If $\frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}}$ $(a^n + b^n)/(a^(n-1) + b^(n-1))$ is the G.M between a & b find the value of'n'?

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If $\frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}}$ $(a^n + b^n)/(a^(n-1) + b^(n-1))$ is the G.M between a & b find the value of'n'?

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Answer 1 · 2017-08-20T20:58:54

$a = b$ $a=b$ and $n$ $n$ doesn't matter.

Explanation:

The geometric mean of $x$ $x$ and $y$ $y$ is given by $\sqrt{x y}$ $sqrt(xy)$ .

Thus,

$\sqrt{a b} = \frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}}$ $sqrt(ab)=(a^n+b^n)/(a^(n-1)+b^(n-1))$

Cross multiplying yields:

${(a b)}^{\frac{1}{2}} (a^{n - 1} + b^{n - 1}) = a^{n} + b^{n}$ $(ab)^(1/2)(a^(n-1)+b^(n-1))=a^n+b^n$

$a^{n - \frac{1}{2}} b^{\frac{1}{2}} + a^{\frac{1}{2}} b^{n - \frac{1}{2}} = a^{n} + b^{n}$ $a^(n-1/2)b^(1/2)+a^(1/2)b^(n-1/2)=a^n+b^n$

$a^{n} \sqrt{\frac{b}{a}} + b^{n} \sqrt{\frac{a}{b}} = a^{n} + b^{n}$ $a^nsqrt(b/a)+b^nsqrt(a/b)=a^n+b^n$

Comparing coefficients, we see that $\sqrt{\frac{a}{b}} = 1$ $sqrt(a/b)=1$ and $\sqrt{\frac{b}{a}} = 1$ $sqrt(b/a)=1$ . Thus, $a = b$ $a=b$ and $n$ $n$ is irrelevant.

Answer 2 · 2017-08-20T21:02:17

$n = \frac{1}{2}$ $n=1/2$

Explanation:

Putting $n = \frac{1}{2}$ $n = 1/2$ we find:

$\frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}} = \frac{\sqrt{a} + \sqrt{b}}{\frac{1}{\sqrt{a}} + \frac{1}{\sqrt{b}}}$ $(a^n+b^n)/(a^(n-1)+b^(n-1)) = (sqrt(a)+sqrt(b))/(1/sqrt(a)+1/sqrt(b))$

$\frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}} = \frac{\sqrt{a} + \sqrt{b}}{(\frac{\sqrt{a} + \sqrt{b}}{\sqrt{a} \sqrt{b}})}$ $color(white)((a^n+b^n)/(a^(n-1)+b^(n-1))) = (sqrt(a)+sqrt(b))/(((sqrt(a)+sqrt(b))/(sqrt(a)sqrt(b))))$

$\frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}} = \sqrt{a} \sqrt{b}$ $color(white)((a^n+b^n)/(a^(n-1)+b^(n-1))) = sqrt(a)sqrt(b)$

$\frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}} = \sqrt{a b}$ $color(white)((a^n+b^n)/(a^(n-1)+b^(n-1))) = sqrt(ab)$

i.e. the geometric mean of $a$ $a$ and $b$ $b$ .

Answer 3 · 2017-08-20T21:07:34

$n = \frac{1}{2}$ $n = 1/2$

Explanation:

Assuming that G.M stands for geometric mean, we have

$\sqrt{a b} = \frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}}$ $sqrt(a b) = (a^n + b^n)/(a^(n - 1) + b^(n - 1))$ so squaring and simplifying we have

$a b = \frac{a^{2 n} + 2 a^{n} b^{n} + b^{2 n}}{a^{2 n - 2} + 2 a^{n - 1} b^{n - 1} + b^{2 n - 2}}$ $ab = (a^(2n)+2 a^n b^n + b^(2n))/(a^(2n-2)+2a^(n-1)b^(n-1)+b^(2n-2))$ or

$b a^{2 n - 1} + 2 a^{n} b^{n} + a b^{2 n - 1} = a^{2 n} + 2 a^{n} b^{n} + b^{2 n}$ $b a^(2n-1)+2a^nb^n+a b^(2n-1)=a^(2n)+2 a^n b^n + b^(2n)$ or

$\frac{b}{a} a^{2 n} + \frac{a}{b} b^{2 n} = a^{2 n} + b^{2 n}$ $b/a a^(2n)+a/b b^(2n) = a^(2n)+b^(2n)$ or

$\frac{b - a}{a} a^{2 n} - \frac{b - a}{b} b^{2 n} = 0$ $(b-a)/a a^(2n)-(b-a)/b b^(2n) = 0$

Now assuming $a \neq b$ $a ne b$

$a^{2 n} b - a b^{2 n} = 0$ $a^(2n)b-ab^(2n) = 0$ or

${(\frac{a}{b})}^{2 n} = \frac{a}{b} \Rightarrow 2 n = 1 \Rightarrow n = \frac{1}{2}$ $(a/b)^(2n)= a/b rArr 2n=1 rArr n = 1/2$

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If $\frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}}$ $(a^n + b^n)/(a^(n-1) + b^(n-1))$ is the G.M between a & b find the value of'n'?

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If $\frac{a^{n} + b^{n}}{a^{n - 1} + b^{n - 1}}$ $(a^n + b^n)/(a^(n-1) + b^(n-1))$ is the G.M between a & b find the value of'n'?