1
MHT CET 2021 22th September Morning Shift
+2
-0

$$\int \frac{\sec ^8 x}{\operatorname{cosec} x} d x=$$

A
$$\frac{\sec ^8 x}{8}+c$$
B
$$\frac{\sec ^6 x}{6}+c$$
C
$$\frac{\sec ^7 x}{7}+c$$
D
$$\frac{\sec ^9 x}{9}+c$$
2
MHT CET 2021 21th September Evening Shift
+2
-0

$$\int \frac{1}{x^{\frac{1}{2}}+x^{\frac{1}{3}}} d x=$$

A
$$\sqrt{\mathrm{x}}-\sqrt[3]{\mathrm{x}}+\sqrt[6]{\mathrm{x}}-\log |\sqrt[6]{\mathrm{x}}+1|+c$$
B
$$2 \sqrt{\mathrm{x}}-3 \sqrt[3]{\mathrm{x}}+6 \sqrt[6]{\mathrm{x}}-6 \log |\sqrt[6]{\mathrm{x}}+1|+\mathrm{c}$$
C
$$2 \sqrt{\mathrm{x}}+3 \sqrt[3]{\mathrm{x}}+6 \sqrt[6]{\mathrm{x}}+6 \log |\sqrt[6]{\mathrm{x}}+1|+c$$
D
$$\sqrt{\mathrm{x}}+\sqrt[3]{\mathrm{x}}+\sqrt[6]{\mathrm{x}}+\log |\sqrt[6]{\mathrm{x}}+1|+\mathrm{c}$$
3
MHT CET 2021 21th September Evening Shift
+2
-0

$$\int[\sin |\log x|+\cos |\log x|] d x=$$

A
$$\sin |\log x|+c$$
B
$$x \cos |\log x|+c$$
C
$$\cos |\log x|+c$$
D
$$x \sin |\log x|+c$$
4
MHT CET 2021 21th September Evening Shift
+2
-0

If $$\int {{{5\tan x} \over {\tan x - 2}}dx = x + a\log |\sin x - 2\cos x| + c}$$, then a = (Where c is constant of integration)

A
1
B
$$-$$2
C
$$-$$1
D
2
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