A Compendium of Astronomy: Intended to Simplify and Illustrate the Principles of the Science, and Give a Concise View of the Motions and Aspects of the Great Heavenly Luminaries ; Adapted to the Use of Common Schools, as Well as Higher SeminariesCarter, Hendee & Company, 1834 - 184 pages |
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Page 88
... slow of the clock ? At what time is the greatest difference between the Sun and the clock ? How much is the ... slower than a clock ? What is the greatest difference arising from this equation ? When is the Earth in the aphelion and when ...
... slow of the clock ? At what time is the greatest difference between the Sun and the clock ? How much is the ... slower than a clock ? What is the greatest difference arising from this equation ? When is the Earth in the aphelion and when ...
Page 89
... slow 814 3614 31 14 58 14 Sun slow 412 1112 1712 2311 28 11 6 6 25 14 3211 18 2 7650143511 8 7 3151 3 34 3 17 of clock . Sun slow 27 3 14 3 S. M. S.M. S. 38 3 13 32 2 Sun slow Sun fast 26 3 93 22211 28 Sun fast 38 43 1 49 38 47 127 of ...
... slow 814 3614 31 14 58 14 Sun slow 412 1112 1712 2311 28 11 6 6 25 14 3211 18 2 7650143511 8 7 3151 3 34 3 17 of clock . Sun slow 27 3 14 3 S. M. S.M. S. 38 3 13 32 2 Sun slow Sun fast 26 3 93 22211 28 Sun fast 38 43 1 49 38 47 127 of ...
Page 90
... slower than the clock . BISSEXTILE . Days . of clock . 24 5 33 5 of clock . 58 49 3 of clock . July . Aug. Sept. Oct. Nov. Dec. 33344 6 4 74 94 10 4 12340 M. 31 5 S. M. S. M. S.M. S.M. S.M. S. Sun slow 10 40 40 40 40 10 10 10 44 Sun slow ...
... slower than the clock . BISSEXTILE . Days . of clock . 24 5 33 5 of clock . 58 49 3 of clock . July . Aug. Sept. Oct. Nov. Dec. 33344 6 4 74 94 10 4 12340 M. 31 5 S. M. S. M. S.M. S.M. S.M. S. Sun slow 10 40 40 40 40 10 10 10 44 Sun slow ...
Page 91
... slow Sun slow Sun slow 30 3 17 3 679 57 14 2514 5214 1914 44 14 1012 17 12 22 12 32 3511 9143711 35 14 48 3 37 42 52 41 7 156 346 131 39 10 252 1 239 3 2 50 12 19 43 3 12 2 31 31 3 22 2 13 3 Sun slow Sun fast 19 2 26 2 32 Sun fast 87 9 ...
... slow Sun slow Sun slow 30 3 17 3 679 57 14 2514 5214 1914 44 14 1012 17 12 22 12 32 3511 9143711 35 14 48 3 37 42 52 41 7 156 346 131 39 10 252 1 239 3 2 50 12 19 43 3 12 2 31 31 3 22 2 13 3 Sun slow Sun fast 19 2 26 2 32 Sun fast 87 9 ...
Page 92
... slower than the clock . FIRST AFTER BISSEXTILE . Aug. Sept. Oct. Nov. Dec. Days . July . M. S.M. S.M. S.M. S.M. S.M. S. 13 28 5 23 33 Sun slow 39 Or er er er or 51 0 28 10 Sun slow Sun fast 11 21 5 47 047 10 42 1 31 24 2 30516 2 611 ...
... slower than the clock . FIRST AFTER BISSEXTILE . Aug. Sept. Oct. Nov. Dec. Days . July . M. S.M. S.M. S.M. S.M. S.M. S. 13 28 5 23 33 Sun slow 39 Or er er er or 51 0 28 10 Sun slow Sun fast 11 21 5 47 047 10 42 1 31 24 2 30516 2 611 ...
