangement
+arose between them. There is, however, no satisfactory ground for
+this statement; indeed, it may be regarded as effectually disposed of
+by the fact that, in the year 1727, Halley took up the defence of his
+friend, and wrote two learned papers in support of Newton's "System
+of Chronology," which had been seriously attacked by a certain
+ecclesiastic. It is quite evident to any one who has studied these
+papers that Halley's friendship for Newton was as ardent as ever.
+
+The generous zeal with which Halley adopted and defended the
+doctrines of Newton with regard to the movements of the celestial
+bodies was presently rewarded by a brilliant discovery, which has
+more than any of his other researches rendered his name a familiar
+one to astronomers. Newton, having explained the movement of the
+planets, was naturally led to turn his attention to comets. He
+perceived that their journeyings could be completely accounted for as
+consequences of the attraction of the sun, and he laid down the
+principles by which the orbit of a comet could be determined,
+provided that observations of its positions were obtained at three
+different dates. The importance of these principles was by no one
+more quickly recognised than by Halley, who saw at once that it
+provided the means of detecting something like order in the movements
+of these strange wanderers. The doctrine of Gravitation seemed to
+show that just as the planets revolved around the sun in ellipses, so
+also must the comets. The orbit, however, in the case of the comet,
+is so extremely elongated that the very small part of the elliptic
+path within which the comet is both near enough and bright enough to
+be seen from the earth, is indistinguishable from a parabola.
+Applying these principles, Halley thought it would be instructive to
+study the movements of certain bright comets, concerning which
+reliable observations could be obtained. At the expense of much
+labour, he laid down the paths pursued by twenty-four of these
+bodies, which had appeared between the years 1337 and 1698. Amongst
+them he noticed three, which followed tracks so closely resembling
+each other, that he was led to conclude the so called three comets
+could only have been three different appearances of the same body.
+The first of these occurred in 1531, the second was seen by Kepler in
+1607, and the third by Halley himself in 1682. These dates suggested
+that the observed phenomena might be due to the successive returns of
+one and the same comet after intervals of seventy-five or seventy-six
+years. On the further examination of ancient records, Halley found
+that a comet had been seen in the year 1456, a date, it will be
+observed, seventy-five years before 1531. Another had been observed
+seventy-six years earlier than 1456, viz., in 1380, and another
+seventy-five years before that, in 1305.
+
+As Halley thus found that a comet had been recorded on several
+occasions at intervals of seventy-five or seventy-six years, he was
+led to the conclusion that these several apparitions related to one
+and the same object, which was an obedient vassal of the sun,
+performing an eccentric journey round that luminary in a period of
+seventy-five or seventy-six years. To realise the importance of this
+discovery, it should be remembered that before Halley's time a comet,
+if not regarded merely as a sign of divine displeasure, or as an omen
+of intending disaster, had at least been regarded as a chance visitor
+to the solar system, arriving no one knew whence, and going no one
+knew whither.
+
+A supreme test remained to be applied to Halley's theory. The
+question arose as to the date at which this comet would be seen
+again. We must observe that the question was complicated by the fact
+that the body, in the course of its voyage around the sun, was
+exposed to the incessant disturbing action produced by the attraction
+of the several planets. The comet therefore, does not describe a
+simple ellipse as it would do if the attraction of the sun were the
+only force by which its movement were controlled. Each of the
+planets solicits the comet to depart from its track, and though the
+amount of these attractions may be insignificant in comparison with
+the supreme controlling force of the sun, yet the departure from the
+ellipse is quite sufficient to produce appreciable irregularities in
+the comet's movement. At the time when Halley lived, no means
+existed of calculating with precision the effect of the disturbance a
+comet might experience from the action of the different planets.
+Halley exhibited his usual astronomical sagacity in deciding that
+Jupiter would retard the return of the comet to some extent. Had it
+not been for this disturbance the comet would apparently have been
+due in 1757 or early in 1758. But the attraction of the great planet
+would cause delay, so that Halley assigned, for the date of its
+re-appearance, either the end of 1758 or the beginning of 1759.
+Halley knew that he could not himself live to witness the fulfilment
+of his prediction, but he says: "If it should return, according to
+our predictions, about the year 1758, impartial posterity will not
+refuse to acknowledge that this was first discovered by an
+Englishman." This was, indeed, a remarkable prediction of an event
+to occur fifty-three years after it had been uttered. The way in
+which it was fulfilled forms one of the most striking episodes in the
+history of astronomy. The comet was first seen on Christmas Day,
+1758, and passed through its nearest point to the sun on March 13th,
+1759. Halley had then been lying in his grave for seventeen years,
+yet the verification of his prophecy reflects a glory on his name
+which will cause it to live for ever in the annals of astronomy. The
+comet paid a subsequent visit in 1835, and its next appearance is due
+about 1910.
+
+Halley next entered upon a labour which, if less striking to the
+imagination than his discoveries with regard to comets, is still of
+inestimable value in astronomy. He undertook a series of
+investigations with the object of improving our knowledge of the
+movements of the planets. This task was practically finished in
+1719, though the results of it were not published until after his
+death in 1749. In the course of it he was led to investigate closely
+the motion of Venus, and thus he came to recognise for the first time
+the peculiar importance which attaches to the phenomenon of the
+transit of this planet across the sun. Halley saw that the transit,
+which was to take place in the year 1761, would afford a favourable
+opportunity for determining the distance of the sun, and thus
+learning the scale of the solar system. He predicted the
+circumstances of the phenomenon with an astonishing degree of
+accuracy, considering his means of information, and it is
+unquestionably to the exertions of Halley in urging the importance of
+the matter upon astronomers that we owe the unexampled degree of
+interest taken in the event, and the energy which scientific men
+exhibited in observing it. The illustrious astronomer had no hope of
+being himself a witness of the event, for it could not happen till
+many years after his death. This did not, however, diminish his
+anxiety to impress upon those who would then be alive, the importance
+of the occurrence, nor did it lead him to neglect anything which
+might contribute to the success of the observations. As we now know,
+Halley rather over-estimated the value of the transit of Venus, as a
+means of determining the solar distance. The fact is that the
+circumstances are such that the observation of the time of contact
+between the edge of the planet and the edge of the sun cannot be made
+with the accuracy which he had expected.
+
+In 1691, Halley became a candidate for the Savilian Professorship of
+Astronomy at Oxford. He was not, however, successful, for his
+candidature was opposed by Flamsteed, the Astronomer Royal of the
+time, and another was appointed. He received some consolation for
+this particular disappointment by the fact that, in 1696, owing to
+Newton's friendly influence, he was appointed deputy Controller of
+the Mint at Chester, an office which he did not retain for long, as
+it was abolished two years later. At last, in 1703, he received what
+he had before vainly sought, and he was appointed to the Savilian
+chair.
+
+His observations of the eclipse of the sun, which occurred in 1715,
+added greatly to Halley's reputation. This phenomenon excited
+special attention, inasmuch as it was the first total eclipse of the
+sun which had been visible in London since the year 1140. Halley
+undertook the necessary calculations, and predicted the various
+circumstances with a far higher degree of precision than the official
+announcement. He himself observed the phenomenon from the Royal
+Society's rooms, and he minutely describes the outer atmosphere of
+the sun, now known as the corona; without, however, offering an
+opinion as to whether it was a solar or a lunar appendage.
+
+At last Halley was called to the dignified office which he of all men
+was most competent to fill. On February 9th, 1720, he was appointed
+Astronomer Royal in succession to Flamsteed. He found things at the
+Royal Observatory in a most unsatisfactory state. Indeed, there were
+no instruments, nor anything else that was movable; for such things,
+being the property of Flamsteed, had been removed by his widow, and
+though Halley attempted to purchase from that lady some of the
+instruments which his predecessor had employed, the unhappy personal
+differences which had existed between him and Flamsteed, and which,
+as we have already seen, prevented his election as Savilian Professor
+of Astronomy, proved a bar to the negotiation. Greenwich Observatory
+wore a very different appearance in those days, from that which the
+modern visitor, who is fortunate enough to gain admission, may now
+behold. Not only did Halley find it bereft of instruments, we learn
+besides that he had no assistants, and was obliged to transact the
+whole business of the establishment single-handed.
+
+In 1721, however, he obtained a grant of 500 pounds from the Board of
+Ordnance, and accordingly a transit instrument was erected in the
+same year. Some time afterwards he procured an eight-foot quadrant,
+and with these instruments, at the age of sixty-four, he commenced a
+series of observations on the moon. He intended, if his life was
+spared, to continue his observations for a period of eighteen years,
+this being, as astronomers know, a very important cycle in connection
+with lunar movements. The special object of this vast undertaking
+was to improve the theory of the moon's motion, so that it might
+serve more accurately to determine longitudes at sea. This
+self-imposed task Halley lived to carry to a successful termination,
+and the tables deduced from his observations, and published after his
+death, were adopted almost universally by astronomers, those of the
+French nation being the only exception.
+
+Throughout his life Halley had been singularly free from illness of
+every kind, but in 1737 he had a stroke of paralysis. Notwithstanding
+this, however, he worked diligently at his telescope till 1739, after
+which his health began rapidly to give way. He died on January 14th,
+1742, in the eighty-sixth year of his age, retaining his mental
+faculties to the end. He was buried in the cemetery of the church of
+Lee in Kent, in the same grave as his wife, who had died five years
+previously. We are informed by Admiral Smyth that Pond, a later
+Astronomer Royal, was afterwards laid in the same tomb.
+
+Halley's disposition seems to have been generous and candid, and
+wholly free from anything like jealousy or rancour. In person he was
+rather above the middle height, and slight in build; his complexion
+was fair, and he is said to have always spoken, as well as acted,
+with uncommon sprightliness. In the eloge pronounced upon him at the
+Paris Academie Des Sciences, of which Halley had been made a member
+in 1719 it was said, "he possessed all the qualifications which were
+necessary to please princes who were desirous of instruction, with a
+great extent of knowledge and a constant presence of mind; his
+answers were ready, and at the same time pertinent, judicious, polite
+and sincere."
+
+[PLATE: GREENWICH OBSERVATORY IN HALLEY'S TIME.]
+
+Thus we find that Peter the Great was one of his most ardent
+admirers. He consulted the astronomer on matters connected with
+shipbuilding, and invited him to his own table. But Halley possessed
+nobler qualifications than the capacity of pleasing Princes. He was
+able to excite and to retain the love and admiration of his equals.
+This was due to the warmth of his attachments, the unselfishness of
+his devotion to his friends, and to a vein of gaiety and good-humour
+which pervaded all his conversation.
+
+
+
+
+BRADLEY.
+
+
+James Bradley was descended from an ancient family in the county of
+Durham. He was born in 1692 or 1693, at Sherbourne, in
+Gloucestershire, and was educated in the Grammar School at
+Northleach. From thence he proceeded in due course to Oxford, where
+he was admitted a commoner at Balliol College, on March 15th, 1711.
+Much of his time, while an undergraduate, was passed in Essex with
+his maternal uncle, the Rev. James Pound, who was a well-known man of
+science and a diligent observer of the stars. It was doubtless by
+intercourse with his uncle that young Bradley became so expert in the
+use of astronomical instruments, but the immortal discoveries he
+subsequently made show him to have been a born astronomer.
+
+The first exhibition of Bradley's practical skill seems to be
+contained in two observations which he made in 1717 and 1718. They
+have been published by Halley, whose acuteness had led him to
+perceive the extraordinary scientific talents of the young
+astronomer. Another illustration of the sagacity which Bradley
+manifested, even at the very commencement of his astronomical career,
+is contained in a remark of Halley's, who says: "Dr. Pound and his
+nephew, Mr. Bradley, did, myself being present, in the last
+opposition of the sun and Mars this way demonstrate the extreme
+minuteness of the sun's parallax, and that it was not more than
+twelve seconds nor less than nine seconds." To make the significance
+of this plain, it should be observed that the determination of the
+sun's parallax is equivalent to the determination of the distance
+from the earth to the sun. At the time of which we are now writing,
+this very important unit of celestial measurement was only very
+imperfectly known, and the observations of Pound and Bradley may be
+interpreted to mean that, from their observations, they had come to
+the conclusion that the distance from the earth to the sun must be
+more than 94 millions of miles, and less than 125 millions. We now,
+of course, know that they were not exactly right, for the true
+distance of the sun is about 93 millions of miles. We cannot,
+however, but think that it was a very remarkable approach for the
+veteran astronomer and his brilliant nephew to make towards the
+determination of a magnitude which did not become accurately known
+till fifty years later.
+
+Among the earliest parts of astronomical work to which Bradley's
+attention was directed, were the eclipses of Jupiter's satellites.
+These phenomena are specially attractive inasmuch as they can be so
+readily observed, and Bradley found it extremely interesting to
+calculate the times at which the eclipses should take place, and then
+to compare his observations with the predicted times. From the
+success that he met with in this work, and from his other labours,
+Bradley's reputation as an astronomer increased so greatly that on
+November the 6th, 1718, he was elected a Fellow of the Royal Society.
+
+Up to this time the astronomical investigations of Bradley had been
+more those of an amateur than of a professional astronomer, and as it
+did not at first seem likely that scientific work would lead to any
+permanent provision, it became necessary for the youthful astronomer
+to choose a profession. It had been all along intended that he
+should enter the Church, though for some reason which is not told us,
+he did not take orders as soon as his age would have entitled him to
+do so. In 1719, however, the Bishop of Hereford offered Bradley the
+Vicarage of Bridstow, near Ross, in Monmouthshire, and on July 25th,
+1720, he having then taken priest's orders, was duly instituted in
+his vicarage. In the beginning of the next year, Bradley had some
+addition to his income from the proceeds of a Welsh living, which,
+being a sinecure, he was able to hold with his appointment at
+Bridstow. It appears, however, that his clerical occupations were
+not very exacting in their demands upon his time, for he was still
+able to pay long and often-repeated visits to his uncle at
+Wandsworth, who, being himself a clergyman, seems to have received
+occasional assistance in his ministerial duties from his astronomical
+nephew.
+
+The time, however, soon arrived when Bradley was able to make a
+choice between continuing to exercise his profession as a divine, or
+devoting himself to a scientific career. The Savilian Professorship
+of Astronomy in the University of Oxford became vacant by the death
+of Dr. John Keill. The statutes forbade that the Savilian Professor
+should also hold a clerical appointment, and Mr. Pound would
+certainly have been elected to the professorship had he consented to
+surrender his preferments in the Church. But Pound was unwilling to
+sacrifice his clerical position, and though two or three other
+candidates appeared in the field, yet the talents of Bradley were so
+conspicuous that he was duly elected, his willingness to resign the
+clerical profession having been first ascertained.
+
+There can be no doubt that, with such influential friends as Bradley
+possessed, he would have made great advances had he adhered to his
+profession as a divine. Bishop Hoadly, indeed, with other marks of
+favour, had already made the astronomer his chaplain. The engrossing
+nature of Bradley's interest in astronomy decided him, however, to
+sacrifice all other prospects in comparison with the opening afforded
+by the Savilian Professorship. It was not that Bradley found himself
+devoid of interest in clerical matters, but he felt that the true
+scope for such abilities as he possessed would be better found in the
+discharge of the scientific duties of the Oxford chair than in the
+spiritual charge of a parish. On April the 26th, 1722, Bradley read
+his inaugural lecture in that new position on which he was destined
+to confer such lustre.
+
+It must, of course, be remembered that in those early days the art of
+constructing the astronomical telescope was very imperfectly
+understood. The only known method for getting over the peculiar
+difficulties presented in the construction of the refracting
+telescope, was to have it of the most portentous length. In fact,
+Bradley made several of his observations with an instrument of two
+hundred and twelve feet focus. In such a case, no tube could be
+used, and the object glass was merely fixed at the top of a high
+pole. Notwithstanding the inconvenience and awkwardness of such an
+instrument, Bradley by its means succeeded in making many careful
+measurements. He observed, for example, the transit of Mercury over
+the sun's disc, on October 9th, 1723; he also observed the dimensions
+of the planet Venus, while a comet which Halley discovered on October
+the 9th, 1723, was assiduously observed at Wanstead up to the middle
+of the ensuing month. The first of Bradley's remarkable
+contributions to the "Philosophical Transactions" relates to this
+comet, and the extraordinary amount of work that he went through in
+connection therewith may be seen from an examination of his book of
+Calculations which is still extant.
+
+The time was now approaching when Bradley was to make the first of
+those two great discoveries by which his name has acquired a lustre
+that has placed him in the very foremost rank of astronomical
+discoverers. As has been often the case in the history of science,
+the first of these great successes was attained while he was pursuing
+a research intended for a wholly different purpose. It had long been
+recognised that as the earth describes a vast orbit, nearly two
+hundred million miles in diameter, in its annual journey round the
+sun, the apparent places of the stars should alter, to some extent,
+in correspondence with the changes in the earth's position. The
+nearer the star the greater the shift in its apparent place on the
+heavens, which must arise from the fact that it was seen from
+different positions in the earth's orbit. It had been pointed out
+that these apparent changes in the places of the stars, due to the
+movement of the earth, would provide the means of measuring the
+distances of the stars. As, however, these distances are enormously
+great in comparison with the orbit which the earth describes around
+the sun, the attempt to determine the distances of the stars by the
+shift in their positions had hitherto proved ineffectual. Bradley
+determined to enter on this research once again; he thought that by
+using instruments of greater power, and by making measurements of
+increased delicacy, he would be able to perceive and to measure
+displacements which had proved so small as to elude the skill of the
+other astronomers who had previously made efforts in the same
+direction. In order to simplify the investigation as much as
+possible, Bradley devoted his attention to one particular star, Beta
+Draconis, which happened to pass near his zenith. The object of
+choosing a star in this position was to avoid the difficulties which
+would be introduced by refraction had the star occupied any other
+place in the heavens than that directly overhead.
+
+We are still able to identify the very spot on which the telescope
+stood which was used in this memorable research. It was erected at
+the house then occupied by Molyneux, on the western extremity of Kew
+Green. The focal length was 24 feet 3 inches, and the eye-glass was
+3 and a half feet above the ground floor. The instrument was first
+set up on November 26th, 1725. If there had been any appreciable
+disturbance in the place of Beta Draconis in consequence of the
+movement of the earth around the sun, the star must appear to have
+the smallest latitude when in conjunction with the sun, and the
+greatest when in opposition. The star passed the meridian at noon in
+December, and its position was particularly noticed by Molyneux on
+the third of that month. Any perceptible displacement by
+parallax--for so the apparent change in position, due to the earth's
+motion, is called--would would have made the star shift towards the
+north. Bradley, however, when observing it on the 17th, was
+surprised to find that the apparent place of the star, so far from
+shifting towards the north, as they had perhaps hoped it would, was
+found to lie a little more to the south than when it was observed
+before. He took extreme care to be sure that there was no mistake in
+his observation, and, true astronomer as he was, he scrutinized with
+the utmost minuteness all the circumstances of the adjustment of his
+instruments. Still the star went to the south, and it continued so
+advancing in the same direction until the following March, by which
+time it had moved no less than twenty seconds south from the place
+which it occupied when the first observation was made. After a brief
+pause, in which no apparent movement was perceptible, the star by the
+middle of April appeared to be returning to the north. Early in June
+it reached the same distance from the zenith which it had in
+December. By September the star was as much as thirty-nine seconds
+more to the north than it had been in March, then it returned towards
+the south, regaining in December the same situation which it had
+occupied twelve months before.
+
+This movement of the star being directly opposite to the movements
+which would have been the consequence of parallax, seemed to show
+that even if the star had any parallax its effects upon the apparent
+place were entirely masked by a much larger motion of a totally
+different description. Various attempts were made to account for the
+phenomenon, but they were not successful. Bradley accordingly
+determined to investigate the whole subject in a more thorough
+manner. One of his objects was to try whether the same movements
+which he had observed in one star were in any similar degree
+possessed by other stars. For this purpose he set up a new
+instrument at Wanstead, and there he commenced a most diligent
+scrutiny of the apparent places of several stars which passed at
+different distances from the zenith. He found in the course of this
+research that other stars exhibited movements of a similar
+description to those which had already proved so perplexing. For a
+long time the cause of these apparent movements seemed a mystery. At
+last, however, the explanation of these remarkable phenomena dawned
+upon him, and his great discovery was made.
+
+One day when Bradley was out sailing he happened to remark that every
+time the boat was laid on a different tack the vane at the top of the
+boat's mast shifted a little, as if there had been a slight change in
+the direction of the wind. After he had noticed this three or four
+times he made a remark to the sailors to the effect that it was very
+strange the wind should always happen to change just at the moment
+when the boat was going about. The sailors, however, said there had
+been no change in the wind, but that the alteration in the vane was
+due to the fact that the boat's course had been altered. In fact,
+the position of the vane was determined both by the course of the
+boat and the direction of the wind, and if either of these were
+altered there would be a corresponding change in the direction of the
+vane. This meant, of course, that the observer in the boat which was
+moving along would feel the wind coming from a point different from
+that in which the wind appeared to be blowing when the boat was at
+rest, or when it was sailing in some different direction. Bradley's
+sagacity saw in this observation the clue to the Difficulty which had
+so long troubled him.
+
+It had been discovered before the time of Bradley that the passage of
+light through space is not an instantaneous phenomenon. Light
+requires time for its journey. Galileo surmised that the sun may
+have reached the horizon before we see it there, and it was indeed
+sufficiently obvious that a physical action, like the transmission of
+light, could hardly take place without requiring some lapse of time.
+The speed with which light actually travelled was, however, so rapid
+that its determination eluded all the means of experimenting which
+were available in those days. The penetration of Roemer had
+previously detected irregularities in the observed times of the
+eclipses of Jupiter's satellites, which were undoubtedly due to the
+interval which light required for stretching across the
+interplanetary spaces. Bradley argued that as light can only travel
+with a certain speed, it may in a measure be regarded like the wind,
+which he noticed in the boat. If the observer were at rest, that is
+to say, if the earth were a stationary object, the direction in which
+the light actually does come would be different from that in which it
+appears to come when the earth is in motion. It is true that the
+earth travels but eighteen miles a second, while the velocity with
+which light is borne along attains to as much as 180,000 miles a
+second. The velocity of light is thus ten thousand times greater
+than the speed of the earth. But even though the wind blew ten
+thousand times faster than the speed with which the boat was sailing
+there would still be some change, though no doubt a very small
+change, in the position of the vane when the boat was in progress
+from the position it would have if the boat were at rest. It
+therefore occurred to this most acute of astronomers that when the
+telescope was pointed towards a star so as to place it apparently in
+the centre of the field of view, yet it was not generally the true
+position of the star. It was not, in fact, the position in which the
+star would have been observed had the earth been at rest. Provided
+with this suggestion, he explained the apparent movements of the
+stars by the principle known as the "aberration of light." Every
+circumstance was accounted for as a consequence of the relative
+movements of the earth and of the light from the star. This
+beautiful discovery not only established in the most forcible manner
+the nature of the movement of light; not only did it illustrate the
+truth of the Copernican theory which asserted that the earth revolved
+around the sun, but it was also of the utmost importance in the
+improvement of practical astronomy. Every observer now knows that,
+generally speaking, the position which the star appears to have is
+not exactly the position in which the star does actually lie. The
+observer is, however, able, by the application of the principles
+which Bradley so clearly laid down, to apply to an observation the
+correction which is necessary to obtain from it the true place in
+which the object is actually situated. This memorable achievement at
+once conferred on Bradley the highest astronomical fame. He tested
+his discovery in every way, but only to confirm its truth in the most
+complete manner.
+
+Halley, the Astronomer Royal, died on the 14th, January, 1742, and
+Bradley was immediately pointed out as his successor. He was
+accordingly appointed Astronomer Royal in February, 1742. On first
+taking up his abode at Greenwich he was unable to conduct his
+observations owing to the wretched condition in which he found the
+instruments. He devoted himself, however, assiduously to their
+repair, and his first transit observation is recorded on the 25th
+July, 1742. He worked with such energy that on one day it appears
+that 255 transit observations were taken by himself alone, and in
+September, 1747, he had completed the series of observations which
+established his second great discovery, the nutation of the earth's
+axis. The way in which he was led to the detection of the nutation
+is strikingly illustrative of the extreme care with which Bradley
+conducted his observations. He found that in the course of a
+twelve-month, when the star had completed the movement which was due
+to aberration, it did not return exactly to the same position which
+it had previously occupied. At first he thought this must be due to
+some instrumental error, but after closer examination and repeated
+study of the effect as manifested by many different stars, he came to
+the conclusion that its origin must be sought in some quite different
+source. The fact is that a certain change takes place in the
+apparent position of the stars which is not due to the movement of
+the star itself, but is rather to be attributed to changes in the
+points from which the star's positions are measured.
+
+We may explain the matter in this way. As the earth is not a sphere,
+but has protuberant parts at the equator, the attraction of the moon
+exercises on those protuberant parts a pulling effect which
+continually changes the direction of the earth's axis, and
+consequently the position of the pole must be in a state of incessant
+fluctuation. The pole to which the earth's axis points on the sky
+is, therefore, slowly changing. At present it happens to lie near
+the Pole Star, but it will not always remain there. It describes a
+circle around the pole of the Ecliptic, requiring about 25,000 years
+for a complete circuit. In the course of its progress the pole will
+gradually pass now near one star and now near another, so that many
+stars will in the lapse of ages discharge the various functions which
+the present Pole Star does for us. In about 12,000 years, for
+instance, the pole will have come near the bright star, Vega. This
+movement of the pole had been known for ages. But what Bradley
+discovered was that the pole, instead of describing an uniform
+movement as had been previously supposed, followed a sinuous course
+now on one side and now on the other of its mean place. This he
+traced to the fluctuations of the moon's orbit, which undergoes a
+continuous change in a period of nineteen years. Thus the efficiency
+with which the moon acts on the protuberant mass of the earth varies,
+and thus the pole is caused to oscillate.
+
+This subtle discovery, if perhaps in some ways less impressive than
+Bradley's earlier achievements of the detection of the aberration of
+light, is regarded by astronomers as testifying even in a higher
+degree to his astonishing care and skill as an observer, and justly
+entitles him to a unique place among the astronomers whose
+discoveries have been effected by consummate practical skill in the
+use of astronomical instruments.
+
+Of Bradley's private or domestic life there is but little to tell. In
+1744, soon after he became Astronomer Royal, he married a daughter of
+Samuel Peach, of Chalford, in Gloucestershire. There was but one
+child, a daughter, who became the wife of her cousin, Rev. Samuel
+Peach, rector of Compton, Beauchamp, in Berkshire.
+
+Bradley's last two years of life were clouded by a melancholy
+depression of spirits, due to an apprehension that he should survive
+his rational faculties. It seems, however, that the ill he dreaded
+never came upon him, for he retained his mental powers to the close.
+He died on 13th July, 1762, aged seventy, and was buried at
+Michinghamton.
+
+
+
+
+WILLIAM HERSCHEL.
+
+
+William Herschel, one of the greatest astronomers that has ever
+lived, was born at Hanover, on the 15th November, 1738. His father,
+Isaac Herschel, was a man evidently of considerable ability, whose
+life was devoted to the study and practice of music, by which he
+earned a somewhat precarious maintenance. He had but few worldly
+goods to leave to his children, but he more than compensated for this
+by bequeathing to them a splendid inheritance of genius. Touches of
+genius were, indeed, liberally scattered among the members of Isaac's
+large family, and in the case of his forth child, William, and of a
+sister several years younger, it was united with that determined
+perseverance and rigid adherence to principle which enabled genius to
+fulfil its perfect work.
+
+A faithful chronicler has given us an interesting account of the way
+in which Isaac Herschel educated his sons; the narrative is taken
+from the recollections of one who, at the time we are speaking of,
+was an unnoticed little girl five or six years old. She writes:--
+
+"My brothers were often introduced as solo performers and assistants
+in the orchestra at the Court, and I remember that I was frequently
+prevented from going to sleep by the lively criticisms on music on
+coming from a concert. Often I would keep myself awake that I might
+listen to their animating remarks, for it made me so happy to see
+them so happy. But generally their conversation would branch out on
+philosophical subjects, when my brother William and my father often
+argued with such warmth that my mother's interference became
+necessary, when the names--Euler, Leibnitz, and Newton--sounded
+rather too loud for the repose of her little ones, who had to be at
+school by seven in the morning." The child whose reminiscences are
+here given became afterwards the famous Caroline Herschel. The
+narrative of her life, by Mrs. John Herschel, is a most interesting
+book, not only for the account it contains of the remarkable woman
+herself, but also because it provides the best picture we have of the
+great astronomer to whom Caroline devoted her life.
+
+This modest family circle was, in a measure, dispersed at the
+outbreak of the Seven Years' War in 1756. The French proceeded to
+invade Hanover, which, it will be remembered, belonged at this time
+to the British dominions. Young William Herschel had already
+obtained the position of a regular performer in the regimental band
+of the Hanoverian Guards, and it was his fortune to obtain some
+experience of actual warfare in the disastrous battle of Hastenbeck.
