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$=log_2e - log_4e+log_8e-log_{16}e+log_{32}e...$

$=log_2e-log_{2^2}e+log_{2^3}e-log_{2^4}e...$

$=log_2e-\frac{1}{2}log_{2}e+\frac{1}{3}log_{2}e-\frac{1}{4}log_{2}e..$

On taking out $log_2e$ common, we get$:$

$=log_2e(1-\frac{1}{2}+\frac{1}{3}-\frac{1}{4}+...) $$ ---> (1)$

Now, since $log(1+x) = x = \frac{x^2}{2} + \frac{x^3}{3}-...$ $--->(2)$

Here, $x = 1$

From $(1)$ and $(2)$, we get $:$

$log_e2 * log_2e$ = $1$

Therefore option $(c)$ is the correct answer.
edited by
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And=1 using $log_{e}(1+x)=x-x^{2}/2+.........$

Apply formule $\log_{b^{n}}a=1/n*log_{b} a$

 

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