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Question

bài 1 : xét sự biến thiên của các hàm số sau trên các khoảng đã chỉ ra :

a) $y=\frac{4}{x+1};\left(-\infty;-1\right),\left(-1;+\infty\right)$

b) \(y=\frac{3}{2-x};\left(-\infty;2\righ...

Võ Hồng Phúc · Accepted Answer

b, Lấy $x_1;x_2\in\left(-\infty;2\right)\left(x_1\ne x_2\right)$

$\Rightarrow y_1=\frac{3}{2-x_1};y_2=\frac{3}{2-x_2}$

$\Rightarrow y_1-y_2=\frac{3}{2-x_1}-\frac{3}{2-x_2}=\frac{3\left(2-x_2-2+x_1\right)}{\left(2-x_1\right)\left(2-x_2\right)}=\frac{3\left(x_1-x_2\right)}{\left(2-x_1\right)\left(2-x_2\right)}$

$\Rightarrow\frac{y_1-y_2}{x_1-x_2}=\frac{3}{\left(2-x_1\right)\left(2-x_2\right)}$

Do $x_1;x_2\in\left(-\infty;2\right)\Rightarrow\left(2-x_1\right)\left(2-x_2\right)>0$

$\Rightarrow I=\frac{y_1-y_2}{x_1-x_2}=\frac{3}{\left(2-x_1\right)\left(2-x_2\right)}>0$

$\Rightarrow$ Hàm số đồng biến trên $\left(-\infty;2\right)$

Lấy $x_1;x_2\in\left(2;+\infty\right)\left(x_1\ne x_2\right)$

$\Rightarrow y_1=\frac{3}{2-x_1};y_2=\frac{3}{2-x_2}$

$\Rightarrow y_1-y_2=\frac{3}{2-x_1}-\frac{3}{2-x_2}=\frac{3\left(2-x_2-2+x_1\right)}{\left(2-x_1\right)\left(2-x_2\right)}=\frac{3\left(x_1-x_2\right)}{\left(2-x_1\right)\left(2-x_2\right)}$

$\Rightarrow\frac{y_1-y_2}{x_1-x_2}=\frac{3}{\left(2-x_1\right)\left(2-x_2\right)}$

Do $x_1;x_2\in\left(-\infty;2\right)\Rightarrow\left(2-x_1\right)\left(2-x_2\right)>0$

$\Rightarrow I=\frac{y_1-y_2}{x_1-x_2}=\frac{3}{\left(2-x_1\right)\left(2-x_2\right)}>0$

$\Rightarrow$ Hàm số đồng biến trên $\left(2;+\infty\right)$Câu trả lời: b, Lấy $x_1;x_2\in\left(-\infty;2\right)\left(x_1\ne x_2\right)$

$\Rightarrow y_1=\frac{3}{2-x_1};y_2=\frac{3}{2-x_2}$

$\Rightarrow y_1-y_2=\frac{3}{2-x_1}-\frac{3}{2-x_2}=\frac{3\left(2-x_2-2+x_1\right)}{\left(2-x_1\right)\left(2-x_2\right)}=\frac{3\left(x_1-x_2\right)}{\left(2-x_1\right)\left(2-x_2\right)}$

$\Rightarrow\frac{y_1-y_2}{x_1-x_2}=\frac{3}{\left(2-x_1\right)\left(2-x_2\right)}$

Do $x_1;x_2\in\left(-\infty;2\right)\Rightarrow\left(2-x_1\right)\left(2-x_2\right)>0$

$\Rightarrow I=\frac{y_1-y_2}{x_1-x_2}=\frac{3}{\left(2-x_1\right)\left(2-x_2\right)}>0$

$\Rightarrow$ Hàm số đồng biến trên $\left(-\infty;2\right)$

Lấy $x_1;x_2\in\left(2;+\infty\right)\left(x_1\ne x_2\right)$

$\Rightarrow y_1=\frac{3}{2-x_1};y_2=\frac{3}{2-x_2}$

$\Rightarrow y_1-y_2=\frac{3}{2-x_1}-\frac{3}{2-x_2}=\frac{3\left(2-x_2-2+x_1\right)}{\left(2-x_1\right)\left(2-x_2\right)}=\frac{3\left(x_1-x_2\right)}{\left(2-x_1\right)\left(2-x_2\right)}$

$\Rightarrow\frac{y_1-y_2}{x_1-x_2}=\frac{3}{\left(2-x_1\right)\left(2-x_2\right)}$

Do $x_1;x_2\in\left(-\infty;2\right)\Rightarrow\left(2-x_1\right)\left(2-x_2\right)>0$

$\Rightarrow I=\frac{y_1-y_2}{x_1-x_2}=\frac{3}{\left(2-x_1\right)\left(2-x_2\right)}>0$

