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2 ) Ta có : \(\frac{1}{3}\left(a^3+b^3+a+b\right)+ab\le a^2+b^2+1\)
\(\Leftrightarrow\frac{1}{3}\left(a+b\right)\left(a^2+b^2+1-ab\right)+ab\le a^2+b^2+1\)
\(\Leftrightarrow\left(a^2+b^2+1\right)\left(\frac{a+b}{3}-1\right)-ab\left(\frac{a+b}{3}-1\right)\le0\)
\(\Leftrightarrow\left(a^2+b^2+1-ab\right)\left(\frac{a+b}{3}-1\right)\le0\)
Do a ; b dương \(\Rightarrow a^2+b^2+1-ab>0\Rightarrow\frac{a+b}{3}-1\le0\)
\(\Leftrightarrow a+b\le3\)
\(M=\frac{a^2+8}{a}+\frac{b^2+2}{b}=a+\frac{8}{a}+b+\frac{2}{b}=2a+\frac{8}{a}+\frac{2}{b}+2b-\left(a+b\right)\ge8+4-3=9\)
( áp dụng BĐT Cauchy cho a ; b dương )
Dấu " = " xảy ra \(\Leftrightarrow a=2;b=1\)
Tìm min cho K, tìm max có lẽ Bunhia là ra thôi:
Đặt \(\left\{{}\begin{matrix}\sqrt{3a+1}=x\\\sqrt{3b+1}=y\\\sqrt{3x+1}=z\end{matrix}\right.\) \(\Rightarrow1\le x;y;z\le\sqrt{10}\)
\(x^2+y^2+z^2=3\left(a+b+c\right)+3=12\)
Bài toán trở thành cho \(x^2+y^2+z^2=12\), tìm min \(P=x+y+z\)
Ta có: \(\left(x-1\right)\left(x-\sqrt{10}\right)\le0\Rightarrow x^2-\left(\sqrt{10}+1\right)x+\sqrt{10}\le0\)
\(\left(y-1\right)\left(y-\sqrt{10}\right)=y^2-\left(\sqrt{10}+1\right)y+\sqrt{10}\le0\)
\(\left(z-1\right)\left(z-\sqrt{10}\right)=z^2-\left(\sqrt{10}+1\right)z+\sqrt{10}\le0\)
Cộng vế với vế:
\(x^2+y^2+z^2-\left(\sqrt{10}+1\right)\left(x+y+z\right)+3\sqrt{10}\le0\)
\(\Rightarrow x+y+z\ge\frac{x^2+y^2+z^2+3\sqrt{10}}{\sqrt{10}+1}=\frac{12+3\sqrt{10}}{\sqrt{10}+1}=2+\sqrt{10}\)
\(\Rightarrow P_{min}=2+\sqrt{10}\) khi \(\left(x;y;z\right)=\left(1;1;\sqrt{10}\right)\) và các hoán vị hay \(\left(a;b;c\right)=\left(3;0;0\right)\) và các hoán vị
\(a^2b^2c^2+\left(a+1\right)\left(1+b\right)\left(1+c\right)\ge a+b+c+ab+bc+ca+3\)
\(\Leftrightarrow\left(abc\right)^2+abc-2\ge0\Leftrightarrow\left(abc+2\right)\left(abc-1\right)\ge0\Leftrightarrow abc\ge1\)
Áp dụng BĐT Cosi ta có:
\(\frac{a^3}{\left(b+2c\right)\left(2c+3a\right)}+\frac{b+2c}{45}+\frac{2c+3a}{75}\ge3\sqrt[3]{\frac{a^3}{\left(b+2c\right)\left(2c+3b\right)}\cdot\frac{b+2c}{45}\cdot\frac{2c+3a}{75}}=\frac{a}{5}\left(1\right)\)
Tương tự ta có: \(\hept{\begin{cases}\frac{b^3}{\left(c+2a\right)\left(2a+3b\right)}+\frac{c+2a}{45}+\frac{2a+3b}{75}\ge\frac{b}{5}\left(2\right)\\\frac{c^3}{\left(a+2b\right)\left(2b+3c\right)}+\frac{a+2b}{45}+\frac{2b+3c}{75}\ge\frac{c}{5}\left(3\right)\end{cases}}\)