+He was not wounded, but he had to spend the night after the battle in
+a ditch, and his meditations on the occasion convinced him that
+soldiering was not the profession exactly adapted to his tastes. We
+need not attempt to conceal the fact that he left his regiment by the
+very simple but somewhat risky process of desertion. He had, it
+would seem, to adopt disguises to effect his escape. At all events,
+by some means he succeeded in eluding detection and reached England
+in safety. It is interesting to have learned on good authority that
+many years after this offence was committed it was solemnly
+forgiven. When Herschel had become the famous astronomer, and as
+such visited King George at Windsor, the King at their first meeting
+handed to him his pardon for deserting from the army, written out in
+due form by his Majesty himself.
+
+It seems that the young musician must have had some difficulty in
+providing for his maintenance during the first few years of his abode
+in England. It was not until he had reached the age of twenty-two
+that he succeeded in obtaining any regular appointment. He was then
+made Instructor of Music to the Durham Militia. Shortly afterwards,
+his talents being more widely recognised, he was appointed as
+organist at the parish church at Halifax, and his prospects in life
+now being fairly favourable, and the Seven Years' War being over, he
+ventured to pay a visit to Hanover to see his father. We can imagine
+the delight with which old Isaac Herschel welcomed his promising son,
+as well as his parental pride when a concert was given at which some
+of William's compositions were performed. If the father was so
+intensely gratified on this occasion, what would his feelings have
+been could he have lived to witness his son's future career? But
+this pleasure was not to be his, for he died many years before
+William became an astronomer.
+
+In 1766, about a couple of years after his return to England from
+This visit to his old home, we find that Herschel had received a
+further promotion to be organist in the Octagon Chapel, at Bath.
+Bath was then, as now, a highly fashionable resort, and many notable
+personages patronised the rising musician. Herschel had other points
+in his favour besides his professional skill; his appearance was
+good, his address was prepossessing, and even his nationality was a
+distinct advantage, inasmuch as he was a Hanoverian in the reign of
+King George the Third. On Sundays he played the organ, to the great
+delight of the congregation, and on week-days he was occupied by
+giving lessons to private pupils, and in preparation for public
+performances. He thus came to be busily employed, and seems to have
+been in the enjoyment of comfortable means.
+
+[PLATE: 7, NEW KING STREET, BATH, WHERE HERSCHEL LIVED.]
+
+From his earliest youth Herschel had been endowed with that
+invaluable characteristic, an eager curiosity for knowledge. He was
+naturally desirous of perfecting himself in the theory of music, and
+thus he was led to study mathematics. When he had once tasted the
+charms of mathematics, he saw vast regions of knowledge unfolded
+before him, and in this way he was induced to direct his attention to
+astronomy. More and more this pursuit seems to have engrossed his
+attention, until at last it had become an absorbing passion. Herschel
+was, however, still obliged, by the exigency of procuring a
+livelihood, to give up the best part of his time to his profession as
+a musician; but his heart was eagerly fixed on another science, and
+every spare moment was steadily devoted to astronomy. For many
+years, however, he continued to labour at his original calling, nor
+was it until he had attained middle age and become the most
+celebrated astronomer of the time, that he was enabled to concentrate
+his attention exclusively on his favourite pursuit.
+
+It was with quite a small telescope which had been lent him by a
+friend that Herschel commenced his career as an observer. However,
+he speedily discovered that to see all he wanted to see, a telescope
+of far greater power would be necessary, and he determined to obtain
+this more powerful instrument by actually making it with his own
+hands. At first it may seem scarcely likely that one whose
+occupation had previously been the study and practice of music should
+meet with success in so technical an operation as the construction of
+a telescope. It may, however, be mentioned that the kind of
+instrument which Herschel designed to construct was formed on a very
+different principle from the refracting telescopes with which we are
+ordinarily familiar. His telescope was to be what is termed a
+reflector. In this type of instrument the optical power is obtained
+by the use of a mirror at the bottom of the tube, and the astronomer
+looks down through the tube TOWARDS HIS MIRROR and views the
+reflection of the stars with its aid. Its efficiency as a telescope
+depends entirely on the accuracy with which the requisite form has
+been imparted to the mirror. The surface has to be hollowed out a
+little, and this has to be done so truly that the slightest deviation
+from good workmanship in this essential particular would be fatal to
+efficient performance of the telescope.
+
+[PLATE: WILLIAM HERSCHEL.]
+
+The mirror that Herschel employed was composed of a mixture of two
+parts of copper to one of tin; the alloy thus obtained is an
+intensely hard material, very difficult to cast into the proper
+shape, and very difficult to work afterwards. It possesses, however,
+when polished, a lustre hardly inferior to that of silver itself.
+Herschel has recorded hardly any particulars as to the actual process
+by which he cast and figured his reflectors. We are however, told
+that in later years, after his telescopes had become famous, he made
+a considerable sum of money by the manufacture and sale of great
+instruments. Perhaps this may be the reason why he never found it
+expedient to publish any very explicit details as to the means by
+which his remarkable successes were obtained.
+
+[PLATE: CAROLINE HERSCHEL.]
+
+Since Herschel's time many other astronomers, notably the late Earl
+of Rosse, have experimented in the same direction, and succeeded in
+making telescopes certainly far greater, and probably more perfect,
+than any which Herschel appears to have constructed. The details of
+these later methods are now well known, and have been extensively
+practised. Many amateurs have thus been able to make telescopes by
+following the instructions so clearly laid down by Lord Rosse and the
+other authorities. Indeed, it would seem that any one who has a
+little mechanical skill and a good deal of patience ought now to
+experience no great difficulty in constructing a telescope quite as
+powerful as that which first brought Herschel into fame. I should,
+however, mention that in these modern days the material generally
+used for the mirror is of a more tractable description than the
+metallic substance which was employed by Herschel and by Lord Rosse.
+A reflecting telescope of the present day would not be fitted with a
+mirror composed of that alloy known as speculum metal, whose
+composition I have already mentioned. It has been found more
+advantageous to employ a glass mirror carefully figured and polished,
+just as a metallic mirror would have been, and then to impart to the
+polished glass surface a fine coating of silver laid down by a
+chemical process. The silver-on-glass mirrors are so much lighter
+and so much easier to construct that the more old-fashioned metallic
+mirrors may be said to have fallen into almost total disuse. In one
+respect however, the metallic mirror may still claim the advantage
+that, with reasonable care, its surface will last bright and
+untarnished for a much longer period than can the silver film on the
+glass. However, the operation of re-silvering a glass has now become
+such a simple one that the advantage this indicates is not relatively
+so great as might at first be supposed.
+
+[PLATE: STREET VIEW, HERSCHEL HOUSE, SLOUGH.]
+
+Some years elapsed after Herschel's attention had been first directed
+to astronomy, before he reaped the reward of his exertions in the
+possession of a telescope which would adequately reveal some of the
+glories of the heavens. It was in 1774, when the astronomer was
+thirty-six years old, that he obtained his first glimpse of the stars
+with an instrument of his own construction. Night after night, as
+soon as his musical labours were ended, his telescopes were brought
+out, sometimes into the small back garden of his house at Bath, and
+sometimes into the street in front of his hall-door. It was
+characteristic of him that he was always endeavouring to improve his
+apparatus. He was incessantly making fresh mirrors, or trying new
+lenses, or combinations of lenses to act as eye-pieces, or projecting
+alterations in the mounting by which the telescope was supported.
+Such was his enthusiasm that his house, we are told, was incessantly
+littered with the usual indications of the workman's presence,
+greatly to the distress of his sister, who, at this time, had come to
+take up her abode with him and look after his housekeeping. Indeed,
+she complained that in his astronomical ardour he sometimes omitted
+to take off, before going into his workshop, the beautiful lace
+ruffles which he wore while conducting a concert, and that
+consequently they became soiled with the pitch employed in the
+polishing of his mirrors.
+
+This sister, who occupies such a distinct place in scientific history
+is the same little girl to whom we have already referred. From her
+earliest days she seems to have cherished a passionate admiration for
+her brilliant brother William. It was the proudest delight of her
+childhood as well as of her mature years to render him whatever
+service she could; no man of science was ever provided with a more
+capable or energetic helper than William Herschel found in this
+remarkable woman. Whatever work had to be done she was willing to
+bear her share in it, or even to toil at it unassisted if she could
+be allowed to do so. She not only managed all his domestic affairs,
+but in the grinding of the lenses and in the polishing of the mirrors
+she rendered every assistance that was possible. At one stage of the
+very delicate operation of fashioning a reflector, it is necessary
+for the workman to remain with his hand on the mirror for many hours
+in succession. When such labours were in progress, Caroline used to
+sit by her brother, and enliven the time by reading stories aloud,
+sometimes pausing to feed him with a spoon while his hands were
+engaged on the task from which he could not desist for a moment.
+
+When mathematical work had to be done Caroline was ready for it; she
+had taught herself sufficient to enable her to perform the kind of
+calculations, not, perhaps, very difficult ones, that Herschel's work
+required; indeed, it is not too much to say that the mighty life-work
+which this man was enabled to perform could never have been accomplished
+had it not been for the self-sacrifice of this ever-loving and faithful
+sister. When Herschel was at the telescope at night, Caroline sat by
+him at her desk, pen in hand, ready to write down the notes of the
+observations as they fell from her brother's lips. This was no
+insignificant toil. The telescope was, of course, in the open air,
+and as Herschel not unfrequently continued his observations throughout
+the whole of a long winter's night, there were but few women who could
+have accomplished the task which Caroline so cheerfully executed.
+From dusk till dawn, when the sky was clear, were Herschel's observing
+hours, and what this sometimes implied we can realise from the fact
+that Caroline assures us she had sometimes to desist because the ink
+had actually frozen in her pen. The night's work over, a brief rest
+was taken, and while William had his labours for the day to attend to,
+Caroline carefully transcribed the observations made during the night
+before, reduced all the figures and prepared everything in readiness
+for the observations that were to follow on the ensuing evening.
+
+But we have here been anticipating a little of the future which lay
+before the great astronomer; we must now revert to the history of his
+early work, at Bath, in 1774, when Herschel's scrutiny of the skies
+first commenced with an instrument of his own manufacture. For some
+few years he did not attain any result of importance; no doubt he
+made a few interesting observations, but the value of the work during
+those years is to be found, not in any actual discoveries which were
+accomplished, but in the practice which Herschel obtained in the use
+of his instruments. It was not until 1782 that the great achievement
+took place by which he at once sprang into fame.
+
+[PLATE: GARDEN VIEW, HERSCHEL HOUSE, SLOUGH.]
+
+It is sometimes said that discoveries are made by accident, and, no
+doubt, to a certain extent, but only, I fancy to a very small extent,
+this statement may be true. It is, at all events, certain that such
+lucky accidents do not often fall to the lot of people unless those
+people have done much to deserve them. This was certainly the case
+with Herschel. He appears to have formed a project for making a
+close examination of all the stars above a certain magnitude. Perhaps
+he intended to confine this research to a limited region of the sky,
+but, at all events, he seems to have undertaken the work
+energetically and systematically. Star after star was brought to the
+centre of the field of view of his telescope, and after being
+carefully examined was then displaced, while another star was brought
+forward to be submitted to the same process. In the great majority
+of cases such observations yield really nothing of importance; no
+doubt even the smallest star in the heavens would, if we could find
+out all about it, reveal far more than all the astronomers that were
+ever on the earth have even conjectured. What we actually learn
+about the great majority of stars is only information of the most
+meagre description. We see that the star is a little point of light,
+and we see nothing more.
+
+In the great review which Herschel undertook he doubtless examined
+hundreds, or perhaps thousands of stars, allowing them to pass away
+without note or comment. But on an ever-memorable night in March,
+1782, it happened that he was pursuing his task among the stars in
+the Constellation of Gemini. Doubtless, on that night, as on so many
+other nights, one star after another was looked at only to be
+dismissed, as not requiring further attention. On the evening in
+question, however, one star was noticed which, to Herschel's acute
+vision seemed different from the stars which in so many thousands are
+strewn over the sky. A star properly so called appears merely as a
+little point of light, which no increase of magnifying power will
+ever exhibit with a true disc. But there was something in the
+star-like object which Herschel saw that immediately arrested his
+attention and made him apply to it a higher magnifying power. This
+at once disclosed the fact that the object possessed a disc, that is,
+a definite, measurable size, and that it was thus totally different
+from any one of the hundreds and thousands of stars which exist
+elsewhere in space. Indeed, we may say at once that this little
+object was not a star at all; it was a planet. That such was its
+true nature was confirmed, after a little further observation, by
+perceiving that the body was shifting its place on the heavens
+relatively to the stars. The organist at the Octagon Chapel at Bath
+had, therefore, discovered a new planet with his home-made telescope.
+
+I can imagine some one will say, "Oh, there was nothing so wonderful
+in that; are not planets always being discovered? Has not M. Palisa,
+for instance, discovered about eighty of such objects, and are there
+not hundreds of them known nowadays?" This is, to a certain extent,
+quite true. I have not the least desire to detract from the credit
+of those industrious and sharp-sighted astronomers who have in modern
+days brought so many of these little objects within our cognisance. I
+think, however, it must be admitted that such discoveries have a
+totally different importance in the history of science from that
+which belongs to the peerless achievement of Herschel. In the first
+place, it must be observed that the minor planets now brought to
+light are so minute that if a score of them were rolled to together
+into one lump it would not be one-thousandth part of the size of the
+grand planet discovered by Herschel. This is, nevertheless, not the
+most important point. What marks Herschel's achievement as one of
+the great epochs in the history of astronomy is the fact that the
+detection of Uranus was the very first recorded occasion of the
+discovery of any planet whatever.
+
+For uncounted ages those who watched the skies had been aware of the
+existence of the five old planets--Jupiter, Mercury, Saturn, Venus,
+and Mars. It never seems to have occurred to any of the ancient
+philosophers that there could be other similar objects as yet
+undetected over and above the well-known five. Great then was the
+astonishment of the scientific world when the Bath organist announced
+his discovery that the five planets which had been known from all
+antiquity must now admit the company of a sixth. And this sixth
+planet was, indeed, worthy on every ground to be received into the
+ranks of the five glorious bodies of antiquity. It was, no doubt,
+not so large as Saturn, it was certainly very much less than Jupiter;
+on the other hand, the new body was very much larger than Mercury,
+than Venus, or than Mars, and the earth itself seemed quite an
+insignificant object in comparison with this newly added member of
+the Solar System. In one respect, too, Herschel's new planet was a
+much more imposing object than any one of the older bodies; it swept
+around the sun in a majestic orbit, far outside that of Saturn, which
+had previously been regarded as the boundary of the Solar System, and
+its stately progress required a period of not less than eighty-one
+years.
+
+King George the Third, hearing of the achievements of the Hanoverian
+musician, felt much interest in his discovery, and accordingly
+Herschel was bidden to come to Windsor, and to bring with him the
+famous telescope, in order to exhibit the new planet to the King, and
+to tell his Majesty all about it. The result of the interview was to
+give Herschel the opportunity for which he had so long wished, of
+being able to devote himself exclusively to science for the rest of
+his life.
+
+[PLATE: VIEW OF THE OBSERVATORY, HERSCHEL HOUSE, SLOUGH.]
+
+The King took so great a fancy to the astronomer that he first, as I
+have already mentioned, duly pardoned his desertion from the army,
+some twenty-five years previously. As a further mark of his favour
+the King proposed to confer on Herschel the title of his Majesty's
+own astronomer, to assign to him a residence near Windsor, to provide
+him with a salary, and to furnish such funds as might be required for
+the erection of great telescopes, and for the conduct of that mighty
+scheme of celestial observation on which Herschel was so eager to
+enter. Herschel's capacity for work would have been much impaired if
+he had been deprived of the aid of his admirable sister, and to her,
+therefore, the King also assigned a salary, and she was installed as
+Herschel's assistant in his new post.
+
+With his usually impulsive determination, Herschel immediately cut
+himself free from all his musical avocations at Bath, and at once
+entered on the task of making and erecting the great telescopes at
+Windsor. There, for more than thirty years, he and his faithful
+sister prosecuted with unremitting ardour their nightly scrutiny of
+the sky. Paper after paper was sent to the Royal Society, describing
+the hundreds, indeed the thousands, of objects such as double stars;
+nebulae and clusters, which were first revealed to human gaze during
+those midnight vigils. To the end of his life he still continued at
+every possible opportunity to devote himself to that beloved pursuit
+in which he had such unparalleled success. No single discovery of
+Herschel's later years was, however, of the same momentous
+description as that which first brought him to fame.
+
+[PLATE: THE 40-FOOT TELESCOPE AS IT WAS IN THE YEAR 1863, HERSCHEL
+HOUSE, SLOUGH.]
+
+Herschel married when considerably advanced in life and he lived to
+enjoy the indescribable pleasure of finding that his only son,
+afterwards Sir John Herschel, was treading worthily in his footsteps,
+and attaining renown as an astronomical observer, second only to that
+of his father. The elder Herschel died in 1822, and his illustrious
+sister Caroline then returned to Hanover, where she lived for many
+years to receive the respect and attention which were so justly
+hers. She died at a very advanced age in 1848.
+
+
+
+
+LAPLACE.
+
+
+The author of the "Mecanique Celeste" was born at Beaumont-en-Auge,
+near Honfleur, in 1749, just thirteen years later than his renowned
+friend Lagrange. His father was a farmer, but appears to have been
+in a position to provide a good education for a son who seemed
+promising. Considering the unorthodoxy in religious matters which is
+generally said to have characterized Laplace in later years, it is
+interesting to note that when he was a boy the subject which first
+claimed his attention was theology. He was, however, soon introduced
+to the study of mathematics, in which he presently became so
+proficient, that while he was still no more than eighteen years old,
+he obtained employment as a mathematical teacher in his native town.
+
+Desiring wider opportunities for study and for the acquisition of
+fame than could be obtained in the narrow associations of provincial
+life, young Laplace started for Paris, being provided with letters of
+introduction to D'Alembert, who then occupied the most prominent
+position as a mathematician in France, if not in the whole of
+Europe. D'Alembert's fame was indeed so brilliant that Catherine the
+Great wrote to ask him to undertake the education of her Son, and
+promised the splendid income of a hundred thousand francs. He
+preferred, however, a quiet life of research in Paris, although there
+was but a modest salary attached to his office. The philosopher
+accordingly declined the alluring offer to go to Russia, even though
+Catherine wrote again to say: "I know that your refusal arises from
+your desire to cultivate your studies and your friendships in quiet.
+But this is of no consequence: bring all your friends with you, and I
+promise you that both you and they shall have every accommodation in
+my power." With equal firmness the illustrious mathematician
+resisted the manifold attractions with which Frederick the Great
+sought to induce him, to take up his residence at Berlin. In reading
+of these invitations we cannot but be struck at the extraordinary
+respect which was then paid to scientific distinction. It must be
+remembered that the discoveries of such a man as D'Alembert were
+utterly incapable of being appreciated except by those who possessed
+a high degree of mathematical culture. We nevertheless find the
+potentates of Russia and Prussia entreating and, as it happens,
+vainly entreating, the most distinguished mathematician in France to
+accept the positions that they were proud to offer him.
+
+It was to D'Alembert, the profound mathematician, that young Laplace,
+the son of the country farmer, presented his letters of
+introduction. But those letters seem to have elicited no reply,
+whereupon Laplace wrote to D'Alembert submitting a discussion on some
+point in Dynamics. This letter instantly produced the desired
+effect. D'Alembert thought that such mathematical talent as the
+young man displayed was in itself the best of introductions to his
+favour. It could not be overlooked, and accordingly he invited
+Laplace to come and see him. Laplace, of course, presented himself,
+and ere long D'Alembert obtained for the rising philosopher a
+professorship of mathematics in the Military School in Paris. This
+gave the brilliant young mathematician the opening for which he
+sought, and he quickly availed himself of it.
+
+Laplace was twenty-three years old when his first memoir on a
+profound mathematical subject appeared in the Memoirs of the Academy
+at Turin. From this time onwards we find him publishing one memoir
+after another in which he attacks, and in many cases successfully
+vanquishes, profound difficulties in the application of the Newtonian
+theory of gravitation to the explanation of the solar system. Like
+his great contemporary Lagrange, he loftily attempted problems which
+demanded consummate analytical skill for their solution. The
+attention of the scientific world thus became riveted on the splendid
+discoveries which emanated from these two men, each gifted with
+extraordinary genius.
+
+Laplace's most famous work is, of course, the "Mecanique Celeste," in
+which he essayed a comprehensive attempt to carry out the principles
+which Newton had laid down, into much greater detail than Newton had
+found practicable. The fact was that Newton had not only to
+construct the theory of gravitation, but he had to invent the
+mathematical tools, so to speak, by which his theory could be applied
+to the explanation of the movements of the heavenly bodies. In the
+course of the century which had elapsed between the time of Newton
+and the time of Laplace, mathematics had been extensively developed.
+In particular, that potent instrument called the infinitesimal
+calculus, which Newton had invented for the investigation of nature,
+had become so far perfected that Laplace, when he attempted to
+unravel the movements of the heavenly bodies, found himself provided
+with a calculus far more efficient than that which had been available
+to Newton. The purely geometrical methods which Newton employed,
+though they are admirably adapted for demonstrating in a general way
+the tendencies of forces and for explaining the more obvious
+phenomena by which the movements of the heavenly bodies are
+disturbed, are yet quite inadequate for dealing with the more subtle
+effects of the Law of Gravitation. The disturbances which one planet
+exercises upon the rest can only be fully ascertained by the aid of
+long calculation, and for these calculations analytical methods are
+required.
+
+With an armament of mathematical methods which had been perfected
+since the days of Newton by the labours of two or three generations
+of consummate mathematical inventors, Laplace essayed in the
+"Mecanique Celeste" to unravel the mysteries of the heavens. It will
+hardly be disputed that the book which he has produced is one of the
+most difficult books to understand that has ever been written. In
+great part, of course, this difficulty arises from the very nature of
+the subject, and is so far unavoidable. No one need attempt to read
+the "Mecanique Celeste" who has not been naturally endowed with
+considerable mathematical aptitude which he has cultivated by years
+of assiduous study. The critic will also note that there are grave
+defects in Laplace's method of treatment. The style is often
+extremely obscure, and the author frequently leaves great gaps in his
+argument, to the sad discomfiture of his reader. Nor does it mend
+matters to say, as Laplace often does say, that it is "easy to see"
+how one step follows from another. Such inferences often present
+great difficulties even to excellent mathematicians. Tradition
+indeed tells us that when Laplace had occasion to refer to his own
+book, it sometimes happened that an argument which he had dismissed
+with his usual formula, "Il est facile a voir," cost the illustrious
+author himself an hour or two of hard thinking before he could
+recover the train of reasoning which had been omitted. But there are
+certain parts of this great work which have always received the
+enthusiastic admiration of mathematicians. Laplace has, in fact,
+created whole tracts of science, some of which have been subsequently
+developed with much advantage in the prosecution of the study of
+Nature.
+
+Judged by a modern code the gravest defect of Laplace's great work is
+rather of a moral than of a mathematical nature. Lagrange and he
+advanced together in their study of the mechanics of the heavens, at
+one time perhaps along parallel lines, while at other times they
+pursued the same problem by almost identical methods. Sometimes the
+important result was first reached by Lagrange, sometimes it was
+Laplace who had the good fortune to make the discovery. It would
+doubtless be a difficult matter to draw the line which should exactly
+separate the contributions to astronomy made by one of these
+illustrious mathematicians, and the contributions made by the other.
+But in his great work Laplace in the loftiest manner disdained to
+accord more than the very barest recognition to Lagrange, or to any
+of the other mathematicians, Newton alone excepted, who had advanced
+our knowledge of the mechanism of the heavens. It would be quite
+impossible for a student who confined his reading to the "Mecanique
+Celeste" to gather from any indications that it contains whether the
+discoveries about which he was reading had been really made by
+Laplace himself or whether they had not been made by Lagrange, or by
+Euler, or by Clairaut. With our present standard of morality in such
+matters, any scientific man who now brought forth a work in which he
+presumed to ignore in this wholesale fashion the contributions of
+others to the subject on which he was writing, would be justly
+censured and bitter controversies would undoubtedly arise. Perhaps
+we ought not to judge Laplace by the standard of our own time, and in
+any case I do not doubt that Laplace might have made a plausible
+defence. It is well known that when two investigators are working at
+the same subjects, and constantly publishing their results, it
+sometimes becomes difficult for each investigator himself to
+distinguish exactly between what he has accomplished and that which
+must be credited to his rival. Laplace may probably have said to
+himself that he was going to devote his energies to a great work on
+the interpretation of Nature, that it would take all his time and all
+his faculties, and all the resources of knowledge that he could
+command, to deal justly with the mighty problems before him. He
+would not allow himself to be distracted by any side issue. He could
+not tolerate that pages should be wasted in merely discussing to whom
+we owe each formula, and to whom each deduction from such formula is
+due. He would rather endeavour to produce as complete a picture as
+he possibly could of the celestial mechanics, and whether it were by
+means of his mathematics alone, or whether the discoveries of others
+may have contributed in any degree to the result, is a matter so
+infinitesimally insignificant in comparison with the grandeur of his
+subject that he would altogether neglect it. "If Lagrange should
+think," Laplace might say, "that his discoveries had been unduly
+appropriated, the proper course would be for him to do exactly what I
+have done. Let him also write a "Mecanique Celeste," let him employ
+those consummate talents which he possesses in developing his noble
+subject to the utmost. Let him utilise every result that I or any
+other mathematician have arrived at, but not trouble himself unduly
+with unimportant historical details as to who discovered this, and
+who discovered that; let him produce such a work as he could write,
+and I shall heartily welcome it as a splendid contribution to our
+science." Certain it is that Laplace and Lagrange continued the best
+of friends, and on the death of the latter it was Laplace who was
+summoned to deliver the funeral oration at the grave of his great
+rival.
+
+The investigations of Laplace are, generally speaking, of too
+technical a character to make it possible to set forth any account of
+them in such a work as the present. He did publish, however, one
+treatise, called the "Systeme du Monde," in which, without
+introducing mathematical symbols, he was able to give a general
+account of the theories of the celestial movements, and of the
+discoveries to which he and others had been led. In this work the
+great French astronomer sketched for the first time that remarkable
+doctrine by which his name is probably most generally known to those
+readers of astronomical books who are not specially mathematicians.
+It is in the "Systeme du Monde" that Laplace laid down the principles
+of the Nebular Theory which, in modern days, has been generally
+accepted by those philosophers who are competent to judge, as
+substantially a correct expression of a great historical fact.
+
+[PLATE: LAPLACE.]
+
+The Nebular Theory gives a physical account of the origin of the
+solar system, consisting of the sun in the centre, with the planets
+and their attendant satellites. Laplace perceived the significance
+of the fact that all the planets revolved in the same direction
+around the sun; he noticed also that the movements of rotation of the
+planets on their axes were performed in the same direction as that in
+which a planet revolves around the sun; he saw that the orbits of the
+satellites, so far at least as he knew them, revolved around their
+primaries also in the same direction. Nor did it escape his
+attention that the sun itself rotated on its axis in the same sense.
+His philosophical mind was led to reflect that such a remarkable
+unanimity in the direction of the movements in the solar system
+demanded some special explanation. It would have been in the highest
+degree improbable that there should have been this unanimity unless
+there had been some physical reason to account for it. To appreciate
+the argument let us first concentrate our attention on three
+particular bodies, namely the earth, the sun, and the moon. First
+the earth revolves around the sun in a certain direction, and the
+earth also rotates on its axis. The direction in which the earth
+turns in accordance with this latter movement might have been that in
+which it revolves around the sun, or it might of course have been
+opposite thereto. As a matter of fact the two agree. The moon in
+its monthly revolution around the earth follows also the same
+direction, and our satellite rotates on its axis in the same period
+as its monthly revolution, but in doing so is again observing this
+same law. We have therefore in the earth and moon four movements,
+all taking place in the same direction, and this is also identical
+with that in which the sun rotates once every twenty-five days. Such
+a coincidence would be very unlikely unless there were some physical
+reason for it. Just as unlikely would it be that in tossing a coin
+five heads or five tails should follow each other consecutively. If
+we toss a coin five times the chances that it will turn up all heads
+or all tails is but a small one. The probability of such an event is
+only one-sixteenth.
+
+There are, however, in the solar system many other bodies besides the
+three just mentioned which are animated by this common movement.
+Among them are, of course, the great planets, Jupiter, Saturn, Mars,
+Venus, and Mercury, and the satellites which attend on these
+planets. All these planets rotate on their axes in the same
+direction as they revolve around the sun, and all their satellites
+revolve also in the same way. Confining our attention merely to the
+earth, the sun, and the five great planets with which Laplace was
+acquainted, we have no fewer than six motions of revolution and seven
+motions of rotation, for in the latter we include the rotation of the
+sun. We have also sixteen satellites of the planets mentioned whose
+revolutions round their primaries are in the same direction. The
+rotation of the moon on its axis may also be reckoned, but as to the
+rotations of the satellites of the other planets we cannot speak with
+any confidence, as they are too far off to be observed with the
+necessary accuracy. We have thus thirty circular movements in the
+solar system connected with the sun and moon and those great planets
+than which no others were known in the days of Laplace. The
+significant fact is that all these thirty movements take place in the
+same direction. That this should be the case without some physical
+reason would be just as unlikely as that in tossing a coin thirty
+times it should turn up all heads or all tails every time without
+exception.
