Cho các số thực dương a,b,c .
Tìm giá trị lớn nhất của biểu thức \(P=\frac{ab}{a^2+ab+bc}+\frac{bc}{b^2+bc+ca}+\frac{ca}{c^2+ca+ab}\)
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Dat \(\left(\frac{a}{b};\frac{b}{c};\frac{c}{a}\right)=\left(x;y;z\right)\)
\(\Rightarrow xyz=1\)
\(\Sigma_{cyc}\frac{1}{\frac{a}{b}+\frac{c}{a}+1}=\Sigma_{cyc}\frac{1}{x+y+1}\)
We need to prove:
\(\Sigma_{cyc}\frac{1}{x+y+1}\le1\)
\(\Leftrightarrow\Sigma_{cyc}\frac{x+y}{x+y+1}\ge2\left(M\right)\)
We have:
\(VT_M\ge\frac{\left(\Sigma_{cyc}\sqrt{x+y}\right)^2}{2\Sigma_{cyc}x+3}\)
Now we need to prove
\(\frac{\left(\Sigma_{cyc}\sqrt{x+y}\right)^2}{2\Sigma_{cyc}x+3}\ge2\)
\(\Leftrightarrow\Sigma_{cyc}\sqrt{\left(x+y\right)\left(y+z\right)}\ge\Sigma_{cyc}x+3\left(M_1\right)\)
Consider:
\(VT_{M_1}=\sqrt{\left(x+y\right)\left(y+z\right)}\ge x+y+z+xy+yz+zx\)
Now we need to prove:
\(x+y+z+xy+yz+zx\ge x+y+z+3\)
\(xy+yz+zx\ge3\) (Not fail with xyz=1)
Dau '=' xay ra khi \(\hept{\begin{cases}a=b=c=1\\x=y=z=1\end{cases}}\)
\(c+ab=\left(a+b+c\right)c+ab=ac+cb+c^2+ab=\left(a+c\right)\left(b+c\right)\)
Tương tự : \(a+bc=\left(a+b\right)\left(a+c\right);c+ab=\left(c+a\right)\left(c+b\right)\)
\(P=\sqrt{\frac{ab}{\left(c+a\right)\left(c+b\right)}}+\sqrt{\frac{bc}{\left(a+b\right)\left(a+c\right)}}+\sqrt{\frac{ca}{\left(b+c\right)\left(b+a\right)}}\)
áp dụng bất đẳng tức cauchy :
\(\sqrt{\frac{ab}{\left(c+a\right)\left(c+b\right)}}\le\frac{1}{2}\left(\frac{a}{c+a}+\frac{b}{c+b}\right)\)
\(\sqrt{\frac{bc}{\left(a+b\right)\left(a+c\right)}}\le\frac{1}{2}\left(\frac{b}{a+b}+\frac{c}{a+c}\right)\)
\(\sqrt{\frac{ca}{\left(b+c\right)\left(b+a\right)}}\le\frac{1}{2}\left(\frac{c}{b+c}+\frac{a}{b+a}\right)\)
cộng vế theo vế
\(\Rightarrow P\le\frac{1}{2}\left(\frac{a}{a+c}+\frac{b}{c+b}+\frac{b}{a+b}+\frac{c}{a+c}+\frac{c}{b+c}+\frac{a}{b+a}\right)\)
\(\Leftrightarrow P\le\frac{1}{2}\left(\frac{a+c}{a+c}+\frac{b+c}{b+c}+\frac{a+b}{a+b}\right)=\frac{1}{2}\cdot3=\frac{3}{2}\)
dấu "=" xảy ra khi a=b=c=1/3
Có a+b+c=1 => c=(a+b+c).c=ac+bc+c2
\(\Rightarrow c+ab=ac+bc+c^2+ab=a\left(b+c\right)+c\left(b+c\right)=\left(b+c\right)\left(a+c\right)\)
\(\Rightarrow\sqrt{\frac{ab}{c+ab}}=\sqrt{\frac{ab}{\left(c+a\right)\left(c+b\right)}}\le\frac{\frac{a}{c+b}+\frac{b}{c+b}}{2}\)
Tương tự ta có \(\hept{\begin{cases}a+bc=\left(a+b\right)\left(a+c\right)\\b+ac=\left(b+a\right)\left(b+c\right)\end{cases}\Leftrightarrow\hept{\begin{cases}\sqrt{\frac{bc}{a+bc}}=\sqrt{\frac{bc}{\left(a+b\right)\left(a+c\right)}}\le\frac{\frac{b}{a+b}+\frac{c}{a+c}}{2}\\\sqrt{\frac{ca}{b+ca}}=\sqrt{\frac{ca}{\left(b+c\right)\left(b+a\right)}}\le\frac{\frac{c}{b+c}+\frac{a}{b+a}}{2}\end{cases}}}\)