Từ (1)(2)(3) ta có:
\(P+\frac{2\left(a+b+c\right)}{15}\ge\frac{a+b+c}{5}\Leftrightarrow P\ge\frac{1}{15}\left(a+b+c\right)\)
Mà \(a+b+c\ge3\sqrt[3]{abc}\Rightarrow S\ge\frac{1}{5}\)
Dấu "=" xảy ra <=> a=b=c=1
\(P=\left(1+\frac{a}{3b}\right)\left(1+\frac{c}{3a}+\frac{b}{3c}+\frac{b}{9a}\right)\)
\(P=1+\frac{1}{3}\left(\frac{c}{a}+\frac{b}{c}+\frac{a}{b}\right)+\frac{1}{9}\left(\frac{c}{b}+\frac{a}{c}+\frac{b}{a}\right)+\frac{1}{27}\)
\(P\ge1+\frac{1}{27}+\frac{1}{3}.3\sqrt[3]{\frac{abc}{abc}}+\frac{1}{9}.3\sqrt[3]{\frac{abc}{abc}}=\frac{64}{27}\)
\(\Rightarrow P_{min}=\frac{64}{27}\) khi \(a=b=c\)
để biểu thức cho đơn giản , ta đặt x=a+1,y=b+1,z=c+1(x,y,z>0)
thì giả thiết thành \(\frac{1}{x+1}+\frac{3}{y+3}\le\frac{z}{z+2}\) .Tìm min xyz
Áp dụng bất đẳng thức cauchy:\(\frac{z}{z+2}\ge\frac{1}{x+1}+\frac{3}{y+3}\ge2\sqrt{\frac{3}{\left(x+1\right)\left(y+3\right)}}\)(1)
từ giả thiết :\(\frac{1}{x+1}\le\frac{z}{z+2}-\frac{3}{y+3}\Leftrightarrow1-\frac{1}{x+1}\ge1-\frac{z}{z+2}+\frac{3}{y+3}\)
\(\Leftrightarrow\frac{x}{x+1}\ge\frac{2}{z+2}+\frac{3}{y+3}\)
Áp dụng bất đẳng thức cauchy 1 lần nữa: \(\frac{x}{x+1}\ge\frac{2}{z+2}+\frac{3}{y+3}\ge2\sqrt{\frac{6}{\left(z+2\right)\left(y+3\right)}}\)(2)
tương tự ta cũng có: \(\frac{y}{y+3}\ge2\sqrt{\frac{2}{\left(z+2\right)\left(x+1\right)}}\)(3),
cả 2 vế các bất đẳng thức (1),(2)và (3) đều dương, nhân vế với vế:
\(\frac{xyz}{\left(x+1\right)\left(y+3\right)\left(z+2\right)}\ge\frac{8.6}{\left(x+1\right)\left(z+2\right)\left(y+3\right)}\)
\(\Leftrightarrow xyz\ge48\)
Dấu = xảy ra khi x=2,y=6,z=4 hay a=1,b=5,z=3
1. Ta thấy:
\(\frac{(a-b)^3}{(\sqrt{a}-\sqrt{b})^3}-b\sqrt{b}+2a\sqrt{a}=\frac{(\sqrt{a}-\sqrt{b})^3(\sqrt{a}+\sqrt{b})^3}{(\sqrt{a}-\sqrt{b})^3}-b\sqrt{b}+2a\sqrt{a}\)
\(=(\sqrt{a}+\sqrt{b})^3-b\sqrt{b}+2a\sqrt{a}=a\sqrt{a}+b\sqrt{b}+3\sqrt{ab}(\sqrt{a}+\sqrt{b})-b\sqrt{b}+2a\sqrt{a}\)
\(=3a\sqrt{a}+3\sqrt{ab}(\sqrt{a}+\sqrt{b})=3\sqrt{a}(a+\sqrt{ab}+b)\)
$a\sqrt{a}-b\sqrt{b}=(\sqrt{a}-\sqrt{b})(a+\sqrt{ab}+b)$
\(\frac{\frac{(a-b)^3}{(\sqrt{a}-\sqrt{b})^3}-b\sqrt{b}+2a\sqrt{a}}{a\sqrt{a}-b\sqrt{b}}=\frac{3\sqrt{a}}{\sqrt{a}-\sqrt{b}}(1)\)
\(\frac{3a+3\sqrt{ab}}{b-a}=\frac{3\sqrt{a}(\sqrt{a}+\sqrt{b})}{(\sqrt{b}-\sqrt{a})(\sqrt{b}+\sqrt{a})}=\frac{-3\sqrt{a}}{\sqrt{a}-\sqrt{b}}(2)\)
Từ $(1);(2)$ ta có đpcm.
