men of invention and industry-第18节
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was evident to him that the first mover must be changed from a
weight and pendulum to a spring wound up and a compensating
balance。
He now applied his genius in this direction。 After pondering
over the subject; he proceeded to London in 1728; and exhibited
his drawings to Dr。 Halley; then Astronomer…Royal。 The Doctor
referred him to Mr。 George Graham; the distinguished horologer;
inventor of the dead…beat escapement and the mercurial pendulum。
After examining the drawings and holding some converse with
Harrison; Graham perceived him to be a man of uncommon merit; and
gave him every encouragement。 He recommended him; however; to
make his machine before again applying to the Board of Longitude。
Harrison returned home to Barrow to complete his task; and many
years elapsed before he again appeared in London to present his
first chronometer。
The remarkable success which Harrison had achieved in his
compensating pendulum could not but urge him on to further
experiments。 He was no doubt to a certain extent influenced by
the reward of 20;000L。 which the English Government had offered
for an instrument that should enable the longitude to be more
accurately determined by navigators at sea than was then
possible; and it was with the object of obtaining pecuniary
assistance to assist him in completing his chronometer that
Harrison had; in 1728; made his first visit to London to exhibit
his drawings。
The Act of Parliament offering this superb reward was passed in
1714; fourteen years before; but no attempt had been made to
claim it。 It was right that England; then rapidly advancing to
the first position as a commercial nation; should make every
effort to render navigation less hazardous。 Before correct
chronometers were invented; or good lunar tables were
prepared;'7' the ship; when fairly at sea; out of sight of land;
and battling with the winds and tides; was in a measure lost。 No
method existed for accurately ascertaining the longitude。 The
ship might be out of its course for one or two hundred miles; for
anything that the navigator knew; and only the wreck of his ship
on some unknown coast told of the mistake that he had made in his
reckoning。
It may here be mentioned that it was comparatively easy to
determine the latitude of a ship at sea every day when the sun
was visible。 The latitudethat is; the distance of any spot
from the equator and the polemight be found by a simple
observation with the sextant。 The altitude of the sun at noon is
found; and by a short calculation the position of the ship can be
ascertained。
The sextant; which is the instrument universally used at sea; was
gradually evolved from similar instruments used from the earliest
times。 The object of this instrument has always been to find the
angular distance between two bodiesthat is to say; the angle
contained by two straight lines; drawn from those bodies to meet
in the observer's eye。 The simplest instrument of this kind may
be well represented by a pair of compasses。 If the hinge is held
to the eye; one leg pointed to the distant horizon; and the other
leg pointed to the sun; the position of the two legs will show
the angular distance of the sun from the horizon at the moment of
observation。
Until the end of the seventeenth century; the instrument used was
of this simple kind。 It was generally a large quadrant; with one
or two bars moving on a hinge;to all intents and purposes a
huge pair of compasses。 The direction of the sight was fixed by
the use of a slit and a pointer; much as in the ordinary rifle。
This instrument was vastly improved by the use of a telescope;
which not only allowed fainter objects to be seen; but especially
enabled the sight to be accurately directed to the object
observed。
The instruments of the pre…telescopic age reached their glory in
the hands of Tycho Brahe。 He used magnificent instruments of the
simple 〃pair of compasses〃 kindcircles; quadrants; and
sextants。 These were for the most part ponderous fixed
instruments of little or no use for the purposes of navigation。
But Tycho Brahe's sextant proved the forerunner of the modern
instrument。 The general structure is the same; but the vast
improvement of the modern sextant is due; firstly; to the use of
the reflecting mirror; and; secondly; to the use of the telescope
for accurate sighting。 These improvements were due to many
scientific mento William Gascoigne; who first used the
telescope; about 1640; to Robert Hooke; who; in 1660; proposed to
apply it to the quadrant; to Sir Isaac Newton; who designed a
reflecting quadrant;'8' and to John Hadley; who introduced it。
The modern sextant is merely a modification of Newton's or
Badley's quadrant; and its present construction seems to be
perfect。
It therefore became possible accurately to determine the position
of a ship at sea as regarded its latitude。 But it was quite
different as regarded the longitude that is; the distance of any
place from a given meridian; eastward or westward。 In the case
of longitude there is no fixed spot to which reference can be
made。 The rotation of the earth makes the existence of such a
spot impossible。 The question of longitude is purely a question
of TIME。 The circuit of the globe; east and west; is simply
represented by twenty…four hours。 Each place has its own time。
It is very easy to determine the local time at any spot by
observations made at that spot。 But; as time is always changing;
the knowledge of the local time gives no idea of the actual
position; and still less of a moving objectsay; of a ship at
sea。 But if; in any locality; we know the local time; and also
the local time of some other locality at that momentsay; of the
Observatory at Greenwich we can; by comparing the two local
times; determine the difference of local times; or; what is the
same thing; the difference of longitude between the two places。
It was necessary therefore for the navigator to be in possession
of a first…rate watch or chronometer; to enable him to determine
accurately the position of his ship at sea; as respected the
longitude。
Before the middle of the eighteenth century good watches were
comparatively unknown。 The navigator mainly relied; for his
approximate longitude; upon his Dead Reckoning; without any
observation of the heavenly bodies。 He depended upon the
accuracy of the course which he had steered by the compass; and
the mensuration of the ship's velocity by an instrument called
the Log; as well as by combining and rectifying all the
allowances for drift; lee…way; and so on; according to the trim
of the ship; but all of these were liable to much uncertainty;
especially when the sea was in a boisterous condition。 There was
another and independent course which might have been
adoptedthat is; by observation of the moon; which is constantly
moving amongst the stars from west to east。 But until the middle
of the eighteenth century good lunar tables were as much unknown
as good watches。
Hence a method of ascertaining the longitude; with the same
degree of accuracy which is attainable in respect of latitude;
had for ages been the grand desideratum for men 〃who go down to
the sea in ships。〃 Mr。 Macpherson; in his important work
entitled 'The Annals of Commerce;' observes; 〃Since the year
1714; when Parliament offered a reward of 20;000L。 for the best
method of ascertaining the longitude at sea; many schemes have
been devised; but all to little or no purpose; as going generally
upon wrong principles; till that heaven…taught artist Mr。 John
Harrison arose;〃 and by him; as Mr。 Macpherson goes on to say;
the difficulty was conquered; having devoted to it 〃the assiduous
studies of a long life。〃
The preamble of the Act of Parliament in question runs as
follows: 〃Whereas it is well known by all that are acquainted
with the art of navigation that nothing is so much wanted and
desired at sea as the discovery of the longitude; for the safety
and quickness of voyages; the preservation of ships and the lives
of men;〃 and so on。 The Act proceeds to constitute certain
persons commissioners for the discovery of the longitude; with
power to receive and experiment upon proposals for that purpose;
and to grant sums of money not exceeding 2000L。 to aid in such
experiments。 It will be remembered from what has been above
stated; that a reward of 10;000L。 was to be given to the person
who should contrive a method of determining the longitude within
one degree of a great circle; or 60 geographical miles; 15;000L。
within 40 geographical miles; and 20;000L。 within 30 geographical
miles。
It will; in these days; be scarcely believed that little more
than a hundred and fifty years ago a prize of not less than ten
thousand pounds should have been offered for a method of
determining the longitude within sixty miles; and that double