\(\Rightarrow P\le\frac{\frac{b}{a+b}+\frac{c}{c+a}+\frac{c}{b+c}+\frac{a}{a+b}+\frac{a}{c+a}+\frac{b}{c+b}}{2}\)\(=\frac{\frac{a+c}{a+c}+\frac{c+b}{c+b}+\frac{a+b}{a+b}}{2}=\frac{3}{2}\)
Dấu "=" xảy ra khi \(a=b=c=\frac{1}{3}\)
Ta có : \(\sqrt{\frac{ab}{ab+2c}}=\sqrt{\frac{ab}{ab+\left(a+b+c\right)c}}=\sqrt{\frac{ab}{\left(a+c\right)\left(b+c\right)}}\le\frac{1}{2}\left(\frac{a}{a+c}+\frac{b}{b+c}\right)\)
Đẳng thức xảy ra khi và chỉ khi \(\frac{a}{a+c}+\frac{b}{b+c}\)
Tương tự ta cũng có
\(\sqrt{\frac{bc}{bc+2a}}\le\frac{1}{2}\left(\frac{b}{b+a}+\frac{c}{c+a}\right);\sqrt{\frac{ca}{ca+2b}}\le\frac{1}{2}\left(\frac{c}{c+a}+\frac{a}{a+b}\right)\)
Cộng các vế ta được \(S\le\frac{1}{2}\left(\frac{a+b}{a+b}+\frac{b+c}{b+c}+\frac{c+a}{c+a}\right)=\frac{3}{2}\)
Đẳng thức xảy ra khi và chỉ khi \(a=b=c=\frac{2}{3}\)
Vậy \(S_{max}=\frac{3}{2}\Leftrightarrow x=y=z=\frac{2}{3}\)
Bạn CM \(a^5+b^5\ge ab\left(a^3+b^3\right)\)
\(\Rightarrow\frac{ab}{a^5+b^5+ab}\le\frac{1}{a^3+b^3+abc}\)
Tiếp tục \(a^3+b^3\ge ab\left(a+b\right)\)
\(\Rightarrow\frac{1}{a^3+b^3+abc}\le\frac{1}{ab\left(a+b\right)+abc}=\frac{c}{a+b+c}\)
\(\Rightarrow\frac{ab}{a^5+b^5+ab}\le\frac{c}{a+b+c}\)
Tương tự cộng lại suy ra \(VT\le1\)
Dấu = xảy ra khi a=b=c=1
Ta có: \(a+b+c=1\Leftrightarrow a^2+ab+ca=a\)
Thay vào ta có: \(\sqrt{\frac{bc}{a+bc}}=\sqrt{\frac{bc}{a^2+ab+ca+bc}}=\sqrt{\frac{bc}{\left(a+b\right)\left(a+c\right)}}\)
Áp dụng Cauchy ngược: \(\sqrt{\frac{bc}{a+bc}}=\sqrt{\frac{bc}{a^2+ab+ca+bc}}\le\frac{\frac{b}{a+b}+\frac{c}{a+c}}{2}\)
Tương tự ta CM được: \(\sqrt{\frac{ab}{c+ab}}\le\frac{\frac{a}{c+a}+\frac{b}{c+b}}{2}\)
\(\sqrt{\frac{ca}{b+ca}}\le\frac{\frac{c}{b+c}+\frac{a}{b+a}}{2}\)
Cộng vế 3 BĐT trên ta được:
\(P\le\frac{\frac{a}{c+a}+\frac{b}{c+b}+\frac{b}{a+b}+\frac{c}{a+c}+\frac{c}{b+c}+\frac{a}{b+a}}{2}\)
\(=\frac{\left(\frac{a}{c+a}+\frac{c}{a+c}\right)+\left(\frac{b}{c+b}+\frac{c}{b+c}\right)+\left(\frac{a}{b+a}+\frac{b}{a+b}\right)}{2}\)
\(=\frac{1+1+1}{2}=\frac{3}{2}\)
Dấu "=" xảy ra khi: \(a=b=c=\frac{1}{3}\)
Vậy \(Max_P=\frac{3}{2}\Leftrightarrow a=b=c=\frac{1}{3}\)
Ta có :
\(c+ab=\left(a+b+c\right)c+ab=ac+ac+c^2+ab=\left(a+c\right)\left(b+c\right)\)
Tương tự : \(a+bc=\left(a+b\right)\left(a+c\right);c+ab=\left(c+b\right)\left(c+a\right)\)
\(\Rightarrow P=\sqrt{\frac{ab}{\left(a+c\right)\left(b+c\right)}}+\sqrt{\frac{bc}{\left(a+b\right)\left(a+c\right)}}+\sqrt{\frac{ca}{\left(c+a\right)\left(c+b\right)}}\)
Áp dụng BĐT cauchy :
\(\sqrt{\frac{ab}{\left(a+c\right)\left(b+c\right)}}\le\frac{1}{2}\left(\frac{a}{a+c}+\frac{b}{b+c}\right)\)
\(\sqrt{\frac{bc}{\left(a+b\right)\left(a+c\right)}}\le\frac{1}{2}\left(\frac{b}{a+b}+\frac{c}{a+c}\right)\)
\(\sqrt{\frac{ca}{\left(c+b\right)\left(c+a\right)}}\le\frac{1}{2}\left(\frac{c}{c+b}+\frac{a}{c+a}\right)\)
