The Analyst: A Monthly Journal of Pure and Applied Mathematics, Volumes 3-4Pierson & Blair, 1876 |
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Page 35
... common quadratic . Here x = a + bx2 ; by ' form- x = a + ba3 + 2b3a3 + 5b3a * + 14b * a3 + ... ... ula ( 6 ) , The ... logarithm . In the primary equation , t = 0 , x = 0 + e12 . By ( 6 ) , 0.2 ( 0.1n ) " - 1 x = 0 + 1 + + 2 ! n ! ... + = ...
... common quadratic . Here x = a + bx2 ; by ' form- x = a + ba3 + 2b3a3 + 5b3a * + 14b * a3 + ... ... ula ( 6 ) , The ... logarithm . In the primary equation , t = 0 , x = 0 + e12 . By ( 6 ) , 0.2 ( 0.1n ) " - 1 x = 0 + 1 + + 2 ! n ! ... + = ...
Page 95
... log tan 20 ° equal 9.651066 , log sin 50 ° = 9.884254 , log 10 = 1 , and log 171072 = 5.233188 . 113. BY MARCUS BAKER , U. S. C. S. , WASHINGTON , D. C. - The sides of a plane triangle are in arithmetical progression , common difference ...
... log tan 20 ° equal 9.651066 , log sin 50 ° = 9.884254 , log 10 = 1 , and log 171072 = 5.233188 . 113. BY MARCUS BAKER , U. S. C. S. , WASHINGTON , D. C. - The sides of a plane triangle are in arithmetical progression , common difference ...
Page 122
... log tan 20 ° equal 9.651066 , log sin 50 ° 9.884254 , log 10 = 1 , and log 171072 5.233188 . " = SOLUTION BY ... common difference d , and the angle opposite the least side is one third of the angle opposite the greatest side ...
... log tan 20 ° equal 9.651066 , log sin 50 ° 9.884254 , log 10 = 1 , and log 171072 5.233188 . " = SOLUTION BY ... common difference d , and the angle opposite the least side is one third of the angle opposite the greatest side ...
Page 172
... log r = 1 log a , and r is the number n whose logarithm is of the logarithm of a . Common logarithms may be used in this crse . - n 2. Put rx = " ya , where r is the integral part of the root ; then , using Napierian logarithms , 2/8 log ( ...
... log r = 1 log a , and r is the number n whose logarithm is of the logarithm of a . Common logarithms may be used in this crse . - n 2. Put rx = " ya , where r is the integral part of the root ; then , using Napierian logarithms , 2/8 log ( ...
Page 4
... common value of p : 4 ′ ( x , y , p ) = O , where ' = do dp hence eliminating p between these equations we have the ... log ( 1 + x ) = BY PROF . D. TROWBRIDGE , WATERBURGH , N. Y. - 23 x − x2 + x3 — ‡ æ3 , . . . ( 1 ) ... log ( 1 ...
... common value of p : 4 ′ ( x , y , p ) = O , where ' = do dp hence eliminating p between these equations we have the ... log ( 1 + x ) = BY PROF . D. TROWBRIDGE , WATERBURGH , N. Y. - 23 x − x2 + x3 — ‡ æ3 , . . . ( 1 ) ... log ( 1 ...
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5th degree a₁ algebraic ANALYST angle ARTEMAS MARTIN assumed axis b₁ C₁ circular coefficients common logarithms constant curve denote determine differential distance E. B. SEITZ ellipse Elliptic Functions equal equation expression factor formula function given circle gives hence hyperbola integral intersection inverse Lagrange's Theorem locus logarithms method multiply observations orbital orbital force ORSON PRATT oxen parabola parallel perpendicular plane points at infinity position probable error quadrics quadrilateral radius ratio reduce represent result roots sides SOLUTION BY PROF SOLUTIONS of problems sphere square substitution surface tangent Taylor's Theorem Theorem tion triangle UNION SPRINGS unknown quantities values velocity whence zero