+
+We can express the argument numerically. Calculation proves that
+such an event would not generally happen oftener than once out of
+five hundred millions of trials. To a philosopher of Laplace's
+penetration, who had made a special study of the theory of
+probabilities, it seemed well-nigh inconceivable that there should
+have been such unanimity in the celestial movements, unless there had
+been some adequate reason to account for it. We might, indeed, add
+that if we were to include all the objects which are now known to
+belong to the solar system, the argument from probability might be
+enormously increased in strength. To Laplace the argument appeared
+so conclusive that he sought for some physical cause of the
+remarkable phenomenon which the solar system presented. Thus it was
+that the famous Nebular Hypothesis took its rise. Laplace devised a
+scheme for the origin of the sun and the planetary system, in which
+it would be a necessary consequence that all the movements should
+take place in the same direction as they are actually observed to do.
+
+Let us suppose that in the beginning there was a gigantic mass of
+nebulous material, so highly heated that the iron and other
+substances which now enter into the composition of the earth and
+planets were then suspended in a state of vapour. There is nothing
+unreasonable in such a supposition indeed, we know as a matter of
+fact that there are thousands of such nebulae to be discerned at
+present through our telescopes. It would be extremely unlikely that
+any object could exist without possessing some motion of rotation; we
+may in fact assert that for rotation to be entirety absent from the
+great primeval nebula would be almost infinitely improbable. As ages
+rolled on, the nebula gradually dispersed away by radiation its
+original stores of heat, and, in accordance with well-known physical
+principles, the materials of which it was formed would tend to
+coalesce. The greater part of those materials would become
+concentrated in a mighty mass surrounded by outlying uncondensed
+vapours. There would, however, also be regions throughout the extent
+of the nebula, in which subsidiary centres of condensation would be
+found. In its long course of cooling, the nebula would, therefore,
+tend ultimately to form a mighty central body with a number of
+smaller bodies disposed around it. As the nebula was initially
+endowed with a movement of rotation, the central mass into which it
+had chiefly condensed would also revolve, and the subsidiary bodies
+would be animated by movements of revolution around the central
+body. These movements would be all pursued in one common direction,
+and it follows, from well-known mechanical principles, that each of
+the subsidiary masses, besides participating in the general
+revolution around the central body, would also possess a rotation
+around its axis, which must likewise be performed in the same
+direction. Around the subsidiary bodies other objects still smaller
+would be formed, just as they themselves were formed relatively to
+the great central mass.
+
+As the ages sped by, and the heat of these bodies became gradually
+dissipated, the various objects would coalesce, first into molten
+liquid masses, and thence, at a further stage of cooling, they would
+assume the appearance of solid masses, thus producing the planetary
+bodies such as we now know them. The great central mass, on account
+of its preponderating dimensions, would still retain, for further
+uncounted ages, a large quantity of its primeval heat, and would thus
+display the splendours of a glowing sun. In this way Laplace was
+able to account for the remarkable phenomena presented in the
+movements of the bodies of the solar system. There are many other
+points also in which the nebular theory is known to tally with the
+facts of observation. In fact, each advance in science only seems to
+make it more certain that the Nebular Hypothesis substantially
+represents the way in which our solar system has grown to its present
+form.
+
+Not satisfied with a career which should be merely scientific,
+Laplace sought to connect himself with public affairs. Napoleon
+appreciated his genius, and desired to enlist him in the service of
+the State. Accordingly he appointed Laplace to be Minister of the
+Interior. The experiment was not successful, for he was not by
+nature a statesman. Napoleon was much disappointed at the ineptitude
+which the great mathematician showed for official life, and, in
+despair of Laplace's capacity as an administrator, declared that he
+carried the spirit of his infinitesimal calculus into the management
+of business. Indeed, Laplace's political conduct hardly admits of
+much defence. While he accepted the honours which Napoleon showered
+on him in the time of his prosperity, he seems to have forgotten all
+this when Napoleon could no longer render him service. Laplace was
+made a Marquis by Louis XVIII., a rank which he transmitted to his
+son, who was born in 1789. During the latter part of his life the
+philosopher lived in a retired country place at Arcueile. Here he
+pursued his studies, and by strict abstemiousness, preserved himself
+from many of the infirmities of old age. He died on March the 5th,
+1827, in his seventy-eighth year, his last words being, "What we know
+is but little, what we do not know is immense."
+
+
+
+
+BRINKLEY.
+
+
+Provost Baldwin held absolute sway in the University of Dublin for
+forty-one years. His memory is well preserved there. The Bursar
+still dispenses the satisfactory revenues which Baldwin left to the
+College. None of us ever can forget the marble angels round the
+figure of the dying Provost on which we used to gaze during the pangs
+of the Examination Hall.
+
+Baldwin died in 1785, and was succeeded by Francis Andrews, a Fellow
+of seventeen years' standing. As to the scholastic acquirements of
+Andrews, all I can find is a statement that he was complimented by
+the polite Professors of Padua on the elegance and purity with which
+he discoursed to them in Latin. Andrews was also reputed to be a
+skilful lawyer. He was certainly a Privy Councillor and a prominent
+member of the Irish House of Commons, and his social qualities were
+excellent. Perhaps it was Baldwin's example that stimulated a desire
+in Andrews to become a benefactor to his college. He accordingly
+bequeathed a sum of 3,000 pounds and an annual income of 250 pounds
+wherewith to build and endow an astronomical Observatory in the
+University. The figures just stated ought to be qualified by the
+words of cautious Ussher (afterwards the first Professor of
+Astronomy), that "this money was to arise from an accumulation of a
+part of his property, to commence upon a particular contingency
+happening to his family." The astronomical endowment was soon in
+jeopardy by litigation. Andrews thought he had provided for his
+relations by leaving to them certain leasehold interests connected
+with the Provost's estate. The law courts, however, held that these
+interests were not at the disposal of the testator, and handed them
+over to Hely Hutchinson, the next Provost. The disappointed
+relations then petitioned the Irish Parliament to redress this
+grievance by transferring to them the moneys designed by Andrews for
+the Observatory. It would not be right, they contended, that the
+kindly intentions of the late Provost towards his kindred should be
+frustrated for the sake of maintaining what they described as "a
+purely ornamental institution." The authorities of the College
+protested against this claim. Counsel were heard, and a Committee of
+the House made a report declaring the situation of the relations to
+be a hard one. Accordingly, a compromise was made, and the dispute
+terminated.
+
+The selection of a site for the new astronomical Observatory was made
+by the Board of Trinity College. The beautiful neighbourhood of
+Dublin offered a choice of excellent localities. On the north side
+of the Liffey an Observatory could have been admirably placed, either
+on the remarkable promontory of Howth or on the elevation of which
+Dunsink is the summit. On the south side of Dublin there are several
+eminences that would have been suitable: the breezy heaths at
+Foxrock combine all necessary conditions; the obelisk hill at
+Killiney would have given one of the most picturesque sites for an
+Observatory in the world; while near Delgany two or three other good
+situations could be mentioned. But the Board of those pre-railway
+days was naturally guided by the question of proximity. Dunsink was
+accordingly chosen as the most suitable site within the distance of a
+reasonable walk from Trinity College.
+
+The northern boundary of the Phoenix Park approaches the little river
+Tolka, which winds through a succession of delightful bits of sylvan
+scenery, such as may be found in the wide demesne of Abbotstown and
+the classic shades of Glasnevin. From the banks of the Tolka, on the
+opposite side of the park, the pastures ascend in a gentle slope to
+culminate at Dunsink, where at a distance of half a mile from the
+stream, of four miles from Dublin, and at a height of 300 feet above
+the sea, now stands the Observatory. From the commanding position of
+Dunsink a magnificent view is obtained. To the east the sea is
+visible, while the southern prospect over the valley of the Liffey is
+bounded by a range of hills and mountains extending from Killiney to
+Bray Head, thence to the little Sugar Loaf, the Two Rock and the
+Three Rock Mountains, over the flank of which the summit of the Great
+Sugar Loaf is just perceptible. Directly in front opens the fine
+valley of Glenasmole, with Kippure Mountain, while the range can be
+followed to its western extremity at Lyons. The climate of Dunsink
+is well suited for astronomical observation. No doubt here, as
+elsewhere in Ireland, clouds are abundant, but mists or haze are
+comparatively unusual, and fogs are almost unknown.
+
+The legal formalities to be observed in assuming occupation exacted a
+delay of many months; accordingly, it was not until the 10th
+December, 1782, that a contract could be made with Mr. Graham Moyers
+for the erection of a meridian-room and a dome for an equatorial, in
+conjunction with a becoming residence for the astronomer. Before the
+work was commenced at Dunsink, the Board thought it expedient to
+appoint the first Professor of Astronomy. They met for this purpose
+on the 22nd January, 1783, and chose the Rev. Henry Ussher, a Senior
+Fellow of Trinity College, Dublin. The wisdom of the appointment was
+immediately shown by the assiduity with which Ussher engaged in
+founding the observatory. In three years he had erected the
+buildings and equipped them with instruments, several of which were
+of his own invention. On the 19th of February, 1785, a special grant
+of 200 pounds was made by the Board to Dr. Ussher as some recompense
+for his labours. It happened that the observatory was not the only
+scientific institution which came into being in Ireland at this
+period; the newly-kindled ardour for the pursuit of knowledge led, at
+the same time, to the foundation of the Royal Irish Academy. By a
+fitting coincidence, the first memoir published in the "Transactions
+Of The Royal Irish Academy," was by the first Andrews, Professor of
+Astronomy. It was read on the 13th of June, 1785, and bore the
+title, "Account of the Observatory belonging to Trinity College," by
+the Rev. H. Ussher, D.D., M.R.I.A., F.R.S. This communication shows
+the extensive design that had been originally intended for Dunsink,
+only a part of which was, however, carried out. For instance, two
+long corridors, running north and south from the central edifice,
+which are figured in the paper, never developed into bricks and
+mortar. We are not told why the original scheme had to be
+contracted; but perhaps the reason may be not unconnected with a
+remark of Ussher's, that the College had already advanced from its
+own funds a sum considerably exceeding the original bequest. The
+picture of the building shows also the dome for the South equatorial,
+which was erected many years later.
+
+Ussher died in 1790. During his brief career at the observatory, he
+observed eclipses, and is stated to have done other scientific work.
+The minutes of the Board declare that the infant institution had
+already obtained celebrity by his labours, and they urge the claims
+of his widow to a pension, on the ground that the disease from which
+he died had been contracted by his nightly vigils. The Board also
+promised a grant of fifty guineas as a help to bring out Dr. Ussher's
+sermons. They advanced twenty guineas to his widow towards the
+publication of his astronomical papers. They ordered his bust to be
+executed for the observatory, and offered "The Death of Ussher" as
+the subject of a prize essay; but, so far as I can find, neither the
+sermons nor the papers, neither the bust nor the prize essay, ever
+came into being.
+
+There was keen competition for the chair of Astronomy which the death
+of Ussher vacated. The two candidates were Rev. John Brinkley, of
+Caius College, Cambridge, a Senior Wrangler (born at Woodbridge,
+Suffolk, in 1763), and Mr. Stack, Fellow of Trinity College, Dublin,
+and author of a book on Optics. A majority of the Board at first
+supported Stack, while Provost Hely Hutchinson and one or two others
+supported Brinkley. In those days the Provost had a veto at
+elections, so that ultimately Stack was withdrawn and Brinkley was
+elected. This took place on the 11th December, 1790. The national
+press of the day commented on the preference shown to the young
+Englishman, Brinkley, over his Irish rival. An animated controversy
+ensued. The Provost himself condescended to enter the lists and to
+vindicate his policy by a long letter in the "Public Register" or
+"Freeman's Journal," of 21st December, 1790. This letter was
+anonymous, but its authorship is obvious. It gives the
+correspondence with Maskelyne and other eminent astronomers, whose
+advice and guidance had been sought by the Provost. It also contends
+that "the transactions of the Board ought not to be canvassed in the
+newspapers." For this reference, as well as for much other
+information, I am indebted to my friend, the Rev. John Stubbs, D.D.
+
+[PLATE: THE OBSERVATORY, DUNSINK. From a Photograph by W. Lawrence,
+Upper Sackville Street, Dublin.]
+
+The next event in the history of the Observatory was the issue of
+Letters Patent (32 Geo. III., A.D. 1792), in which it is recited that
+"We grant and ordain that there shall be forever hereafter a
+Professor of Astronomy, on the foundation of Dr. Andrews, to be
+called and known by the name of the Royal Astronomer of Ireland." The
+letters prescribe the various duties of the astronomer and the mode
+of his election. They lay down regulations as to the conduct of the
+astronomical work, and as to the choice of an assistant. They direct
+that the Provost and the Senior Fellows shall make a thorough
+inspection of the observatory once every year in June or July; and
+this duty was first undertaken on the 5th of July, 1792. It may be
+noted that the date on which the celebration of the tercentenary of
+the University was held happens to coincide with the centenary of the
+first visitation of the observatory. The visitors on the first
+occasion were A. Murray, Matthew Young, George Hall, and John
+Barrett. They record that they find the buildings, books and
+instruments in good condition; but the chief feature in this report,
+as well as in many which followed it, related to a circumstance to
+which we have not yet referred.
+
+In the original equipment of the observatory, Ussher, with the
+natural ambition of a founder, desired to place in it a telescope of
+more magnificent proportions than could be found anywhere else. The
+Board gave a spirited support to this enterprise, and negotiations
+were entered into with the most eminent instrument-maker of those
+days. This was Jesse Ramsden (1735-1800), famous as the improver of
+the sextant, as the constructor of the great theodolite used by
+General Roy in the English Survey, and as the inventor of the
+dividing engine for graduating astronomical instruments. Ramsden had
+built for Sir George Schuckburgh the largest and most perfect
+equatorial ever attempted. He had constructed mural quadrants for
+Padua and Verona, which elicited the wonder of astronomers when Dr.
+Maskelyne declared he could detect no error in their graduation so
+large as two seconds and a half. But Ramsden maintained that even
+better results would be obtained by superseding the entire quadrant
+by the circle. He obtained the means of testing this prediction when
+he completed a superb circle for Palermo of five feet diameter.
+Finding his anticipations were realised, he desired to apply the same
+principles on a still grander scale. Ramsden was in this mood when
+he met with Dr. Ussher. The enthusiasm of the astronomer and the
+instrument-maker communicated itself to the Board, and a tremendous
+circle, to be ten feet in diameter, was forthwith projected.
+
+Projected, but never carried out. After Ramsden had to some extent
+completed a 10-foot circle, he found such difficulties that he tried
+a 9-foot, and this again he discarded for an 8-foot, which was
+ultimately accomplished, though not entirely by himself.
+Notwithstanding the contraction from the vast proportions originally
+designed, the completed instrument must still be regarded as a
+colossal piece of astronomical workmanship. Even at this day I do
+not know that any other observatory can show a circle eight feet in
+diameter graduated all round.
+
+I think it is Professor Piazzi Smith who tells us how grateful he was
+to find a large telescope he had ordered finished by the opticians on
+the very day they had promised it. The day was perfectly correct; it
+was only the year that was wrong. A somewhat remarkable experience
+in this direction is chronicled by the early reports of the visitors
+to Dunsink Observatory. I cannot find the date on which the great
+circle was ordered from Ramsden, but it is fixed with sufficient
+precision by an allusion in Ussher's paper to the Royal Irish
+Academy, which shows that by the 13th June, 1785, the order had been
+given, but that the abandonment of the 10-foot scale had not then
+been contemplated. It was reasonable that the board should allow
+Ramsden ample time for the completion of a work at once so elaborate
+and so novel. It could not have been finished in a year, nor would
+there have been much reason for complaint if the maker had found he
+required two or even three years more.
+
+Seven years gone, and still no telescope, was the condition in which
+the Board found matters at their first visitation in 1792. They had,
+however, assurances from Ramsden that the instrument would be
+completed within the year; but, alas for such promises, another seven
+years rolled on, and in 1799 the place for the great circle was still
+vacant at Dunsink. Ramsden had fallen into bad health, and the Board
+considerately directed that "inquiries should be made." Next year
+there was still no progress, so the Board were roused to threaten
+Ramsden with a suit at law; but the menace was never executed, for
+the malady of the great optician grew worse, and he died that year.
+
+Affairs had now assumed a critical aspect, for the college had
+advanced much money to Ramsden during these fifteen years, and the
+instrument was still unfinished. An appeal was made by the Provost
+to Dr. Maskelyne, the Astronomer Royal of England, for his advice and
+kindly offices in this emergency. Maskelyne responds--in terms
+calculated to allay the anxiety of the Bursar--"Mr. Ramsden has left
+property behind him, and the College can be in no danger of losing
+both their money and the instrument." The business of Ramsden was
+then undertaken by Berge, who proceeded to finish the circle quite as
+deliberately as his predecessor. After four years Berge promised the
+instrument in the following August, but it did not come. Two years
+later (1806) the professor complains that he can get no answer from
+Berge. In 1807, it is stated that Berge will send the telescope in a
+month. He did not; but in the next year (1808), about twenty-three
+years after the great circle was ordered, it was erected at Dunsink,
+where it is still to be seen.
+
+The following circumstances have been authenticated by the signatures
+of Provosts, Proctors, Bursars, and other College dignitaries:--In
+1793 the Board ordered two of the clocks at the observatory to be
+sent to Mr. Crosthwaite for repairs. Seven years later, in 1800, Mr.
+Crosthwaite was asked if the clocks were ready. This impatience was
+clearly unreasonable, for even in four more years, 1804, we find the
+two clocks were still in hand. Two years later, in 1806, the Board
+determined to take vigorous action by asking the Bursar to call upon
+Crosthwaite. This evidently produced some effect, for in the
+following year, 1807, the Professor had no doubt that the clocks
+would be speedily returned. After eight years more, in 1815, one of
+the clocks was still being repaired, and so it was in 1816, which is
+the last record we have of these interesting time-pieces. Astronomers
+are, however, accustomed to deal with such stupendous periods in
+their calculations, that even the time taken to repair a clock seems
+but small in comparison.
+
+The long tenure of the chair of Astronomy by Brinkley is divided into
+two nearly equal periods by the year in which the great circle was
+erected. Brinkley was eighteen years waiting for his telescope, and
+he had eighteen years more in which to use it. During the first of
+these periods Brinkley devoted himself to mathematical research;
+during the latter he became a celebrated astronomer. Brinkley's
+mathematical labours procured for their author some reputation as a
+mathematician. They appear to be works of considerable mathematical
+elegance, but not indicating any great power of original thought.
+Perhaps it has been prejudicial to Brinkley's fame in this direction,
+that he was immediately followed in his chair by so mighty a genius
+as William Rowan Hamilton.
+
+After the great circle had been at last erected, Brinkley was able to
+begin his astronomical work in earnest. Nor was there much time to
+lose. He was already forty-five years old, a year older than was
+Herschel when he commenced his immortal career at Slough. Stimulated
+by the consciousness of having the command of an instrument of unique
+perfection, Brinkley loftily attempted the very highest class of
+astronomical research. He resolved to measure anew with his own eye
+and with his own hand the constants of aberration and of nutation. He
+also strove to solve that great problem of the universe, the
+discovery of the distance of a fixed star.
+
+These were noble problems, and they were nobly attacked. But to
+appraise with justice this work of Brinkley, done seventy years ago,
+we must not apply to it the same criterion as we would think right to
+apply to similar work were it done now. We do not any longer use
+Brinkley's constant of aberration, nor do we now think that
+Brinkley's determinations of the star distances were reliable. But,
+nevertheless, his investigations exercised a marked influence on the
+progress of science; they stimulated the study of the principles on
+which exact measurements were to be conducted.
+
+Brinkley had another profession in addition to that of an
+astronomer. He was a divine. When a man endeavours to pursue two
+distinct occupations concurrently, it will be equally easy to explain
+why his career should be successful, or why it should be the
+reverse. If he succeeds, he will, of course, exemplify the wisdom of
+having two strings to his bow. Should he fail, it is, of course,
+because he has attempted to sit on two stools at once. In Brinkley's
+case, his two professions must be likened to the two strings rather
+than to the two stools. It is true that his practical experience of
+his clerical life was very slender. He had made no attempt to
+combine the routine of a parish with his labours in the observatory.
+Nor do we associate a special eminence in any department of religious
+work with his name. If, however, we are to measure Brinkley's merits
+as a divine by the ecclesiastical preferment which he received, his
+services to theology must have rivalled his services to astronomy.
+Having been raised step by step in the Church, he was at last
+appointed to the See of Cloyne, in 1826, as the successor of Bishop
+Berkeley.
+
+Now, though it was permissible for the Archdeacon to be also the
+Andrews Professor, yet when the Archdeacon became a Bishop, it was
+understood that he should transfer his residence from the observatory
+to the palace. The chair of Astronomy accordingly became vacant.
+Brinkley's subsequent career seems to have been devoted entirely to
+ecclesiastical matters, and for the last ten years of his life he did
+not contribute a paper to any scientific society. Arago, after a
+characteristic lament that Brinkley should have forsaken the pursuit
+of science for the temporal and spiritual attractions of a bishopric,
+pays a tribute to the conscientiousness of the quondam astronomer,
+who would not even allow a telescope to be brought into the palace
+lest his mind should be distracted from his sacred duties.
+
+The good bishop died on the 13th September, 1835. He was buried in
+the chapel of Trinity College, and a fine monument to his memory is a
+familiar object at the foot of the noble old staircase of the library.
+The best memorial of Brinkley is his admirable book on the "Elements
+of Plane Astronomy." It passed through many editions in his lifetime,
+and even at the present day the same work, revised first by Dr. Luby,
+and more recently by the Rev. Dr. Stubbs and Dr. Brunnow, has a large
+and well-merited circulation.
+
+
+
+
+JOHN HERSCHEL.
+
+
+This illustrious son of an illustrious father was born at Slough,
+near Windsor, on the 7th March, 1792. He was the only child of Sir
+William Herschel, who had married somewhat late in life, as we have
+already mentioned.
+
+[PLATE: ASTRONOMETER MADE BY SIR J. HERSCHEL to compare the light
+of certain stars by the intervention of the moon.]
+
+The surroundings among which the young astronomer was reared afforded
+him an excellent training for that career on which he was to enter,
+and in which he was destined to attain a fame only less brilliant
+than that of his father. The circumstances of his youth permitted
+him to enjoy one great advantage which was denied to the elder
+Herschel. He was able, from his childhood, to devote himself almost
+exclusively to intellectual pursuits. William Herschel, in the early
+part of his career, had only been able to snatch occasional hours for
+study from his busy life as a professional musician. But the son,
+having been born with a taste for the student's life, was fortunate
+enough to have been endowed with the leisure and the means to enjoy
+it from the commencement. His early years have been so well
+described by the late Professor Pritchard in the "Report of the
+Council of the Royal Astronomical Society for 1872," that I venture
+to make an extract here:--
+
+"A few traits of John Herschel's boyhood, mentioned by himself in his
+maturer life, have been treasured up by those who were dear to him,
+and the record of some of them may satisfy a curiosity as pardonable
+as inevitable, which craves to learn through what early steps great
+men or great nations become illustrious. His home was singular, and
+singularly calculated to nurture into greatness any child born as
+John Herschel was with natural gifts, capable of wide development. At
+the head of the house there was the aged, observant, reticent
+philosopher, and rarely far away his devoted sister, Caroline
+Herschel, whose labours and whose fame are still cognisable as a
+beneficent satellite to the brighter light of her illustrious
+brother. It was in the companionship of these remarkable persons,
+and under the shadow of his father's wonderful telescope, that John
+Herschel passed his boyish years. He saw them, in silent but
+ceaseless industry, busied about things which had no apparent concern
+with the world outside the walls of that well-known house, but which,
+at a later period of his life, he, with an unrivalled eloquence,
+taught his countrymen to appreciate as foremost among those living
+influences which but satisfy and elevate the noblest instincts of our
+nature. What sort of intercourse passed between the father and the
+boy may be gathered from an incident or two which he narrated as
+having impressed themselves permanently on the memory of his youth.
+He once asked his father what he thought was the oldest of all
+things. The father replied, after the Socratic method, by putting
+another question: 'And what do you yourself suppose is the oldest of
+all things?' The boy was not successful in his answers, thereon the
+old astronomer took up a small stone from the garden walk: 'There, my
+child, there is the oldest of all the things that I certainly know.'
+On another occasion his father is said to have asked the boy, 'What
+sort of things, do you think, are most alike?' The delicate,
+blue-eyed boy, after a short pause, replied, 'The leaves of the same
+tree are most like each other.' 'Gather, then, a handful of leaves of
+that tree,' rejoined the philosopher, 'and choose two that are
+alike.' The boy failed; but he hid the lesson in his heart, and his
+thoughts were revealed after many days. These incidents may be
+trifles; nor should we record them here had not John Herschel
+himself, though singularly reticent about his personal emotions,
+recorded them as having made a strong impression on his mind. Beyond
+all doubt we can trace therein, first, that grasp and grouping of
+many things in one, implied in the stone as the oldest of things;
+and, secondly, that fine and subtle discrimination of each thing out
+of many like things as forming the main features which characterized
+the habit of our venerated friend's philosophy."
+
+John Herschel entered St. John's College, Cambridge, when he was
+seventeen years of age. His university career abundantly fulfilled
+his father's eager desire, that his only son should develop a
+capacity for the pursuit of science. After obtaining many lesser
+distinctions, he finally came out as Senior Wrangler in 1813. It
+was, indeed, a notable year in the mathematical annals of the
+University. Second on that list, in which Herschel's name was first,
+appeared that of the illustrious Peacock, afterwards Dean of Ely, who
+remained throughout life one of Herschel's most intimate friends.
+
+Almost immediately after taking his degree, Herschel gave evidence of
+possessing a special aptitude for original scientific investigation.
+He sent to the Royal Society a mathematical paper which was published
+in the PHILOSOPHICAL TRANSACTIONS. Doubtless the splendour that
+attached to the name he bore assisted him in procuring early
+recognition of his own great powers. Certain it is that he was made
+a Fellow of the Royal Society at the unprecedentedly early age of
+twenty-one. Even after this remarkable encouragement to adopt a
+scientific career as the business of his life, it does not seem that
+John Herschel at first contemplated devoting himself exclusively to
+science. He commenced to prepare for the profession of the Law by
+entering as a student at the Middle Temple, and reading with a
+practising barrister.
+
+But a lawyer John Herschel was not destined to become. Circumstances
+brought him into association with some leading scientific men. He
+presently discovered that his inclinations tended more and more in
+the direction of purely scientific pursuits. Thus it came to pass
+that the original intention as to the calling which he should follow
+was gradually abandoned. Fortunately for science Herschel found its
+pursuit so attractive that he was led, as his father had been before
+him, to give up his whole life to the advancement of knowledge. Nor
+was it unnatural that a Senior Wrangler, who had once tasted the
+delights of mathematical research, should have been tempted to devote
+much time to this fascinating pursuit. By the time John Herschel was
+twenty-nine he had published so much mathematical work, and his
+researches were considered to possess so much merit, that the Royal
+Society awarded him the Copley Medal, which was the highest
+distinction it was capable of conferring.
+
+At the death of his father in 1822, John Herschel, with his tastes
+already formed for a scientific career, found himself in the
+possession of ample means. To him also passed all his father's great
+telescopes and apparatus. These material aids, together with a
+dutiful sense of filial obligation, decided him to make practical
+astronomy the main work of his life. He decided to continue to its
+completion that great survey of the heavens which had already been
+inaugurated, and, indeed, to a large extent accomplished, by his
+father.
+
+The first systematic piece of practical astronomical work which John
+Herschel undertook was connected with the measurement of what are
+known as "Double Stars." It should be observed, that there are in
+the heavens a number of instances in which two stars are seen in very
+close association. In the case of those objects to which the
+expression "Double Stars" is generally applied, the two luminous
+points are so close together that even though they might each be
+quite bright enough to be visible to the unaided eye, yet their
+proximity is such that they cannot be distinguished as two separate
+objects without optical aid. The two stars seem fused together into
+one. In the telescope, however, the bodies may be discerned
+separately, though they are frequently so close together that it
+taxes the utmost power of the instrument to indicate the division
+between them.
+
+The appearance presented by a double star might arise from the
+circumstance that the two stars, though really separated from each
+other by prodigious distances, happened to lie nearly in the same
+line of vision, as seen from our point of view. No doubt, many of
+the so-called double stars could be accounted for on this
+supposition. Indeed, in the early days when but few double stars
+were known, and when telescopes were not powerful enough to exhibit
+the numerous close doubles which have since been brought to light,
+there seems to have been a tendency to regard all double stars as
+merely such perspective effects. It was not at first suggested that
+there could be any physical connection between the components of each
+pair. The appearance presented was regarded as merely due to the
+circumstance that the line joining the two bodies happened to pass
+near the earth.
+
+[PLATE: SIR JOHN HERSCHEL.]
+
+In the early part of his career, Sir William Herschel seems to have
+entertained the view then generally held by other astronomers with
+regard to the nature of these stellar pairs. The great observer
+thought that the double stars could therefore be made to afford a
+means of solving that problem in which so many of the observers of
+the skies had been engaged, namely, the determination of the
+distances of the stars from the earth. Herschel saw that the
+displacement of the earth in its annual movement round the sun would
+produce an apparent shift in the place of the nearer of the two stars
+relatively to the other, supposed to be much more remote. If this
+shift could be measured, then the distance of the nearer of the stars
+could be estimated with some degree of precision.
