Lời giải:

Áp dụng BĐT AM-GM:

$P=(a+1)+\frac{2}{a+1}+2\geq 2\sqrt{(a+1).\frac{2}{a+1}}+2=2\sqrt{2}+2$

Vậy $P_{\min}=2\sqrt{2}+2$

Giá trị này đạt tại $(a+1)^2=2; a>0\Leftrightarrow a=\sqrt{2}-1$

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Bổ sung ĐK: $a>1$

$X=\frac{a^2-1+2}{a-1}=a+1+\frac{2}{a-1}$

$=(a-1)+\frac{2}{a-1}+2$

$\geq 2\sqrt{2}+2$ (AM-GM)

Vậy $X_{\min}=2\sqrt{2}+2$
Giá trị đạt tại $(a-1)^2=\sqrt{2}; a>1\Leftrightarrow a=\sqrt{2}+1$

Cô ơi giúp em câu em vừa gửi ạ

1. 1/x + 2/1-x = (1/x - 1) + (2/1-x - 2) + 3

= 1-x/x + (2-2(1-x))/1-x  + 3

= 1-x/x + 2x/1-x + 3    >= 2√2 + 3

Dấu "=" xảy ra khi x =√2 - 1

2. a = √z-1, b = √x-2, c = √y-3 (a,b,c >=0)

=> P = √z-1 / z + √x-2 / x + √y-3 / y 

= a/a^2+1 + b/b^2+2 + c/c^2+3

a^2+1 >= 2a              => a/a^2+1 <= 1/2

b^2+2 >= 2√2 b          => b/b^2+2 <= 1/2√2

c^2+3 >= 2√3 c            => c/c^2+3 <= 1/2√3

=> P <= 1/2 + 1/2√2 + 1/2√3

Dấu = xảy ra khi a^2 = 1, b^2 = 2, c^2 =3

<=> z-1 = 1, x-2 = 2, y-3 = 3

<=> x=4, y=6, z=2

1: Ta có: \(A=\dfrac{2\sqrt{x}-9}{x-5\sqrt{x}+6}-\dfrac{\sqrt{x}+3}{\sqrt{x}-2}-\dfrac{2\sqrt{x}+1}{3-\sqrt{x}}\)

\(=\dfrac{2\sqrt{x}-9-\left(x-9\right)+\left(2\sqrt{x}+1\right)\left(\sqrt{x}-2\right)}{\left(\sqrt{x}-3\right)\left(\sqrt{x}-2\right)}\)

\(=\dfrac{2\sqrt{x}-9-x+9+2x-4\sqrt{x}+\sqrt{x}-2}{\left(\sqrt{x}-3\right)\left(\sqrt{x}-2\right)}\)

\(=\dfrac{x-\sqrt{x}-2}{\left(\sqrt{x}-3\right)\left(\sqrt{x}-2\right)}\)

\(=\dfrac{\sqrt{x}+1}{\sqrt{x}-3}\)

Để \(A=-\dfrac{1}{\sqrt{x}}\) thì \(x+\sqrt{x}=-\sqrt{x}+3\)

\(\Leftrightarrow x+2\sqrt{x}-3=0\)

\(\Leftrightarrow\left(\sqrt{x}+3\right)\left(\sqrt{x}-1\right)=0\)

\(\Leftrightarrow x=1\left(nhận\right)\)

2: Để A nguyên thì \(\sqrt{x}+1⋮\sqrt{x}-3\)

\(\Leftrightarrow\sqrt{x}-3\in\left\{-1;1;2;-2;4;-4\right\}\)

\(\Leftrightarrow\sqrt{x}\in\left\{2;4;5;1;7\right\}\)

\(\Leftrightarrow x\in\left\{16;25;1;49\right\}\)

Lời giải:

Áp dụng BĐT Cauchy-Schwarz:

$A\geq \frac{9}{x+2+y+2+z+2}=\frac{9}{x+y+z+6}$

Áp dụng BĐT Bunhiacopxky:

$(x^2+y^2+z^2)(1+1+1)\geq (x+y+z)^2$

$\Rightarrow 9\geq (x+y+z)^2\Rightarrow x+y+z\leq 3$

$\Rightarrow A\geq \frac{9}{x+y+z+6}\geq \frac{9}{3+6}=1$
Vậy $A_{\min}=1$. Dấu "=" xảy ra khi $x=y=z=1$

\(P=2x+\dfrac{27}{x^2}=x+x+\dfrac{27}{x^2}\ge3\sqrt[3]{\dfrac{27x^2}{x^2}}=9\)

