Proof of an inequality involving different exponents I was asked the following interesting questio

Sattelhofsk

Sattelhofsk

Answered question

2022-06-15

Proof of an inequality involving different exponents
I was asked the following interesting question but I can not come up with a proof.
Let a , b , c be positive real numbers. Prove that
( ) a 3 b 3 + c 3 + b 3 a 3 + c 3 + c 3 a 3 + b 3 a 2 b 2 + c 2 + b 2 a 2 + c 2 + c 2 a 2 + b 2
One way to prove ( ) may be to consider the following function
f ( x ) = a x b x + c x + b x a x + c x + c x a x + b x
and prove that f ( x ) is a non-decreasing function on [ 2 , 3 ]. When we take its derivative, the formula looks quite tedious and we just can not continue on. So is there any better solution?

Answer & Explanation

Stevinivm

Stevinivm

Beginner2022-06-16Added 18 answers

I think the solution with derivative is very smooth:
f ( x ) = c y c a x ln a ( b x + c x ) a x ( b x ln b + c x ln c ) ( b x + c x ) 2 =
= c y c a x ( b x ( ln a ln b ) c x ( ln c ln a ) ) ( b x + c x ) 2 =
= c y c ( ln a ln b ) ( a x b x ( b x + c x ) 2 a x b x ( a x + c x ) 2 ) =
= c y c a x b x ( ln a ln b ) ( a x b x ) ( a x + b x + 2 c x ) ( a x + c x ) 2 ( b x + c x ) 2 0

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