+
+As has not unfrequently happened in the history of science, an effect
+was perceived of a very different nature from that which had been
+anticipated. If the relative places of the two stars had been
+apparently deranged merely in consequence of the motion of the earth,
+then the phenomenon would be an annual one. After the lapse of a
+year the two stars would have regained their original relative
+positions. This was the effect for which William Herschel was
+looking. In certain of the so called double stars, he, no doubt, did
+find a movement. He detected the remarkable fact that both the
+apparent distance and the relative positions of the two bodies were
+changing. But what was his surprise to observe that these
+alterations were not of an annually periodic character. It became
+evident then that in some cases one of the component stars was
+actually revolving around the other, in an orbit which required many
+years for its completion. Here was indeed a remarkable discovery. It
+was clearly impossible to suppose that movements of this kind could
+be mere apparent displacements, arising from the annual shift in our
+point of view, in consequence of the revolution of the earth.
+Herschel's discovery established the interesting fact that, in
+certain of these double stars, or binary stars, as these particular
+objects are more expressively designated, there is an actual orbital
+revolution of a character similar to that which the earth performs
+around the sun. Thus it was demonstrated that in these particular
+double stars the nearness of the two components was not merely
+apparent. The objects must actually lie close together at a distance
+which is small in comparison with the distance at which either of
+them is separated from the earth. The fact that the heavens contain
+pairs of twin suns in mutual revolution was thus brought to light.
+
+In consequence of this beautiful discovery, the attention of
+astronomers was directed to the subject of double stars with a degree
+of interest which these objects had never before excited. It was
+therefore not unnatural that John Herschel should have been attracted
+to this branch of astronomical work. Admiration for his father's
+discovery alone might have suggested that the son should strive to
+develop this territory newly opened up to research. But it also
+happened that the mathematical talents of the younger Herschel
+inclined his inquiries in the same direction. He saw clearly that,
+when sufficient observations of any particular binary star had been
+accumulated, it would then be within the power of the mathematician
+to elicit from those observations the shape and the position in space
+of the path which each of the revolving stars described around the
+other. Indeed, in some cases he would be able to perform the
+astonishing feat of determining from his calculations the weight of
+these distant suns, and thus be enabled to compare them with the mass
+of our own sun.
+
+[PLATE: NEBULA IN SOUTHERN HEMISPHERE, drawn by Sir John Herschel.]
+
+But this work must follow the observations, it could not precede
+them. The first step was therefore to observe and to measure with
+the utmost care the positions and distances of those particular
+double stars which appear to offer the greatest promise in this
+particular research. In 1821, Herschel and a friend of his, Mr.
+James South, agreed to work together with this object. South was a
+medical man with an ardent devotion to science, and possessed of
+considerable wealth. He procured the best astronomical instruments
+that money could obtain, and became a most enthusiastic astronomer
+and a practical observer of tremendous energy.
+
+South and John Herschel worked together for two years in the
+observation and measurement of the double stars discovered by Sir
+William Herschel. In the course of this time their assiduity was
+rewarded by the accumulation of so great a mass of careful
+measurements that when published, they formed quite a volume in the
+"Philosophical Transactions." The value and accuracy of the work,
+when estimated by standards which form proper criteria for that
+period, is universally recognised. It greatly promoted the progress
+of sidereal astronomy, and the authors were in consequence awarded
+medals from the Royal Society, and the Royal Astronomical Society,
+as well as similar testimonials from various foreign institutions.
+
+This work must, however, be regarded as merely introductory to the
+main labours of John Herschel's life. His father devoted the greater
+part of his years as an observer to what he called his "sweeps" of
+the heavens. The great reflecting telescope, twenty feet long, was
+moved slowly up and down through an arc of about two degrees towards
+and from the pole, while the celestial panorama passed slowly in the
+course of the diurnal motion before the keenly watching eye of the
+astronomer. Whenever a double star traversed the field Herschel
+described it to his sister Caroline, who, as we have already
+mentioned, was his invariable assistant in his midnight watches. When
+a nebula appeared, then he estimated its size and its brightness, he
+noticed whether it had a nucleus, or whether it had stars disposed in
+any significant manner with regard to it. He also dictated any other
+circumstance which he deemed worthy of record. These observations
+were duly committed to writing by the same faithful and indefatigable
+scribe, whose business it also was to take a memorandum of the exact
+position of the object as indicated by a dial placed in front of her
+desk, and connected with the telescope.
+
+John Herschel undertook the important task of re-observing the
+various double stars and nebulae which had been discovered during
+these memorable vigils. The son, however, lacked one inestimable
+advantage which had been possessed by the father. John Herschel had
+no assistant to discharge all those duties which Caroline had so
+efficiently accomplished. He had, therefore, to modify the system of
+sweeping previously adopted in order to enable all the work both of
+observing and of recording to be done by himself. This, in many
+ways, was a great drawback to the work of the younger astronomer. The
+division of labour between the observer and the scribe enables a
+greatly increased quantity of work to be got through. It is also
+distinctly disadvantageous to an observer to have to use his eye at
+the telescope directly after he has been employing it for reading the
+graduations on a circle, by the light of a lamp, or for entering
+memoranda in a note book. Nebulae, especially, are often so
+excessively faint that they can only be properly observed by an eye
+which is in that highly sensitive condition which is obtained by long
+continuance in darkness. The frequent withdrawal of the eye from the
+dark field of the telescope, and the application of it to reading by
+artificial light, is very prejudicial to its use for the more
+delicate purpose. John Herschel, no doubt, availed himself of every
+precaution to mitigate the ill effects of this inconvenience as much
+as possible, but it must have told upon his labours as compared with
+those of his father.
+
+But nevertheless John Herschel did great work during his "sweeps." He
+was specially particular to note all the double stars which presented
+themselves to his observation. Of course some little discretion must
+be allowed in deciding as to what degree of proximity in adjacent
+stars does actually bring them within the category of "double
+stars." Sir John set down all such objects as seemed to him likely
+to be of interest, and the results of his discoveries in this branch
+of astronomy amount to some thousands. Six or seven great memoirs in
+the TRANSACTIONS of the Royal Astronomical Society have been devoted
+to giving an account of his labours in this department of astronomy.
+
+[PLATE: THE CLUSTER IN THE CENTAUR, drawn by Sir John Herschel.]
+
+One of the achievements by which Sir John Herschel is best known is
+his invention of a method by which the orbits of binary stars could
+be determined. It will be observed that when one star revolves
+around another in consequence of the law of gravitation, the orbit
+described must be an ellipse. This ellipse, however, generally
+speaking, appears to us more or less foreshortened, for it is easily
+seen that only under highly exceptional circumstances would the plane
+in which the stars move happen to be directly square to the line of
+view. It therefore follows that what we observe is not exactly the
+track of one star around the other; it is rather the projection of
+that track as seen on the surface of the sky. Now it is remarkable
+that this apparent path is still an ellipse. Herschel contrived a
+very ingenious and simple method by which he could discover from the
+observations the size and position of the ellipse in which the
+revolution actually takes place. He showed how, from the study of
+the apparent orbit of the star, and from certain measurements which
+could easily be effected upon it, the determination of the true
+ellipse in which the movement is performed could be arrived at. In
+other words, Herschel solved in a beautiful manner the problem of
+finding the true orbits of double stars. The importance of this work
+may be inferred from the fact that it has served as the basis on
+which scores of other investigators have studied the fascinating
+subject of the movement of binary stars.
+
+The labours, both in the discovery and measurement of the double
+stars, and in the discussion of the observations with the object of
+finding the orbits of such stars as are in actual revolution,
+received due recognition in yet another gold medal awarded by the
+Royal Society. An address was delivered on the occasion by the Duke
+of Sussex (30th November, 1833), in the course of which, after
+stating that the medal had been conferred on Sir John Herschel, he
+remarks:--
+
+"It has been said that distance of place confers the same privilege
+as distance of time, and I should gladly avail myself of the
+privilege which is thus afforded me by Sir John Herschel's separation
+from his country and friends, to express my admiration of his
+character in stronger terms than I should otherwise venture to use;
+for the language of panegyric, however sincerely it may flow from the
+heart, might be mistaken for that of flattery, if it could not thus
+claim somewhat of an historical character; but his great attainments
+in almost every department of human knowledge, his fine powers as a
+philosophical writer, his great services and his distinguished
+devotion to science, the high principles which have regulated his
+conduct in every relation of life, and, above all, his engaging
+modesty, which is the crown of all his other virtues, presenting such
+a model of an accomplished philosopher as can rarely be found beyond
+the regions of fiction, demand abler pens than mine to describe them
+in adequate terms, however much inclined I might feel to undertake
+the task."
+
+The first few lines of the eulogium just quoted allude to Herschel's
+absence from England. This was not merely an episode of interest in
+the career of Herschel, it was the occasion of one of the greatest
+scientific expeditions in the whole history of astronomy.
+
+Herschel had, as we have seen, undertaken a revision of his father's
+"sweeps" for new objects, in those skies which are visible from our
+latitudes in the northern hemisphere. He had well-nigh completed
+this task. Zone by zone the whole of the heavens which could be
+observed from Windsor had passed under his review. He had added
+hundreds to the list of nebulae discovered by his father. He had
+announced thousands of double stars. At last, however, the great
+survey was accomplished. The contents of the northern hemisphere, so
+far at least as they could be disclosed by his telescope of twenty
+feet focal length, had been revealed.
+
+[PLATE: SIR JOHN HERSCHEL'S OBSERVATORY AT FELDHAUSEN,
+Cape of Good Hope.]
+
+But Herschel felt that this mighty task had to be supplemented by
+another of almost equal proportions, before it could be said that the
+twenty-foot telescope had done its work. It was only the northern
+half of the celestial sphere which had been fully explored. The
+southern half was almost virgin territory, for no other astronomer
+was possessed of a telescope of such power as those which the
+Herschels had used. It is true, of course, that as a certain margin
+of the southern hemisphere was visible from these latitudes, it had
+been more or less scrutinized by observers in northern skies. And
+the glimpses which had thus been obtained of the celestial objects in
+the southern sky, were such as to make an eager astronomer long for a
+closer acquaintance with the celestial wonders of the south. The
+most glorious object in the sidereal heavens, the Great Nebula in
+Orion, lies indeed in that southern hemisphere to which the younger
+Herschel's attention now became directed. It fortunately happens,
+however, for votaries of astronomy all the world over, that Nature
+has kindly placed her most astounding object, the great Nebula in
+Orion, in such a favoured position, near the equator, that from a
+considerable range of latitudes, both north and south, the wonders of
+the Nebula can be explored. There are grounds for thinking that the
+southern heavens contain noteworthy objects which, on the whole, are
+nearer to the solar system than are the noteworthy objects in the
+northern skies. The nearest star whose distance is known, Alpha
+Centauri, lies in the southern hemisphere, and so also does the most
+splendid cluster of stars.
+
+Influenced by the desire to examine these objects, Sir John Herschel
+determined to take his great telescope to a station in the southern
+hemisphere, and thus complete his survey of the sidereal heavens. The
+latitude of the Cape of Good Hope is such that a suitable site could
+be there found for his purpose. The purity of the skies in South
+Africa promised to provide for the astronomer those clear nights
+which his delicate task of surveying the nebulae would require.
+
+On November 13, 1833, Sir John Herschel, who had by this time
+received the honour of knighthood from William IV., sailed from
+Portsmouth for the Cape of Good Hope, taking with him his gigantic
+instruments. After a voyage of two months, which was considered to
+be a fair passage in those days, he landed in Table Bay, and having
+duly reconnoitred various localities, he decided to place his
+observatory at a place called Feldhausen, about six miles from Cape
+Town, near the base of the Table Mountain. A commodious residence
+was there available, and in it he settled with his family. A
+temporary building was erected to contain the equatorial, but the
+great twenty-foot telescope was accommodated with no more shelter
+than is provided by the open canopy of heaven.
+
+As in his earlier researches at home, the attention of the great
+astronomer at the Cape of Good Hope was chiefly directed to the
+measurement of the relative positions and distances apart of the
+double stars, and to the close examination of the nebulae. In the
+delineation of the form of these latter objects Herschel found ample
+employment for his skilful pencil. Many of the drawings he has made
+of the celestial wonders in the southern sky are admirable examples
+of celestial portraiture.
+
+The number of the nebulae and of those kindred objects, the star
+clusters, which Herschel studied in the southern heavens, during four
+years of delightful labour, amount in all to one thousand seven
+hundred and seven. His notes on their appearance, and the
+determinations of their positions, as well as his measurements of
+double stars, and much other valuable astronomical research, were
+published in a splendid volume, brought out at the cost of the Duke
+of Northumberland. This is, indeed, a monumental work, full of
+interesting and instructive reading for any one who has a taste for
+astronomy.
+
+Herschel had the good fortune to be at the Cape on the occasion of
+the periodical return of Halley's great comet in 1833. To the study
+of this body he gave assiduous attention, and the records of his
+observations form one of the most interesting chapters in that
+remarkable volume to which we have just referred.
+
+[PLATE: COLUMN AT FELDHAUSEN, CAPE TOWN, to commemorate Sir John
+Herschel's survey of the Southern Heavens.]
+
+Early in 1838 Sir John Herschel returned to England. He had made
+many friends at the Cape, who deeply sympathised with his self-
+imposed labours while he was resident among them. They desired to
+preserve the recollection of this visit, which would always, they
+considered, be a source of gratification in the colony. Accordingly,
+a number of scientific friends in that part of the world raised a
+monument with a suitable inscription, on the spot which had been
+occupied by the great twenty-foot reflector at Feldhausen.
+
+His return to England after five years of absence was naturally an
+occasion for much rejoicing among the lovers of astronomy. He was
+entertained at a memorable banquet, and the Queen, at her coronation,
+made him a baronet. His famous aunt Caroline, at that time aged
+eighty, was still in the enjoyment of her faculties, and was able to
+estimate at its true value the further lustre which was added to the
+name she bore. But there is reason to believe that her satisfaction
+was not quite unmixed with other feelings. With whatever favour she
+might regard her nephew, he was still not the brother to whom her
+life had been devoted. So jealous was this vigorous old lady of the
+fame of the great brother William, that she could hardly hear with
+patience of the achievements of any other astronomer, and this
+failing existed in some degree even when that other astronomer
+happened to be her illustrious nephew.
+
+With Sir John Herschel's survey of the Southern Hemisphere it may be
+said that his career as an observing astronomer came to a close. He
+did not again engage in any systematic telescopic research. But it
+must not be inferred from this statement that he desisted from active
+astronomical work. It has been well observed that Sir John Herschel
+was perhaps the only astronomer who has studied with success, and
+advanced by original research, every department of the great science
+with which his name is associated. It was to some other branches of
+astronomy besides those concerned with looking through telescopes,
+that the rest of the astronomer's life was to be devoted.
+
+To the general student Sir John Herschel is best known by the volume
+which he published under the title of "Outlines of Astronomy." This
+is, indeed, a masterly work, in which the characteristic difficulties
+of the subject are resolutely faced and expounded with as much
+simplicity as their nature will admit. As a literary effort this
+work is admirable, both on account of its picturesque language and
+the ennobling conceptions of the universe which it unfolds. The
+student who desires to become acquainted with those recondite
+departments of astronomy, in which the effects of the disturbing
+action of one planet upon the motions of another planet are
+considered, will turn to the chapters in Herschel's famous work on
+the subject. There he will find this complex matter elucidated,
+without resort to difficult mathematics. Edition after edition of
+this valuable work has appeared, and though the advances of modern
+astronomy have left it somewhat out of date in certain departments,
+yet the expositions it contains of the fundamental parts of the
+science still remain unrivalled.
+
+Another great work which Sir John undertook after his return from the
+Cape, was a natural climax to those labours on which his father and
+he had been occupied for so many years. We have already explained
+how the work of both these observers had been mainly devoted to the
+study of the nebulae and the star clusters. The results of their
+discoveries had been announced to the world in numerous isolated
+memoirs. The disjointed nature of these publications made their use
+very inconvenient. But still it was necessary for those who desired
+to study the marvellous objects discovered by the Herschels, to have
+frequent recourse to the original works. To incorporate all the
+several observations of nebular into one great systematic catalogue,
+seemed, therefore, to be an indispensable condition of progress in
+this branch of knowledge. No one could have been so fitted for this
+task as Sir John Herschel. He, therefore, attacked and carried
+through the great undertaking. Thus at last a grand catalogue of
+nebulae and clusters was produced. Never before was there so
+majestic an inventory. If we remember that each of the nebulae is an
+object so vast, that the whole of the solar system would form an
+inconsiderable speck by comparison, what are we to think of a
+collection in which these objects are enumerated in thousands? In
+this great catalogue we find arranged in systematic order all the
+nebulae and all the clusters which had been revealed by the diligence
+of the Herschels, father and son, in the Northern Hemisphere, and of
+the son alone in the Southern Hemisphere. Nor should we omit to
+mention that the labours of other astronomers were likewise
+incorporated. It was unavoidable that the descriptions given to each
+of the objects should be very slight. Abbreviations are used, which
+indicate that a nebula is bright, or very bright, or extremely
+bright, or faint, or very faint, or extremely faint. Such phrases
+have certainly but a relative and technical meaning in such a
+catalogue. The nebulae entered as extremely bright by the
+experienced astronomer are only so described by way of contrast to
+the great majority of these delicate telescopic objects. Most of the
+nebulae, indeed, are so difficult to see, that they admit of but very
+slight description. It should be observed that Herschel's catalogue
+augmented the number of known nebulous objects to more than ten times
+that collected into any catalogue which had ever been compiled before
+the days of William Herschel's observing began. But the study of
+these objects still advances, and the great telescopes now in use
+could probably show at least twice as many of these objects as are
+contained in the list of Herschel, of which a new and enlarged
+edition has since been brought out by Dr. Dreyer.
+
+One of the best illustrations of Sir John Herschel's literary powers
+is to be found in the address which he delivered at the Royal
+Astronomical Society, on the occasion of presenting a medal to Mr.
+Francis Baily, in recognition of his catalogue of stars. The passage
+I shall here cite places in its proper aspect the true merit of the
+laborious duty involved in such a task as that which Mr. Baily had
+carried through with such success:--
+
+"If we ask to what end magnificent establishments are maintained by
+states and sovereigns, furnished with masterpieces of art, and placed
+under the direction of men of first-rate talent and high-minded
+enthusiasm, sought out for those qualities among the foremost in the
+ranks of science, if we demand QUI BONO? for what good a Bradley has
+toiled, or a Maskelyne or a Piazzi has worn out his venerable age in
+watching, the answer is--not to settle mere speculative points in the
+doctrine of the universe; not to cater for the pride of man by
+refined inquiries into the remoter mysteries of nature; not to trace
+the path of our system through space, or its history through past and
+future eternities. These, indeed, are noble ends and which I am far
+from any thought of depreciating; the mind swells in their
+contemplation, and attains in their pursuit an expansion and a
+hardihood which fit it for the boldest enterprise. But the direct
+practical utility of such labours is fully worthy of their
+speculative grandeur. The stars are the landmarks of the universe;
+and, amidst the endless and complicated fluctuations of our system,
+seem placed by its Creator as guides and records, not merely to
+elevate our minds by the contemplation of what is vast, but to teach
+us to direct our actions by reference to what is immutable in His
+works. It is, indeed, hardly possible to over-appreciate their value
+in this point of view. Every well-determined star, from the moment
+its place is registered, becomes to the astronomer, the geographer,
+the navigator, the surveyor, a point of departure which can never
+deceive or fail him, the same for ever and in all places, of a
+delicacy so extreme as to be a test for every instrument yet invented
+by man, yet equally adapted for the most ordinary purposes; as
+available for regulating a town clock as for conducting a navy to the
+Indies; as effective for mapping down the intricacies of a petty
+barony as for adjusting the boundaries of Transatlantic empires. When
+once its place has been thoroughly ascertained and carefully
+recorded, the brazen circle with which that useful work was done may
+moulder, the marble pillar may totter on its base, and the astronomer
+himself survive only in the gratitude of posterity; but the record
+remains, and transfuses all its own exactness into every
+determination which takes it for a groundwork, giving to inferior
+instruments--nay, even to temporary contrivances, and to the
+observations of a few weeks or days--all the precision attained
+originally at the cost of so much time, labour, and expense."
+
+Sir John Herschel wrote many other works besides those we have
+mentioned. His "Treatise on Meteorology" is, indeed, a standard work
+on this subject, and numerous articles from the same pen on
+miscellaneous subjects, which have been collected and reprinted,
+seemed as a relaxation from his severe scientific studies. Like
+certain other great mathematicians Herschel was also a poet, and he
+published a translation of the Iliad into blank verse.
+
+In his later years Sir John Herschel lived a retired life. For a
+brief period he had, indeed, been induced to accept the office of
+Master of the Mint. It was, however, evident that the routine of
+such an occupation was not in accordance with his tastes, and he
+gladly resigned it, to return to the seclusion of his study in his
+beautiful home at Collingwood, in Kent.
+
+His health having gradually failed, he died on the 11th May, 1871, in
+the seventy-ninth year of his age.
+
+
+
+
+THE EARL OF ROSSE.
+
+
+The subject of our present sketch occupies quite a distinct position
+in scientific history. Unlike many others who have risen by their
+scientific discoveries from obscurity to fame, the great Earl of
+Rosse was himself born in the purple. His father, who, under the
+title of Sir Lawrence Parsons, had occupied a distinguished position
+in the Irish Parliament, succeeded on the death of his father to the
+Earldom which had been recently created. The subject of our present
+memoir was, therefore, the third of the Earls of Rosse, and he was
+born in York on June 17, 1800. Prior to his father's death in 1841,
+he was known as Lord Oxmantown.
+
+The University education of the illustrious astronomer was begun in
+Dublin and completed at Oxford. We do not hear in his case of any
+very remarkable University career. Lord Rosse was, however, a
+diligent student, and obtained a first-class in mathematics. He
+always took a great deal of interest in social questions, and was a
+profound student of political economy. He had a seat in the House of
+Commons, as member for King's County, from 1821 to 1834, his
+ancestral estate being situated in this part of Ireland.
+
+[PLATE: THE EARL OF ROSSE.]
+
+Lord Rosse was endowed by nature with a special taste for mechanical
+pursuits. Not only had he the qualifications of a scientific
+engineer, but he had the manual dexterity which qualified him
+personally to carry out many practical arts. Lord Rosse was, in
+fact, a skilful mechanic, an experienced founder, and an ingenious
+optician. His acquaintances were largely among those who were
+interested in mechanical pursuits, and it was his delight to visit
+the works or engineering establishments where refined processes in
+the arts were being carried on. It has often been stated--and as I
+have been told by members of his family, truly stated--that on one
+occasion, after he had been shown over some large works in the north
+of England, the proprietor bluntly said that he was greatly in want
+of a foreman, and would indeed be pleased if his visitor, who had
+evinced such extraordinary capacity for mechanical operations, would
+accept the post. Lord Rosse produced his card, and gently explained
+that he was not exactly the right man, but he appreciated the
+compliment, and this led to a pleasant dinner, and was the basis of a
+long friendship.
+
+I remember on one occasion hearing Lord Rosse explain how it was that
+he came to devote his attention to astronomy. It appears that when
+he found himself in the possession of leisure and of means, he
+deliberately cast around to think how that means and that leisure
+could be most usefully employed. Nor was it surprising that he
+should search for a direction which would offer special scope for his
+mechanical tastes. He came to the conclusion that the building of
+great telescopes was an art which had received no substantial advance
+since the great days of William Herschel. He saw that to construct
+mighty instruments for studying the heavens required at once the
+command of time and the command of wealth, while he also felt that
+this was a subject the inherent difficulties of which would tax to
+the uttermost whatever mechanical skill he might possess. Thus it
+was he decided that the construction of great telescopes should
+become the business of his life.
+
+[PLATE: BIRR CASTLE.
+
+PLATE: THE MALL, PARSONSTOWN.]
+
+In the centre of Ireland, seventy miles from Dublin, on the border
+between King's County and Tipperary, is a little town whereof we must
+be cautious before writing the name. The inhabitants of that town
+frequently insist that its name is Birr, * while the official
+designation is Parsonstown, and to this day for every six people who
+apply one name to the town, there will be half a dozen who use the
+other. But whichever it may be, Birr or Parsonstown--and I shall
+generally call it by the latter name--it is a favourable specimen of
+an Irish county town. The widest street is called the Oxmantown
+Mall. It is bordered by the dwelling-houses of the chief residents,
+and adorned with rows of stately trees. At one end of this
+distinctly good feature in the town is the Parish Church, while at
+the opposite end are the gates leading into Birr Castle, the
+ancestral home of the house of Parsons. Passing through the gates
+the visitor enters a spacious demesne, possessing much beauty of wood
+and water, one of the most pleasing features being the junction of
+the two rivers, which unite at a spot ornamented by beautiful
+timber. At various points illustrations of the engineering skill of
+the great Earl will be observed. The beauty of the park has been
+greatly enhanced by the construction of an ample lake, designed with
+the consummate art by which art is concealed. Even in mid-summer it
+is enlivened by troops of wild ducks preening themselves in that
+confidence which they enjoy in those happy localities where the sound
+of a gun is seldom heard. The water is led into the lake by a tube
+which passes under one of the two rivers just mentioned, while the
+overflow from the lake turns a water-wheel, which works a pair of
+elevators ingeniously constructed for draining the low-lying parts of
+the estate.
+
+ * Considering the fame acquired by Parsonstown from Lord Rosse's
+   mirrors, it may be interesting to note the following extract from
+   "The Natural History of Ireland," by Dr. Gerard Boate, Thomas
+   Molyneux M.D., F.R.S., and others, which shows that 150 years ago
+   Parsonstown was famous for its glass:--
+
+   "We shall conclude this chapter with the glass, there having been
+   several glasshouses set up by the English in Ireland, none in Dublin
+   or other cities, but all of them in the country; amongst which the
+   principal was that of Birre, a market town, otherwise called
+   Parsonstown, after one Sir Lawrence Parsons, who, having purchased
+   that lordship, built a goodly house upon it; his son William Parsons
+   having succeeded him in the possession of it; which town is situate
+   in Queen's County, about fifty miles (Irish) to the southwest of
+   Dublin, upon the borders of the two provinces of Leinster and Munster;
+   from this place Dublin was furnished with all sorts of window and
+   drinking glasses, and such other as commonly are in use. One part of
+   the materials, viz., the sand, they had out of England; the other,
+   to wit the ashes, they made in the place of ash-tree, and used no
+   other. The chiefest difficulty was to get the clay for the pots to
+   melt the materials in; this they had out of the north."--Chap. XXI.,
+   Sect. VIII. "Of the Glass made in Ireland."
+
+Birr Castle itself is a noble mansion with reminiscences from the
+time of Cromwell. It is surrounded by a moat and a drawbridge of
+modern construction, and from its windows beautiful views can be had
+over the varied features of the park. But while the visitors to
+Parsonstown will look with great interest on this residence of an
+Irish landlord, whose delight it was to dwell in his own country, and
+among his own people, yet the feature which they have specially come
+to observe is not to be found in the castle itself. On an extensive
+lawn, sweeping down from the moat towards the lake, stand two noble
+masonry walls. They are turreted and clad with ivy, and considerably
+loftier than any ordinary house. As the visitor approaches, he will
+see between those walls what may at first sight appear to him to be
+the funnel of a steamer lying down horizontally. On closer approach
+he will find that it is an immense wooden tube, sixty feet long, and
+upwards of six feet in diameter. It is in fact large enough to admit
+of a tall man entering into it and walking erect right through from
+one end to the other. This is indeed the most gigantic instrument
+which has ever been constructed for the purpose of exploring the
+heavens. Closely adjoining the walls between which the great tube
+swings, is a little building called "The Observatory." In this the
+smaller instruments are contained, and there are kept the books which
+are necessary for reference. The observatory also offers shelter to
+the observers, and provides the bright fire and the cup of warm tea,
+which are so acceptable in the occasional intervals of a night's
+observation passed on the top of the walls with no canopy but the
+winter sky.
+
+Almost the first point which would strike the visitor to Lord Rosse's
+telescope is that the instrument at which he is looking is not only
+enormously greater than anything of the kind that he has ever seen
+before, but also that it is something of a totally different nature.
+In an ordinary telescope he is accustomed to find a tube with lenses
+of glass at either end, while the large telescopes that we see in our
+observatories are also in general constructed on the same principle.
+At one end there is the object-glass, and at the other end the
+eye-piece, and of course it is obvious that with an instrument of
+this construction it is to the lower end of the tube that the eye of
+the observer must be placed when the telescope is pointed to the
+skies. But in Lord Rosse's telescope you would look in vain for
+these glasses, and it is not at the lower end of the instrument that
+you are to take your station when you are going to make your
+observations. The astronomer at Parsonstown has rather to avail
+himself of the ingenious system of staircases and galleries, by which
+he is enabled to obtain access to the mouth of the great tube. The
+colossal telescope which swings between the great walls, like
+Herschel's great telescope already mentioned, is a reflector, the
+original invention of which is due of course to Newton. The optical
+work which is accomplished by the lenses in the ordinary telescope is
+effected in the type of instrument constructed by Lord Rosse by a
+reflecting mirror which is placed at the lower end of the vast tube.
