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Lời giải:
Ta có:
$2(ab+bc+ac)=(a+b+c)^2-(a^2+b^2+c^2)=6^2-12=24=2(a^2+b^2+c^2)$
$\Rightarrow 2(a^2+b^2+c^2)-2(ab+bc+ac)=0$
$\Leftrightarrow (a^2+b^2-2ab)+(b^2+c^2-2bc)+(c^2+a^2-2ac)=0$
$\Leftrightarrow (a-b)^2+(b-c)^2+(c-a)^2=0$
$\Rightarrow a-b=b-c=c-a=0$
$\Rightarrow a=b=c$. Mà $a+b+c=6$ nên $a=b=c=2$
Khi đó:
$A=(2-3)^{2020}+(2-3)^{2020}+(2-3)^{2020}=1+1+1=3$
a) Áp dụng Cauchy Schwars ta có:
\(M=\frac{a^2}{a+1}+\frac{b^2}{b+1}+\frac{c^2}{c+1}\ge\frac{\left(a+b+c\right)^2}{a+b+c+3}=\frac{9}{6}=\frac{3}{2}\)
Dấu "=" xảy ra khi: a = b = c = 1
b) \(N=\frac{1}{a}+\frac{4}{b+1}+\frac{9}{c+2}\ge\frac{\left(1+2+3\right)^2}{a+b+c+3}=\frac{36}{6}=6\)
Dấu "=" xảy ra khi: x=y=1
\(5a^2+5b^2+8ab-2a+2b+2=0\)
\(\Leftrightarrow4a^2+4b^2+8ab+a^2-2a+1+b^2-2b+1=0\)
\(\Leftrightarrow\left(2a+2b\right)^2+\left(a-1\right)^2+\left(b+1\right)^2=0\)
\(\Leftrightarrow\hept{\begin{cases}2a+2b=0\\a-1=0\\b+1=0\end{cases}\Leftrightarrow\hept{\begin{cases}a\cdot1+2\left(-1\right)=0\left(tm\right)\\a=1\\b=-1\end{cases}}}\)
Thay a, b vào B ta được :
\(B=\left(1-1\right)^{2018}+\left(1-2\right)^{2019}+\left(-1+1\right)^{2020}\)
\(B=0^{2018}+\left(-1\right)^{2019}+0^{2020}\)
\(B=-1\)
Đặt \(\left(a,b,c\right)\rightarrow\left(\frac{x}{y},\frac{y}{z},\frac{z}{x}\right)\)
\(VT=\Sigma_{cyc}\frac{1}{\sqrt{\frac{x}{z}+\frac{x}{y}+2}}=\Sigma_{cyc}\frac{\sqrt{yz}}{\sqrt{xy+xz+2yz}}\)
\(\Rightarrow VT^2\le\left(1+1+1\right)\left(\Sigma_{cyc}\frac{yz}{xy+xz+2yz}\right)\)\(\le\frac{3}{4}\left[\Sigma_{cyc}yz\left(\frac{1}{xy+yz}+\frac{1}{xz+yz}\right)\right]=\frac{9}{4}\)
Đẳng thức xảy ra khi a = b = c = 1
Bài 1: Bổ đề: \(x^2+y^2\ge\frac{\left(x+y\right)^2}{2}\)
\(P=\frac{1}{\sqrt{2}}\left(\sqrt{4a^2+2ab+4b^2}+\sqrt{4b^2+2bc+4c^2}+\sqrt{4c^2+2ca+4a^2}\right)\)
\(=\frac{1}{\sqrt{2}}\left(\sqrt{3\left(a^2+b^2\right)+\left(a+b\right)^2}+\sqrt{3\left(b^2+c^2\right)+\left(b+c\right)^2}+\sqrt{3\left(c^2+a^2\right)+\left(c+a\right)^2}\right)\)
\(\ge\frac{1}{\sqrt{2}}\left(\sqrt{\frac{3}{2}\left(a+b\right)^2+\left(a+b\right)^2}+\sqrt{\frac{3}{2}\left(b+c\right)^2+\left(b+c\right)^2}+\sqrt{\frac{3}{2}\left(c+a\right)^2+\left(c+a\right)^2}\right)\)
\(=\frac{1}{\sqrt{2}}\left(\sqrt{\frac{5}{2}\left(a+b\right)^2}+\sqrt{\frac{5}{2}\left(b+c\right)^2}+\sqrt{\frac{5}{2}\left(c+a\right)^2}\right)\)
\(=\frac{1}{\sqrt{2}}.\frac{\sqrt{5}}{\sqrt{2}}+\left[\left(a+b\right)+\left(b+c\right)+\left(c+a\right)\right]\)\(=\frac{\sqrt{5}}{2}.2\left(a+b+c\right)=\sqrt{5}.2020\)
Dấu "=" xảy ra khi \(a=b=c=\frac{2020}{3}\)
Biến đổi giả thiết \(2\left(a^2+b^2\right)-\left(a+b\right)=2ab\)
Mà ta có: \(2ab\le\frac{\left(a+b\right)^2}{2}\)nên \(2\left(a^2+b^2\right)-\left(a+b\right)\le\frac{\left(a+b\right)^2}{2}\)(*)
Theo BĐT Cauchy-Schwarz: \(2\left(a^2+b^2\right)\ge\left(a+b\right)^2\)nên từ (*) suy ra \(\left(a+b\right)^2-\left(a+b\right)\le\frac{\left(a+b\right)^2}{2}\)
Đặt \(s=a+b>0\)thì \(s^2-s\le\frac{s^2}{2}\Leftrightarrow\frac{s^2}{2}-s\le0\Leftrightarrow s^2-2s\le0\Leftrightarrow s\left(s-2\right)\le0\)
Mà \(s>0\)nên \(s-2\le0\Rightarrow s\le2\)hay \(a+b\le2\)
\(F=\frac{a^3}{b}+\frac{b^3}{a}+2020\left(\frac{1}{a}+\frac{1}{b}\right)\ge\frac{a^4}{ab}+\frac{b^4}{ab}+2020.\frac{4}{a+b}\)\(\ge\frac{\left(a^2+b^2\right)^2}{2ab}+\frac{8080}{a+b}\ge\left(\frac{\left(a+b\right)^2}{2}+\frac{4}{a+b}+\frac{4}{a+b}\right)+\frac{8072}{a+b}\)
\(\ge3\sqrt[3]{\frac{\left(a+b\right)^2}{2}.\frac{4}{a+b}.\frac{4}{a+b}}+\frac{8072}{2}=4042\)
Đẳng thức xảy ra khi a = b = 1
=>a^2+b^2+c^2+3-2a-2b-2c=0
=>(a^2-2a+1)+(b^2-2b+1)+(c62-2c+1)=0
=>(3 hằng dẳng thức của a-1 b-1 c-1)
Suy ra (a-1)^2=0
và (b-1)^2=0
và(c-1)^2=0
thay vào A suy ra A=0
cố gắng trình bày lại nhé bạn!