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Đề đúng \(3+\frac{a}{2b}+\frac{2b}{3c}+\frac{3c}{a}\ge a+2b+3c+\frac{1}{a}+\frac{1}{2b}+\frac{1}{3c}\) 

Ta thấy: 

\(a\cdot2b\cdot3c=1\) nên ta đặt \(a=\frac{y}{x};2b=\frac{z}{y};3c=\frac{x}{z}\)

Khi đó \(VT\ge VP\Leftrightarrow\frac{3xyz+x^3+y^3+z^3}{xyz}\)

\(\ge\frac{x^2y+y^2x+y^2z+z^2y+x^2z+z^2x}{xyz}\)

\(\Leftrightarrow3xyz+x^3+y^3+z^3-x^2y-y^2x-y^2z-z^2y-z^2x-x^2z\ge0\)

\(\Leftrightarrow x\left(x-y\right)\left(x-z\right)+y\left(y-z\right)\left(y-x\right)+z\left(z-x\right)\left(z-y\right)\ge0\)

Đúng theo Bđt Schur

Vậy Bđt đc chứng minh

\(BDT\Leftrightarrow\frac{6a+2b+3c+17}{1+6a}+\frac{6a+2b+3c+17}{1+2b}+\frac{6a+2b+3c+17}{1+3c}\ge18\)

\(\Leftrightarrow\left(6a+2b+3c+17\right)\left(\frac{1}{1+6a}+\frac{1}{1+2b}+\frac{1}{1+3c}\right)\ge18\)

Áp dụng BĐT Cauchy-Schwarz dạng Engel ta có:

\(\frac{1}{1+6a}+\frac{1}{1+2b}+\frac{1}{1+3c}\ge\frac{9}{6a+2b+3c+3}\)

\(\Rightarrow VT=\left(6a+2b+3c+17\right)\left(\frac{1}{1+6a}+\frac{1}{1+2b}+\frac{1}{1+3c}\right)\)

\(\ge\left(6a+2b+3c+17\right)\cdot\frac{9}{6a+2b+3c+3}\)

\(=\left(11+17\right)\cdot\frac{9}{11+3}=18=VP\)

\(M=\left(a-\frac{6}{a+1}\right)+\left(2b-\frac{3}{b+1}\right)+\left(3c-\frac{2}{c+1}\right)\)

\(M=\left(a+2b+3c\right)-6\left(\frac{1}{a+1}+\frac{1}{2b+2}+\frac{1}{3c+3}\right)\)

\(M\le6-\frac{6.\left(1+1+1\right)^2}{a+1+2b+2+3c+3}\)

\(M\le6-\frac{6.9}{6+6}=6-\frac{9}{2}=\frac{3}{2}\)

Đẳng thức xảy ra khi \(a=3;b=1;c=\frac{1}{3}\)

\(1-\frac{a}{a+1}\ge\frac{2b}{b+1}+\frac{3c}{c+1}\Leftrightarrow\frac{1}{a+1}\ge\frac{b}{b+1}+\frac{b}{b+1}+\frac{c}{c+1}+\frac{c}{c+1}+\frac{c}{c+1}\ge5\sqrt[5]{\frac{b^2c^3}{\left(b+1\right)^2\left(c+1\right)^3}}\)

Tương tự:

\(\frac{1}{b+1}\ge\frac{a}{a+1}+\frac{b}{b+1}+3.\frac{c}{c+1}\ge5\sqrt[5]{\frac{abc^3}{\left(a+1\right)\left(b+1\right)\left(c+1\right)^3}}\)

\(\Leftrightarrow\frac{1}{\left(b+1\right)^2}\ge25\sqrt[5]{\frac{a^2b^2c^6}{\left(a+1\right)^2\left(b+1\right)^2\left(c+1\right)^6}}\)

\(\frac{1}{c+1}\ge\frac{a}{a+1}+2.\frac{b}{b+1}+2.\frac{c}{c+1}\ge5\sqrt[5]{\frac{ab^2c^2}{\left(a+1\right)\left(b+1\right)^2\left(c+1\right)^2}}\)

\(\Leftrightarrow\frac{1}{\left(c+1\right)^3}\ge125\sqrt[5]{\frac{a^3b^6c^6}{\left(a+1\right)^3\left(b+1\right)^6\left(c+1\right)^6}}\)

Nhân vế với vế:

\(\frac{1}{\left(a+1\right)\left(b+1\right)^2\left(c+1\right)^3}\ge5^6\sqrt[5]{\frac{a^5b^{10}c^{15}}{\left(a+1\right)^5\left(b+1\right)^{10}\left(c+1\right)^{15}}}=\frac{5^6ab^2c^3}{\left(a+1\right)\left(b+1\right)^2\left(c+1\right)^3}\)

\(\Leftrightarrow ab^2c^3\le\frac{1}{5^6}\)

Dấu "=" xảy ra khi \(a=b=c=\frac{1}{5}\)

Lời giải:

BĐT cần chứng minh tương đương với:

\(\frac{bc}{\sqrt{5abc(3a+2b)}}+\frac{ac}{\sqrt{5abc(3b+2c)}}+\frac{ab}{\sqrt{5abc(3c+2a)}}\geq \frac{3}{5}(*)\)

Áp dụng BĐT AM-GM:

\(5abc(3a+2b)=5ab.(3ac+2bc)\leq \left(\frac{5ab+3ac+2bc}{2}\right)^2\)

\(\Rightarrow \frac{bc}{\sqrt{5abc(3a+2b)}}\geq \frac{2bc}{5ab+3ac+2bc}=\frac{2(bc)^2}{5ab^2c+3abc^2+2b^2c^2}\)

Hoàn toàn tương tự với các phân thức còn lại, cộng theo vế ta suy ra:

\(\sum \frac{bc}{\sqrt{5abc(3a+2b)}}\geq \sum \frac{2(bc)^2}{5ab^2c+3abc^2+2b^2c^2}(1)\)

Áp dụng BĐT Cauchy_Schwarz và AM-GM:

\(\sum \frac{2(bc)^2}{5ab^2c+3abc^2+2b^2c^2}\geq 2.\frac{(bc+ab+ac)^2}{2[(ab)^2+(bc)^2+(ca)^2+4abc(a+b+c)]}=\frac{(ab+bc+ac)^2}{(ab)^2+(bc)^2+(ca)^2+4abc(a+b+c)}\)

\(=\frac{(ab+bc+ac)^2}{(ab+bc+ac)^2+2abc(a+b+c)}\geq \frac{(ab+bc+ac)^2}{(ab+bc+ac)^2+\frac{2}{3}(ab+bc+ac)^2}=\frac{3}{5}(2)\)

Từ $(1);(2)$ suy ra $(*)$ đúng. BĐT được chứng minh.

Dấu "=" xảy ra khi $a=b=c$