+The mirror in this instrument is made of a metal consisting of two
+parts of copper to one of tin. As we have already seen, this mixture
+forms an alloy of a very peculiar nature. The copper and the tin
+both surrender their distinctive qualities, and unite to form a
+material of a very different physical character. The copper is tough
+and brown, the tin is no doubt silvery in hue, but soft and almost
+fibrous in texture. When the two metals are mixed together in the
+proportions I have stated, the alloy obtained is intensely hard and
+quite brittle being in both these respects utterly unlike either of
+the two ingredients of which it is composed. It does, however,
+resemble the tin in its whiteness, but it acquires a lustre far
+brighter than tin; in fact, this alloy hardly falls short of silver
+itself in its brilliance when polished.
+
+[PLATE: LORD ROSSE'S TELESCOPE. From a photograph by W. Lawrence,
+Upper Sackville Street, Dublin.]
+
+The first duty that Lord Rosse had to undertake was the construction
+of this tremendous mirror, six feet across, and about four or five
+inches thick. The dimensions were far in excess of those which had
+been contemplated in any previous attempt of the same kind. Herschel
+had no doubt fashioned one mirror of four feet in diameter, and many
+others of smaller dimensions, but the processes which he employed had
+never been fully published, and it was obvious that, with a large
+increase in dimensions, great additional difficulties had to be
+encountered. Difficulties began at the very commencement of the
+process, and were experienced in one form or another at every
+subsequent stage. In the first place, the mere casting of a great
+disc of this mixture of tin and copper, weighing something like three
+or four tons, involved very troublesome problems. No doubt a casting
+of this size, if the material had been, for example, iron, would have
+offered no difficulties beyond those with which every practical
+founder is well acquainted, and which he has to encounter daily in
+the course of his ordinary work. But speculum metal is a material of
+a very intractable description. There is, of course, no practical
+difficulty in melting the copper, nor in adding the proper proportion
+of tin when the copper has been melted. There may be no great
+difficulty in arranging an organization by which several crucibles,
+filled with the molten material, shall be poured simultaneously so as
+to obtain the requisite mass of metal, but from this point the
+difficulties begin. For speculum metal when cold is excessively
+brittle, and were the casting permitted to cool like an ordinary
+copper or iron casting, the mirror would inevitably fly into pieces.
+Lord Rosse, therefore, found it necessary to anneal the casting with
+extreme care by allowing it to cool very slowly. This was
+accomplished by drawing the disc of metal as soon as it had entered
+into the solid state, though still glowing red, into an annealing
+oven. There the temperature was allowed to subside so gradually,
+that six weeks elapsed before the mirror had reached the temperature
+of the external air. The necessity for extreme precaution in the
+operation of annealing will be manifest if we reflect on one of the
+accidents which happened. On a certain occasion, after the cooling
+of a great casting had been completed, it was found, on withdrawing
+the speculum, that it was cracked into two pieces. This mishap was
+eventually traced to the fact that one of the walls of the oven had
+only a single brick in its thickness, and that therefore the heat had
+escaped more easily through that side than through the other sides
+which were built of double thickness. The speculum had,
+consequently, not cooled uniformly, and hence the fracture had
+resulted. Undeterred, however, by this failure, as well as by not a
+few other difficulties, into a description of which we cannot now
+enter, Lord Rosse steadily adhered to his self-imposed task, and at
+last succeeded in casting two perfect discs on which to commence the
+tedious processes of grinding and polishing. The magnitude of the
+operations involved may perhaps be appreciated if I mention that the
+value of the mere copper and tin entering into the composition of
+each of the mirrors was about 500 pounds.
+
+In no part of his undertaking was Lord Rosse's mechanical ingenuity
+more taxed than in the devising of the mechanism for carrying out the
+delicate operations of grinding and polishing the mirrors, whose
+casting we have just mentioned. In the ordinary operations of the
+telescope-maker, such processes had hitherto been generally effected
+by hand, but, of course, such methods became impossible when dealing
+with mirrors which were as large as a good-sized dinner table, and
+whose weight was measured by tons. The rough grinding was effected
+by means of a tool of cast iron about the same size as the mirror,
+which was moved by suitable machinery both backwards and forwards,
+and round and round, plenty of sand and water being supplied between
+the mirror and the tool to produce the necessary attrition. As the
+process proceeded and as the surface became smooth, emery was used
+instead of sand; and when this stage was complete, the grinding tool
+was removed and the polishing tool was substituted. The essential
+part of this was a surface of pitch, which, having been temporarily
+softened by heat, was then placed on the mirror, and accepted from
+the mirror the proper form. Rouge was then introduced as the
+polishing powder, and the operation was continued about nine hours,
+by which time the great mirror had acquired the appearance of highly
+polished silver. When completed, the disc of speculum metal was
+about six feet across and four inches thick. The depression in the
+centre was about half an inch. Mounted on a little truck, the great
+speculum was then conveyed to the instrument, to be placed in its
+receptacle at the bottom of the tube, the length of which was sixty
+feet, this being the focal distance of the mirror. Another small
+reflector was inserted in the great tube sideways, so as to direct
+the gaze of the observer down upon the great reflector. Thus was
+completed the most colossal instrument for the exploration of the
+heavens which the art of man has ever constructed.
+
+[PLATE: ROMAN CATHOLIC CHURCH AT PARSONSTOWN.]
+
+It was once my privilege to be one of those to whom the illustrious
+builder of the great telescope entrusted its use. For two seasons in
+1865 and 1866 I had the honour of being Lord Rosse's astronomer.
+During that time I passed many a fine night in the observer's
+gallery, examining different objects in the heavens with the aid of
+this remarkable instrument. At the time I was there, the objects
+principally studied were the nebulae, those faint stains of light
+which lie on the background of the sky. Lord Rosse's telescope was
+specially suited for the scrutiny of these objects, inasmuch as their
+delicacy required all the light-grasping power which could be
+provided.
+
+One of the greatest discoveries made by Lord Rosse, when his huge
+instrument was first turned towards the heavens, consisted in the
+detection of the spiral character of some of the nebulous forms.
+When the extraordinary structure of these objects was first
+announced, the discovery was received with some degree of
+incredulity. Other astronomers looked at the same objects, and when
+they failed to discern--and they frequently did fail to discern--the
+spiral structure which Lord Rosse had indicated, they drew the
+conclusion that this spiral structure did not exist. They thought it
+must be due possibly to some instrumental defect or to the
+imagination of the observer. It was, however, hardly possible for
+any one who was both willing and competent to examine into the
+evidence, to doubt the reality of Lord Rosse's discoveries. It
+happens, however, that they have been recently placed beyond all
+doubt by testimony which it is impossible to gainsay. A witness
+never influenced by imagination has now come forward, and the
+infallible photographic plate has justified Lord Rosse. Among the
+remarkable discoveries which Dr. Isaac Roberts has recently made in
+the application of his photographic apparatus to the heavens, there
+is none more striking than that which declares, not only that the
+nebulae which Lord Rosse described as spirals, actually do possess
+the character so indicated, but that there are many others of the
+same description. He has even brought to light the astonishingly
+interesting fact that there are invisible objects of this class which
+have never been seen by human eye, but whose spiral character is
+visible to the peculiar delicacy of the photographic telescope.
+
+In his earlier years, Lord Rosse himself used to be a diligent
+observer of the heavenly bodies with the great telescope which was
+completed in the year 1845. But I think that those who knew Lord
+Rosse well, will agree that it was more the mechanical processes
+incidental to the making of the telescope which engaged his interest
+than the actual observations with the telescope when it was
+completed. Indeed one who was well acquainted with him believed Lord
+Rosse's special interest in the great telescope ceased when the last
+nail had been driven into it. But the telescope was never allowed to
+lie idle, for Lord Rosse always had associated with him some ardent
+young astronomer, whose delight it was to employ to the uttermost the
+advantages of his position in exploring the wonders of the sky. Among
+those who were in this capacity in the early days of the great
+telescope, I may mention my esteemed friend Dr. Johnston Stoney.
+
+Such was the renown of Lord Rosse himself, brought about by his
+consummate mechanical genius and his astronomical discoveries, and
+such the interest which gathered around the marvellous workshops at
+Birr castle, wherein his monumental exhibitions of optical skill were
+constructed, that visitors thronged to see him from all parts of the
+world. His home at Parsonstown became one of the most remarkable
+scientific centres in Great Britain; thither assembled from time to
+time all the leading men of science in the country, as well as many
+illustrious foreigners. For many years Lord Rosse filled with marked
+distinction the exalted position of President of the Royal Society,
+and his advice and experience in practical mechanical matters were
+always at the disposal of those who sought his assistance. Personally
+and socially Lord Rosse endeared himself to all with whom he came in
+contact. I remember one of the attendants telling me that on one
+occasion he had the misfortune to let fall and break one of the small
+mirrors on which Lord Rosse had himself expended many hours of hard
+personal labour. The only remark of his lordship was that "accidents
+will happen."
+
+The latter years of his life Lord Rosse passed in comparative
+seclusion; he occasionally went to London for a brief sojourn during
+the season, and he occasionally went for a cruise in his yacht; but
+the greater part of the year he spent at Birr Castle, devoting
+himself largely to the study of political and social questions, and
+rarely going outside the walls of his demesne, except to church on
+Sunday mornings. He died on October 31, 1867.
+
+He was succeeded by his eldest son, the present Earl of Rosse, who
+has inherited his father's scientific abilities, and done much
+notable work with the great telescope.
+
+
+
+
+AIRY.
+
+
+In our sketch of the life of Flamsteed, we have referred to the
+circumstances under which the famous Observatory that crowns
+Greenwich Hill was founded. We have also had occasion to mention
+that among the illustrious successors of Flamsteed both Halley and
+Bradley are to be included. But a remarkable development of
+Greenwich Observatory from the modest establishment of early days
+took place under the direction of the distinguished astronomer whose
+name is at the head of this chapter. By his labours this temple of
+science was organised to such a degree of perfection that it has
+served in many respects as a model for other astronomical
+establishments in various parts of the world. An excellent account
+of Airy's career has been given by Professor H. H. Turner, in the
+obituary notice published by the Royal Astronomical Society. To this
+I am indebted for many of the particulars here to be set down
+concerning the life of the illustrious Astronomer Royal.
+
+The family from which Airy took his origin came from Kentmere, in
+Westmoreland. His father, William Airy, belonged to a Lincolnshire
+branch of the same stock. His mother's maiden name was Ann Biddell,
+and her family resided at Playford, near Ipswich. William Airy held
+some small government post which necessitated an occasional change of
+residence to different parts of the country, and thus it was that his
+son, George Biddell, came to be born at Alnwick, on 27th July, 1801.
+The boy's education, so far as his school life was concerned was
+partly conducted at Hereford and partly at Colchester. He does not,
+however, seem to have derived much benefit from the hours which he
+passed in the schoolroom. But it was delightful to him to spend his
+holidays on the farm at Playford, where his uncle, Arthur Biddell,
+showed him much kindness. The scenes of his early youth remained
+dear to Airy throughout his life, and in subsequent years he himself
+owned a house at Playford, to which it was his special delight to
+resort for relaxation during the course of his arduous career. In
+spite of the defects of his school training he seems to have
+manifested such remarkable abilities that his uncle decided to enter
+him in Cambridge University. He accordingly joined Trinity College
+as a sizar in 1819, and after a brilliant career in mathematical and
+physical science he graduated as Senior Wrangler in 1823. It may be
+noted as an exceptional circumstance that, notwithstanding the
+demands on his time in studying for his tripos, he was able, after
+his second term of residence, to support himself entirely by taking
+private pupils. In the year after he had taken his degree he was
+elected to a Fellowship at Trinity College.
+
+Having thus gained an independent position, Airy immediately entered
+upon that career of scientific work which he prosecuted without
+intermission almost to the very close of his life. One of his most
+interesting researches in these early days is on the subject of
+Astigmatism, which defect he had discovered in his own eyes. His
+investigations led him to suggest a means of correcting this defect
+by using a pair of spectacles with lenses so shaped as to counteract
+the derangement which the astigmatic eye impressed upon the rays of
+light. His researches on this subject were of a very complete
+character, and the principles he laid down are to the present day
+practically employed by oculists in the treatment of this
+malformation.
+
+On the 7th of December, 1826, Airy was elected to the Lucasian
+Professorship of Mathematics in the University of Cambridge, the
+chair which Newton's occupancy had rendered so illustrious. His
+tenure of this office only lasted for two years, when he exchanged it
+for the Plumian Professorship. The attraction which led him to
+desire this change is doubtless to be found in the circumstance that
+the Plumian Professorship of Astronomy carried with it at that time
+the appointment of director of the new astronomical observatory, the
+origin of which must now be described.
+
+Those most interested in the scientific side of University life
+decided in 1820 that it would be proper to found an astronomical
+observatory at Cambridge. Donations were accordingly sought for this
+purpose, and upwards of 6,000 pounds were contributed by members of
+the University and the public. To this sum 5,000 pounds were added
+by a grant from the University chest, and in 1824 further sums
+amounting altogether to 7,115 pounds were given by the University for
+the same object. The regulations as to the administration of the new
+observatory placed it under the management of the Plumian Professor,
+who was to be provided with two assistants. Their duties were to
+consist in making meridian observations of the sun, moon, and the
+stars, and the observations made each year were to be printed and
+published. The observatory was also to be used in the educational
+work of the University, for it was arranged that smaller instruments
+were to be provided by which students could be instructed in the
+practical art of making astronomical observations.
+
+The building of the Cambridge Astronomical Observatory was completed
+in 1824, but in 1828, when Airy entered on the discharge of his
+duties as Director, the establishment was still far from completion,
+in so far as its organisation was concerned. Airy commenced his work
+so energetically that in the next year after his appointment he was
+able to publish the first volume of "Cambridge Astronomical
+Observations," notwithstanding that every part of the work, from the
+making of observations to the revising of the proof-sheets, had to be
+done by himself.
+
+It may here be remarked that these early volumes of the publications
+of the Cambridge Observatory contained the first exposition of those
+systematic methods of astronomical work which Airy afterwards
+developed to such a great extent at Greenwich, and which have been
+subsequently adopted in many other places. No more profitable
+instruction for the astronomical beginner can be found than that
+which can be had by the study of these volumes, in which the Plumian
+Professor has laid down with admirable clearness the true principles
+on which meridian work should be conducted.
+
+[PLATE: SIR GEORGE AIRY.
+From a Photograph by Mr. E.P. Adams, Greenwich.]
+
+Airy gradually added to the instruments with which the observatory
+was originally equipped. A mural circle was mounted in 1832, and in
+the same year a small equatorial was erected by Jones. This was made
+use of by Airy in a well-known series of observations of Jupiter's
+fourth satellite for the determination of the mass of the great
+planet. His memoir on this subject fully ex pounds the method of
+finding the weight of a planet from observations of the movements of
+a satellite by which the planet is attended. This is, indeed, a
+valuable investigation which no student of astronomy can afford to
+neglect. The ardour with which Airy devoted himself to astronomical
+studies may be gathered from a remarkable report on the progress of
+astronomy during the present century, which he communicated to the
+British Association at its second meeting in 1832. In the early
+years of his life at Cambridge his most famous achievement was
+connected with a research in theoretical astronomy for which
+consummate mathematical power was required. We can only give a brief
+account of the Subject, for to enter into any full detail with regard
+to it would be quite out of the question.
+
+Venus is a planet of about the same size and the same weight as the
+earth, revolving in an orbit which lies within that described by our
+globe. Venus, consequently, takes less time than the earth to
+accomplish one revolution round the sun, and it happens that the
+relative movements of Venus and the earth are so proportioned that in
+the time in which our earth accomplishes eight of her revolutions the
+other planet will have accomplished almost exactly thirteen. It,
+therefore, follows that if the earth and Venus are in line with the
+sun at one date, then in eight years later both planets will again be
+found at the same points in their orbits. In those eight years the
+earth has gone round eight times, and has, therefore, regained its
+original position, while in the same period Venus has accomplished
+thirteen complete revolutions, and, therefore, this planet also has
+reached the same spot where it was at first. Venus and the earth, of
+course, attract each other, and in consequence of these mutual
+attractions the earth is swayed from the elliptic track which it
+would otherwise pursue. In like manner Venus is also forced by the
+attraction of the earth to revolve in a track which deviates from
+that which it would otherwise follow. Owing to the fact that the sun
+is of such preponderating magnitude (being, in fact, upwards of
+300,000 times as heavy as either Venus or the earth), the
+disturbances induced in the motion of either planet, in consequence
+of the attraction of the other, are relatively insignificant to the
+main controlling agency by which each of the movements is governed.
+It is, however, possible under certain circumstances that the
+disturbing effects produced upon one planet by the other can become
+so multiplied as to produce peculiar effects which attain measurable
+dimensions. Suppose that the periodic times in which the earth and
+Venus revolved had no simple relation to each other, then the points
+of their tracks in which the two planets came into line with the sun
+would be found at different parts of the orbits, and consequently the
+disturbances would to a great extent neutralise each other, and
+produce but little appreciable effect. As, however, Venus and the
+earth come back every eight years to nearly the same positions at the
+same points of their track, an accumulative effect is produced. For
+the disturbance of one planet upon the other will, of course, be
+greatest when those two planets are nearest, that is, when they lie
+in line with the sun and on the same side of it. Every eight years a
+certain part of the orbit of the earth is, therefore, disturbed by
+the attraction of Venus with peculiar vigour. The consequence is
+that, owing to the numerical relation between the movements of the
+planets to which I have referred, disturbing effects become
+appreciable which would otherwise be too small to permit of
+recognition. Airy proposed to himself to compute the effects which
+Venus would have on the movement of the earth in consequence of the
+circumstance that eight revolutions of the one planet required almost
+the same time as thirteen revolutions of the other. This is a
+mathematical inquiry of the most arduous description, but the Plumian
+Professor succeeded in working it out, and he had, accordingly, the
+gratification of announcing to the Royal Society that he had detected
+the influence which Venus was thus able to assert on the movement of
+our earth around the sun. This remarkable investigation gained for
+its author the gold medal of the Royal Astronomical Society in the
+year 1832.
+
+In consequence of his numerous discoveries, Airy's scientific fame
+had become so well recognised that the Government awarded him a
+special pension, and in 1835, when Pond, who was then Astronomer
+Royal, resigned, Airy was offered the post at Greenwich. There was
+in truth, no scientific inducement to the Plumian Professor to leave
+the comparatively easy post he held at Cambridge, in which he had
+ample leisure to devote himself to those researches which specially
+interested him, and accept that of the much more arduous observatory
+at Greenwich. There were not even pecuniary inducements to make the
+change; however, he felt it to be his duty to accede to the request
+which the Government had made that he would take up the position
+which Pond had vacated, and accordingly Airy went to Greenwich as
+Astronomer Royal on October 1st, 1835.
+
+He immediately began with his usual energy to organise the systematic
+conduct of the business of the National Observatory. To realise one
+of the main characteristics of Airy's great work at Greenwich, it is
+necessary to explain a point that might not perhaps be understood
+without a little explanation by those who have no practical
+experience in an observatory. In the work of an establishment such
+as Greenwich, an observation almost always consists of a measurement
+of some kind. The observer may, for instance, be making a
+measurement of the time at which a star passes across a spider line
+stretched through the field of view; on another occasion his object
+may be the measurement of an angle which is read off by examining
+through a microscope the lines of division on a graduated circle when
+the telescope is so pointed that the star is placed on a certain mark
+in the field of view. In either case the immediate result of the
+astronomical observation is a purely numerical one, but it rarely
+happens, indeed we may say it never happens, that the immediate
+numerical result which the observation gives expresses directly the
+quantity which we are really seeking for. No doubt the observation
+has been so designed that the quantity we want to find can be
+obtained from the figures which the measurement gives, but the object
+sought is not those figures, for there are always a multitude of
+other influences by which those figures are affected. For example,
+if an observation were to be perfect, then the telescope with which
+the observation is made should be perfectly placed in the exact
+position which it ought to occupy; this is, however, never the case,
+for no mechanic can ever construct or adjust a telescope so perfectly
+as the wants of the astronomer demand. The clock also by which we
+determine the time of the observation should be correct, but this is
+rarely if ever the case. We have to correct our observations for
+such errors, that is to say, we have to determine the errors in the
+positions of our telescopes and the errors in the going of our
+clocks, and then we have to determine what the observations would
+have been had our telescopes been absolutely perfect, and had our
+clocks been absolutely correct. There are also many other matters
+which have to be attended to in order to reduce our observations so
+as to obtain from the figures as yielded to the observer at the
+telescope the actual quantities which it is his object to determine.
+
+The work of effecting these reductions is generally a very intricate
+and laborious matter, so that it has not unfrequently happened that
+while observations have accumulated in an observatory, yet the
+tedious duty of reducing these observations has been allowed to fall
+into arrear. When Airy entered on his duties at Greenwich he found
+there an enormous mass of observations which, though implicitly
+containing materials of the greatest value to astronomers, were, in
+their unreduced form, entirely unavailable for any useful purpose.
+He, therefore, devoted himself to coping with the reduction of the
+observations of his predecessors. He framed systematic methods by
+which the reductions were to be effected, and he so arranged the work
+that little more than careful attention to numerical accuracy would
+be required for the conduct of the operations. Encouraged by the
+Admiralty, for it is under this department that Greenwich Observatory
+is placed, the Astronomer Royal employed a large force of computers
+to deal with the work. BY his energy and admirable organisation he
+managed to reduce an extremely valuable series of planetary
+observations, and to publish the results, which have been of the
+greatest importance to astronomical investigation.
+
+The Astronomer Royal was a capable, practical engineer as well as an
+optician, and he presently occupied himself by designing astronomical
+instruments of improved pattern, which should replace the antiquated
+instruments he found in the observatory. In the course of years the
+entire equipment underwent a total transformation. He ordered a
+great meridian circle, every part of which may be said to have been
+formed from his own designs. He also designed the mounting for a
+fine equatorial telescope worked by a driving clock, which he had
+himself invented. Gradually the establishment at Greenwich waxed
+great under his incessant care. It was the custom for the
+observatory to be inspected every year by a board of visitors, whose
+chairman was the President of the Royal Society. At each annual
+visitation, held on the first Saturday in June, the visitors received
+a report from the Astronomer Royal, in which he set forth the
+business which had been accomplished during the past year. It was on
+these occasions that applications were made to the Admiralty, either
+for new instruments or for developing the work of the observatory in
+some other way. After the more official business of the inspection
+was over, the observatory was thrown open to visitors, and hundreds
+of people enjoyed on that day the privilege of seeing the national
+observatory. These annual gatherings are happily still continued,
+and the first Saturday in June is known to be the occasion of one of
+the most interesting reunions of scientific men which takes place in
+the course of the year.
+
+Airy's scientific work was, however, by no means confined to the
+observatory. He interested himself largely in expeditions for the
+observation of eclipses and in projects for the measurement of arcs
+on the earth. He devoted much attention to the collection of magnetic
+observations from various parts of the world. Especially will it be
+remembered that the circumstances of the transits of Venus, which
+occurred in 1874 and in 1882, were investigated by him, and under his
+guidance expeditions were sent forth to observe the transits from
+those localities in remote parts of the earth where observations most
+suitable for the determination of the sun's distance from the earth
+could be obtained. The Astronomer Royal also studied tidal
+phenomena, and he rendered great service to the country in the
+restoration of the standards of length and weight which had been
+destroyed in the great fire at the House of Parliament in October,
+1834. In the most practical scientific matters his advice was often
+sought, and was as cheerfully rendered. Now we find him engaged in
+an investigation of the irregularities of the compass in iron ships,
+with a view to remedying its defects; now we find him reporting on
+the best gauge for railways. Among the most generally useful
+developments of the observatory must be mentioned the telegraphic
+method for the distribution of exact time. By arrangement with the
+Post Office, the astronomers at Greenwich despatch each morning a
+signal from the observatory to London at ten o'clock precisely. By
+special apparatus, this signal is thence distributed automatically
+over the country, so as to enable the time to be known everywhere
+accurately to a single second. It was part of the same system that a
+time ball should be dropped daily at one o'clock at Deal, as well as
+at other places, for the purpose of enabling ship's chronometers to
+be regulated.
+
+Airy's writings were most voluminous, and no fewer than forty-eight
+memoirs by him are mentioned in the "Catalogue of Scientific
+Memoirs," published by the Royal Society up to the year 1873, and
+this only included ten years out of an entire life of most
+extraordinary activity. Many other subjects besides those of a
+purely scientific character from time to time engaged his attention.
+He wrote, for instance, a very interesting treatise on the Roman
+invasion of Britain, especially with a view of determining the port
+from which Caesar set forth from Gaul, and the point at which he
+landed on the British coast. Airy was doubtless led to this
+investigation by his study of the tidal phenomena in the Straits of
+Dover. Perhaps the Astronomer Royal is best known to the general
+reading public by his excellent lectures on astronomy, delivered at
+the Ipswich Museum in 1848. This book has passed through many
+editions, and it gives a most admirable account of the manner in
+which the fundamental problems in astronomy have to be attacked.
+
+As years rolled by almost every honour and distinction that could be
+conferred upon a scientific man was awarded to Sir George Airy. He
+was, indeed, the recipient of other honours not often awarded for
+scientific distinction. Among these we may mention that in 1875 he
+received the freedom of the City of London, "as a recognition of his
+indefatigable labours in astronomy, and of his eminent services in
+the advancement of practical science, whereby he has so materially
+benefited the cause of commerce and civilisation."
+
+Until his eightieth year Airy continued to discharge his labours at
+Greenwich with unflagging energy. At last, on August 15th, 1881, he
+resigned the office which he had held so long with such distinction
+to himself and such benefit to his country. He had married in 1830
+the daughter of the Rev. Richard Smith, of Edensor. Lady Airy died
+in 1875, and three sons and three daughters survived him. One
+daughter is the wife of Dr. Routh, of Cambridge, and his other
+daughters were the constant companions of their father during the
+declining years of his life. Up to the age of ninety he enjoyed
+perfect physical health, but an accidental fall which then occurred
+was attended with serious results. He died on Saturday, January 2nd,
+1892, and was buried in the churchyard at Playford.
+
+
+
+
+HAMILTON.
+
+
+William Rowan Hamilton was born at midnight between the 3rd and 4th
+of August, 1805, at Dublin, in the house which was then 29, but
+subsequently 36, Dominick Street. His father, Archibald Hamilton,
+was a solicitor, and William was the fourth of a family of nine. With
+reference to his descent, it may be sufficient to notice that his
+ancestors appear to have been chiefly of gentle Irish families, but
+that his maternal grandmother was of Scottish birth. When he was
+about a year old, his father and mother decided to hand over the
+education of the child to his uncle, James Hamilton, a clergyman of
+Trim, in County Meath. James Hamilton's sister, Sydney, resided with
+him, and it was in their home that the days of William's childhood
+were passed.
+
+In Mr. Graves' "Life of Sir William Rowan Hamilton" a series of
+letters will be found, in which Aunt Sydney details the progress of
+the boy to his mother in Dublin. Probably there is no record of an
+infant prodigy more extraordinary than that which these letters
+contain. At three years old his aunt assured the mother that William
+is "a hopeful blade," but at that time it was his physical vigour to
+which she apparently referred; for the proofs of his capacity, which
+she adduces, related to his prowess in making boys older than himself
+fly before him. In the second letter, a month later, we hear that
+William is brought in to read the Bible for the purpose of putting to
+shame other boys double his age who could not read nearly so well.
+Uncle James appears to have taken much pains with William's
+schooling, but his aunt said that "how he picks up everything is
+astonishing, for he never stops playing and jumping about." When he
+was four years and three months old, we hear that he went out to dine
+at the vicar's, and amused the company by reading for them equally
+well whether the book was turned upside down or held in any other
+fashion. His aunt assures the mother that "Willie is a most sensible
+little creature, but at the same time has a great deal of roguery."
+At four years and five months old he came up to pay his mother a
+visit in town, and she writes to her sister a description of the
+boy;--
+
+"His reciting is astonishing, and his clear and accurate knowledge of
+geography is beyond belief; he even draws the countries with a pencil
+on paper, and will cut them out, though not perfectly accurate, yet
+so well that a anybody knowing the countries could not mistake them;
+but, you will think this nothing when I tell you that he reads Latin,
+Greek, and Hebrew."
