Elements of Plane AstronomyMilliken & Son, 1836 - 287 pages |
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Page xii
... Arches . Astronomical Quadrant . Zenith Sector . Circle . Transit Instrument . Methods of Finding the Meridian .. CHAP . XII . Geocentric and Heliocentric places of the Planets . Nodes and Inclinations of their Orbits . Mean Motions and ...
... Arches . Astronomical Quadrant . Zenith Sector . Circle . Transit Instrument . Methods of Finding the Meridian .. CHAP . XII . Geocentric and Heliocentric places of the Planets . Nodes and Inclinations of their Orbits . Mean Motions and ...
Page 3
... arches of great circles . The present division of the circle into 360 equal parts , called degrees , of each degree ... arch , was by stating its relation to the whole circumference ; thus the diameter of the sun , measured on the con ...
... arches of great circles . The present division of the circle into 360 equal parts , called degrees , of each degree ... arch , was by stating its relation to the whole circumference ; thus the diameter of the sun , measured on the con ...
Page 4
... arches of circles , forming parts of the in- struments used in practical astronomy , are actually divided into degrees and parts of a degree , as far as the magnitude of the radius will permit , so that the divisions may not be too ...
... arches of circles , forming parts of the in- struments used in practical astronomy , are actually divided into degrees and parts of a degree , as far as the magnitude of the radius will permit , so that the divisions may not be too ...
Page 5
... arch TQ will then shew the altitude , for TCQ equals HCO the altitude ; and the arch TA will shew the zenith distance , for ACT equals OCZ the zenith distance . The method of observing altitudes will be more accurately described ...
... arch TQ will then shew the altitude , for TCQ equals HCO the altitude ; and the arch TA will shew the zenith distance , for ACT equals OCZ the zenith distance . The method of observing altitudes will be more accurately described ...
Page 6
... arch AB will shew the angular dis- tance . This method is now rarely used . The angular distance of two objects when required , is seldom directly observed , on account of the inconvenience of adjusting the plane of the in- strument ...
... arch AB will shew the angular dis- tance . This method is now rarely used . The angular distance of two objects when required , is seldom directly observed , on account of the inconvenience of adjusting the plane of the in- strument ...
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Common terms and phrases
aberration accuracy altitude angular distance Aphelion apparent diameter apparent motion appear arch ascertained astronomical atmosphere axis azimuth called celestial bodies celestial pole centre circle circular clock comet computed concave surface conjunction declination deduced degree difference direction disc discovered diurnal diurnal motion earth eccentric anomaly ecliptic equal equator equatoreal equinox error fixed stars Georgium Sidus greater greatest Hence Herschel horizon hour inclination inferior conjunction inferior planets instrument interval Jupiter known latitude light lunar magnitude mean motion measured Mercury meridian method moon moon's move nearly node object observed obtained orbit parallax parallel passing Perihelion periodic perpendicular polar distance pole star quadrant quantity radius refraction revolve right angles right ascension satellites Saturn seen sextant shew shewn sidereal sine solar sphere spherical subtends sun's superior planets supposed tance telescope tion transit triangle tude velocity Venus vernier vertical visible whence zenith distance
Popular passages
Page 147 - ... the squares of the periodic times are as the cubes of the distances from the common centre, the centripetal forces will be inversely as the squares of the distances.
Page 236 - The third law, that the squares of the periodic times are as the cubes of the distances, is a property which belongs to the bodies describing elliptic orbits under the conditions just stated.
Page xix - It is shown in astronomy that the elevation of the celestial pole is equal to the latitude of the place, and...
Page 72 - The node through which the planet passes from the southern to the northern side of the ecliptic, is called the ascending node, and the other the descending node.
Page 8 - Declination is either north or south, according as the object is on the north or south side of the equator. North declination is generally regarded as positive, and south declination as negative.
Page 32 - Caille went to the Cape of Good Hope, for the express purpose of observing the southern hemisphere. 39. The knowledge of the spherical figure of the earth enables us readily to determine the position of the circles of the sphere, with respect to the horizon of any place, the latitude of which is known. For, ~ The altitude of the celestial pole at any place, is equal to the latitude of that place. Let SELNQ and HO (Fig. 5) be sections of the earth and horizon, in the plane of the meridian of the place...
Page 166 - Laplace has computed, that if it had been equal to the earth, it would have shortened the length of our year by ^ of a day. Now it has been perfectly ascertained, by the computations of Delambre on the Greenwich observations of the sun, that the length of the year has not been changed in consequence of the approach of that comet by any perceptible quantity, and thence Laplace has concluded that the mass of that comet is less than T^ of the mass of the earth.
Page 61 - The cause of this motion is shewn, by physical astronomy, to arise from the attraction of the sun and moon on the excess of matter at the equatoreal parts of the earth.
Page 172 - The phaenomena of a solar eclipse at a given place may be well understood by considering the apparent diameters of the sun and moon on the concave surface, and their distances as affected by parallax. When the apparent diameter of the sun is greater than that of the moon, the eclipse cannot be total, but it may be annular. From the tables we compute for the given place the time when the sun and moon are in conjunction, that is, have the same longitude. From the horizontal parallax of the moon, given...
Page 208 - What is the error of the best tables now in use ? hours, or one minute of space in two minutes of time. Therefore, if we make an error of one minute in observing the distance, we make an error of two minutes in time, or 30 miles of longitude at the equator. A single observation with the best sextant, may be liable to an error of more than half a minute ; but the accuracy of the result may be much increased by a mean of several observations taken to the east and west of the moon. The...