Difference between revisions of "1982 AHSME Problems/Problem 13"
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− | == Problem | + | == Problem == |
If <math>a>1, b>1</math>, and <math>p=\frac{\log_b(\log_ba)}{\log_ba}</math>, then <math>a^p</math> equals | If <math>a>1, b>1</math>, and <math>p=\frac{\log_b(\log_ba)}{\log_ba}</math>, then <math>a^p</math> equals | ||
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\textbf {(C)}\ \log_ab \qquad | \textbf {(C)}\ \log_ab \qquad | ||
\textbf {(D)}\ \log_ba \qquad | \textbf {(D)}\ \log_ba \qquad | ||
− | \textbf {(E)}\ a^{\log_ba} </math> | + | \textbf {(E)}\ a^{\log_ba} </math> |
==Solution 1== | ==Solution 1== |
Revision as of 10:07, 13 May 2024
Problem
If , and , then equals
Solution 1
p (log b a) = log b (log b a)
log b (a p) =log b (logb a)
ap = log b a
Solution 2
Notice that strongly resembles the chain rule. Recall that . Taking the base on the RHS to be , we get that . Raising to both sides, we get that
~ cxsmi