\(\dfrac{a^3}{b^3}+\dfrac{a^3}{b^3}+1+\dfrac{b^3}{c^3}+\dfrac{b^3}{c^3}+1+\dfrac{c^3}{a^3}+\dfrac{c^3}{a^3}+1\ge3\left(\dfrac{a^2}{b^2}+\dfrac{b^2}{c^2}+\dfrac{c^2}{a^2}\right)\)

\(\Leftrightarrow2\left(\dfrac{a^3}{b^3}+\dfrac{b^3}{c^3}+\dfrac{c^3}{a^3}\right)\ge3\left(\dfrac{a^2}{b^2}+\dfrac{b^2}{c^2}+\dfrac{c^2}{a^2}\right)-3\)

\(\ge2\left(\dfrac{a^2}{b^2}+\dfrac{b^2}{c^2}+\dfrac{c^2}{a^2}\right)+3-3=2\left(\dfrac{a^2}{b^2}+\dfrac{b^2}{c^2}+\dfrac{c^2}{a^2}\right)\)

\(\Leftrightarrow\dfrac{a^3}{b^3}+\dfrac{b^3}{c^3}+\dfrac{c^3}{a^3}\ge\dfrac{a^2}{b^2}+\dfrac{b^2}{c^2}+\dfrac{c^2}{a^2}\)

giả sử \(a>b>c>0\) thì ta có :

\(\dfrac{a^2}{b^2}\left(\dfrac{a}{b}-1\right)+\dfrac{b^2}{c^2}\left(\dfrac{b}{c}-1\right)+\dfrac{c^2}{a^2}\left(\dfrac{c}{a}-1\right)\ge2\dfrac{a}{b}+\dfrac{c^2}{a^2}\left(\dfrac{c}{a}-1\right)\)

\(=\dfrac{2a}{b}+\dfrac{c^3}{a^3}-\dfrac{c^2}{a^2}\ge0\)

làm tương tự cho trường hợp \(c>b>a>0\) ; \(b>a>c\) và \(b>c>a\)

\(\Rightarrow\left(đpcm\right)\)

Áp dụng bất đẳng thức AM-GM cho 2 số dương ta có: \(\dfrac{a^2}{b}+b\ge2\sqrt{\dfrac{a^2b}{b}}=2\sqrt{a^2}=2a\)

Tương tự với các vế ta được: \(\left\{{}\begin{matrix}\dfrac{b^2}{c}+c\ge2b\\\dfrac{c^2}{a}+a\ge2c\end{matrix}\right.\)

Cộng theo vế: \(\dfrac{a^2}{b}+\dfrac{b^2}{c}+\dfrac{c^2}{a}+a+b+c\ge2a+2b+2c\)

\(\Rightarrow\dfrac{a^2}{b}+\dfrac{b^2}{c}+\dfrac{c^2}{a}\ge a+b+c\)

Giỏi thế :(

\(\dfrac{a^5}{b^3}+\dfrac{a^5}{b^3}+\dfrac{a^5}{b^3}+\dfrac{a^5}{b^3}+b^2\ge5\sqrt[5]{\dfrac{a^{20}b^2}{b^{12}}}=5.\dfrac{a^4}{b^2}\)

\(\Rightarrow4.\dfrac{a^5}{b^3}+b^2\ge5.\dfrac{a^4}{b^2}\)

Tương tự: \(4.\dfrac{b^5}{c^3}+c^2\ge5\dfrac{b^4}{c^2};4\dfrac{c^5}{a^3}+a^2\ge5.\dfrac{c^4}{a^2}\)

\(\Rightarrow4\left(\dfrac{a^5}{b^3}+\dfrac{b^5}{c^3}+\dfrac{c^5}{a^3}\right)+a^2+b^2+c^2\ge5\left(\dfrac{c^4}{a^2}+\dfrac{a^4}{b^2}+\dfrac{b^4}{c^2}\right)\)

Lại có: \(\dfrac{a^5}{b^3}+\dfrac{a^5}{b^3}+b^2+b^2+b^2\ge5a^2\)

\(\Rightarrow2.\dfrac{a^5}{b^3}+3b^2\ge5a^2\), tương tự: \(2.\dfrac{b^5}{c^3}+3c^2\ge5b^2;2\dfrac{c^5}{a^3}+3a^2\ge5c^2\)

