Difference between revisions of "1980 AHSME Problems/Problem 18"

Latest revision as of 20:45, 18 June 2021

Problem

If $b>1$ , $\sin x>0$ , $\cos x>0$ , and $\log_b \sin x = a$ , then $\log_b \cos x$ equals

$\text{(A)} \ 2\log_b(1-b^{a/2}) ~~\text{(B)} \ \sqrt{1-a^2} ~~\text{(C)} \ b^{a^2} ~~\text{(D)} \ \frac 12 \log_b(1-b^{2a}) ~~\text{(E)} \ \text{none of these}$

Solution

$\log_b \sin x = a$ $b^a=\sin x$ $\log_b \cos x=c$ $b^c=\cos x$ Since $\sin^2x+\cos^2x=1$ , $(b^c)^2+(b^a)^2=1$ $b^{2c}+b^{2a}=1$ $b^{2c}=1-b^{2a}$ $\log_b (1-b^{2a}) = 2c$ $c=\boxed{\text{(D)} \ \frac 12 \log_b(1-b^{2a})}$

-aopspandy

1980 AHSME (Problems • Answer Key • Resources)
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@@ Line 6: / Line 6: @@
 == Solution ==
-<math>\fbox{}</math>
+<cmath>\log_b \sin x = a</cmath>
+<cmath>b^a=\sin x</cmath>
+<cmath>\log_b \cos x=c</cmath>
+<cmath>b^c=\cos x</cmath>
+Since <math>\sin^2x+\cos^2x=1</math>,
+<cmath>(b^c)^2+(b^a)^2=1</cmath>
+<cmath>b^{2c}+b^{2a}=1</cmath>
+<cmath>b^{2c}=1-b^{2a}</cmath>
+<cmath>\log_b (1-b^{2a}) = 2c</cmath>
+<cmath>c=\boxed{\text{(D)} \ \frac 12 \log_b(1-b^{2a})}</cmath>
+-aopspandy
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Difference between revisions of "1980 AHSME Problems/Problem 18"

Latest revision as of 20:45, 18 June 2021

Problem

Solution

See also