A New Treatise on the Use of the Globes: Or, A Philosophical View of the Earth and HeavensSamuel Wood & Sons, 1819 - 352 pagina's |
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Pagina viii
... 37 37 31 37 31 Disc , 32 Diurnal Arch , 33 Draco , 38 2 Eccentricity , 31 Eclipse of the Sun , 38 of the Moon , 38 Ecliptic 30 Elongation , · 02-22 * * 7372282 ALLTRACKERS 58 *** 8 , Equator , Equation of Time Equinoctial Points , Equulus ,
... 37 37 31 37 31 Disc , 32 Diurnal Arch , 33 Draco , 38 2 Eccentricity , 31 Eclipse of the Sun , 38 of the Moon , 38 Ecliptic 30 Elongation , · 02-22 * * 7372282 ALLTRACKERS 58 *** 8 , Equator , Equation of Time Equinoctial Points , Equulus ,
Pagina xi
... ecliptic ) and his declination , Problem 21. To place the Globe in the same situation with_res- 185 pect to the Sun , as the Earth is at the Equinoxes , at the Sum- mer Solstice , and at the Winter Solstice , and CONTENTS . Xi.
... ecliptic ) and his declination , Problem 21. To place the Globe in the same situation with_res- 185 pect to the Sun , as the Earth is at the Equinoxes , at the Sum- mer Solstice , and at the Winter Solstice , and CONTENTS . Xi.
Pagina xii
... equation of Time which depends on the obliquity of the Ecliptic , 220 Problem 41. To find the Sun meridian altitude at any time of the year at any given place , 221 Problem 42. When it is midnight at any place in xi CONTENTS .
... equation of Time which depends on the obliquity of the Ecliptic , 220 Problem 41. To find the Sun meridian altitude at any time of the year at any given place , 221 Problem 42. When it is midnight at any place in xi CONTENTS .
Pagina xv
... ecliptic , its altitude and azimuth , and the medium cæli , Problem 99. The latitude of a place , day of the month , and the hour , together with the altitude and azimuth of a Star being given , to find the Star , 296 297 298 Problem ...
... ecliptic , its altitude and azimuth , and the medium cæli , Problem 99. The latitude of a place , day of the month , and the hour , together with the altitude and azimuth of a Star being given , to find the Star , 296 297 298 Problem ...
Pagina xvi
... ecliptic , for every degree of the sun's lon- gitude , 16 23 , 24 , & 25 26 & 27 112 144 146 149 172 220 10. A table of all the visible eclipses which will happen in the present century , 241 11. A table for finding the Moon's age , the ...
... ecliptic , for every degree of the sun's lon- gitude , 16 23 , 24 , & 25 26 & 27 112 144 146 149 172 220 10. A table of all the visible eclipses which will happen in the present century , 241 11. A table for finding the Moon's age , the ...
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Veelvoorkomende woorden en zinsdelen
analemma Answer antarctic circle appear Arcturus astronomers atmosphere axis azimuth body brass meridian Bring the given Cape centre climate compass constellation diameter difference distance diurnal diurnal motion earth east eastward ecliptic Elevate the pole English miles equal equator equinoctial equinox find the sun's fixed stars force frigid zone full moon given place globe westward heavens hence Hesiod high water horizon hour circle index has passed inhabitants Jupiter latitude length Libra London longest day longitude magnitude meridian altitude minutes month moon's morning motion night node north latitude north or south north pole number of degrees o'clock oblique descension observed orbit planet point Aries polar circle PROBLEM quadrant of altitude reckoning revolves round right ascension rise and set round the sun satellites set the index shadow south pole sun rises sun's altitude sun's declination sun's place supposed surface tides tion tude turn the globe twilight vapours Venus vertical
Populaire passages
Pagina 201 - Problem 12 : ihen elevate the pole as many degrees above the horizon as are equal to the latitude of that place, and bring it to the brass meridian ; so will it then be the zenith or centre of the horizon.
Pagina 196 - Spitzbergen, in latitude 76| north, be brought to that part of the brass meridian, which is numbered from the equator towards the poles, the...
Pagina 2 - The CELESTIAL GLOBE is an artificial representation of the heavens, on which the stars are laid down in their natural situations. The diurnal motion of this globe is from east to west, and represents the apparent diurnal motion of the sun, moon and stars. In using this globe, the student is supposed to be situated in the centre of it, and viewing the stars in the concave surface.
Pagina 211 - Or, find the latitude of the given place, and elevate the north or south pole, according as the latitude is north or south, so many degrees above the horizon as are equal to the latitude : find the sun's place in the ecliptic (by Prob.
Pagina 282 - ... above it; let this mark be considered as the pole of the world, let the equinoctial represent the ecliptic, and let the...
Pagina 253 - Definition 2. The harvest moon, in south latitude, is the full moon which happens at, or near, the time of the vernal equinox; for, to the inhabitants of south latitude, whenever the moon is in 15?
Pagina 3 - The equator, when referred to the heavens, is called the equinoctial, because, when the sun appears in it, the days and nights are equal all over the world, viz., 12 hours each.
Pagina 99 - The result, therefore, of this physical inquiry is, that we find no vestige of a beginning, — no prospect of an end.
Pagina 169 - Find the longitude of the given place on the equator, bring it to that part of the brass meridian which is numbered from the equator towards the poles ; and then, under the given latitude, on the brass meridian, you will find the place required.