\(\Rightarrow\dfrac{a^5}{b^3}+\dfrac{b^5}{c^3}+\dfrac{c^5}{a^3}\ge a^2+b^2+c^2\)

\(\Rightarrow\dfrac{a^5}{b^3}+\dfrac{b^5}{c^3}+\dfrac{c^5}{a^3}+4.\left(\dfrac{a^5}{b^3}+\dfrac{b^5}{c^3}+\dfrac{c^5}{a^3}\right)\ge4.\left(\dfrac{a^5}{b^3}+\dfrac{b^5}{c^3}+\dfrac{c^5}{a^3}\right)+a^2+b^2+c^2\ge5.\left(\dfrac{c^4}{a^2}+\dfrac{a^4}{b^2}+\dfrac{b^4}{c^2}\right)\)

\(\Rightarrow dpcm\)

giả sử \(a>b>c>0\) thì ta có :

\(\dfrac{a^4}{b^2}\left(\dfrac{a}{b}-1\right)+\dfrac{b^4}{c^2}\left(\dfrac{b}{c}-1\right)+\dfrac{c^4}{a^2}\left(\dfrac{c}{a}-1\right)\ge\dfrac{2a^2b}{c}+\dfrac{c^5}{a^3}-\dfrac{c^4}{a^2}\)

\(\ge\dfrac{2c^4b}{a}-\dfrac{c^4}{a^2}=\dfrac{c^4}{a}\left(2b-\dfrac{1}{a}\right)>0\)

làm tương tự cho trường hợp \(c>b>a>0\) ; \(b>a>c\) và \(b>c>a\)

\(\Rightarrow\left(đpcm\right)\)

mấy câu cậu câu đăng khác bn làm tương tự nha . nếu bn lm không được thì có j mk lm luôn cho còn h mk bạn rồi :(

Lời giải:
Ta có:

Nhân cả hai vế với $a+b+c$ , BĐT cần chứng minh tương đương với:

\(\frac{(a^2+b^2)(a+b+c)}{a+b}+\frac{(b^2+c^2)(a+b+c)}{b+c}+\frac{(c^2+a^2)(a+b+c)}{c+a}\leq 3(a^2+b^2+c^2)\)

\(\Leftrightarrow 2(a^2+b^2+c^2)+\frac{c(a^2+b^2)}{a+b}+\frac{a(b^2+c^2)}{b+c}+\frac{b(a^2+c^2)}{a+c}\leq 3(a^2+b^2+c^2)\)

\(\Leftrightarrow \frac{c(a^2+b^2)}{a+b}+\frac{a(b^2+c^2)}{b+c}+\frac{b(a^2+c^2)}{a+c}\leq a^2+b^2+c^2\)

\(\Leftrightarrow \frac{c(a+b)^2-2abc}{a+b}+\frac{a(b+c)^2-2abc}{b+c}+\frac{b(a+c)^2-2abc}{a+c}\leq a^2+b^2+c^2\)

\(\Leftrightarrow 2(ab+bc+ac)\leq a^2+b^2+c^2+2abc\left(\frac{1}{a+b}+\frac{1}{b+c}+\frac{1}{a+c}\right)\)

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Áp dụng BĐT Cauchy- Schwarz:

\(\frac{1}{a+b}+\frac{1}{b+c}+\frac{1}{c+a}\geq \frac{9}{2(a+b+c)}\)

\(\Rightarrow a^2+b^2+c^2+2abc\left(\frac{1}{a+b}+\frac{1}{b+c}+\frac{1}{c+a}\right)\geq a^2+b^2+c^2+\frac{9abc}{a+b+c}\)

Ta cần chứng minh \(a^2+b^2+c^2+\frac{9abc}{a+b+c}\geq 2(ab+bc+ac)\)

\(\Leftrightarrow (a^2+b^2+c^2)(a+b+c)+9abc\geq 2(ab+bc+ac)(a+b+c)\)

\(\Leftrightarrow a^3+b^3+c^3+3abc\geq ab(a+b)+bc(b+c)+ca(a+c)\)

(luôn đúng theo BĐT Schur)

Do đó ta có đpcm.