+
+Aunt Sydney recorded that the moment Willie got back to Trim he was
+desirous of at once resuming his former pursuits. He would not eat
+his breakfast till his uncle had heard him his Hebrew, and he
+comments on the importance of proper pronunciation. At five he was
+taken to see a friend, to whom he repeated long passages from
+Dryden. A gentleman present, who was not unnaturally sceptical about
+Willie's attainments, desired to test him in Greek, and took down a
+copy of Homer which happened to have the contracted type, and to his
+amazement Willie went on with the greatest ease. At six years and
+nine months he was translating Homer and Virgil; a year later his
+uncle tells us that William finds so little difficulty in learning
+French and Italian, that he wishes to read Homer in French. He is
+enraptured with the Iliad, and carries it about with him, repeating
+from it whatever particularly pleases him. At eight years and one
+month the boy was one of a party who visited the Scalp in the Dublin
+mountains, and he was so delighted with the scenery that he forthwith
+delivered an oration in Latin. At nine years and six months he is
+not satisfied until he learns Sanscrit; three months later his thirst
+for the Oriental languages is unabated, and at ten years and four
+months he is studying Arabic and Persian. When nearly twelve he
+prepared a manuscript ready for publication. It was a "Syriac
+Grammar," in Syriac letters and characters compiled from that of
+Buxtorf, by William Hamilton, Esq., of Dublin and Trim. When he was
+fourteen, the Persian ambassador, Mirza Abul Hassan Khan, paid a
+visit to Dublin, and, as a practical exercise in his Oriental
+languages, the young scholar addressed to his Excellency a letter in
+Persian; a translation of which production is given by Mr. Graves.
+When William was fourteen he had the misfortune to lose his father;
+and he had lost his mother two years previously. The boy and his
+three sisters were kindly provided for by different members of the
+family on both sides.
+
+It was when William was about fifteen that his attention began to be
+turned towards scientific subjects. These were at first regarded
+rather as a relaxation from the linguistic studies with which he had
+been so largely occupied. On November 22nd, 1820, he notes in his
+journal that he had begun Newton's "Principia": he commenced also the
+study of astronomy by observing eclipses, occultations, and similar
+phenomena. When he was sixteen we learn that he had read conic
+sections, and that he was engaged in the study of pendulums. After
+an attack of illness, he was moved for change to Dublin, and in May,
+1822, we find him reading the differential calculus and Laplace's
+"Mecanique Celeste." He criticises an important part of Laplace's
+work relative to the demonstration of the parallelogram of forces. In
+this same year appeared the first gushes of those poems which
+afterwards flowed in torrents.
+
+His somewhat discursive studies had, however, now to give place to a
+more definite course of reading in preparation for entrance to the
+University of Dublin. The tutor under whom he entered, Charles
+Boyton, was himself a distinguished man, but he frankly told the
+young William that he could be of little use to him as a tutor, for
+his pupil was quite as fit to be his tutor. Eliza Hamilton, by whom
+this is recorded, adds, "But there is one thing which Boyton would
+promise to be to him, and that was a FRIEND; and that one proof he
+would give of this should be that, if ever he saw William beginning
+to be UPSET by the sensation he would excite, and the notice he would
+attract, he would tell him of it." At the beginning of his college
+career he distanced all his competitors in every intellectual
+pursuit. At his first term examination in the University he was
+first in Classics and first in Mathematics, while he received the
+Chancellor's prize for a poem on the Ionian Islands, and another for
+his poem on Eustace de St. Pierre.
+
+There is abundant testimony that Hamilton had "a heart for friendship
+formed." Among the warmest of the friends whom he made in these
+early days was the gifted Maria Edgeworth, who writes to her sister
+about "young Mr. Hamilton, an admirable Crichton of eighteen, a real
+prodigy of talents, who Dr. Brinkley says may be a second Newton,
+quiet, gentle, and simple." His sister Eliza, to whom he was
+affectionately attached, writes to him in 1824:--
+
+"I had been drawing pictures of you in my mind in your study at
+Cumberland Street with 'Xenophon,' &c., on the table, and you, with
+your most awfully sublime face of thought, now sitting down, and now
+walking about, at times rubbing your hands with an air of
+satisfaction, and at times bursting forth into some very heroical
+strain of poetry in an unknown language, and in your own internal
+solemn ventriloquist-like voice, when you address yourself to the
+silence and solitude of your own room, and indeed, at times, even
+when your mysterious poetical addresses are not quite unheard."
+
+This letter is quoted because it refers to a circumstance which all
+who ever met with Hamilton, even in his latest years, will remember.
+He was endowed with two distinct voices, one a high treble, the other
+a deep bass, and he alternately employed these voices not only in
+ordinary conversation, but when he was delivering an address on the
+profundities of Quaternions to the Royal Irish Academy, or on
+similar occasions. His friends had long grown so familiar with this
+peculiarity that they were sometimes rather surprised to find how
+ludicrous it appeared to strangers.
+
+Hamilton was fortunate in finding, while still at a very early age, a
+career open before him which was worthy of his talents. He had not
+ceased to be an undergraduate before he was called to fill an
+illustrious chair in his university. The circumstances are briefly
+as follows.
+
+We have already mentioned that, in 1826, Brinkley was appointed
+Bishop of Cloyne, and the professorship of astronomy thereupon became
+vacant. Such was Hamilton's conspicuous eminence that,
+notwithstanding he was still an undergraduate, and had only just
+completed his twenty-first year, he was immediately thought of as a
+suitable successor to the chair. Indeed, so remarkable were his
+talents in almost every direction that had the vacancy been in the
+professorship of classics or of mathematics, of English literature or
+of metaphysics, of modern or of Oriental languages, it seems
+difficult to suppose that he would not have occurred to every one as
+a possible successor. The chief ground, however, on which the
+friends of Hamilton urged his appointment was the earnest of original
+power which he had already shown in a research on the theory of
+Systems of Rays. This profound work created a new branch of optics,
+and led a few years later to a superb discovery, by which the fame of
+its author became world-wide.
+
+At first Hamilton thought it would be presumption for him to apply
+for so exalted a position; he accordingly retired to the country, and
+resumed his studies for his degree. Other eminent candidates came
+forward, among them some from Cambridge, and a few of the Fellows
+from Trinity College, Dublin, also sent in their claims. It was not
+until Hamilton received an urgent letter from his tutor Boyton, in
+which he was assured of the favourable disposition of the Board
+towards his candidature, that he consented to come forward, and on
+June 16th, 1827, he was unanimously chosen to succeed the Bishop of
+Cloyne as Professor of Astronomy in the University. The appointment
+met with almost universal approval. It should, however, be noted
+that Brinkley, whom Hamilton succeeded, did not concur in the general
+sentiment. No one could have formed a higher opinion than he had
+done of Hamilton's transcendent powers; indeed, it was on that very
+ground that he seemed to view the appointment with disapprobation.
+He considered that it would have been wiser for Hamilton to have
+obtained a Fellowship, in which capacity he would have been able to
+exercise a greater freedom in his choice of intellectual pursuits.
+The bishop seems to have thought, and not without reason, that
+Hamilton's genius would rather recoil from much of the routine work
+of an astronomical establishment. Now that Hamilton's whole life is
+before us, it is easy to see that the bishop was entirely wrong. It
+is quite true that Hamilton never became a skilled astronomical
+observer; but the seclusion of the observatory was eminently
+favourable to those gigantic labours to which his life was devoted,
+and which have shed so much lustre, not only on Hamilton himself, but
+also on his University and his country.
+
+In his early years at Dunsink, Hamilton did make some attempts at a
+practical use of the telescopes, but he possessed no natural aptitude
+for such work, while exposure which it involved seems to have acted
+injuriously on his health. He, therefore, gradually allowed his
+attention to be devoted to those mathematical researches in which he
+had already given such promise of distinction. Although it was in
+pure mathematics that he ultimately won his greatest fame, yet he
+always maintained and maintained with justice, that he had ample
+claims to the title of an astronomer. In his later years he set
+forth this position himself in a rather striking manner. De Morgan
+had written commending to Hamilton's notice Grant's "History of
+Physical Astronomy." After becoming acquainted with the book,
+Hamilton writes to his friend as follows:--
+
+"The book is very valuable, and very creditable to its composer. But
+your humble servant may be pardoned if he finds himself somewhat
+amused at the title, 'History of Physical Astronomy from the Earliest
+Ages to the Middle of the Nineteenth Century,' when he fails to
+observe any notice of the discoveries of Sir W. R. Hamilton in the
+theory of the 'Dynamics of the Heavens.'"
+
+The intimacy between the two correspondents will account for the tone
+of this letter; and, indeed, Hamilton supplies in the lines which
+follow ample grounds for his complaint. He tells how Jacobi spoke of
+him in Manchester in 1842 as "le Lagrange de votre pays," and how
+Donkin had said that, "The Analytical Theory of Dynamics as it exists
+at present is due mainly to the labours of La Grange Poisson,
+Sir W. R. Hamilton, and Jacobi, whose researches on this subject
+present a series of discoveries hardly paralleled for their elegance
+and importance in any other branch of mathematics." In the same
+letter Hamilton also alludes to the success which had attended the
+applications of his methods in other hands than his own to the
+elucidation of the difficult subject of Planetary Perturbations.
+Even had his contributions to science amounted to no more than these
+discoveries, his tenure of the chair would have been an illustrious
+one. It happens, however, that in the gigantic mass of his
+intellectual work these researches, though intrinsically of such
+importance, assume what might almost be described as a relative
+insignificance.
+
+The most famous achievement of Hamilton's earlier years at the
+observatory was the discovery of conical refraction. This was one of
+those rare events in the history of science, in which a sagacious
+calculation has predicted a result of an almost startling character,
+subsequently confirmed by observation. At once this conferred on the
+young professor a world-wide renown. Indeed, though he was still
+only twenty-seven, he had already lived through an amount of
+intellectual activity which would have been remarkable for a man of
+threescore and ten.
+
+Simultaneously with his growth in fame came the growth of his several
+friendships. There were, in the first place, his scientific
+friendships with Herschel, Robinson, and many others with whom he had
+copious correspondence. In the excellent biography to which I have
+referred, Hamilton's correspondence with Coleridge may be read, as
+can also the letters to his lady correspondents, among them being
+Maria Edgeworth, Lady Dunraven, and Lady Campbell. Many of these
+sheets relate to literary matters, but they are largely intermingled
+With genial pleasantry, and serve at all events to show the affection
+and esteem with which he was regarded by all who had the privilege of
+knowing him. There are also the letters to the sisters whom he
+adored, letters brimming over with such exalted sentiment, that most
+ordinary sisters would be tempted to receive them with a smile in the
+excessively improbable event of their still more ordinary brothers
+attempting to pen such effusions. There are also indications of
+letters to and from other young ladies who from time to time were the
+objects of Hamilton's tender admiration. We use the plural
+advisedly, for, as Mr. Graves has set forth, Hamilton's love affairs
+pursued a rather troubled course. The attention which he lavished on
+one or two fair ones was not reciprocated, and even the intense
+charms of mathematical discovery could not assuage the pangs which
+the disappointed lover experienced. At last he reached the haven of
+matrimony in 1833, when he was married to Miss Bayly. Of his married
+life Hamilton said, many years later to De Morgan, that it was as
+happy as he expected, and happier than he deserved. He had two sons,
+William and Archibald, and one daughter, Helen, who became the wife
+of Archdeacon O'Regan.
+
+[PLATE: SIR W. ROWAN HAMILTON.]
+
+The most remarkable of Hamilton's friendships in his early years was
+unquestionably that with Wordsworth. It commenced with Hamilton's
+visit to Keswick; and on the first evening, when the poet met the
+young mathematician, an incident occurred which showed the mutual
+interest that was aroused. Hamilton thus describes it in a letter to
+his sister Eliza:--
+
+"He (Wordsworth) walked back with our party as far as their lodge,
+and then, on our bidding Mrs. Harrison good-night, I offered to walk
+back with him while my party proceeded to the hotel. This offer he
+accepted, and our conversation had become so interesting that when we
+had arrived at his home, a distance of about a mile, he proposed to
+walk back with me on my way to Ambleside, a proposal which you may be
+sure I did not reject; so far from it that when he came to turn once
+more towards his home I also turned once more along with him. It was
+very late when I reached the hotel after all this walking."
+
+Hamilton also submitted to Wordsworth an original poem, entitled
+"It Haunts me Yet." The reply of Wordsworth is worth repeating:--
+
+"With a safe conscience I can assure you that, in my judgment, your
+verses are animated with the poetic spirit, as they are evidently the
+product of strong feeling. The sixth and seventh stanzas affected me
+much, even to the dimming of my eyes and faltering of my voice while
+I was reading them aloud. Having said this, I have said enough. Now
+for the per contra. You will not, I am sure, be hurt when I tell you
+that the workmanship (what else could be expected from so young a
+writer?) is not what it ought to be. . .
+
+"My household desire to be remembered to you in no formal way.
+Seldom have I parted--never, I was going to say--with one whom after
+so short an acquaintance I lost sight of with more regret. I trust
+we shall meet again."
+
+The further affectionate intercourse between Hamilton and Wordsworth
+is fully set forth, and to Hamilton's latest years a recollection of
+his "Rydal hours" was carefully treasured and frequently referred
+to. Wordsworth visited Hamilton at the observatory, where a
+beautiful shady path in the garden is to the present day spoken of as
+"Wordsworth's Walk."
+
+It was the practice of Hamilton to produce a sonnet on almost every
+occasion which admitted of poetical treatment, and it was his delight
+to communicate his verses to his friends all round. When Whewell was
+producing his "Bridgewater Treatises," he writes to Hamilton in
+1833:--
+
+"Your sonnet which you showed me expressed much better than I could
+express it the feeling with which I tried to write this book, and I
+once intended to ask your permission to prefix the sonnet to my book,
+but my friends persuaded me that I ought to tell my story in my own
+prose, however much better your verse might be."
+
+The first epoch-marking contribution to Theoretical Dynamics after
+the time of Newton was undoubtedly made by Lagrange, in his discovery
+of the general equations of Motion. The next great step in the same
+direction was that taken by Hamilton in his discovery of a still more
+comprehensive method. Of this contribution Hamilton writes to
+Whewell, March 31st, 1834:--
+
+"As to my late paper, a day or two ago sent off to London, it is
+merely mathematical and deductive. I ventured, indeed, to call it
+the 'Mecanique Analytique' of Lagrange, 'a scientific poem'; and
+spoke of Dynamics, or the Science of Force, as treating of 'Power
+acting by Law in Space and Time.' In other respects it is as
+unpoetical and unmetaphysical as my gravest friends could desire."
+
+It may well be doubted whether there is a more beautiful chapter in
+the whole of mathematical philosophy than that which contains
+Hamilton's dynamical theory. It is disfigured by no tedious
+complexity of symbols; it condescends not to any particular problems;
+it is an all embracing theory, which gives an intellectual grasp of
+the most appropriate method for discovering the result of the
+application of force to matter. It is the very generality of this
+doctrine which has somewhat impeded the applications of which it is
+susceptible. The exigencies of examinations are partly responsible
+for the fact that the method has not become more familiar to students
+of the higher mathematics. An eminent professor has complained that
+Hamilton's essay on dynamics was of such an extremely abstract
+character, that he found himself unable to extract from it problems
+suitable for his examination papers.
+
+The following extract is from a letter of Professor Sylvester to
+Hamilton, dated 20th of September, 1841. It will show how his works
+were appreciated by so consummate a mathematician as the writer:--
+
+"Believe me, sir, it is not the least of my regrets in quitting this
+empire to feel that I forego the casual occasion of meeting those
+masters of my art, yourself chief amongst the number, whose
+acquaintance, whose conversation, or even notice, have in themselves
+the power to inspire, and almost to impart fresh vigour to the
+understanding, and the courage and faith without which the efforts of
+invention are in vain. The golden moments I enjoyed under your
+hospitable roof at Dunsink, or moments such as they were, may
+probably never again fall to my lot.
+
+"At a vast distance, and in an humble eminence, I still promise myself
+the calm satisfaction of observing your blazing course in the
+elevated regions of discovery. Such national honour as you are able
+to confer on your country is, perhaps, the only species of that
+luxury for the rich (I mean what is termed one's glory) which is not
+bought at the expense of the comforts of the million."
+
+The study of metaphysics was always a favourite recreation when
+Hamilton sought for a change from the pursuit of mathematics. In the
+year 1834 we find him a diligent student of Kant; and, to show the
+views of the author of Quaternions and of Algebra as the Science of
+Pure Time on the "Critique of the Pure Reason," we quote the
+following letter, dated 18th of July, 1834, from Hamilton to Viscount
+Adare:--
+
+"I have read a large part of the 'Critique of the Pure Reason,' and
+find it wonderfully clear, and generally quite convincing.
+Notwithstanding some previous preparation from Berkeley, and from my
+own thoughts, I seem to have learned much from Kant's own statement
+of his views of 'Space and Time.' Yet, on the whole, a large part of
+my pleasure consists in recognising through Kant's works, opinions,
+or rather views, which have been long familiar to myself, although
+far more clearly and systematically expressed and combined by him.
+. . . Kant is, I think, much more indebted than he owns, or, perhaps
+knows, to Berkeley, whom he calls by a sneer, 'GUTEM Berkeley'. . .
+as it were, 'good soul, well meaning man,' who was able for all that
+to shake to its centre the world of human thought, and to effect a
+revolution among the early consequences of which was the growth of
+Kant himself."
+
+At several meetings of the British Association Hamilton was a very
+conspicuous figure. Especially was this the case in 1835, when the
+Association met in Dublin, and when Hamilton, though then but thirty
+years old, had attained such celebrity that even among a very
+brilliant gathering his name was perhaps the most renowned. A
+banquet was given at Trinity College in honour of the meeting. The
+distinguished visitors assembled in the Library of the University.
+The Earl of Mulgrave, then Lord Lieutenant of Ireland, made this the
+opportunity of conferring on Hamilton the honour of knighthood,
+gracefully adding, as he did so: "I but set the royal, and therefore
+the national mark, on a distinction already acquired by your genius
+and labours."
+
+The banquet followed, writes Mr. Graves. "It was no little addition
+to the honour Hamilton had already received that, when Professor
+Whewell returned thanks for the toast of the University of Cambridge,
+he thought it appropriate to add the words, 'There was one point
+which strongly pressed upon him at that moment: it was now one
+hundred and thirty years since a great man in another Trinity College
+knelt down before his sovereign, and rose up Sir Isaac Newton.' The
+compliment was welcomed by immense applause."
+
+A more substantial recognition of the labours of Hamilton took place
+subsequently. He thus describes it in a letter to Mr. Graves of 14th
+of November, 1843:--
+
+"The Queen has been pleased--and you will not doubt that it was
+entirely unsolicited, and even unexpected, on my part--'to express
+her entire approbation of the grant of a pension of two hundred
+pounds per annum from the Civil List' to me for scientific services.
+The letters from Sir Robert Peel and from the Lord Lieutenant of
+Ireland in which this grant has been communicated or referred to have
+been really more gratifying to my feelings than the addition to my
+income, however useful, and almost necessary, that may have been."
+
+The circumstances we have mentioned might lead to the supposition
+that Hamilton was then at the zenith of his fame but this was not
+so. It might more truly be said, that his achievements up to this
+point were rather the preliminary exercises which fitted him for the
+gigantic task of his life. The name of Hamilton is now chiefly
+associated with his memorable invention of the calculus of
+Quaternions. It was to the creation of this branch of mathematics
+that the maturer powers of his life were devoted; in fact he gives us
+himself an illustration of how completely habituated he became to the
+new modes of thought which Quaternions originated. In one of his
+later years he happened to take up a copy of his famous paper on
+Dynamics, a paper which at the time created such a sensation among
+mathematicians, and which is at this moment regarded as one of the
+classics of dynamical literature. He read, he tells us, his paper
+with considerable interest, and expressed his feelings of
+gratification that he found himself still able to follow its
+reasoning without undue effort. But it seemed to him all the time as
+a work belonging to an age of analysis now entirely superseded.
+
+In order to realise the magnitude of the revolution which Hamilton
+has wrought in the application of symbols to mathematical
+investigation, it is necessary to think of what Hamilton did beside
+the mighty advance made by Descartes. To describe the character of
+the quaternion calculus would be unsuited to the pages of this work,
+but we may quote an interesting letter, written by Hamilton from his
+death-bed, twenty-two years later, to his son Archibald, in which he
+has recorded the circumstances of the discovery:--
+
+"Indeed, I happen to be able to put the finger of memory upon the year
+and month--October, 1843--when having recently returned from visits
+to Cork and Parsonstown, connected with a meeting of the British
+Association, the desire to discover the laws of multiplication
+referred to, regained with me a certain strength and earnestness
+which had for years been dormant, but was then on the point of being
+gratified, and was occasionally talked of with you. Every morning in
+the early part of the above-cited month, on my coming down to
+breakfast, your (then) little brother William Edwin, and yourself,
+used to ask me, 'Well papa, can you multiply triplets?' Whereto I
+was always obliged to reply, with a sad shake of the head: 'No, I
+can only ADD and subtract them,'
+
+"But on the 16th day of the same month--which happened to be Monday,
+and a Council day of the Royal Irish Academy--I was walking in to
+attend and preside, and your mother was walking with me along the
+Royal Canal, to which she had perhaps driven; and although she talked
+with me now and then, yet an UNDERCURRENT of thought was going on in
+my mind which gave at last a RESULT, whereof it is not too much to
+say that I felt AT ONCE the importance. An ELECTRIC circuit seemed
+to CLOSE; and a spark flashed forth the herald (as I FORESAW
+IMMEDIATELY) of many long years to come of definitely directed
+thought and work by MYSELF, if spared, and, at all events, on the
+part of OTHERS if I should even be allowed to live long enough
+distinctly to communicate the discovery. Nor could I resist the
+impulse--unphilosophical as it may have been--to cut with a knife on
+a stone of Brougham Bridge as we passed it, the fundamental formula
+which contains the SOLUTION of the PROBLEM, but, of course, the
+inscription has long since mouldered away. A more durable notice
+remains, however, on the Council Books of the Academy for that day
+(October 16, 1843), which records the fact that I then asked for and
+obtained leave to read a Paper on 'Quaternions,' at the First General
+Meeting of the Session; which reading took place accordingly, on
+Monday, the 13th of November following."
+
+Writing to Professor Tait, Hamilton gives further particulars of the
+same event. And again in a letter to the Rev. J. W. Stubbs:--
+
+"To-morrow will be the fifteenth birthday of the Quaternions. They
+started into life full-grown on the 16th October, 1843, as I was
+walking with Lady Hamilton to Dublin, and came up to Brougham
+Bridge--which my boys have since called Quaternion Bridge. I pulled
+out a pocketbook which still exists, and made entry, on which at the
+very moment I felt that it might be worth my while to expend the
+labour of at least ten or fifteen years to come. But then it is fair
+to say that this was because I felt a problem to have been at that
+moment solved, an intellectual want relieved which had haunted me for
+at least fifteen years before.
+
+"But did the thought of establishing such a system, in which
+geometrically opposite facts--namely, two lines (or areas) which are
+opposite IN SPACE give ALWAYS a positive product--ever come into
+anybody's head till I was led to it in October, 1843, by trying to
+extend my old theory of algebraic couples, and of algebra as the
+science of pure time? As to my regarding geometrical addition of
+lines as equivalent to composition of motions (and as performed by
+the same rules), that is indeed essential in my theory but not
+peculiar to it; on the contrary, I am only one of many who have been
+led to this view of addition."
+
+Pilgrims in future ages will doubtless visit the spot commemorated by
+the invention of Quaternions. Perhaps as they look at that by no
+means graceful structure Quaternion Bridge, they will regret that the
+hand of some Old Mortality had not been occasionally employed in
+cutting the memorable inscription afresh. It is now irrecoverably
+lost.
+
+It was ten years after the discovery that the great volume appeared
+under the title of "Lectures on Quaternions," Dublin, 1853. The
+reception of this work by the scientific world was such as might have
+been expected from the extraordinary reputation of its author, and
+the novelty and importance of the new calculus. His valued friend,
+Sir John Herschel, writes to him in that style of which he was a
+master:--
+
+"Now, most heartily let me congratulate you on getting out your
+book--on having found utterance, ore rotundo, for all that labouring
+and seething mass of thought which has been from time to time sending
+out sparks, and gleams, and smokes, and shaking the soil about you;
+but now breaks into a good honest eruption, with a lava stream and a
+shower of fertilizing ashes.
+
+"Metaphor and simile apart, there is work for a twelve-month to any
+man to read such a book, and for half a lifetime to digest it, and I
+am glad to see it brought to a conclusion."
+
+We may also record Hamilton's own opinion expressed to Humphrey
+Lloyd:--
+
+"In general, although in one sense I hope that I am actually growing
+modest about the quaternions, from my seeing so many peeps and vistas
+into future expansions of their principles, I still must assert that
+this discovery appears to me to be as important for the middle of the
+nineteenth century as the discovery of fluxions was for the close of
+the seventeenth."
+
+Bartholomew Lloyd died in 1837. He had been the Provost of Trinity
+College, and the President of the Royal Irish Academy. Three
+candidates were put forward by their respective friends for the
+vacant Presidency. One was Humphrey Lloyd, the son of the late
+Provost, and the two others were Hamilton and Archbishop Whately.
+Lloyd from the first urged strongly the claims of Hamilton, and
+deprecated the putting forward of his own name. Hamilton in like
+manner desired to withdraw in favour of Lloyd. The wish was strongly
+felt by many of the Fellows of the College that Lloyd should be
+elected, in consequence of his having a more intimate association
+with collegiate life than Hamilton; while his scientific eminence was
+world-wide. The election ultimately gave Hamilton a considerable
+majority over Lloyd, behind whom the Archbishop followed at a
+considerable distance. All concluded happily, for both Lloyd and the
+Archbishop expressed, and no doubt felt, the pre-eminent claims of
+Hamilton, and both of them cordially accepted the office of a
+Vice-President, to which, according to the constitution of the
+Academy, it is the privilege of the incoming President to nominate.
+
+In another chapter I have mentioned as a memorable episode in
+astronomical history, that Sir J. Herschel went for a prolonged
+sojourn to the Cape of Good Hope, for the purpose of submitting the
+southern skies to the same scrutiny with the great telescope that his
+father had given to the northern skies. The occasion of Herschel's
+return after the brilliant success of his enterprise, was celebrated
+by a banquet. On June 15th, 1838, Hamilton was assigned the high
+honour of proposing the health of Herschel. This banquet is
+otherwise memorable in Hamilton's career as being one of the two
+occasions in which he was in the company of his intimate friend De
+Morgan.
+
+In the year 1838 a scheme was adopted by the Royal Irish Academy for
+the award of medals to the authors of papers which appeared to
+possess exceptionally high merit. At the institution of the medal
+two papers were named in competition for the prize. One was
+Hamilton's "Memoir on Algebra, as the Science of Pure Time." The
+other was Macullagh's paper on the "Laws of Crystalline Reflection
+and Refraction." Hamilton expresses his gratification that, mainly
+in consequence of his own exertions, he succeeded in having the medal
+awarded to Macullagh rather than to himself. Indeed, it would almost
+appear as if Hamilton had procured a letter from Sir J. Herschel,
+which indicated the importance of Macullagh's memoir in such a way as
+to decide the issue. It then became Hamilton's duty to award the
+medal from the chair, and to deliver an address in which he expressed
+his own sense of the excellence of Macullagh's scientific work. It
+is the more necessary to allude to these points, because in the whole
+of his scientific career it would seem that Macullagh was the only
+man with whom Hamilton had ever even an approach to a dispute about
+priority. The incident referred to took place in connection with the
+discovery of conical refraction, the fame of which Macullagh made a
+preposterous attempt to wrest from Hamilton. This is evidently
+alluded to in Hamilton's letter to the Marquis of Northampton, dated
+June 28th, 1838, in which we read:--
+
+"And though some former circumstances prevented me from applying to
+the person thus distinguished the sacred name of FRIEND, I had the
+pleasure of doing justice...to his high intellectual merits... I
+believe he was not only gratified but touched, and may, perhaps,
+regard me in future with feelings more like those which I long to
+entertain towards him."
+
+Hamilton was in the habit, from time to time, of commencing the
+keeping of a journal, but it does not appear to have been
+systematically conducted. Whatever difficulties the biographer may
+have experienced from its imperfections and irregularities, seem to
+be amply compensated for by the practice which Hamilton had of
+preserving copies of his letters, and even of comparatively
+insignificant memoranda. In fact, the minuteness with which
+apparently trivial matters were often noted down appears almost
+whimsical. He frequently made a memorandum of the name of the person
+who carried a letter to the post, and of the hour in which it was
+despatched. On the other hand, the letters which he received were
+also carefully preserved in a mighty mass of manuscripts, with which
+his study was encumbered, and with which many other parts of the
+house were not unfrequently invaded. If a letter was laid aside for
+a few hours, it would become lost to view amid the seething mass of
+papers, though occasionally, to use his own expression, it might be
+seen "eddying" to the surface in some later disturbance.
+
+The great volume of "Lectures on Quaternions" had been issued, and
+the author had received the honours which the completion of such a
+task would rightfully bring him. The publication of an immortal work
+does not, however, necessarily provide the means for paying the
+printer's bill. The printing of so robust a volume was necessarily
+costly; and even if all the copies could be sold, which at the time
+did not seem very likely, they would hardly have met the inevitable
+expenses. The provision of the necessary funds was, therefore, a
+matter for consideration. The Board of Trinity College had already
+contributed 200 pounds to the printing, but yet another hundred was
+required. Even the discoverer of Quaternions found this a source of
+much anxiety. However, the board, urged by the representation of
+Humphrey Lloyd, now one of its members, and, as we have already seen,
+one of Hamilton's staunchest friends, relieved him of all liability.
