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I'm trying to prove that the triangle of largest area for a given perimeter is equilateral, but I'm having some difficulties.

I've done 2 different proofs for a similar problem but for rectangles - one proof uses the AM-GM mean inequality and the other uses algebra and a little calculus.

I can't manage to use a similar method for the triangle problem - with the algebra/calculus method, we only have 2 equations (one for perimeter, one for area) but 3 unknowns (each side length of triangle) so it looked like I was going to have to do it with respect to 2 different variables at the same time.

Can anyone point me in the right direction as to how to approach this?

Thanks

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    @Taimur: You are welcome! I hope you have solved the problem by yourself.2012-12-08

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Using Heron's formula, $\triangle^2=s(s-a)(s-b)(s-c) $

Using $AM\ge GM$, $\frac{s-a+s-b+s-c}3\ge \{(s-a)(s-b)(s-c)\}^\frac13$

or $(s-a)(s-b)(s-c)\le (\frac s3)^3$ the equality occurs when $s-a=s-b=s-c$ ie when $a=b=c$

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    You cannot just fix $R$2012-12-08