Dấu bằng xảy ra khi $a=b=c$

làm sao để có 1 chuỗi các ý tưởng hoàn hảo vậy bn :)) mình nháp hoài rồi mà toàn mắc :v

\(\dfrac{a^2}{\sqrt{3a^2+14ab+8b^2}}=\dfrac{a^2}{\sqrt{\left(a+4b\right)\left(3a+2b\right)}}\ge\dfrac{2a^2}{a+4b+3a+2b}=\dfrac{a^2}{2a+3b}\)

Tương tự và cộng lại:

\(VT\ge\dfrac{a^2}{2a+3b}+\dfrac{b^2}{2b+3c}+\dfrac{c^2}{2c+3a}\ge\dfrac{\left(a+b+c\right)^2}{5a+5b+5c}=\dfrac{a+b+c}{5}\) (đpcm)

Lời giải:

Phải thêm điều kiện $a,b,c>0$ nữa bạn nhé

Ta có:

\(\frac{a^2}{b}+\frac{b^2}{c}+\frac{c^2}{a}\geq a+b+c\)

\(\Leftrightarrow \frac{a^2}{b}+\frac{b^2}{c}+\frac{c^2}{a}-a-b-c\geq 0\)

\(\Leftrightarrow \frac{a^2}{b}-(2a-b)+\frac{b^2}{c}-(2b-c)+\frac{c^2}{a}-(2c-a)\geq 0\)

\(\Leftrightarrow \frac{a^2-2ab+b^2}{b}+\frac{b^2-2bc+c^2}{c}+\frac{c^2-2ac+a^2}{a}\geq 0\)

\(\Leftrightarrow \frac{(a-b)^2}{b}+\frac{(b-c)^2}{c}+\frac{(c-a)^2}{a}\geq 0\)

(luôn đúng với mọi $a,b,c>0$)

Do đó ta có đpcm

Dấu "=" xảy ra khi $a=b=c$

Hoặc có thể sử dụng BĐT Cauchy như sau:

\(\frac{a^2}{b}+b\geq 2\sqrt{\frac{a^2}{b}.b}=2a\)

\(\frac{b^2}{c}+c\ge 2\sqrt{\frac{b^2}{c}.c}=2b\)

\(\frac{c^2}{a}+a\geq 2\sqrt{\frac{c^2}{a}.a}=2c\)

Cộng theo vế:

\(\Rightarrow \frac{a^2}{b}+\frac{b^2}{c}+\frac{c^2}{a}+(a+b+c)\geq 2(a+b+c)\)

\(\Rightarrow \frac{a^2}{b}+\frac{b^2}{c}+\frac{c^2}{a}\geq a+b+c\) (đpcm)

Dấu "=" xảy ra khi $a=b=c$

Cauchy-Schwarz đi bn

Đặt \(\left(\sqrt{b^2+c^2};\sqrt{c^2+a^2};\sqrt{a^2+b^2}\right)=\left(x;y;z\right)\) 

\(\Rightarrow\left\{{}\begin{matrix}a^2=\dfrac{y^2+z^2-x^2}{2}\\b^2=\dfrac{x^2+z^2-y^2}{2}\\c^2=\dfrac{x^2+y^2-z^2}{2}\end{matrix}\right.\)

\(\Rightarrow VT=\dfrac{y^2+z^2-x^2}{2x}+\dfrac{x^2+z^2-y^2}{2y}+\dfrac{x^2+y^2-z^2}{2z}\)

\(VT\ge\dfrac{\left(y+z\right)^2}{4x}+\dfrac{\left(x+z\right)^2}{4y}+\dfrac{\left(x+y\right)^2}{4z}-\dfrac{1}{2}\left(x+y+z\right)\)

\(VT\ge\dfrac{\left(2x+2y+2z\right)^2}{4\left(x+y+z\right)}-\dfrac{1}{2}\left(x+y+z\right)=\dfrac{1}{2}\left(x+y+z\right)\)

\(VT\ge\dfrac{1}{2}\left(\sqrt{a^2+b^2}+\sqrt{b^2+c^2}+\sqrt{c^2+a^2}\right)\)

\(VT\ge\dfrac{1}{2}\left(\sqrt{\dfrac{1}{2}\left(a+b\right)^2}+\sqrt{\dfrac{1}{2}\left(b+c\right)^2}+\sqrt{\dfrac{1}{2}\left(c+a\right)^2}\right)\)

\(VT\ge\dfrac{a+b+c}{\sqrt{2}}\) (đpcm)