+We may here note that, notwithstanding the pension which Hamilton
+enjoyed in addition to the salary of his chair, he seems always to
+have been in some what straitened circumstances, or, to use his own
+words in one of his letters to De Morgan, "Though not an embarrassed
+man, I am anything rather than a rich one." It appears that,
+notwithstanding the world-wide fame of Hamilton's discoveries, the
+only profit in a pecuniary sense that he ever obtained from any of
+his works was by the sale of what he called his Icosian Game. Some
+enterprising publisher, on the urgent representations of one of
+Hamilton's friends in London, bought the copyright of the Icosian
+Game for 25 pounds. Even this little speculation proved unfortunate
+for the purchaser, as the public could not be induced to take the
+necessary interest in the matter.
+
+After the completion of his great book, Hamilton appeared for awhile
+to permit himself a greater indulgence than usual in literary
+relaxations. He had copious correspondence with his intimate friend,
+Aubrey de Vere, and there were multitudes of letters from those
+troops of friends whom it was Hamilton's privilege to possess. He
+had been greatly affected by the death of his beloved sister Eliza, a
+poetess of much taste and feeling. She left to him her many papers
+to preserve or to destroy, but he said it was only after the
+expiration of four years of mourning that he took courage to open her
+pet box of letters.
+
+The religious side of Hamilton's character is frequently illustrated
+in these letters; especially is this brought out in the
+correspondence with De Vere, who had seceded to the Church of Rome.
+Hamilton writes, August 4, 1855:--
+
+"If, then, it be painfully evident to both, that under such
+circumstances there CANNOT (whatever we may both DESIRE) be NOW in
+the nature of things, or of minds, the same degree of INTIMACY
+between us as of old; since we could no longer TALK with the same
+degree of unreserve on every subject which happened to present
+itself, but MUST, from the simplest instincts of courtesy, be each on
+his guard not to say what might be offensive, or, at least, painful
+to the other; yet WE were ONCE so intimate, and retain still, and, as
+I trust, shall always retain, so much of regard and esteem and
+appreciation for each other, made tender by so many associations of
+my early youth and your boyhood, which can never be forgotten by
+either of us, that (as times go) TWO OR THREE VERY RESPECTABLE
+FRIENDSHIPS might easily be carved out from the fragments of our
+former and ever-to-be-remembered INTIMACY. It would be no
+exaggeration to quote the words: 'Heu! quanto minus est cum reliquis
+versari, quam tui meminisse!'"
+
+In 1858 a correspondence on the subject of Quaternions commenced
+between Professor Tait and Sir William Hamilton. It was particularly
+gratifying to the discoverer that so competent a mathematician as
+Professor Tait should have made himself acquainted with the new
+calculus. It is, of course, well known that Professor Tait
+subsequently brought out a most valuable elementary treatise on
+Quaternions, to which those who are anxious to become acquainted with
+the subject will often turn in preference to the tremendous work of
+Hamilton.
+
+In the year 1861 gratifying information came to hand of the progress
+which the study of Quaternions was making abroad. Especially did the
+subject attract the attention of that accomplished mathematician,
+Moebius, who had already in his "Barycentrische Calculus" been led to
+conceptions which bore more affinity to Quaternions than could be
+found in the writings of any other mathematician. Such notices of
+his work were always pleasing to Hamilton, and they served, perhaps,
+as incentives to that still closer and more engrossing labour by
+which he became more and more absorbed. During the last few years of
+his life he was observed to be even more of a recluse than he had
+hitherto been. His powers of long and continuous study seemed to
+grow with advancing years, and his intervals of relaxation, such as
+they were, became more brief and more infrequent.
+
+It was not unusual for him to work for twelve hours at a stretch.
+The dawn would frequently surprise him as he looked up to snuff his
+candles after a night of fascinating labour at original research.
+Regularity in habits was impossible to a student who had prolonged
+fits of what he called his mathematical trances. Hours for rest and
+hours for meals could only be snatched in the occasional the lucid
+intervals between one attack of Quaternions and the next. When
+hungry, he would go to see whether anything could be found on the
+sideboard; when thirsty, he would visit the locker, and the one
+blemish in the man's personal character is that these latter visits
+were sometimes paid too often.
+
+As an example of one of Hamilton's rare diversions from the all-
+absorbing pursuit of Quaternions, we find that he was seized with
+curiosity to calculate back to the date of the Hegira, which he found
+on the 15th July, 622. He speaks of the satisfaction with which he
+ascertained subsequently that Herschel had assigned precisely the
+same date. Metaphysics remained also, as it had ever been, a
+favourite subject of Hamilton's readings and meditations and of
+correspondence with his friends. He wrote a very long letter to Dr.
+Ingleby on the subject of his "Introduction to Metaphysics." In it
+Hamilton alludes, as he has done also in other places, to a
+peculiarity of his own vision. It was habitual to him, by some
+defect in the correlation of his eyes, to see always a distinct image
+with each; in fact, he speaks of the remarkable effect which the use
+of a good stereoscope had on his sensations of vision. It was then,
+for the first time, that he realised how the two images which he had
+always seen hitherto would, under normal circumstances, be blended
+into one. He cites this fact as bearing on the phenomena of
+binocular vision, and he draws from it the inference that the
+necessity of binocular vision for the correct appreciation of
+distance is unfounded. "I am quite sure," he says, "that I SEE
+DISTANCE with EACH EYE SEPARATELY."
+
+The commencement of 1865, the last year of his life saw Hamilton as
+diligent as ever, and corresponding with Salmon and Cayley. On April
+26th he writes to a friend to say, that his health has not been good
+for years past, and that so much work has injured his constitution;
+and he adds, that it is not conducive to good spirits to find that he
+is accumulating another heavy bill with the printer for the
+publication of the "Elements." This was, indeed, up to the day of
+his death, a cause for serious anxiety. It may, however, be
+mentioned that the whole cost, which amounted to nearly 500 pounds,
+was, like that of the previous volume, ultimately borne by the
+College. Contrary to anticipation, the enterprise, even in a
+pecuniary sense, cannot have been a very unprofitable one. The whole
+edition has long been out of print, and as much as 5 pounds has since
+been paid for a single copy.
+
+It was on the 9th of May, 1865, that Hamilton was in Dublin for the
+last time. A few days later he had a violent attack of gout, and on
+the 4th of June he became alarmingly ill, and on the next day had an
+attack of epileptic convulsions. However, he slightly rallied, so
+that before the end of the month he was again at work at the
+"Elements." A gratifying incident brightened some of the last days
+of his life. The National Academy of Science in America had then
+been just formed. A list of foreign Associates had to be chosen from
+the whole world, and a discussion took place as to what name should
+be placed first on the list. Hamilton was informed by private
+communication that this great distinction was awarded to him by a
+majority of two-thirds.
+
+In August he was still at work on the table of contents of the
+"Elements," and one of his very latest efforts was his letter to Mr.
+Gould, in America, communicating his acknowledgements of the honour
+which had been just conferred upon him by the National Academy. On
+the 2nd of September Mr. Graves went to the observatory, in response
+to a summons, and the great mathematician at once admitted to his
+friend that he felt the end was approaching. He mentioned that he
+had found in the 145th Psalm a wonderfully suitable expression of his
+thoughts and feelings, and he wished to testify his faith and
+thankfulness as a Christian by partaking of the Lord's Supper. He
+died at half-past two on the afternoon of the 2nd of September, 1865,
+aged sixty years and one month. He was buried in Mount Jerome
+Cemetery on the 7th of September.
+
+Many were the letters and other more public manifestations of the
+feelings awakened by Hamilton's death. Sir John Herschel wrote to
+the widow:--
+
+"Permit me only to add that among the many scientific friends whom
+time has deprived me of, there has been none whom I more deeply
+lament, not only for his splendid talents, but for the excellence of
+his disposition and the perfect simplicity of his manners--so great,
+and yet devoid of pretensions."
+
+De Morgan, his old mathematical crony, as Hamilton affectionately
+styled him, also wrote to Lady Hamilton:--
+
+"I have called him one of my dearest friends, and most truly; for I
+know not how much longer than twenty-five years we have been in
+intimate correspondence, of most friendly agreement or disagreement,
+of most cordial interest in each other. And yet we did not know each
+other's faces. I met him about 1830 at Babbage's breakfast table,
+and there for the only time in our lives we conversed. I saw him, a
+long way off, at the dinner given to Herschel (about 1838) on his
+return from the Cape and there we were not near enough, nor on that
+crowded day could we get near enough, to exchange a word. And this
+is all I ever saw, and, so it has pleased God, all I shall see in
+this world of a man whose friendly communications were among my
+greatest social enjoyments, and greatest intellectual treats."
+
+There is a very interesting memoir of Hamilton written by De Morgan,
+in the "Gentleman's Magazine" for 1866, in which he produces an
+excellent sketch of his friend, illustrated by personal reminiscences
+and anecdotes. He alludes, among other things, to the picturesque
+confusion of the papers in his study. There was some sort of order
+in the mass, discernible however, by Hamilton alone, and any invasion
+of the domestics, with a view to tidying up, would throw the
+mathematician as we are informed, into "a good honest thundering
+passion."
+
+Hardly any two men, who were both powerful mathematicians, could have
+been more dissimilar in every other respect than were Hamilton and De
+Morgan. The highly poetical temperament of Hamilton was remarkably
+contrasted with the practical realism of De Morgan. Hamilton sends
+sonnets to his friend, who replies by giving the poet advice about
+making his will. The metaphysical subtleties, with which Hamilton
+often filled his sheets, did not seem to have the same attraction for
+De Morgan that he found in battles about the quantification of the
+Predicate. De Morgan was exquisitely witty, and though his jokes
+were always appreciated by his correspondent, yet Hamilton seldom
+ventured on anything of the same kind in reply; indeed his rare
+attempts at humour only produced results of the most ponderous
+description. But never were two scientific correspondents more
+perfectly in sympathy with each other. Hamilton's work on
+Quaternions, his labours in Dynamics, his literary tastes, his
+metaphysics, and his poetry, were all heartily welcomed by his
+friend, whose letters in reply invariably evince the kindliest
+interest in all Hamilton's concerns. In a similar way De Morgan's
+letters to Hamilton always met with a heartfelt response.
+
+Alike for the memory of Hamilton, for the credit of his University,
+and for the benefit of science, let us hope that a collected edition
+of his works will ere long appear--a collection which shall show
+those early achievements in splendid optical theory, those
+achievements of his more mature powers which made him the Lagrange of
+his country, and finally those creations of the Quaternion Calculus
+by which new capabilities have been bestowed on the human intellect.
+
+
+
+
+LE VERRIER.
+
+
+The name of Le Verrier is one that goes down to fame on account of
+very different discoveries from those which have given renown to
+several of the other astronomers whom we have mentioned. We are
+sometimes apt to identify the idea of an astronomer with that of a
+man who looks through a telescope at the stars; but the word
+astronomer has really much wider significance. No man who ever lived
+has been more entitled to be designated an astronomer than Le
+Verrier, and yet it is certain that he never made a telescopic
+discovery of any kind. Indeed, so far as his scientific achievements
+have been concerned, he might never have looked through a telescope
+at all.
+
+For the full interpretation of the movements of the heavenly bodies,
+mathematical knowledge of the most advanced character is demanded.
+The mathematician at the outset calls upon the astronomer who uses
+the instruments in the observatory, to ascertain for him at various
+times the exact positions occupied by the sun, the moon, and the
+planets. These observations, obtained with the greatest care, and
+purified as far as possible from the errors by which they may be
+affected form, as it were, the raw material on which the
+mathematician exercises his skill. It is for him to elicit from the
+observed places the true laws which govern the movements of the
+heavenly bodies. Here is indeed a task in which the highest powers
+of the human intellect may be worthily employed.
+
+Among those who have laboured with the greatest success in the
+interpretation of the observations made with instruments of
+precision, Le Verrier holds a highly honoured place. To him it has
+been given to provide a superb illustration of the success with which
+the mind of man can penetrate the deep things of Nature.
+
+The illustrious Frenchman, Urban Jean Joseph Le Verrier, was born on
+the 11th March, 1811, at St. Lo, in the department of Manche. He
+received his education in that famous school for education in the
+higher branches of science, the Ecole Polytechnique, and acquired
+there considerable fame as a mathematician. On leaving the school Le
+Verrier at first purposed to devote himself to the public service, in
+the department of civil engineering; and it is worthy of note that
+his earliest scientific work was not in those mathematical researches
+in which he was ultimately to become so famous. His duties in the
+engineering department involved practical chemical research in the
+laboratory. In this he seems to have become very expert, and
+probably fame as a chemist would have been thus attained, had not
+destiny led him into another direction. As it was, he did engage in
+some original chemical research. His first contributions to science
+were the fruits of his laboratory work; one of his papers was on the
+combination of phosphorus and hydrogen, and another on the
+combination of phosphorus and oxygen.
+
+His mathematical labours at the Ecole Polytechnique had, however,
+revealed to Le Verrier that he was endowed with the powers requisite
+for dealing with the subtlest instruments of mathematical analysis.
+When he was twenty-eight years old, his first great astronomical
+investigation was brought forth. It will be necessary to enter into
+some explanation as to the nature of this, inasmuch as it was the
+commencement of the life-work which he was to pursue.
+
+If but a single planet revolved around the sun, then the orbit of
+that planet would be an ellipse, and the shape and size, as well as
+the position of the ellipse, would never alter. One revolution after
+another would be traced out, exactly in the same manner, in
+compliance with the force continuously exerted by the sun. Suppose,
+however, that a second planet be introduced into the system. The sun
+will exert its attraction on this second planet also, and it will
+likewise describe an orbit round the central globe. We can, however,
+no longer assert that the orbit in which either of the planets moves
+remains exactly an ellipse. We may, indeed, assume that the mass of
+the sun is enormously greater than that of either of the planets. In
+this case the attraction of the sun is a force of such preponderating
+magnitude, that the actual path of each planet remains nearly the
+same as if the other planet were absent. But it is impossible for
+the orbit of each planet not to be affected in some degree by the
+attraction of the other planet. The general law of nature asserts
+that every body in space attracts every other body. So long as there
+is only a single planet, it is the single attraction between the sun
+and that planet which is the sole controlling principle of the
+movement, and in consequence of it the ellipse is described. But
+when a second planet is introduced, each of the two bodies is not
+only subject to the attraction of the sun, but each one of the
+planets attracts the other. It is true that this mutual attraction
+is but small, but, nevertheless, it produces some effect. It
+"disturbs," as the astronomer says, the elliptic orbit which would
+otherwise have been pursued. Hence it follows that in the actual
+planetary system where there are several planets disturbing each
+other, it is not true to say that the orbits are absolutely elliptic.
+
+At the same time in any single revolution a planet may for most
+practical purposes be said to be actually moving in an ellipse. As,
+however, time goes on, the ellipse gradually varies. It alters its
+shape, it alters its plane, and it alters its position in that
+plane. If, therefore, we want to study the movements of the planets,
+when great intervals of time are concerned, it is necessary to have
+the means of learning the nature of the movement of the orbit in
+consequence of the disturbances it has experienced.
+
+We may illustrate the matter by supposing the planet to be running
+like a railway engine on a track which has been laid in a long
+elliptic path. We may suppose that while the planet is coursing
+along, the shape of the track is gradually altering. But this
+alteration may be so slow, that it does not appreciably affect the
+movement of the engine in a single revolution. We can also suppose
+that the plane in which the rails have been laid has a slow
+oscillation in level, and that the whole orbit is with more or less
+uniformity moved slowly about in the plane.
+
+In short periods of time the changes in the shapes and positions of
+the planetary orbits, in consequence of their mutual attractions, are
+of no great consequence. When, however, we bring thousands of years
+into consideration, then the displacements of the planetary orbits
+attain considerable dimensions, and have, in fact, produced a
+profound effect on the system.
+
+It is of the utmost interest to investigate the extent to which one
+planet can affect another in virtue of their mutual attractions. Such
+investigations demand the exercise of the highest mathematical
+gifts. But not alone is intellectual ability necessary for success
+in such inquiries. It must be united with a patient capacity for
+calculations of an arduous type, protracted, as they frequently have
+to be, through many years of labour. Le Verrier soon found in these
+profound inquiries adequate scope for the exercise of his peculiar
+gifts. His first important astronomical publication contained an
+investigation of the changes which the orbits of several of the
+planets, including the earth, have undergone in times past, and which
+they will undergo in times to come.
+
+As an illustration of these researches, we may take the case of the
+planet in which we are, of course, especially interested, namely, the
+earth, and we can investigate the changes which, in the lapse of
+time, the earth's orbit has undergone, in consequence of the
+disturbance to which it has been subjected by the other planets. In
+a century, or even in a thousand years, there is but little
+recognisable difference in the shape of the track pursued by the
+earth. Vast periods of time are required for the development of the
+large consequences of planetary perturbation. Le Verrier has,
+however, given us the particulars of what the earth's journey through
+space has been at intervals of 20,000 years back from the present
+date. His furthest calculation throws our glance back to the state
+of the earth's track 100,000 years ago, while, with a bound forward,
+he shows us what the earth's orbit is to be in the future, at
+successive intervals of 20,000 years, till a date is reached which is
+100,000 years in advance of A.D. 1800.
+
+The talent which these researches displayed brought Le Verrier into
+notice. At that time the Paris Observatory was presided over by
+Arago, a SAVANT who occupies a distinguished position in French
+scientific annals. Arago at once perceived that Le Verrier was just
+the man who possessed the qualifications suitable for undertaking a
+problem of great importance and difficulty that had begun to force
+itself on the attention of astronomers. What this great problem was,
+and how astonishing was the solution it received, must now be
+considered.
+
+Ever since Herschel brought himself into fame by his superb discovery
+of the great planet Uranus, the movements of this new addition to the
+solar system were scrutinized with care and attention. The position
+of Uranus was thus accurately determined from time to time. At
+length, when sufficient observations of this remote planet had been
+brought together, the route which the newly-discovered body pursued
+through the heavens was ascertained by those calculations with which
+astronomers are familiar. It happens, however, that Uranus possesses
+a superficial resemblance to a star. Indeed the resemblance is so
+often deceptive that long ere its detection as a planet by Herschel,
+it had been observed time after time by skilful astronomers, who
+little thought that the star-like point at which they looked was
+anything but a star. From these early observations it was possible
+to determine the track of Uranus, and it was found that the great
+planet takes a period of no less than eighty-four years to accomplish
+a circuit. Calculations were made of the shape of the orbit in which
+it revolved before its discovery by Herschel, and these were compared
+with the orbit which observations showed the same body to pursue in
+those later years when its planetary character was known. It could
+not, of course, be expected that the orbit should remain unaltered;
+the fact that the great planets Jupiter and Saturn revolve in the
+vicinity of Uranus must necessarily imply that the orbit of the
+latter undergoes considerable changes. When, however, due allowance
+has been made for whatever influence the attraction of Jupiter and
+Saturn, and we may add of the earth and all the other Planets, could
+possibly produce, the movements of Uranus were still inexplicable. It
+was perfectly obvious that there must be some other influence at work
+besides that which could be attributed to the planets already known.
+
+Astronomers could only recognise one solution of such a difficulty.
+It was impossible to doubt that there must be some other planet in
+addition to the bodies at that time known, and that the perturbations
+of Uranus hitherto unaccounted for, were due to the disturbances
+caused by the action of this unknown planet. Arago urged Le Verrier
+to undertake the great problem of searching for this body, whose
+theoretical existence seemed demonstrated. But the conditions of the
+search were such that it must needs be conducted on principles wholly
+different from any search which had ever before been undertaken for a
+celestial object. For this was not a case in which mere survey with
+a telescope might be expected to lead to the discovery.
+
+Certain facts might be immediately presumed with reference to the
+unknown object. There could be no doubt that the unknown disturber
+of Uranus must be a large body with a mass far exceeding that of the
+earth. It was certain, however, that it must be so distant that it
+could only appear from our point of view as a very small object.
+Uranus itself lay beyond the range, or almost beyond the range, of
+unassisted vision. It could be shown that the planet by which the
+disturbance was produced revolved in an orbit which must lie outside
+that of Uranus. It seemed thus certain that the planet could not be
+a body visible to the unaided eye. Indeed, had it been at all
+conspicuous its planetary character would doubtless have been
+detected ages ago. The unknown body must therefore be a planet which
+would have to be sought for by telescopic aid.
+
+There is, of course, a profound physical difference between a planet
+and a star, for the star is a luminous sun, and the planet is merely
+a dark body, rendered visible by the sunlight which falls upon it.
+Notwithstanding that a star is a sun thousands of times larger than
+the planet and millions of times more remote, yet it is a singular
+fact that telescopic planets possess an illusory resemblance to the
+stars among which their course happens to lie. So far as actual
+appearance goes, there is indeed only one criterion by which a planet
+of this kind can be discriminated from a star. If the planet be
+large enough the telescope will show that it possesses a disc, and
+has a visible and measurable circular outline. This feature a star
+does not exhibit. The stars are indeed so remote that no matter how
+large they may be intrinsically, they only exhibit radiant points of
+light, which the utmost powers of the telescope fail to magnify into
+objects with an appreciable diameter. The older and well-known
+planets, such as Jupiter and Mars, possess discs, which, though not
+visible to the unaided eye, were clearly enough discernible with the
+slightest telescopic power. But a very remote planet like Uranus,
+though it possessed a disc large enough to be quickly appreciated by
+the consummate observing skill of Herschel, was nevertheless so
+stellar in its appearance, that it had been observed no fewer than
+seventeen times by experienced astronomers prior to Herschel. In
+each case the planetary nature of the object had been overlooked, and
+it had been taken for granted that it was a star. It presented no
+difference which was sufficient to arrest attention.
+
+As the unknown body by which Uranus was disturbed was certainly much
+more remote than Uranus, it seemed to be certain that though it might
+show a disc perceptible to very close inspection, yet that the disc
+must be so minute as not to be detected except with extreme care. In
+other words, it seemed probable that the body which was to be sought
+for could not readily be discriminated from a small star, to which
+class of object it bore a superficial resemblance, though, as a
+matter of fact, there was the profoundest difference between the two
+bodies.
+
+There are on the heavens many hundreds of thousands of stars, and the
+problem of identifying the planet, if indeed it should lie among
+these stars, seemed a very complex matter. Of course it is the
+abundant presence of the stars which causes the difficulty. If the
+stars could have been got rid of, a sweep over the heavens would at
+once disclose all the planets which are bright enough to be visible
+with the telescopic power employed. It is the fortuitous resemblance
+of the planet to the stars which enables it to escape detection. To
+discriminate the planet among stars everywhere in the sky would be
+almost impossible. If, however, some method could be devised for
+localizing that precise region in which the planet's existence might
+be presumed, then the search could be undertaken with some prospect
+of success.
+
+To a certain extent the problem of localizing the region on the sky
+in which the planet might be expected admitted of an immediate
+limitation. It is known that all the planets, or perhaps I ought
+rather to say, all the great planets, confine their movements to a
+certain zone around the heavens. This zone extends some way on
+either side of that line called the ecliptic in which the earth
+pursues its journey around the sun. It was therefore to be inferred
+that the new planet need not be sought for outside this zone. It is
+obvious that this consideration at once reduces the area to be
+scrutinized to a small fraction of the entire heavens. But even
+within the zone thus defined there are many thousands of stars. It
+would seem a hopeless task to detect the new planet unless some
+further limitation to its position could be assigned.
+
+It was accordingly suggested to Le Verrier that he should endeavour
+to discover in what particular part of the strip of the celestial
+sphere which we have indicated the search for the unknown planet
+should be instituted. The materials available to the mathematician
+for the solution of this problem were to be derived solely from the
+discrepancies between the calculated places in which Uranus should be
+found, taking into account the known causes of disturbance, and the
+actual places in which observation had shown the planet to exist.
+Here was indeed an unprecedented problem, and one of extraordinary
+difficulty. Le Verrier, however, faced it, and, to the astonishment
+of the world, succeeded in carrying it through to a brilliant
+solution. We cannot here attempt to enter into any account of the
+mathematical investigations that were necessary. All that we can do
+is to give a general indication of the method which had to be
+adopted.
+
+Let us suppose that a planet is revolving outside Uranus, at a
+distance which is suggested by the several distances at which the
+other planets are dispersed around the sun. Let us assume that this
+outer planet has started on its course, in a prescribed path, and
+that it has a certain mass. It will, of course, disturb the motion
+of Uranus, and in consequence of that disturbance Uranus will follow
+a path the nature of which can be determined by calculation. It
+will, however, generally be found that the path so ascertained does
+not tally with the actual path which observations have indicated for
+Uranus. This demonstrates that the assumed circumstances of the
+unknown planet must be in some respects erroneous, and the astronomer
+commences afresh with an amended orbit. At last after many trials,
+Le Verrier ascertained that, by assuming a certain size, shape, and
+position for the unknown Planet's orbit, and a certain value for the
+mass of the hypothetical body, it would be possible to account for
+the observed disturbances of Uranus. Gradually it became clear to
+the perception of this consummate mathematician, not only that the
+difficulties in the movements of Uranus could be thus explained, but
+that no other explanation need be sought for. It accordingly
+appeared that a planet possessing the mass which he had assigned, and
+moving in the orbit which his calculations had indicated, must indeed
+exist, though no eye had ever beheld any such body. Here was,
+indeed, an astonishing result. The mathematician sitting at his
+desk, by studying the observations which had been supplied to him of
+one planet, is able to discover the existence of another planet, and
+even to assign the very position which it must occupy, ere ever the
+telescope is invoked for its discovery.
+
+Thus it was that the calculations of Le Verrier narrowed greatly the
+area to be scrutinised in the telescopic search which was presently
+to be instituted. It was already known, as we have just pointed out,
+that the planet must lie somewhere on the ecliptic. The French
+mathematician had now further indicated the spot on the ecliptic at
+which, according to his calculations, the planet must actually be
+found. And now for an episode in this history which will be
+celebrated so long as science shall endure. It is nothing less than
+the telescopic confirmation of the existence of this new planet,
+which had previously been indicated only by mathematical
+calculation. Le Verrier had not himself the instruments necessary
+for studying the heavens, nor did he possess the skill of the
+practical astronomer. He, therefore, wrote to Dr. Galle, of the
+Observatory at Berlin, requesting him to undertake a telescopic
+search for the new planet in the vicinity which the mathematical
+calculation had indicated for the whereabouts of the planet at that
+particular time. Le Verrier added that he thought the planet ought
+to admit of being recognised by the possession of a disc sufficiently
+definite to mark the distinction between it and the surrounding
+stars.
+
+It was the 23rd September, 1846, when the request from Le Verrier
+reached the Berlin Observatory, and the night was clear, so that the
+memorable search was made on the same evening. The investigation was
+facilitated by the circumstance that a diligent observer had recently
+compiled elaborate star maps for certain tracts of the heavens lying
+in a sufficiently wide zone on both sides of the equator. These maps
+were as yet only partially complete, but it happened that Hora. XXI.,
+which included the very spot which Le Verrier's results referred to,
+had been just issued. Dr. Galle had thus before his, eyes a chart of
+all the stars which were visible in that part of the heavens at the
+time when the map was made. The advantage of such an assistance to
+the search could hardly be over-estimated. It at once gave the
+astronomer another method of recognising the planet besides that
+afforded by its possible possession of a disc. For as the planet was
+a moving body, it would not have been in the same place relatively to
+the stars at the time when the map was constructed, as it occupied
+some years later when the search was being made. If the body should
+be situated in the spot which Le Verrier's calculations indicated in
+the autumn of 1846, then it might be regarded as certain that it
+would not be found in that same place on a map drawn some years
+previously.
+
+The search to be undertaken consisted in a comparison made point by
+point between the bodies shown on the map, and those stars in the sky
+which Dr. Galle's telescope revealed. In the course of this
+comparison it presently appeared that a star-like object of the
+eighth magnitude, which was quite a conspicuous body in the
+telescope, was not represented in the map. This at once attracted
+the earnest attention of the astronomer, and raised his hopes that
+here was indeed the planet. Nor were these hopes destined to be
+disappointed. It could not be supposed that a star of the eighth
+magnitude would have been overlooked in the preparation of a chart
+whereon stars of many lower degrees of brightness were set down. One
+other supposition was of course conceivable. It might have been that
+this suspicious object belonged to the class of variables, for there
+are many such stars whose brightness fluctuates, and if it had
+happened that the map was constructed at a time when the star in
+question had but feeble brilliance, it might have escaped notice. It
+is also well known that sometimes new stars suddenly develop, so that
+the possibility that what Dr. Galle saw should have been a variable
+star or should have been a totally new star had to be provided
+against.
+
+Fortunately a test was immediately available to decide whether the
+new object was indeed the long sought for planet, or whether it was a
+star of one of the two classes to which I have just referred. A star
+remains fixed, but a planet is in motion. No doubt when a planet
+lies at the distance at which this new planet was believed to be
+situated, its apparent motion would be so slow that it would not be
+easy to detect any change in the course of a single night's
+observation. Dr. Galle, however, addressed himself with much skill
+to the examination of the place of the new body. Even in the course
+of the night he thought he detected slight movements, and he awaited
+with much anxiety the renewal of his observations on the subsequent
+evenings. His suspicions as to the movement of the body were then
+amply confirmed, and the planetary nature of the new object was thus
+unmistakably detected.
