Plane and Spherical Trigonometry |
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Page 9
... Dividing each term by OP2 gives MP \ 2 OM 2 = 1 . ( UP ) 2 + ( 07 ) 2 = OP Whence , by definition , OP ( sin XOP ) 2 + ( cos XOP ) 2 = 1 or as it is usually written , letting α = Z XOP , sin2 a + cos2 α = 1 . 11. Tangent and Secant ...
... Dividing each term by OP2 gives MP \ 2 OM 2 = 1 . ( UP ) 2 + ( 07 ) 2 = OP Whence , by definition , OP ( sin XOP ) 2 + ( cos XOP ) 2 = 1 or as it is usually written , letting α = Z XOP , sin2 a + cos2 α = 1 . 11. Tangent and Secant ...
Page 33
... divide 100.1089 successively by 10 we find 100.1089-110- = 10-0.8911 = .1285 , 10-1.8911 = .01285 , 10-2.8911 ... dividing one logarithm by another . † This form , 9.1089-10 , is perfectly convenient as long as the opera- tions to be ...
... divide 100.1089 successively by 10 we find 100.1089-110- = 10-0.8911 = .1285 , 10-1.8911 = .01285 , 10-2.8911 ... dividing one logarithm by another . † This form , 9.1089-10 , is perfectly convenient as long as the opera- tions to be ...
Page 38
... divide 5.0592 10 by three we first add and subtract 20. Also , in finding five sixths of the cologarithm of .03194 , we first multiply by 5 and then divide by 6 , in order that any error arising from inexact division by 6 may not be ...
... divide 5.0592 10 by three we first add and subtract 20. Also , in finding five sixths of the cologarithm of .03194 , we first multiply by 5 and then divide by 6 , in order that any error arising from inexact division by 6 may not be ...
Page 46
... divide DC OA by the common line OC . Similarly with EA and OA we use CA. Thus we may write DC OC EA CA sin ( x + y ) = + OF OC OA CA OA In the same way OB OD - BD OD EC sin ( x + y ) = sin x cos y + cos x sin y . 46 [ IV , 37 PLANE ...
... divide DC OA by the common line OC . Similarly with EA and OA we use CA. Thus we may write DC OC EA CA sin ( x + y ) = + OF OC OA CA OA In the same way OB OD - BD OD EC sin ( x + y ) = sin x cos y + cos x sin y . 46 [ IV , 37 PLANE ...
Page 52
... Dividing the last two equations one by the other we obtain x 1 COS X tan2 2 1 + cos x ( 18 ) x 1 + cos x cot2 2 1- COS X Thus we have equations which give the sine , cosine , tangent , and cotangent of one half an angle in terms of the ...
... Dividing the last two equations one by the other we obtain x 1 COS X tan2 2 1 + cos x ( 18 ) x 1 + cos x cot2 2 1- COS X Thus we have equations which give the sine , cosine , tangent , and cotangent of one half an angle in terms of the ...
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Common terms and phrases
13 co-function 15 read 9 Prop abscissa angle of elevation angle XOP antilogarithms axis base bottom c d L Ctn characteristic colog cologarithm column COMMON LOGARITHMS computation cos² cotangent Ctn c d decimal places decimal point distance equations Example exponent feet Find the value formulæ hence L Cos d L Sin d law of cosines law of sines log cot log csc log sin Log10 Value Log10 loga loge Logo Value mantissa miles multiple negative OA OA opposite ordinate perpendicular polar triangle positive quadrant radians radius read as printed read co-function result right triangles sec² significant figures sin b sin sin² SOLUTION OF RIGHT spherical triangle tabular difference tan-¹ tan² tangent terminal side theorem tion trigonometric functions Va² Value Log10 Value Value Logo Whence write zero
Popular passages
Page 71 - In the same way it may be proved that a : b : : sin. A : sin. B, and these two proportions may be written a : 6 : c : : sin. A : sin. B : sin. C. THEOREM III. t8. 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. By Theorem II. we have a : b : : sin. A : sin. B.
Page 151 - I. The logarithm of a product is equal to the sum of the logarithms of the factors : log ab = log a + log b. This follows from the fact that if 10¡ = a and lO1- = 6, 101+£ = a • b.
Page 98 - The law of sines states that in any spherical triangle the sines of the sides are proportional to the sines of their opposite angles: sin a _ sin b __ sin c _ sin A sin B sin C...
Page 151 - The characteristic of a number less than 1 is found by subtracting from 9 the number of ciphers between the decimal point and the first significant digit, and writing — 10 after the result.
Page 34 - The logarithm of a quotient is equal to the logarithm of the dividend minus the logarithm of the divisor.
Page 129 - The spherical excess of any spherical polygon is equal to the excess of the sum of its angles over two right angles taken as many times as the polygon has sides, less two.
Page xx - The proportional parts are stated in full for every tenth at the right-hand side The logarithm of any number of four significant figures can be read directly by addN...
Page 35 - The logarithm of a root of a number is equal to the logarithm of the number divided by the index of the root.
Page 97 - But a' = 180° - a, c' = 180° - c, and CAB' = 180° - A Hence cos (180° — a) =cos b cos (180° - c) + sin b sin (180° - c) cos (180a- A)9 or, cos a = cos b cos с -f- sin b sin с cos A, which- proves the law of cosines for all cases.
Page 32 - ... consists of two parts, an integral part and a decimal part. The integral part is called the characteristic of the logarithm, and may be either positive or negative.