Cộng vế với vế :
\(\Rightarrow P\le\frac{1}{2}\left(\frac{a}{a+c}+\frac{b}{b+c}+\frac{b}{a+b}+\frac{c}{a+c}+\frac{c}{c+b}+\frac{a}{c+a}\right)\)
\(\Leftrightarrow P\le\frac{1}{2}\left(\frac{a+c}{a+b}+\frac{b+c}{b+c}+\frac{a+b}{a+b}\right)=\frac{1}{2}.3=\frac{3}{2}\)
Dấu "=" xảy ra \(\Leftrightarrow a=b=c=\frac{1}{3}\)
Dễ dàng chứng minh được:
\(\frac{1}{x}+\frac{1}{y}\ge\frac{4}{x+y}\)với \(x,y>0\)(1)
Dấu bằng xảy ra \(\Leftrightarrow x=y>0\)
Ta có:
\(\frac{a}{bc\left(a+1\right)}=\frac{a}{abc+bc}=\frac{a}{ab+bc+ca+bc}=\frac{a}{\left(ab+bc\right)+\left(bc+ca\right)}\)
Áp dụng (1), ta được:
\(\frac{1}{ab+bc}+\frac{1}{bc+ca}\ge\frac{4}{\left(ab+bc\right)+\left(bc+ca\right)}\)
\(\Leftrightarrow\frac{1}{4\left(ab+bc\right)}+\frac{1}{4\left(bc+ca\right)}\ge\frac{1}{ab+bc+bc+ca}\)
\(\Leftrightarrow\frac{a}{4}\left(\frac{1}{ab+bc}+\frac{1}{bc+ca}\right)\ge\frac{a}{ab+bc+bc+ca}\)
\(\Leftrightarrow\frac{a}{4}\left(\frac{1}{ab+bc}+\frac{1}{bc+ca}\right)\ge\frac{a}{bc\left(a+1\right)}\left(2\right)\)
Dấu bằng xảy ra \(\Leftrightarrow b=c>0\)
Chúng minh tương tự, ta được:
\(\frac{b}{4}\left(\frac{1}{ab+ca}+\frac{1}{bc+ca}\right)\ge\frac{b}{ca\left(b+1\right)}\left(3\right)\)
Dấu bằng xảu ra \(\Leftrightarrow a=c>0\).
\(\frac{c}{4}\left(\frac{1}{ac+ab}+\frac{1}{ab+bc}\right)\ge\frac{c}{ab\left(c+1\right)}\left(4\right)\)
Từ (2), (3) và (4), ta được:
\(\frac{a}{bc\left(a+1\right)}+\frac{b}{ca\left(b+1\right)}+\frac{c}{ab\left(c+1\right)}\le\)\(\frac{a}{4}\left(\frac{1}{ab+bc}+\frac{1}{bc+ac}\right)+\frac{b}{4}\left(\frac{1}{ac+bc}+\frac{1}{ac+ab}\right)\)\(+\frac{c}{4}\left(\frac{1}{ab+bc}+\frac{1}{ab+ac}\right)\)
\(\Leftrightarrow P\le\frac{1}{4}.\left(\frac{a}{ab+bc}+\frac{c}{ab+bc}\right)+\frac{1}{4}\left(\frac{a}{bc+ac}+\frac{b}{bc+ac}\right)\)\(+\frac{1}{4}\left(\frac{b}{ab+ac}+\frac{c}{ab+ac}\right)\)
\(\Leftrightarrow P\le\frac{a+c}{4\left(ab+bc\right)}+\frac{a+b}{4\left(bc+ac\right)}+\frac{b+c}{4\left(ab+ac\right)}\)
\(\Leftrightarrow P\le\frac{a+c}{4b\left(a+c\right)}+\frac{a+b}{4c\left(a+b\right)}+\frac{b+c}{4a\left(b+c\right)}\)
\(\Leftrightarrow P\le\frac{1}{4b}+\frac{1}{4c}+\frac{1}{4a}\)
\(\Leftrightarrow P\le\frac{1}{4}\left(\frac{ab+bc+ca}{abc}\right)\)
\(\Leftrightarrow P\le\frac{1}{4}.\frac{abc}{abc}=\frac{1}{4}.1=\frac{1}{4}\)( vì \(ab+bc+ca=abc\))
Dấu bằng xảy ra
\(\Leftrightarrow\hept{\begin{cases}a=b=c>0\\ab+bc+ca=abc\end{cases}}\Leftrightarrow a=b=c=3\)
Vậy \(minP=\frac{1}{4}\Leftrightarrow a=b=c=3\)
Cauchy-SChwarz:
\(VT=\sum_{cyc}\frac{ab}{a^2+ab+bc}\le\frac{\sum_{cyc}\left(a^2b^2+ab^2c+abc^2\right)}{\left(ab+bc+ca\right)^2}=\frac{\left(ab+bc+ca\right)^2}{\left(ab+bc+ca\right)^2}=1\)
Dau "=" khi a=b=c\(\in R^+\)