+
+Great indeed was the admiration of the scientific world at this
+superb triumph. Here was a mighty planet whose very existence was
+revealed by the indications afforded by refined mathematical
+calculation. At once the name of Le Verrier, already known to those
+conversant with the more profound branches of astronomy, became
+everywhere celebrated. It soon, however, appeared, that the fame
+belonging to this great achievement had to be shared between Le
+Verrier and another astronomer, J. C. Adams, of Cambridge. In our
+chapter on this great English mathematician we shall describe the
+manner in which he was independently led to the same discovery.
+
+Directly the planetary nature of the newly-discovered body had been
+established, the great observatories naturally included this
+additional member of the solar system in their working lists, so that
+day after day its place was carefully determined. When sufficient
+time had elapsed the shape and position of the orbit of the body
+became known. Of course, it need hardly be said that observations
+applied to the planet itself must necessarily provide a far more
+accurate method of determining the path which it follows, than would
+be possible to Le Verrier, when all he had to base his calculations
+upon was the influence of the planet reflected, so to speak, from
+Uranus. It may be noted that the true elements of the planet, when
+revealed by direct observation, showed that there was a considerable
+discrepancy between the track of the planet which Le Verrier had
+announced, and that which the planet was actually found to pursue.
+
+The name of the newly-discovered body had next to be considered. As
+the older members of the system were already known by the same names
+as great heathen divinities, it was obvious that some similar source
+should be invoked for a suggestion as to a name for the most recent
+planet. The fact that this body was so remote in the depths of
+space, not unnaturally suggested the name "Neptune." Such is
+accordingly the accepted designation of that mighty globe which
+revolves in the track that at present seems to trace out the
+frontiers of our system.
+
+Le Verrier attained so much fame by this discovery, that when, in
+1854, Arago's place had to be filled at the head of the great Paris
+Observatory, it was universally felt that the discoverer of Neptune
+was the suitable man to assume the office which corresponds in France
+to that of the Astronomer Royal in England. It was true that the
+work of the astronomical mathematician had hitherto been of an
+abstract character. His discoveries had been made at his desk and
+not in the observatory, and he had no practical acquaintance with the
+use of astronomical instruments. However, he threw himself into the
+technical duties of the observatory with vigour and determination. He
+endeavoured to inspire the officers of the establishment with
+enthusiasm for that systematic work which is so necessary for the
+accomplishment of useful astronomical research. It must, however, be
+admitted that Le Verrier was not gifted with those natural qualities
+which would make him adapted for the successful administration of
+such an establishment. Unfortunately disputes arose between the
+Director and his staff. At last the difficulties of the situation
+became so great that the only possible solution was to supersede Le
+Verrier, and he was accordingly obliged to retire. He was succeeded
+in his high office by another eminent mathematician, M. Delaunay,
+only less distinguished than Le Verrier himself.
+
+Relieved of his official duties, Le Verrier returned to the
+mathematics he loved. In his non-official capacity he continued to
+work with the greatest ardour at his researches on the movements of
+the planets. After the death of M. Delaunay, who was accidentally
+drowned in 1873, Le Verrier was restored to the directorship of the
+observatory, and he continued to hold the office until his death.
+
+The nature of the researches to which the life of Le Verrier was
+subsequently devoted are not such as admit of description in a
+general sketch like this, where the language, and still less the
+symbols, of mathematics could not be suitably introduced. It may,
+however, be said in general that he was particularly engaged with the
+study of the effects produced on the movements of the planets by
+their mutual attractions. The importance of this work to astronomy
+consists, to a considerable extent, in the fact that by such
+calculations we are enabled to prepare tables by which the places of
+the different heavenly bodies can be predicted for our almanacs. To
+this task Le Verrier devoted himself, and the amount of work he has
+accomplished would perhaps have been deemed impossible had it not
+been actually done.
+
+The superb success which had attended Le Verrier's efforts to explain
+the cause of the perturbations of Uranus, naturally led this
+wonderful computer to look for a similar explanation of certain other
+irregularities in planetary movements. To a large extent he
+succeeded in showing how the movements of each of the great planets
+could be satisfactorily accounted for by the influence of the
+attractions of the other bodies of the same class. One circumstance
+in connection with these investigations is sufficiently noteworthy to
+require a few words here. Just as at the opening of his career, Le
+Verrier had discovered that Uranus, the outermost planet of the then
+known system, exhibited the influence of an unknown external body, so
+now it appeared to him that Mercury, the innermost body of our
+system, was also subjected to some disturbances, which could not be
+satisfactorily accounted for as consequences of any known agents of
+attraction. The ellipse in which Mercury revolved was animated by a
+slow movement, which caused it to revolve in its plane. It appeared
+to Le Verrier that this displacement was incapable of explanation by
+the action of any of the known bodies of our system. He was,
+therefore, induced to try whether he could not determine from the
+disturbances of Mercury the existence of some other planet, at
+present unknown, which revolved inside the orbit of the known
+planet. Theory seemed to indicate that the observed alteration in
+the track of the planet could be thus accounted for. He naturally
+desired to obtain telescopic confirmation which might verify the
+existence of such a body in the same way as Dr. Galle verified the
+existence of Neptune. If there were, indeed, an intramercurial
+planet, then it must occasionally cross between the earth and the
+sun, and might now and then be expected to be witnessed in the actual
+act of transit. So confident did Le Verrier feel in the existence of
+such a body that an observation of a dark object in transit, by
+Lescarbault on 26th March, 1859, was believed by the mathematician to
+be the object which his theory indicated. Le Verrier also thought it
+likely that another transit of the same object would be seen in
+March, 1877. Nothing of the kind was, however, witnessed,
+notwithstanding that an assiduous watch was kept, and the explanation
+of the change in Mercury's orbit must, therefore, be regarded as
+still to be sought for.
+
+Le Verrier naturally received every honour that could be bestowed
+upon a man of science. The latter part of his life was passed during
+the most troubled period of modern French history. He was a
+supporter of the Imperial Dynasty, and during the Commune he
+experienced much anxiety; indeed, at one time grave fears were
+entertained for his personal safety.
+
+Early in 1877 his health, which had been gradually failing for some
+years, began to give way. He appeared to rally somewhat in the
+summer, but in September he sank rapidly, and died on Sunday, the
+23rd of that month.
+
+His remains were borne to the cemetery on Mont Parnasse in a public
+funeral. Among his pallbearers were leading men of science, from
+other countries as well as France, and the memorial discourses
+pronounced at the grave expressed their admiration of his talents and
+of the greatness of the services he had rendered to science.
+
+
+
+
+ADAMS.
+
+
+The illustrious mathematician who, among Englishmen, at all events,
+was second only to Newton by his discoveries in theoretical
+astronomy, was born on June the 5th, 1819, at the farmhouse of
+Lidcot, seven miles from Launceston, in Cornwall. His early
+education was imparted under the guidance of the Rev. John Couch
+Grylls, a first cousin of his mother. He appears to have received an
+education of the ordinary school type in classics and mathematics,
+but his leisure hours were largely devoted to studying what
+astronomical books he could find in the library of the Mechanics'
+Institute at Devonport. He was twenty years old when he entered St.
+John's College, Cambridge. His career in the University was one of
+almost unparalleled distinction, and it is recorded that his
+answering at the Wranglership examination, where he came out at the
+head of the list in 1843, was so high that he received more than
+double the marks awarded to the Second Wrangler.
+
+Among the papers found after his death was the following memorandum,
+dated July the 3rd, 1841: "Formed a design at the beginning of this
+week of investigating, as soon as possible after taking my degree,
+the irregularities in the motion of Uranus, which are as yet
+unaccounted for, in order to find whether they may be attributed to
+the action of an undiscovered planet beyond it; and, if possible,
+thence to determine the elements of its orbit approximately, which
+would lead probably to its discovery."
+
+After he had taken his degree, and had thus obtained a little
+relaxation from the lines within which his studies had previously
+been necessarily confined, Adams devoted himself to the study of the
+perturbations of Uranus, in accordance with the resolve which we have
+just seen that he formed while he was still an undergraduate. As a
+first attempt he made the supposition that there might be a planet
+exterior to Uranus, at a distance which was double that of Uranus
+from the sun. Having completed his calculation as to the effect
+which such a hypothetical planet might exercise upon the movement of
+Uranus, he came to the conclusion that it would be quite possible to
+account completely for the unexplained difficulties by the action of
+an exterior planet, if only that planet were of adequate size and had
+its orbit properly placed. It was necessary, however, to follow up
+the problem more precisely, and accordingly an application was made
+through Professor Challis, the Director of the Cambridge Observatory,
+to the Astronomer Royal, with the object of obtaining from the
+observations made at Greenwich Observatory more accurate values for
+the disturbances suffered by Uranus. Basing his work on the more
+precise materials thus available, Adams undertook his calculations
+anew, and at last, with his completed results, he called at Greenwich
+Observatory on October the 21st, 1845. He there left for the
+Astronomer Royal a paper which contained the results at which he had
+arrived for the mass and the mean distance of the hypothetical planet
+as well as the other elements necessary for calculating its exact
+position.
+
+[PLATE: JOHN COUCH ADAMS.]
+
+As we have seen in the preceding chapter, Le Verrier had been also
+investigating the same problem. The place which Le Verrier assigned
+to the hypothetical disturbing planet for the beginning of the year
+1847, was within a degree of that to which Adams's computations
+pointed, and which he had communicated to the Astronomer Royal seven
+months before Le Verrier's work appeared. On July the 29th, 1846,
+Professor Challis commenced to search for the unknown object with the
+Northumberland telescope belonging to the Cambridge Observatory. He
+confined his attention to a limited region in the heavens, extending
+around that point to which Mr. Adams' calculations pointed. The
+relative places of all the stars, or rather star-like objects within
+this area, were to be carefully measured. When the same observations
+were repeated a week or two later, then the distances of the several
+pairs of stars from each other would be found unaltered, but any
+planet which happened to lie among the objects measured would
+disclose its existence by the alterations in distance due to its
+motion in the interval. This method of search, though no doubt it
+must ultimately have proved successful, was necessarily a very
+tedious one, but to Professor Challis, unfortunately, no other method
+was available. Thus it happened that, though Challis commenced his
+search at Cambridge two months earlier than Galle at Berlin, yet, as
+we have already explained, the possession of accurate star-maps by
+Dr. Galle enabled him to discover the planet on the very first night
+that he looked for it.
+
+The rival claims of Adams and Le Verrier to the discovery of Neptune,
+or rather, we should say, the claims put forward by their respective
+champions, for neither of the illustrious investigators themselves
+condescended to enter into the personal aspect of the question, need
+not be further discussed here. The main points of the controversy
+have been long since settled, and we cannot do better than quote the
+words of Sir John Herschel when he addressed the Royal Astronomical
+Society in 1848:--
+
+"As genius and destiny have joined the names of Le Verrier and Adams,
+I shall by no means put them asunder; nor will they ever be
+pronounced apart so long as language shall celebrate the triumphs of
+science in her sublimest walks. On the great discovery of Neptune,
+which may be said to have surpassed, by intelligible and legitimate
+means, the wildest pretensions of clairvoyance, it Would now be quite
+superfluous for me to dilate. That glorious event and the steps
+which led to it, and the various lights in which it has been placed,
+are already familiar to every one having the least tincture of
+science. I will only add that as there is not, nor henceforth ever
+can be, the slightest rivalry on the subject between these two
+illustrious men--as they have met as brothers, and as such will, I
+trust, ever regard each other--we have made, we could make, no
+distinction between then, on this occasion. May they both long adorn
+and augment our science, and add to their own fame already so high
+and pure, by fresh achievements."
+
+Adams was elected a Fellow of St. John's College, Cambridge, in 1843;
+but as he did not take holy orders, his Fellowship, in accordance
+with the rules then existing came to an end in 1852. In the
+following year he was, however, elected to a Fellowship at Pembroke
+College, which he retained until the end of his life. In 1858 he was
+appointed Professor of Mathematics in the University of St. Andrews,
+but his residence in the north was only a brief one, for in the same
+year he was recalled to Cambridge as Lowndean Professor of Astronomy
+and Geometry, in succession to Peacock. In 1861 Challis retired from
+the Directorship of the Cambridge Observatory, and Adams was
+appointed to succeed him.
+
+The discovery of Neptune was a brilliant inauguration of the
+astronomical career of Adams. He worked at, and wrote upon, the
+theory of the motions of Biela's comet; he made important corrections
+to the theory of Saturn; he investigated the mass of Uranus, a
+subject in which he was naturally interested from its importance in
+the theory of Neptune; he also improved the methods of computing the
+orbits of double stars. But all these must be regarded as his minor
+labours, for next to the discovery of Neptune the fame of Adams
+mainly rests on his researches upon certain movements of the moon,
+and upon the November meteors.
+
+The periodic time of the moon is the interval required for one
+circuit of its orbit. This interval is known with accuracy at the
+present day, and by means of the ancient eclipses the period of the
+moon's revolution two thousand years ago can be also ascertained. It
+had been discovered by Halley that the period which the moon requires
+to accomplish each of its revolutions around the earth has been
+steadily, though no doubt slowly, diminishing. The change thus
+produced is not appreciable when only small intervals of time are
+considered, but it becomes appreciable when we have to deal with
+intervals of thousands of years. The actual effect which is produced
+by the lunar acceleration, for so this phenomenon is called, may be
+thus estimated. If we suppose that the moon had, throughout the
+ages, revolved around the earth in precisely the same periodic time
+which it has at present, and if from this assumption we calculate
+back to find where the moon must have been about two thousand years
+ago, we obtain a position which the ancient eclipses show to be
+different from that in which the moon was actually situated. The
+interval between the position in which the moon would have been found
+two thousand years ago if there had been no acceleration, and the
+position in which the moon was actually placed, amounts to about a
+degree, that is to say, to an arc on the heavens which is twice the
+moon's apparent diameter.
+
+If no other bodies save the earth and the moon were present in the
+universe, it seems certain that the motion of the moon would never
+have exhibited this acceleration. In such a simple case as that
+which I have supposed the orbit of the moon would have remained for
+ever absolutely unchanged. It is, however, well known that the
+presence of the sun exerts a disturbing influence upon the movements
+of the moon. In each revolution our satellite is continually drawn
+aside by the action of the sun from the place which it would
+otherwise have occupied. These irregularities are known as the
+perturbations of the lunar orbit, they have long been studied, and
+the majority of them have been satisfactorily accounted for. It
+seems, however, to those who first investigated the question that the
+phenomenon of the lunar acceleration could not be explained as a
+consequence of solar perturbation, and, as no other agent competent
+to produce such effects was recognised by astronomers, the lunar
+acceleration presented an unsolved enigma.
+
+At the end of the last century the illustrious French mathematician
+Laplace undertook a new investigation of the famous problem, and was
+rewarded with a success which for a long time appeared to be quite
+complete. Let us suppose that the moon lies directly between the
+earth and the sun, then both earth and moon are pulled towards the
+sun by the solar attraction; as, however, the moon is the nearer of
+the two bodies to the attracting centre it is pulled the more
+energetically, and consequently there is an increase in the distance
+between the earth and the moon. Similarly when the moon happens to
+lie on the other side of the earth, so that the earth is interposed
+directly between the moon and the sun, the solar attraction exerted
+upon the earth is more powerful than the same influence upon the
+moon. Consequently in this case, also, the distance of the moon from
+the earth is increased by the solar disturbance. These instances
+will illustrate the general truth, that, as one of the consequences
+of the disturbing influence exerted by the sun upon the earth-moon
+system, there is an increase in the dimensions of the average orbit
+which the moon describes around the earth. As the time required by
+the moon to accomplish a journey round the earth depends upon its
+distance from the earth, it follows that among the influences of the
+sun upon the moon there must be an enlargement of the periodic time,
+from what it would have been had there been no solar disturbing
+action.
+
+This was known long before the time of Laplace, but it did not
+directly convey any explanation of the lunar acceleration. It no
+doubt amounted to the assertion that the moon's periodic time was
+slightly augmented by the disturbance, but it did not give any
+grounds for suspecting that there was a continuous change in
+progress. It was, however, apparent that the periodic time was
+connected with the solar disturbance, so that, if there were any
+alteration in the amount of the sun's disturbing effect, there must
+be a corresponding alteration in the moon's periodic time. Laplace,
+therefore, perceived that, if he could discover any continuous change
+in the ability of the sun for disturbing the moon, he would then have
+accounted for a continuous change in the moon's periodic time, and
+that thus an explanation of the long-vexed question of the lunar
+acceleration might be forthcoming.
+
+The capability of the sun for disturbing the earth-moon system is
+obviously connected with the distance of the earth from the sun. If
+the earth moved in an orbit which underwent no change whatever, then
+the efficiency of the sun as a disturbing agent would not undergo any
+change of the kind which was sought for. But if there were any
+alteration in the shape or size of the earth's orbit, then that might
+involve such changes in the distance between the earth and the sun as
+would possibly afford the desired agent for producing the observed
+lunar effect. It is known that the earth revolves in an orbit which,
+though nearly circular, is strictly an ellipse. If the earth were
+the only planet revolving around the sun then that ellipse would
+remain unaltered from age to age. The earth is, however, only one of
+a large number of planets which circulate around the great luminary,
+and are guided and controlled by his supreme attracting power. These
+planets mutually attract each other, and in consequence of their
+mutual attractions the orbits of the planets are disturbed from the
+simple elliptic form which they would otherwise possess. The
+movement of the earth, for instance, is not, strictly speaking,
+performed in an elliptical orbit. We may, however, regard it as
+revolving in an ellipse provided we admit that the ellipse is itself
+in slow motion.
+
+It is a remarkable characteristic of the disturbing effects of the
+planets that the ellipse in which the earth is at any moment moving
+always retains the same length; that is to say, its longest diameter
+is invariable. In all other respects the ellipse is continually
+changing. It alters its position, it changes its plane, and, most
+important of all, it changes its eccentricity. Thus, from age to age
+the shape of the track which the earth describes may at one time be
+growing more nearly a circle, or at another time may be departing
+more widely from a circle. These alterations are very small in
+amount, and they take place with extreme slowness, but they are in
+incessant progress, and their amount admits of being accurately
+calculated. At the present time, and for thousands of years past, as
+well as for thousands of years to come, the eccentricity of the
+earth's orbit is diminishing, and consequently the orbit described by
+the earth each year is becoming more nearly circular. We must,
+however, remember that under all circumstances the length of the
+longest axis of the ellipse is unaltered, and consequently the size
+of the track which the earth describes around the sun is gradually
+increasing. In other words, it may be said that during the present
+ages the average distance between the earth and the sun is waxing
+greater in consequence of the perturbations which the earth
+experiences from the attraction of the other planets. We have,
+however, already seen that the efficiency of the solar attraction for
+disturbing the moon's movement depends on the distance between the
+earth and the sun. As therefore the average distance between the
+earth and the sun is increasing, at all events during the thousands
+of years over which our observations extend, it follows that the
+ability of the sun for disturbing the moon must be gradually
+diminishing.
+
+[PLATE: CAMBRIDGE OBSERVATORY.]
+
+It has been pointed out that, in consequence of the solar
+disturbance, the orbit of the moon must be some what enlarged. As it
+now appears that the solar disturbance is on the whole declining, it
+follows that the orbit of the moon, which has to be adjusted
+relatively to the average value of the solar disturbance, must also
+be gradually declining. In other words, the moon must be approaching
+nearer to the earth in consequence of the alterations in the
+eccentricity of the earth's orbit produced by the attraction of the
+other planets. It is true that the change in the moon's position
+thus arising is an extremely small one, and the consequent effect in
+accelerating the moon's motion is but very slight. It is in fact
+almost imperceptible, except when great periods of time are
+involved. Laplace undertook a calculation on this subject. He knew
+what the efficiency of the planets in altering the dimensions of the
+earth's orbit amounted to; from this he was able to determine the
+changes that would be propagated into the motion of the moon. Thus
+he ascertained, or at all events thought he had ascertained, that the
+acceleration of the moon's motion, as it had been inferred from the
+observations of the ancient eclipses which have been handed down to
+us, could be completely accounted for as a consequence of planetary
+perturbation. This was regarded as a great scientific triumph. Our
+belief in the universality of the law of gravitation would, in fact,
+have been seriously challenged unless some explanation of the lunar
+acceleration had been forthcoming. For about fifty years no one
+questioned the truth of Laplace's investigation. When a
+mathematician of his eminence had rendered an explanation of the
+remarkable facts of observation which seemed so complete, it is not
+surprising that there should have been but little temptation to doubt
+it. On undertaking a new calculation of the same question, Professor
+Adams found that Laplace had not pursued this approximation
+sufficiently far, and that consequently there was a considerable
+error in the result of his analysis. Adams, it must be observed, did
+not impugn the value of the lunar acceleration which Halley had
+deduced from the observations, but what he did show was, that the
+calculation by which Laplace thought he had provided an explanation
+of this acceleration was erroneous. Adams, in fact, proved that the
+planetary influence which Laplace had detected only possessed about
+half the efficiency which the great French mathematician had
+attributed to it. There were not wanting illustrious mathematicians
+who came forward to defend the calculations of Laplace. They
+computed the question anew and arrived at results practically
+coincident with those he had given. On the other hand certain
+distinguished mathematicians at home and abroad verified the results
+of Adams. The issue was merely a mathematical one. It had only one
+correct solution. Gradually it appeared that those who opposed Adams
+presented a number of different solutions, all of them discordant
+with his, and, usually, discordant with each other. Adams showed
+distinctly where each of these investigators had fallen into error,
+and at last it became universally admitted that the Cambridge
+Professor had corrected Laplace in a very fundamental point of
+astronomical theory.
+
+Though it was desirable to have learned the truth, yet the breach
+between observation and calculation which Laplace was believed to
+have closed thus became reopened. Laplace's investigation, had it
+been correct, would have exactly explained the observed facts. It
+was, however, now shown that his solution was not correct, and that
+the lunar acceleration, when strictly calculated as a consequence of
+solar perturbations, only produced about half the effect which was
+wanted to explain the ancient eclipses completely. It now seems
+certain that there is no means of accounting for the lunar
+acceleration as a direct consequence of the laws of gravitation, if
+we suppose, as we have been in the habit of supposing, that the
+members of the solar system concerned may be regarded as rigid
+particles. It has, however, been suggested that another explanation
+of a very interesting kind may be forthcoming, and this we must
+endeavour to set forth.
+
+It will be remembered that we have to explain why the period of
+revolution of the moon is now shorter than it used to be. If we
+imagine the length of the period to be expressed in terms of days and
+fractions of a day, that is to say, in terms of the rotations of the
+earth around its axis, then the difficulty encountered is, that the
+moon now requires for each of its revolutions around the earth rather
+a smaller number of rotations of the earth around its axis than used
+formerly to be the case. Of course this may be explained by the fact
+that the moon is now moving more swiftly than of yore, but it is
+obvious that an explanation of quite a different kind might be
+conceivable. The moon may be moving just at the same pace as ever,
+but the length of the day may be increasing. If the length of the
+day is increasing, then, of course, a smaller number of days will be
+required for the moon to perform each revolution even though the
+moon's period was itself really unchanged. It would, therefore, seem
+as if the phenomenon known as the lunar acceleration is the result of
+the two causes. The first of these is that discovered by Laplace,
+though its value was over-estimated by him, in which the perturbations
+of the earth by the planets indirectly affect the motion of the
+moon. The remaining part of the acceleration of our satellite is
+apparent rather than real, it is not that the moon is moving more
+quickly, but that our time-piece, the earth, is revolving more
+slowly, and is thus actually losing time. It is interesting to note
+that we can detect a physical explanation for the apparent checking
+of the earth's motion which is thus manifested. The tides which ebb
+and flow on the earth exert a brake-like action on the revolving
+globe, and there can be no doubt that they are gradually reducing its
+speed, and thus lengthening the day. It has accordingly been
+suggested that it is this action of the tides which produces the
+supplementary effect necessary to complete the physical explanation
+of the lunar acceleration, though it would perhaps be a little
+premature to assert that this has been fully demonstrated.
+
+The third of Professor Adams' most notable achievements was connected
+with the great shower of November meteors which astonished the world
+in 1866. This splendid display concentrated the attention of
+astronomers on the theory of the movements of the little objects by
+which the display was produced. For the definite discovery of the
+track in which these bodies revolve, we are indebted to the labours
+of Professor Adams, who, by a brilliant piece of mathematical work,
+completed the edifice whose foundations had been laid by Professor
+Newton, of Yale, and other astronomers.
+
+Meteors revolve around the sun in a vast swarm, every individual
+member of which pursues an orbit in accordance with the well-known
+laws of Kepler. In order to understand the movements of these
+objects, to account satisfactorily for their periodic recurrence, and
+to predict the times of their appearance, it became necessary to
+learn the size and the shape of the track which the swarm followed,
+as well as the position which it occupied. Certain features of the
+track could no doubt be readily assigned. The fact that the shower
+recurs on one particular day of the year, viz., November 13th,
+defines one point through which the orbit must pass. The position on
+the heavens of the radiant point from which the meteors appear to
+diverge, gives another element in the track. The sun must of course
+be situated at the focus, so that only one further piece of
+information, namely, the periodic time, will be necessary to complete
+our knowledge of the movements of the system. Professor H. Newton,
+of Yale, had shown that the choice of possible orbits for the
+meteoric swarm is limited to five. There is, first, the great
+ellipse in which we now know the meteors revolve once every thirty
+three and one quarter years. There is next an orbit of a nearly
+circular kind in which the periodic time would be a little more than
+a year. There is a similar track in which the periodic time would be
+a few days short of a year, while two other smaller orbits would also
+be conceivable. Professor Newton had pointed out a test by which it
+would be possible to select the true orbit, which we know must be one
+or other of these five. The mathematical difficulties which attended
+the application of this test were no doubt great, but they did not
+baffle Professor Adams.
+
+There is a continuous advance in the date of this meteoric shower.
+The meteors now cross our track at the point occupied by the earth on
+November 13th, but this point is gradually altering. The only
+influence known to us which could account for the continuous change
+in the plane of the meteor's orbit arises from the attraction of the
+various planets. The problem to be solved may therefore be attacked
+in this manner. A specified amount of change in the plane of the
+orbit of the meteors is known to arise, and the changes which ought
+to result from the attraction of the planets can be computed for each
+of the five possible orbits, in one of which it is certain that the
+meteors must revolve. Professor Adams undertook the work. Its
+difficulty principally arises from the high eccentricity of the
+largest of the orbits, which renders the more ordinary methods of
+calculation inapplicable. After some months of arduous labour the
+work was completed, and in April, 1867, Adams announced his solution
+of the problem. He showed that if the meteors revolved in the
+largest of the five orbits, with the periodic time of thirty three
+and one quarter years, the perturbations of Jupiter would account for
+a change to the extent of twenty minutes of arc in the point in which
+the orbit crosses the earth's track. The attraction of Saturn would
+augment this by seven minutes, and Uranus would add one minute more,
+while the influence of the Earth and of the other planets would be
+inappreciable. The accumulated effect is thus twenty-eight minutes,
+which is practically coincident with the observed value as determined
+by Professor Newton from an examination of all the showers of which
+there is any historical record. Having thus showed that the great
+orbit was a possible path for the meteors, Adams next proved that no
+one of the other four orbits would be disturbed in the same manner.
+Indeed, it appeared that not half the observed amount of change could
+arise in any orbit except in that one with the long period. Thus was
+brought to completion the interesting research which demonstrated the
+true relation of the meteor swarm to the solar system.
+
+Besides those memorable scientific labours with which his attention
+was so largely engaged, Professor Adams found time for much other
+study. He occasionally allowed himself to undertake as a relaxation
+some pieces of numerical calculation, so tremendously long that we
+can only look on them with astonishment. He has calculated certain
+important mathematical constants accurately to more than two hundred
+places of decimals. He was a diligent reader of works on history,
+geology, and botany, and his arduous labours were often beguiled by
+novels, of which, like many other great men, he was very fond. He
+had also the taste of a collector, and he brought together about
+eight hundred volumes of early printed works, many of considerable
+rarity and value. As to his personal character, I may quote the
+words of Dr. Glaisher when he says, "Strangers who first met him were
+invariably struck by his simple and unaffected manner. He was a
+delightful companion, always cheerful and genial, showing in society
+but few traces of his really shy and retiring disposition. His
+nature was sympathetic and generous, and in few men have the moral
+and intellectual qualities been more perfectly balanced."
+
+In 1863 he married the daughter of Haliday Bruce, Esq., of Dublin and
+up to the close of his life he lived at the Cambridge Observatory,
+pursuing his mathematical work and enjoying the society of his
+friends.
+
+He died, after a long illness, on 21st January, 1892, and was
+interred in St. Giles's Cemetery, on the Huntingdon Road, Cambridge.
+
+
+
+
+
+
+
+End of the Project Gutenberg EBook of Great Astronomers, by R. S. Ball
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author	Roger Frank <rfrank@pglaf.org>	2025-10-15 05:18:54 -0700
committer	Roger Frank <rfrank@pglaf.org>	2025-10-15 05:18:54 -0700
commit	07ec9228b3ea9fdd916f49e9cdc31c18741f4026 (patch)
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