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2023 IOQM/Problem 4

Revision as of 09:29, 25 October 2023 by Sansgankrsngupta (talk | contribs) (Solution1(Diophantine))

Problem

Let $x, y$ be positive integers such that \[x^{4}=(x-1)(y^{3}-23)-1\]

Find the maximum possible value of $x + y$.

Solution1(Diophantine)

$x^{4}=(x-1)(y^{3}-23)-1$, subtracting 1 on both sides we get $x^{4}- 1^{4}=(x-1)(y^{3}-23)-2$ factorizing the LHS we get


$(x^{2}+ 1)(x-1)(x+1) =(x-1)(y^{3}-23)-2$. Now divide the equation by $x-1$(considering that $x\neq 1$) to get \[(x^{2}+ 1)(x+1) = (y^{3}-23)-\frac{2}{x-1}\] Since $x$ and $y$ are integers, this implies $x-1$ divides 2, so possible values $x-1$ are -1, -2, 1, 2

This means $x$= 0, -1(Rejected as $x$ is a positive integer), 2, 3. so $x$ =2 or 3. Now checking for each value, we find that when $x$=2, there is no integral value of $y$. When $x$= 3, $y$ evaluates to 4 which is the only possible positive integral solution.

So, $x+y$= 3+ 4 = $\boxed{7}$

~SANSGANKRSNGUPTA(inspired by PJ AND AM sir)

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