\(P_{min}=9\) khi \(x=\dfrac{27}{x^2}\Leftrightarrow x=3\)

a: Ta có: \(A=\dfrac{x\sqrt{x}-3}{x-2\sqrt{x}-3}-\dfrac{2\left(\sqrt{x}-3\right)}{\sqrt{x}+1}+\dfrac{\sqrt{x}+3}{3-\sqrt{x}}\)

\(=\dfrac{x\sqrt{x}-3-2\left(x-6\sqrt{x}+9\right)-x-4\sqrt{x}-3}{\left(\sqrt{x}+1\right)\left(\sqrt{x}-3\right)}\)

\(=\dfrac{x\sqrt{x}-x-4\sqrt{x}-6-2x+12\sqrt{x}-18}{\left(\sqrt{x}+1\right)\left(\sqrt{x}-3\right)}\)

\(=\dfrac{x\sqrt{x}-3x+8\sqrt{x}-24}{\left(\sqrt{x}+1\right)\left(\sqrt{x}-3\right)}\)

\(=\dfrac{x\left(\sqrt{x}-3\right)+8\left(\sqrt{x}-3\right)}{\left(\sqrt{x}+1\right)\left(\sqrt{x}-3\right)}\)

\(=\dfrac{x+8}{\sqrt{x}+1}\)

Lời giải:
ĐKXĐ: $x\geq 0; x\neq 9$

a. \(A=\frac{x\sqrt{x}-3}{(\sqrt{x}+1)(\sqrt{x}-3)}-\frac{2(\sqrt{x}-3)^2}{(\sqrt{x}+1)(\sqrt{x}-3)}-\frac{(\sqrt{x}+3)(\sqrt{x}+1)}{(\sqrt{x}+1)(\sqrt{x}-3)}\)

\(=\frac{x\sqrt{x}-3x+8\sqrt{x}-24}{(\sqrt{x}+1)(\sqrt{x}-3)}=\frac{(\sqrt{x}-3)(x+8)}{(\sqrt{x}+1)(\sqrt{x}-3)}=\frac{x+8}{\sqrt{x}+1}\)

b.

\(14-6\sqrt{5}=(3-\sqrt{5})^2\Rightarrow \sqrt{x}=3-\sqrt{5}\)

\(A=\frac{14-6\sqrt{5}+8}{3-\sqrt{5}+1}=\frac{22-6\sqrt{5}}{4-\sqrt{5}}=\frac{58-2\sqrt{5}}{11}\)

c. 

Áp dụng BĐT Cô-si:
$x+4\geq 4\sqrt{x}\Rightarrow x+8\geq 4(\sqrt{x}+1)$

$\Rightarrow A=\frac{x+8}{\sqrt{x}+1}\geq 4$

Vậy $A_{\min}=4$. Giá trị này đạt tại $x=4$

Lời giải:
a. \(B=\frac{3(\sqrt{x}+1)}{(\sqrt{x}-1)(\sqrt{x}+1)}-\frac{\sqrt{x}+5}{(\sqrt{x}-1)(\sqrt{x}+1)}=\frac{3(\sqrt{x}+1)-(\sqrt{x}+5)}{(\sqrt{x}-1)(\sqrt{x}+1)}=\frac{2(\sqrt{x}-1)}{(\sqrt{x}-1)(\sqrt{x}+1)}=\frac{2}{\sqrt{x}+1}\)

b.

\(P=2AB+\sqrt{x}=2.\frac{\sqrt{x}+1}{\sqrt{x}+2}.\frac{2}{\sqrt{x}+1}+\sqrt{x}=\frac{4}{\sqrt{x}+2}+\sqrt{x}\)

Áp dụng BĐT Cô-si:

$P=\frac{4}{\sqrt{x}+2}+(\sqrt{x}+2)-2\geq 2\sqrt{4}-2=2$

Vậy $P_{\min}=2$ khi $\sqrt{x}+2=2\Leftrightarrow x=0$

Áp dụng BĐT Svácxơ, ta có:

\(A=\dfrac{x^2}{y+z}+\dfrac{y^2}{z+x}+\dfrac{z^2}{x+y}\ge\dfrac{\left(x+y+z\right)^2}{2\left(x+y+z\right)}=\dfrac{x+y+z}{2}=\dfrac{2}{2}=1\)

\(MinA=1\Leftrightarrow x=y=z=\dfrac{2}{3}\)