Unsatisfied 300 years old maths problem

Algebra Level pending

If x , y , z x,y, z are positive integers and , x n + y n = z n x^{n} + y^{n} = z^{n}

Can you determine the value of 'n' from the alongside options ?

Note : A mathematician was recently awarded the Abel Prize for proving the constraint on n.

n < 3 n < 9 n = 2 n = 1

Bhagyashri Arote by Bhagyashri Arote , 19, India

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1 solution

Of course , the faous proof of Fermat's last theorem by Andrew Wiles States the equation has no integer. Solution if n>2.

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If the n<3 condition is true that means n=1 is also true. This also comes under this condition.

Prachee Shitole - 3 years, 11 months ago

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n<3 is equivalent to n=1,2 . so other options are partial answers

Aditya Narayan Sharma - 3 years, 11 months ago

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