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a)\(S=\dfrac{a+b}{c}+\dfrac{b+c}{a}+\dfrac{c+a}{b}=\left(\dfrac{a}{c}+\dfrac{c}{a}\right)+\left(\dfrac{b}{a}+\dfrac{a}{b}\right)+\left(\dfrac{c}{b}+\dfrac{b}{c}\right)\)

Áp dụng BĐT cosi:

\(\dfrac{a}{c}+\dfrac{c}{a}\ge2\sqrt{\dfrac{ac}{ca}}=2\)

\(\dfrac{a}{b}+\dfrac{b}{c}\ge2\)

\(\dfrac{b}{c}+\dfrac{c}{b}\ge2\)

=>S\(\ge\)6

Dấu = xảy ra khi và chỉ khi \(\left\{{}\begin{matrix}\dfrac{a}{c}=\dfrac{c}{a}\\\dfrac{a}{b}=\dfrac{b}{a}\\\dfrac{c}{b}=\dfrac{b}{c}\end{matrix}\right.\)<=>a=b=c

b)S\(\ge\)6

=>GTNN của S=6 xảy ra khi a=b=c

làm rõ \(\sum_{cyc}\frac{a}{a+b}-\frac{3}{2}=\sum_{cyc}\left(\frac{a}{a+b}-\frac{1}{2}\right)=\sum_{cyc}\frac{a-b}{2(a+b)}\)

\(=\sum_{cyc}\frac{(a-b)(c^2+ab+ac+bc)}{2\prod\limits_{cyc}(a+b)}=\sum_{cyc}\frac{c^2a-c^2b}{2\prod\limits_{cyc}(a+b)}\)

\(=\sum_{cyc}\frac{a^2b-a^2c}{2\prod\limits_{cyc}(a+b)}=\frac{(a-b)(a-c)(b-c)}{2\prod\limits_{cyc}(a+b)}\geq0\) (đúng)

ok thỏa thuận rồi tui làm nửa sau thui nhé :D

Đặt \(a^2=x;b^2=y;c^2=z\) thì ta có:

\(VT=\sqrt{\dfrac{x}{x+y}}+\sqrt{\dfrac{y}{y+z}}+\sqrt{\dfrac{z}{x+z}}\)

Lại có: \(\sqrt{\dfrac{x}{x+y}}=\sqrt{\dfrac{x}{\left(x+y\right)\left(x+z\right)}\cdot\sqrt{x+z}}\)

Tương tự cộng theo vế rồi áp dụng BĐT C-S ta có:

\(VT^2\le2\left(x+y+z\right)\left[\dfrac{x}{\left(x+y\right)\left(x+z\right)}+\dfrac{y}{\left(y+z\right)\left(y+x\right)}+\dfrac{z}{\left(z+x\right)\left(z+y\right)}\right]\)

\(\Leftrightarrow VT^2\le\dfrac{4\left(x+y+z\right)\left(xy+yz+xz\right)}{\left(x+y\right)\left(y+z\right)\left(x+z\right)}\)

Vì \(VP^2=\dfrac{9}{2}\) nên cần cm \(VT\le \frac{9}{2}\)

\(\Leftrightarrow9\left(x+y\right)\left(y+z\right)\left(x+z\right)\ge8\left(x+y+z\right)\left(xy+yz+xz\right)\)

Can you continue

3/ Áp dụng bất đẳng thức AM-GM, ta có :

\(\dfrac{a^2}{b^2}+\dfrac{b^2}{c^2}\ge2\sqrt{\dfrac{\left(ab\right)^2}{\left(bc\right)^2}}=\dfrac{2a}{c}\)

\(\dfrac{b^2}{c^2}+\dfrac{c^2}{a^2}\ge2\sqrt{\dfrac{\left(bc\right)^2}{\left(ac\right)^2}}=\dfrac{2b}{a}\)

\(\dfrac{c^2}{a^2}+\dfrac{a^2}{b^2}\ge2\sqrt{\dfrac{\left(ac\right)^2}{\left(ab\right)^2}}=\dfrac{2c}{b}\)

Cộng 3 vế của BĐT trên ta có :

\(2\left(\dfrac{a^2}{b^2}+\dfrac{b^2}{c^2}+\dfrac{c^2}{a^2}\right)\ge2\left(\dfrac{a}{b}+\dfrac{b}{c}+\dfrac{c}{a}\right)\)

\(\Leftrightarrow\dfrac{a^2}{b^2}+\dfrac{b^2}{c^2}+\dfrac{c^2}{a^2}\ge\dfrac{a}{b}+\dfrac{b}{c}+\dfrac{c}{a}\left(\text{đpcm}\right)\)

Bài 1:

Áp dụng BĐT AM-GM ta có:

\(\frac{1}{a^2+bc}+\frac{1}{b^2+ac}+\frac{1}{c^2+ab}\leq \frac{1}{2\sqrt{a^2.bc}}+\frac{1}{2\sqrt{b^2.ac}}+\frac{1}{2\sqrt{c^2.ab}}=\frac{\sqrt{ab}+\sqrt{bc}+\sqrt{ac}}{2abc}\)

Tiếp tục áp dụng BĐT AM-GM:

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

Do đó:

\(\frac{1}{a^2+bc}+\frac{1}{b^2+ac}+\frac{1}{c^2+ab}\leq \frac{\sqrt{ab}+\sqrt{bc}+\sqrt{ca}}{2abc}\leq \frac{a+b+c}{2abc}\) (đpcm)

Dấu "=" xảy ra khi $a=b=c$

Lời giải:
Áp dụng BĐT Cauchy-Schwarz và AM-GM ta có:

\(\text{VT}=\frac{1}{a}+\frac{1}{b}+\frac{1}{c}+abc(\frac{1}{a}+\frac{1}{b}+\frac{1}{c})+\frac{a}{b}+\frac{b}{c}+\frac{c}{a}\)

\(=\frac{1}{a}+\frac{1}{b}+\frac{1}{c}+(ab+bc+ac)+\frac{a^2}{ab}+\frac{b^2}{bc}+\frac{c^2}{ac}\)

\(\geq \frac{1}{a}+\frac{1}{b}+\frac{1}{c}+(ab+bc+ac)+\frac{(a+b+c)^2}{ab+bc+ac}\)

\(\geq \frac{1}{a}+\frac{1}{b}+\frac{1}{c}+2\sqrt{(ab+bc+ac).\frac{(a+b+c)^2}{ab+bc+ac}}\)

\(=\frac{1}{a}+\frac{1}{b}+\frac{1}{c}+2(a+b+c)=\frac{1}{a}+\frac{1}{b}+\frac{1}{c}+a+b+c+(a+b+c)\)

\(\geq 6\sqrt[6]{\frac{1}{a}.\frac{1}{b}.\frac{1}{c}.a.b.c}+(a+b+c)=6+a+b+c\)

Ta có đpcm

Dấu "=" xảy ra khi $a=b=c=1$

Áp dụng bđt Cauchy-Schwarz:

\(\dfrac{1}{a}+\dfrac{1}{b}\ge\dfrac{\left(1+1\right)^2}{a+b}=\dfrac{4}{a+b}\)

\(\dfrac{1}{b}+\dfrac{1}{c}\ge\dfrac{\left(1+1\right)^2}{b+c}=\dfrac{4}{b+c}\)

\(\dfrac{1}{c}+\dfrac{1}{a}\ge\dfrac{\left(1+1\right)^2}{c+a}=\dfrac{4}{c+a}\)

Cộng theo vế và rút gọn suy ra đpcm

\("="\Leftrightarrow a=b=c\)