$\Rightarrow$ Hàm số đồng biến trên $\left(2;+\infty\right)$

Võ Hồng Phúc · Answer

a, Lấy $x_1;x_2\in\left(-\infty;-1\right)\left(x_1\ne x_2\right)$ $\Rightarrow y_1=\frac{4}{x_1+1};y_2=\frac{4}{x_2+1}$ $\Rightarrow y_1-y_2=\frac{4}{x_1+1}-\frac{4}{x_2+1}=\frac{4\left(x_2+1-x_1-1\right)}{\left(x_1+1\right)\left(x_2+1\right)}=-\frac{4\left(x_1-x_2\right)}{\left(x_1+1\right)\left(x_2+1\right)}$ $\Rightarrow\frac{y_1-y_2}{x_1-x_2}=-\frac{4}{\left(x_1+1\right)\left(x_2+1\right)}$ Do $x_1;x_2\in\left(-\infty;-1\right)\Rightarrow\left(x_1+1\right)\left(x_2+1\right)>0$ $\Rightarrow I=\frac{y_1-y_2}{x_1-x_2}=-\frac{4}{\left(x_1+1\right)\left(x_2+1\right)}< 0$ $\Rightarrow$ Hàm số nghịch biến trên $\left(-\infty;-1\right)$ Lấy $x_1;x_2\in\left(-1;+\infty\right)\left(x_1\ne x_2\right)$ $\Rightarrow y_1=\frac{4}{x_1+1};y_2=\frac{4}{x_2+1}$ $\Rightarrow y_1-y_2=\frac{4}{x_1+1}-\frac{4}{x_2+1}=\frac{4\left(x_2+1-x_1-1\right)}{\left(x_1+1\right)\left(x_2+1\right)}=-\frac{4\left(x_1-x_2\right)}{\left(x_1+1\right)\left(x_2+1\right)}$ $\Rightarrow\frac{y_1-y_2}{x_1-x_2}=-\frac{4}{\left(x_1+1\right)\left(x_2+1\right)}$ Do $x_1;x_2\in\left(-1;+\infty\right)\Rightarrow\left(x_1+1\right)\left(x_2+1\right)>0$ $\Rightarrow I=\frac{y_1-y_2}{x_1-x_2}=-\frac{4}{\left(x_1+1\right)\left(x_2+1\right)}< 0$ $\Rightarrow$ Hàm số nghịch biến trên $\left(-\infty;-1\right)$Câu trả lời: a, Lấy $x_1;x_2\in\left(-\infty;-1\right)\left(x_1\ne x_2\right)$ $\Rightarrow y_1=\frac{4}{x_1+1};y_2=\frac{4}{x_2+1}$ $\Rightarrow y_1-y_2=\frac{4}{x_1+1}-\frac{4}{x_2+1}=\frac{4\left(x_2+1-x_1-1\right)}{\left(x_1+1\right)\left(x_2+1\right)}=-\frac{4\left(x_1-x_2\right)}{\left(x_1+1\right)\left(x_2+1\right)}$ $\Rightarrow\frac{y_1-y_2}{x_1-x_2}=-\frac{4}{\left(x_1+1\right)\left(x_2+1\right)}$ Do $x_1;x_2\in\left(-\infty;-1\right)\Rightarrow\left(x_1+1\right)\left(x_2+1\right)>0$ $\Rightarrow I=\frac{y_1-y_2}{x_1-x_2}=-\frac{4}{\left(x_1+1\right)\left(x_2+1\right)}< 0$ $\Rightarrow$ Hàm số nghịch biến trên $\left(-\infty;-1\right)$ Lấy $x_1;x_2\in\left(-1;+\infty\right)\left(x_1\ne x_2\right)$ $\Rightarrow y_1=\frac{4}{x_1+1};y_2=\frac{4}{x_2+1}$ $\Rightarrow y_1-y_2=\frac{4}{x_1+1}-\frac{4}{x_2+1}=\frac{4\left(x_2+1-x_1-1\right)}{\left(x_1+1\right)\left(x_2+1\right)}=-\frac{4\left(x_1-x_2\right)}{\left(x_1+1\right)\left(x_2+1\right)}$ $\Rightarrow\frac{y_1-y_2}{x_1-x_2}=-\frac{4}{\left(x_1+1\right)\left(x_2+1\right)}$ Do $x_1;x_2\in\left(-1;+\infty\right)\Rightarrow\left(x_1+1\right)\left(x_2+1\right)>0$ $\Rightarrow I=\frac{y_1-y_2}{x_1-x_2}=-\frac{4}{\left(x_1+1\right)\left(x_2+1\right)}< 0$ $\Rightarrow$ Hàm số nghịch biến trên $\left(-\infty;-1\right)$

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