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Solving $ 2(2^x- 1) x^2 + (2^{x^2}-2)x = 2^{x+1} -2$

Mathematics Asked by Shad0w7 on December 3, 2021

I was doing the problem

Find all real solutions for $x$ in:

$$ 2(2^x- 1) x^2 + (2^{x^2}-2)x = 2^{x+1} -2$$

There was a hint, to prove that $2^{x} – 1$ has the same sign as $x$, although with basic math, if $2^0 – 1$ = 0, and x in this case = 0, The two expressions will have the same sign, so I am just puzzled on where to go next with this problem, any help would be welcome!

Messing around with basic values, I got $pm 1, 0$ as the answers, although I have not checked for extra solutions, and do not know how to prove these, as it was just basic guessing and checking with the three most basic numbers for solving equations.

2 Answers

Looks like you're in my class since this is the week that just ended. (on AoPS) If you got an extension, here's a hint as to my solution with some sign work.

Dividing both sides by $2$, we get $x^2(2^x-1)+x(2^{x^2-1}-1)=2^x-1$. Subtracting $2^x-1$ from both sides gives $(x^2-1)(2^x-1)+x(2^{x^2-1}-1)=0$. We can also note that for any $x>1$, all terms on the LHS of the equation $(x^2-1)(2^x-1)+x(2^{x^2-1}-1)=0$ are positive. For all $x<-1$, $x^2-1$ is positive, $2^x-1$ is negative, $x$ is negative, and $2^{x^2-1}-1$ is positive, so the whole expression is negative. Therefore, our solutions must be in the range $-1 leq x leq 1$.

This is not taken from the actual AoPS solution, it is entirely my own. Hope this helped!

Answered by OlympusHero on December 3, 2021

Now, for $xneq1$, $xneq0$ and $xneq-1$ rewrite our equation in the following form: $$frac{2^x-1}{x}+frac{2^{x^2-1}-1}{x^2-1}=0.$$ Can you end it now?

Answered by Michael Rozenberg on December 3, 2021

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