Navigation and Nautical Astronomy, Part 1Longman, Brown, Green, and Longmans, 1858 |
From inside the book
Results 1-5 of 90
Page iv
... sun's declination ( first method ) VIII . To take out the sun's declination ( second method ) IX . To take out the equation of time 74 75 77 X. To take out the moon's semi - diameter and horizontal parallax 78 XI . To take out the ...
... sun's declination ( first method ) VIII . To take out the sun's declination ( second method ) IX . To take out the equation of time 74 75 77 X. To take out the moon's semi - diameter and horizontal parallax 78 XI . To take out the ...
Page v
... declination . XVI . Given mean solar time and the equation of time to find apparent solar time , and the converse ... sun's observed altitude to find its true altitude 109 • . XXVI . Given the moon's observed altitude to find its ...
... declination . XVI . Given mean solar time and the equation of time to find apparent solar time , and the converse ... sun's observed altitude to find its true altitude 109 • . XXVI . Given the moon's observed altitude to find its ...
Page 62
... sun in one day . The angle at P , between the two circles of declination , is measured , not by the arc s s ' described by the sun , but by the arc R R ' of the equator . Now , R R 1st . The velocity or motion of the sun in the ecliptic ...
... sun in one day . The angle at P , between the two circles of declination , is measured , not by the arc s s ' described by the sun , but by the arc R R ' of the equator . Now , R R 1st . The velocity or motion of the sun in the ecliptic ...
Page 64
... solar time is the angle at the pole between the celestial meridian , and a circle of declination passing through the mean sun , measuring from the meridian westward : thus let m be the mean sun considered as a point , then Q P m is mean ...
... solar time is the angle at the pole between the celestial meridian , and a circle of declination passing through the mean sun , measuring from the meridian westward : thus let m be the mean sun considered as a point , then Q P m is mean ...
Page 73
... declination , right ascension , & c . , of the principal heavenly bodies , for certain fixed times at Greenwich . The declination and right ascen- sion of the sun and planets are given for every day at Oh Om Os ; for the moon , for ...
... declination , right ascension , & c . , of the principal heavenly bodies , for certain fixed times at Greenwich . The declination and right ascen- sion of the sun and planets are given for every day at Oh Om Os ; for the moon , for ...
Other editions - View all
Common terms and phrases
24 hours altitude for index apparent distance April 27 ascension mean sun ascension of mean auxiliary angle celestial concave celestial equator chro colatitude compass bearing correction in altitude cosec decl diff east of meridian Elements from Nautical EXAMPLES find the latitude Greenwich date Greenwich mean haversines heavenly body height of eye horizontal parallax hour angle Index cor index correction June longitude by chronometer mean time nearly moon moon's declination Moon's right Moon's semi moon's semidiameter Nautical Almanac observed altitude observed meridian altitude P.M. mean pass the meridian point of Aries polar distance pole proportional logarithm refraction required the latitude required the longitude required the true Right asc Right ascension mean sea 20 feet ship mean sidereal star subtract Sun's declination sun's L. L. sun's lower limb true altitude true bearing true distance true zenith distance vers versines zenith dist
Popular passages
Page 12 - Fig. 3) loaded on the circular side with lead sufficient to make it swim upright in the water: to this is fastened a line about 150 fathoms long, called the Log-line, which is divided into certain spaces called knots, and is wound on a reel (see Plate VI.
Page 54 - ... consequence of the whirling motion of the earth about its axis, the parts near the equator, which have the greatest velocity, acquire thereby a greater distance from the centre than the parts near the poles.
Page 60 - The hour angle of a heavenly body, is the angle at the pole between the celestial meridian and the circle of declination passing through the place of the body ; thus, zpx is the hour angle of x.
Page 59 - The right ascension of a heavenly body is the arc of the equator, intercepted between the first point of Aries and the circle of declination, passing through the place of the...
Page 61 - The apparent solar day is the interval between two successive transits of the sun's centre over the same meridian.
Page 63 - Mean Solar Day is the interval between two successive transits of the mean sun over the same meridian ; it begins when the mean sun is on the meridian.
Page 13 - ... ascertained at sea by observing the magnetic bearing of- the sun when in the horizon, or at a given altitude abo-ve it. From this observation the true bearing is found by rules given in nautical astronomy. The difference between the true bearing and the observed bearing by compass determines this correction.
Page 258 - W., and at the same time the observed altitude of the sun's lower limb was 21° 40' 45", the index correction was — 2' 18", and the height of the eye above the sea was 14 feet : required the variation.
Page 199 - To the hour angle thus found, add the star's right ascension; and from the sum, increased if necessary by 24 hours, subtract the right ascension of the mean sun ; the remainder is mean time at the place at the instant of observation.
Page 54 - ... path of the sun as seen from the Earth, and is called the Ecliptic. The plane of the Earth's equator, extended till it meets the concave surface of the heavens, forms what is called the Celestial Equator, or the Equinoctial. The ecliptic and the equinoctial form an angle of 23° 28', and this angle is called the Obliquity of the Ecliptic. The axis of the Earth, therefore, instead of being perpendicular to the plane of its orbit, is inclined to it at an angle of (90° — 23° 28') 66° 32'.