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Can $2^n$ + $2^m$ be expressed as $2^x$ where $x$ is a function of $n$ & $m$?

I'm sure that this would require logarithms to find the answer but my maths is very rusty. Can anyone point me at the solution please? If this can't be done can someone explain why not please?

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    @peoplepower That's a really clever idea for a proof. A+.2012-12-03

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Without loss of generality, we can take $n\ge m$

Let $r=n-m,$ so $r\ge0$

$2^n+2^m=2^m(1+2^r)$ will is odd if $r>0$

So, $r=0,$ consequently, $n=m, 2^n+2^m=2\cdot 2^m=2^{m+1}$

More generally, $a^{m+r}+a^m=a^m(1+a^r)$ where $a,m,r$ are natural numbers

But $(1+a^r,a)=1$ if $r>0$

So, $r=0, a^{m+r}+a^m=2a^m$

If $a^x=2a^m,a^{x-m}=2\implies a=2,x=m+1$