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Ta có \(x+y+z=0\Rightarrow x+y=-z\Rightarrow x-y=z\Rightarrow\left(x-y\right)^2=z^2\)
\(x+y+z=0\Rightarrow x+z=-y\Rightarrow z-x=y\Rightarrow\left(z-x\right)^2=y^2\)
\(x+y+z=0\Rightarrow y+z=-x\Rightarrow y-z=x\Rightarrow\left(y-z\right)^2=x^2\)
Khi đó \(A=\frac{x^2+y^2+x^2}{\left(y-z\right)^2+\left(z-x\right)^2+\left(x-y\right)^2}\)
\(=\frac{x^2+y^2+z^2}{x^2+y^2+z^2}\)
\(=1\)
Vậy \(x+y+z=0\)thì \(A=1\)
Dự đoán dấu "=" xảy ra khi \(x=y=z=\frac{1}{3}\) ta tính được \(A=\frac{1}{4}\)
Ta sẽ chứng minh nó là GTNN của A
Thật vậy áp dụng BĐT Cauchy-Schwarz dạng Engel ta có:
\(A=Σ\frac{x^4}{\left(x^2+y^2\right)\left(x+y\right)}\ge\frac{\left(x^2+y^2+z^2\right)^2}{Σ\left(x^2+y^2\right)\left(x+y\right)}\)
Do đó ta cần phải chứng minh \(\frac{\left(x^2+y^2+z^2\right)^2}{Σ\left(x^2+y^2\right)\left(x+y\right)}\ge\frac{x+y+z}{4}\)
\(\Leftrightarrow4\left(x^2+y^2+z^2\right)^2\ge\left(x+y+z\right)Σ\left(2x^3+x^2y+x^2z\right)\)
\(\LeftrightarrowΣ\left(2x^4-3x^3y-3x^3z+6x^2y^2-2x^2yz\right)\ge0\)
\(\LeftrightarrowΣ\left(2x^4-3x^3y-3x^3z+4x^2y^2\right)+Σ\left(2x^2y^2-2x^2yz\right)\ge0\)
\(\LeftrightarrowΣ\left(x^4-3x^3y+4x^2y^2-3xy^3+y^4\right)+Σ\left(x^2z^2-2z^2xy+y^2z^2\right)\ge0\)
\(\LeftrightarrowΣ\left(x-y\right)^2\left(x^2-xy+y^2\right)+Σz^2\left(x-y\right)^2\ge0\) (đúng)
Vậy \(x=y=z=\frac{1}{3}\) thì \(A_{Min}=\frac{1}{4}\)
Ta có \(1+x^2=x^2+xy+yz+xz=\left(x+y\right)\left(x+z\right)\)
Tương tự \(1+y^2=\left(x+y\right)\left(y+z\right)\)
\(1+z^2=\left(x+z\right)\left(y+z\right)\)
Thay vào A ta được
\(P=x\sqrt{\left(y+z\right)^2}+y\sqrt{\left(x+z\right)^2}+z\sqrt{\left(x+y\right)^2}\)
=2(xy+xz+yz)=2
\(b,VT=VP\)
\(\Leftrightarrow\frac{x}{xy+yz+zx+x^2}+\frac{y}{xy+yz+zx+y^2}+\frac{z}{xy+yz+zx+z^2}\)
\(=\frac{2xyz}{\sqrt{\left(xy+yz+zx+x^2\right)\left(xy+yz+zx+y^2\right)\left(xy+yz+zx+z^2\right)}}\)
\(\Leftrightarrow\frac{x}{\left(x+y\right)\left(x+z\right)}+\frac{y}{\left(x+y\right)\left(y+z\right)}+\frac{z}{\left(x+z\right)\left(y+z\right)}\)
\(=\frac{2xyz}{\sqrt{\left(x+y\right)\left(x+z\right)\left(y+z\right)\left(y+x\right)\left(z+x\right)\left(y+z\right)}}\)
\(\Leftrightarrow\frac{x\left(y+z\right)+y\left(x+z\right)+z\left(x+y\right)}{\left(x+y\right)\left(y+z\right)\left(z+x\right)}=\frac{2xyz}{\left(x+y\right)\left(y+z\right)\left(z+x\right)}\)
\(\Leftrightarrow xy+xz+xy+yz+xz+yz=2xyz\)
\(\Leftrightarrow2=2xyz\)
\(\Leftrightarrow xyz=1\)
Đù =)))
Gọi cái biểu thức đó là P nha
Trước tiên chứng minh:
\(\frac{x^4}{\left(x^2+y^2\right)\left(x+y\right)}+\frac{y^4}{\left(y^2+z^2\right)\left(y+z\right)}+\frac{z^4}{\left(z^2+x^2\right)\left(z+x\right)}-\left(\frac{y^4}{\left(x^2+y^2\right)\left(x+y\right)}+\frac{z^4}{\left(y^2+z^2\right)\left(y+z\right)}+\frac{x^4}{\left(z^2+x^2\right)\left(z+x\right)}\right)=0\)
\(\Leftrightarrow\frac{x^4-y^4}{\left(x^2+y^2\right)\left(x+y\right)}+\frac{y^4-z^4}{\left(y^2+z^2\right)\left(y+z\right)}+\frac{z^4-x^4}{\left(z^2+x^2\right)\left(z+x\right)}\)
\(\Leftrightarrow x-y+y-z+z-x=0\)( đúng )
Giờ ta quay lại bài toán ban đầu
Ta có:
\(\Leftrightarrow2P=\frac{x^4+y^4}{\left(x^2+y^2\right)\left(x+y\right)}+\frac{y^4+z^4}{\left(y^2+z^2\right)\left(y+z\right)}+\frac{z^4+x^4}{\left(z^2+x^2\right)\left(z+x\right)}\)
\(\ge\frac{\left(x^2+y^2\right)^2}{2\left(x^2+y^2\right)\left(x+y\right)}+\frac{\left(y^2+z^2\right)^2}{2\left(y^2+z^2\right)\left(y+z\right)}+\frac{\left(z^2+x^2\right)^2}{2\left(z^2+x^2\right)\left(z+x\right)}\)
\(=\frac{x^2+y^2}{2\left(x+y\right)}+\frac{y^2+z^2}{2\left(y+z\right)}+\frac{z^2+x^2}{2\left(z+x\right)}\)
\(\ge\frac{\left(x+y\right)^2}{4\left(x+y\right)}+\frac{\left(y+z\right)^2}{4\left(y+z\right)}+\frac{\left(z+x\right)^2}{4\left(z+x\right)}\)
\(=\frac{x+y}{4}+\frac{y+z}{4}+\frac{z+x}{4}=\frac{1}{2}\)
\(\Rightarrow P\ge\frac{1}{4}\)
Khá đơn giản!
Ta có: \(x+y+z=0\)
=> \(\left(x+y+z\right)^2=0\)
<=> \(x^2+y^2+z^2+2xy+2yz+2xz=0\) (1)
Thay (1) vào A ta được:
A = \(\dfrac{x^2+y^2+z^2}{\left(x-y\right)^2+\left(y-z\right)^2+\left(z-x\right)^2}\)
= \(\dfrac{x^2+y^2+z^2}{3\left(x^2+y^2+z^2\right)-\left(x^2+y^2+z^2+2xy+2yz+2xz\right)}\)
= \(\dfrac{x^2+y^2+z^2}{3\left(x^2+y^2+z^2\right)}=\dfrac{1}{3}\)