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A Compendium of Astronomy; Intended to Simplify and Illustrate the ... John Vose No preview available - 2011 |
Common terms and phrases
ancient angle aphelion appear Aries ascending node Asteroids astronomers atmosphere attraction aurora borealis axis bissextile brazen meridian cause celestial centre comets commence computed conjunction constellations declination degree discovered disk diurnal rotation dominical letter east eclipses elevated epact equal equator equinox fixed stars full Moon harvest Moon heat heavenly body heavens hemisphere Herschel horizon hour inclination inferior conjunction inferior planets inhabitants Jupiter latitude libration light longitude longitude for 100 luminous lunar magnitude Mars Mean diameter Mean distance Mercury and Venus meridian meteors miles month move night obliquity observed opposite parallax passing performs a revolution perihelion phenomena Plate polar circles poles primary planets rays reckoned refraction represented Retrograde motion revolve right ascension rising round the Earth round the Sun satellites Saturn seen side slow of clock solar system spots Sun fast Sun slow Sun's place surface telescope tides tion visible zenith
Popular passages
Page 156 - our astronomical observer" at a salary of £100 per annum, his duty being "forthwith to apply himself with the most exact care and diligence to the rectifying the tables of the motions of the heavens and the places of the fixed stars, so as to find out the so much desired longitude of places for the perfecting the art of navigation.
Page 169 - I was called up," says Mr. Ellicou, " about 3 o'clock in the morning, to see the shooting stars, as they are called. The phenomenon was grand and awful. The whole heavens appeared as if illuminated with skyrockets, which disappeared only by the light of the sun, after daybreak. The meteors, which at any one instant of time, appeared as numerous as the stars, flew in all possible directions...
Page 158 - ... that, situated as we are in this western hemisphere, more than three thousand miles from any fixed or known meridian, it would be proper, in a national point of view to establish a first meridian for ourselves ; and that measures should be taken for the eventual establishment of such a meridian in the United States. In examining the maps and charts of the United States, and the particular states, or their sea coasts, which have been published in this country, the committee find, that the publishers...
Page 128 - AG F E D CB A G F ED C B A 1100 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24...
Page 124 - Thirty days hath September, April, June, and November, All the rest have thirty-one Excepting February alone : Which hath but twenty-eight, in fine, Till leap year gives it twenty-nine.
Page 147 - That the milky way is a most extensive stratum of stars of various sizes admits no longer of the least doubt; and that our sun is actually one of the heavenly bodies belonging to it is as evident.
Page 168 - Towards the morning of the 13th of November, 1799, we witnessed a most extraordinary scene of shooting meteors. Thousands of bodies and falling stars succeeded each other during four hours. Their direction was very regular from north to south. From the beginning of the phenomenon there was not a space in the firmament equal in extent to three diameters of the moon which was not filled every instant with bodies or falling stars. All the meteors left luminous traces or phosphorescent bands behind them,...
Page 53 - Huge massess of rock rise at once from the plains, and raise their peaked summits to an immense height in the air, while projecting crags spring from their rugged flanks and threatening the valleys below, seem to bid defiance to the laws of gravitation. Around the base of these frightful eminences are strewed numerous loose and unconnected fragments, which time seems to have detached from their parent mass ; and when we examine the rents and ravines which accompany the over.hanging cliffs, we expect...
Page 81 - The atmosphere is known to abound with electric matter, and the appearance of the electric matter in vacuo is exactly like the appearance of the aurora borealis, which, from its great altitude, may be considered to be in as perfect a vacuum as we can make. The electric matter in vacuo suffers the rays of light to pass through, without being affected by them. The tail of a comet does not expand itself sideways, nor does the electric matter. Hence, he supposes the tails of comets, the aurora borealis,...
Page 72 - ... the heavens that presents us with such a variety of extraordinary phenomena as the planet Saturn : a magnificent globe, encompassed by a stupendous double ring : attended by seven satellites : ornamented with equatorial belts : compressed at the poles : turning...