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mn ơi giúp e

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mn ơi giúp e

Áp dụng BĐT Cauchy-Schwarz dạng Engel ta có:\(F=\frac{a}{1+b-a}+\frac{b}{1+c-b}+\frac{c}{1+a-c}\)

\(=\frac{a}{2b+c}+\frac{b}{2c+a}+\frac{c}{2a+b}\)

\(=\frac{a^2}{2ab+ac}+\frac{b^2}{2bc+ab}+\frac{c^2}{2ac+bc}\)

\(\ge\frac{\left(a+b+c\right)^2}{2ab+ac+2bc+ab+2ac+bc}=\frac{\left(a+b+c\right)^2}{3\left(ab+bc+ca\right)}\)

\(\ge\frac{\left(a+b+c\right)^2}{\left(a+b+c\right)^2}=1\) khi \(a=b=c=\frac{1}{3}\)

Ta có: \(ab\le\frac{\left(a+b\right)^2}{4}\Rightarrow\left(a+b\right)^2\ge4\Rightarrow a+b\ge2\)

Và \(a^3+b^3=\left(a+b\right)\left(a^2-ab+b^2\right)\ge ab\left(a+b\right)\ge2\)

Áp dụng BĐT AM-GM ta có:

\(\frac{a^3}{b+1}=a^3-\frac{a^3b}{b+1}\ge a^3-\frac{a^3b}{2\sqrt{b}}=a^3-\frac{a^3\sqrt{b}}{2}\)

Tương tự cho ta cũng có:\(\frac{b^3}{a+1}\ge b^3-\frac{b^3\sqrt{a}}{2}\)

\(\Rightarrow Q\ge a^3+b^3-\frac{a^3\sqrt{b}+b^3\sqrt{a}}{2}\ge2-\frac{a^3\sqrt{b}+b^3\sqrt{a}}{2}\left(1\right)\)

TIếp tục xài AM-GM: \(\sqrt{b}\le\frac{b+1}{2}\Rightarrow a^3\sqrt{b}=\frac{a^3b+a^3}{2}\)

\(\Rightarrow\frac{a^3\sqrt{b}+b^3\sqrt{a}}{2}\le\frac{\frac{a^3b+a^3}{2}+\frac{ab^3+b^3}{2}}{2}=\frac{a^3b+ab^3+a^3+b^3}{4}\)

\(\Rightarrow2-\frac{a^3\sqrt{b}+b^3\sqrt{a}}{2}\ge2-\frac{a^3b+ab^3+a^3+b^3}{4}\)

Cần chứng minh \(2-\frac{a^3b+ab^3+a^3+b^3}{4}\ge1\)\(\Leftrightarrow\frac{a^3b+ab^3+a^3+b^3}{4}\ge1\)

\(\Leftrightarrow a^3b+ab^3+a^3+b^3\ge4\Leftrightarrow a^3b+ab^3\ge2\) vì \(a^3+b^3\ge2\)

\(\Leftrightarrow\left(ab\right)^2\left(a+b\right)\ge2\) đúng vì ab=1 và \(a+b\ge2\)

\(\Rightarrow Q_{Min}=2-\frac{a^3\sqrt{b}+b^3\sqrt{a}}{2}\ge2-1=1\)

Khi a=b=1