Great Astronomers by Robert Stawell Ball (uplifting novels .txt) ๐
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
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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 Braheโs 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 fatherโs 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 every thing 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 Companyโs 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 โour southern Tycho.โ 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 Napoleonโs 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 โThe Royal Oak,โ adding a description to the
effect that the incidents of which โThe Royal Oakโ 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 โPhilosophical Transactions.โ 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 Halleyโs 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 Tychoโs 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 Galileoโs 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 Tychoโs 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 Tychoโs 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 twelvemonth. 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 Halleyโs remark in
writing to Hooke on June 15th, 1680: โHaving fallen in with bad
weather we took forty hours in the journey from Dover to Calais.โ
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 Halleyโs 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
Halleyโs 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:
โTo 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.โ 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, โin order that all the facts may be readily available to
those who are hereafter to complete this difficult and complicated
subject.โ
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
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