Câu 2:
Điều kiện đã cho tương đương với:
$\frac{a-b}{a(a+b)}+\frac{a+b}{a(a-b)}=\frac{3a-b}{(a-b)(a+b)}$
$\Leftrightarrow \frac{(a-b)^2}{a(a+b)(a-b)}+\frac{(a+b)^2}{a(a-b)(a+b)}=\frac{a(3a-b)}{a(a-b)(a+b)}$
$\Leftrightarrow (a-b)^2+(a+b)^2=a(3a-b)$
$\Leftrightarrow 2a^2+2b^2=3a^2-ab$
$\Leftrightarrow a^2-ab-2b^2=0$
$\Leftrightarrow (a+b)(a-2b)=0$
$\Leftrightarrow a=-b$ hoặc $a=2b$
Nếu $a=-b$ thì $|a|=|b|$ (trái giả thiết). Do đó $a=2b$
Khi đó:
$P=\frac{(2b)^3+2(2b)^2.b+3b^3}{2(2b)^3+2b.b^2+b^3}=\frac{19b^3}{19b^3}=1$
a )
Áp dụng BĐT Bunhiacopxki ta có :
\(\left(b^2+\left(c+a\right)^2\right)\left(1+\right)\ge\left(b+2\left(a+c\right)\right)^2\)
\(\Rightarrow\sqrt{\frac{a^2}{b^2+\left(c+a\right)^2}}\le\sqrt{5}.\frac{a}{b+2c+2a}\)
\(\Rightarrow VT\le\sqrt{5}.\left(\frac{a}{b+2c+2a}+\frac{b}{c+2a+2b}+\frac{c}{a+2b+2c}\right)\)
Cần chứng minh : \(\frac{a}{b+2c+2a}+\frac{b}{c+2a+2b}+\frac{c}{a+2b+2c}\le\frac{3}{5}\)
\(\Leftrightarrow\left(\frac{1}{2}-\frac{a}{b+2c+2a}\right)+\left(\frac{1}{2}-\frac{b}{c+2a+2b}\right)+\left(\frac{1}{2}-\frac{c}{a+2b+2c}\right)\ge\frac{9}{10}\)
\(\Leftrightarrow\frac{b+2c}{b+2c+2a}+\frac{c+2a}{c+2a+2b}+\frac{a+2b}{a+2b+2c}\ge\frac{9}{5}\)
Áp dụng BĐT Bunhiacopxki dạng phân thức ở vế trái :
\(\Rightarrow VT\ge\frac{\left(b+2c+c+2a+a+2b\right)^2}{\left(b+2c\right)^2+2a\left(b+2c\right)+\left(c+2a\right)^2+2b\left(c+2a\right)+\left(a+2b\right)^2+2c\left(a+2b\right)}\)
\(=\frac{9\left(a+b+c\right)^2}{5\left(a+b+b\right)^2}=\frac{9}{5}\left(đpcm\right)\)
Dấu " = '" xảy ra khi a=b=c
b ) Ta có abc =1
Ta chứng minh :
\(\frac{1}{ab+a+1}+\frac{1}{bc+b+1}+\frac{1}{ac+c+1}=1\)
VT \(=\frac{1}{ab+a+1}+\frac{a}{abc+ab+a}+\frac{ab}{a^2bc+abc+ac}\)
\(=\frac{1}{ab+a+1}+\frac{a}{ab+a+1}+\frac{ab}{ab+a+1}=1\left(đpcm\right)\)
Ta có : \(\left(1+a\right)^2+b^2+5=\left(a^2+b^2\right)+2a+6\ge2ab+2a+6\)
\(\Rightarrow\frac{\left(1+a\right)^2+b^2+5}{ab+a+4}=\frac{2ab+2a+6}{ab+a+4}=2-\frac{2}{ab+a+4}\)
Mà \(\frac{1}{ab+a+4}=\frac{1}{ab+a+1+3}\le\frac{1}{4}\left(\frac{1}{ab+a+1}+\frac{1}{3}\right)\) ( do \(\frac{1}{x+y}\le\frac{1}{4}\left(\frac{1}{x}+\frac{1}{y}\right)\)
\(\Rightarrow\frac{\left(1+a\right)^2+b^2+5}{ab+a+4}\ge2-\frac{1}{2}\left(\frac{1}{ab+a+1}+\frac{1}{3}\right)=\frac{11}{6}-\frac{1}{2}.\frac{1}{ab+a+1}\)
Khi đó :
\(P\ge\frac{11}{2}-\frac{1}{2}.\left(\frac{1}{ab+a+1}+\frac{1}{bc+b+1}+\frac{1}{ac+c+1}\right)=\frac{11}{2}-\frac{1}{2}.1=5\)
\(P_{Min}=5\) khi \(a=b=c=1\)
Ta có \(2a^4+\left(a^4+1\right)\ge2a^4+2a^2\ge4a^3\)
\(\Rightarrow3a^4+1\ge4a^3\)
\(\Rightarrow M\ge\frac{4\left(a^3+b^3\right)+c^3}{\left(a+b+c\right)^3}\ge\frac{\left(a+b\right)^3+c^3}{\left(a+b+c\right)^3}\)\(=\left(1-\frac{c}{a+b+c}\right)^3+\frac{c^3}{\left(a+b+c\right)^3}\)
Đặt \(\frac{c}{a+b+c}=t\) (đề nhầm không ?)
\(\Rightarrow M\ge\left(1-t\right)^3+t^3\)
Bạn xem lại đề. Với từng này điều kiện thì không tìm được $M_{\min}$