Lời giải:

Đặt $xy=t$

Áp dụng BĐT AM_GM:

$xy\leq \frac{(x+y)^2}{4}=3$. Như vậy $0\leq t\leq 3$

Ta có:

$P=(x^4+1)(y^4+1)=x^4y^4+x^4+y^4+1$

$=x^4y^4+(x^2+y^2)^2-2x^2y^2+1$

$=x^4y^4+[(x+y)^2-2xy]^2-2x^2y^2+1$

$=x^4y^4+2x^2y^2-48xy+145$

$=t^4+2t^2-48t+145$

$=t(t^3+2t-48)+145$

Vì $0\leq t\leq 3$ nên $t(t^3+2t-48)\leq 0$

$\Rightarrow P\leq 145$

Vậy $P_{\max}=145$. Giá trị này đạt tại $(x,y)=(0,2\sqrt{3})$ và hoán vị.

ta có \(\frac{2}{\sqrt{x}}-z=\frac{2\sqrt{xyz}}{\sqrt{x}}-z\)\(=2\sqrt{yz}-z\le y+z-z=y\)THEO bđt côsi

Tương tự \(\frac{2}{\sqrt{y}}-x\le z\)và \(\frac{2}{\sqrt{z}}-y\le x\)

\(\Rightarrow A\le xyz=1\)

VẬY MAX A=1 TẠI x=y=z=1

quang phan duy Sol hay đấy =) hay hơn cách tôi rồi

\(\left(\dfrac{x+2}{x\sqrt{x}-1}+\dfrac{\sqrt{x}}{x+\sqrt{x}+1}+\dfrac{1}{1-\sqrt{x}}\right):\dfrac{\sqrt{x}-1}{2}\left(x\ge0,x\ne1\right)\)

\(=\left(\dfrac{x+2}{\left(\sqrt{x}-1\right)\left(x+\sqrt{x}+1\right)}+\dfrac{\sqrt{x}}{x+\sqrt{x}+1}-\dfrac{1}{\sqrt{x}-1}\right).\dfrac{2}{\sqrt{x}-1}\)

\(=\dfrac{x+2+\sqrt{x}\left(\sqrt{x}-1\right)-x-\sqrt{x}-1}{\left(\sqrt{x}-1\right)\left(x+\sqrt{x}+1\right)}.\dfrac{2}{\sqrt{x}-1}\)

\(=\dfrac{x-2\sqrt{x}+1}{\left(\sqrt{x}-1\right)\left(x+\sqrt{x}+1\right)}.\dfrac{2}{\sqrt{x}-1}=\dfrac{\left(\sqrt{x}-1\right)^2}{\left(\sqrt{x}-1\right)\left(x+\sqrt{x}+1\right)}.\dfrac{2}{\sqrt{x}-1}\)

\(=\dfrac{2}{x+\sqrt{x}+1}\)

b) Ta có: \(x\ge0\Rightarrow x+\sqrt{x}+1\ge1\Rightarrow\dfrac{2}{x+\sqrt{x}+1}\le2\)

\(\Rightarrow max=2\) khi \(x=0\)

Ta có: \(\left(\dfrac{x+2}{x\sqrt{x}-1}+\dfrac{\sqrt{x}}{x+\sqrt{x}+1}+\dfrac{1}{1-\sqrt{x}}\right):\dfrac{\sqrt{x}-1}{2}\)

\(=\dfrac{x+2+x-\sqrt{x}-x-\sqrt{x}-1}{\left(\sqrt{x}-1\right)\left(x+\sqrt{x}+1\right)}\cdot\dfrac{2}{\sqrt{x}-1}\)

\(=\dfrac{x-2\sqrt{x}+1}{\left(\sqrt{x}-1\right)^2}\cdot\dfrac{2}{x+\sqrt{x}+1}\)

\(=\dfrac{2}{x+\sqrt{x}+1}\)

A

Áp dụng BĐT cosi ta có 

\(\sqrt{\left(2x-1\right).1}\le\frac{2x-1+1}{2}=x\)

\(x\sqrt{5-4x^2}\le\frac{x^2+5-4x^2}{2}=\frac{-3x^2+5}{2}\)

Khi đó 

\(A\le3x+\frac{-3x^2+5}{2}=\frac{-3x^2+6x+5}{2}=\frac{-3\left(x-1\right)^2}{2}+4\le4\)

MaxA=4 khi \(\hept{\begin{cases}2x-1=1\\x^2=5-4x^2\\x=1\end{cases}\Rightarrow}x=1\)

B

Áp dụng BĐT cosi ta có :

\(x^2+y^2+z^2\ge\frac{1}{3}\left(x+y+z\right)^2\)

=> \(x+y+z\le\sqrt{3\left(x^2+y^2+z^2\right)}\)

=> \(B\le\frac{xyz.\left(\sqrt{3\left(x^2+y^2+z^2\right)}+\sqrt{x^2+y^2+z^2}\right)}{\left(x^2+y^2+z^2\right)\left(xy+yz+xz\right)}=\frac{xyz.\left(\sqrt{3}+1\right)}{\left(xy+yz+xz\right)\sqrt{x^2+y^2+z^2}}\)

Lại có \(x^2+y^2+z^2\ge3\sqrt[3]{x^2y^2z^2}\); \(xy+yz+xz\ge3\sqrt[3]{x^2y^2z^2}\)

=> \(\sqrt{x^2+y^2+z^2}\left(xy+yz+xz\right)\ge3\sqrt[3]{x^2y^2z^2}.\sqrt{3\sqrt[3]{x^2y^2z^2}}=3\sqrt{3}.xyz\)

=> \(B\le\frac{\sqrt{3}+1}{3\sqrt{3}}=\frac{3+\sqrt{3}}{9}\)

\(MaxB=\frac{3+\sqrt{3}}{9}\)khi x=y=z

Lời giải:

A có min thôi bạn nhé.

\(A=\frac{\sqrt{x}+1+\sqrt{x}}{(\sqrt{x}-1)(\sqrt{x}+1)}: \frac{\sqrt{x}-(\sqrt{x}-1)}{\sqrt{x}-1}\)

\(=\frac{2\sqrt{x}+1}{(\sqrt{x}-1)(\sqrt{x}+1)}:\frac{1}{\sqrt{x}-1}=\frac{2\sqrt{x}+1}{(\sqrt{x}-1)(\sqrt{x}+1)}.(\sqrt{x}-1)=\frac{2\sqrt{x}+1}{\sqrt{x}+1}\)

\(=\frac{2(\sqrt{x}+1)-1}{\sqrt{x}+1}=2-\frac{1}{\sqrt{x}+1}\)

Vì $\sqrt{x}\geq 0$ với mọi $x\geq 0; x\neq 1$ nên $\sqrt{x}+1\geq 1$

$\Rightarrow \frac{1}{\sqrt{x}+1}\leq 1$
$\Rightarrow A=2-\frac{1}{\sqrt{x}+1}\geq 2-1=1$

Vậy $A_{\min}=1$ tại $x=0$