A Treatise on Plane and Spherical Trigonometry: With Their Most Useful Practical Applications |
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Page 181
... sun and stars appear to perform their daily revo- lutions ( p ) . The north and south poles of the celestial sphere , are the two extremities of its axis ; and the points lying directly under them , on the terrestrial sphere , are the ...
... sun and stars appear to perform their daily revo- lutions ( p ) . The north and south poles of the celestial sphere , are the two extremities of its axis ; and the points lying directly under them , on the terrestrial sphere , are the ...
Page 182
... sun appears to perform his annual revo- lution through the heavens . This circle is divided into twelve equal parts , of 30 degrees each , called signs , the names and characters of which are as follows : Aries N. ရှာ Taurus 8 Gemini ...
... sun appears to perform his annual revo- lution through the heavens . This circle is divided into twelve equal parts , of 30 degrees each , called signs , the names and characters of which are as follows : Aries N. ရှာ Taurus 8 Gemini ...
Page 184
... sun appears in either of the equinoctial points the days and nights are equal , or 12 hours each , all over the world ; which happens about the 21st of March and the 22d of Septem- ber ; the former being called the vernal equinox , and ...
... sun appears in either of the equinoctial points the days and nights are equal , or 12 hours each , all over the world ; which happens about the 21st of March and the 22d of Septem- ber ; the former being called the vernal equinox , and ...
Page 185
... sun rises and sets when the days and nights are equal . The latitude of any celestial object , is its distance north or south from the ecliptic , as measured on a cir- cle of longitude passing through its centre . The latitude of any ...
... sun rises and sets when the days and nights are equal . The latitude of any celestial object , is its distance north or south from the ecliptic , as measured on a cir- cle of longitude passing through its centre . The latitude of any ...
Page 186
... sun , or a planet . Parallax in altitude is the angle under which the semidiameter of the earth would appear if seen ob- liquely from the centre of the sun , or a planet ( w ) . ( v ) As the of depression , or dip of the horizon ...
... sun , or a planet . Parallax in altitude is the angle under which the semidiameter of the earth would appear if seen ob- liquely from the centre of the sun , or a planet ( w ) . ( v ) As the of depression , or dip of the horizon ...
Other editions - View all
A Treatise on Plane and Spherical Trigonometry: With Their Most Useful ... John Bonnycastle No preview available - 2014 |
A Treatise on Plane and Spherical Trigonometry: With Their Most Useful ... John Bonnycastle No preview available - 2018 |
Common terms and phrases
A B C acute adjacent angle Aldebaran ambiguous azimuth centre complement cos² cosec cosine describe a circle diff difference distance draw the diameters ecliptic equal equation Example extent will reach find the rest former formulæ given leg given side Given two sides greater than 90 Greenwich height horizon hypothenusal angle incd latitude leg BC less than 90 Log sine logarithms longitude meridian moon's oblique oblique-angled spherical triangle observed obtuse opposite angle parallax perpendicular plane triangle point of aries points pole quadrantal spherical triangle radius required to find right ascension right-angled spherical triangle RULE scale of chords secant semitangent side AC sides and angles sin a sin sin² sines sphere spherical angle spherical triangle ABC spherical trigonometry star subtracted sun's declination supplement tangents THEOREM three angles three sides trigonometry whence
Popular passages
Page xxxi - The circumference of every circle is supposed to be divided into 360 equal parts, called degrees ; each degree into 60 equal parts, called minutes ; and each minute into 60 equal parts, called seconds.
Page 6 - ... for the second term, and the greater for the first ; and in either case multiply the second and third terms together, and divide the product by the first for the answer, which will always be of the same denomination as the third term.
Page 329 - C' (89) (90) (91) (92) (93) 112. In any plane triangle, the sum of any two sides is to their difference as the tangent of half the sum of the opposite angles is to the tangent of half their difference.
Page 363 - The sum of any two sides of a spherical triangle is greater than the third side, and their difference is less than the third side.
Page vii - The rectangle contained by the diagonals of a quadrilateral inscribed in a circle is equal to the sum of the two rectangles contained by its opposite sides.
Page 13 - To find the other side: — as the sum of the two given sides is to their difference, so is the tangent of half the sum of their opposite angles to the tangent of half their difference...
Page 17 - As the base or sum of the segments Is to the sum of the other two sides, So is the difference of those sides To the difference of the segments of the base.
Page 2 - SECANT of an arc, is a straight line drawn from the centre, through one end of the arc, and extended to the tangent which is drawn from the other end.
Page 181 - The AMPLITUDE of any object in the heavens is an arc of the horizon, contained between the centre of the object when rising, or setting, and the east or west points of the horizon. Or, it is...
Page 75 - Having given two sides and an angle opposite to one of them, or two angles and a side opposite to one of them.