MHT CET 2024 10th May Morning Shift | Indefinite Integration Question 30 | Mathematics

Algebra

Sets and Relations

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Logarithms

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Quadratic Equations

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Sequences and Series

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Binomial Theorem

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Permutations and Combinations

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Probability

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Vector Algebra

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Three Dimensional Geometry

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Matrices and Determinants

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Statistics

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Mathematical Reasoning

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Linear Programming

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Complex Numbers

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Trigonometry

Trigonometric Ratios & Identities

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Trigonometric Equations

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Inverse Trigonometric Functions

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Properties of Triangles

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Calculus

Functions

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Limits, Continuity and Differentiability

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Differentiation

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Application of Derivatives

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Indefinite Integration

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Definite Integration

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Area Under The Curves

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Differential Equations

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Coordinate Geometry

Straight Lines and Pair of Straight Lines

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Circle

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Parabola

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Ellipse

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Hyperbola

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MHT CET 2024 10th May Morning Shift

MCQ (Single Correct Answer)

-0

$$\int \frac{\sqrt{x}}{x+1} d x=$$

$\left(2 \sqrt{x}-\tan ^{-1} \sqrt{x}\right)+\mathrm{c}$, where c is a constant of integration.

$2\left(\sqrt{x}-\tan ^{-1} \sqrt{x}\right)+\mathrm{c}$, where c is a constant of integration.

$\left(2 \sqrt{x}+\tan ^{-1} \sqrt{x}\right)+\mathrm{c}$, where c is a constant of integration.

$2\left(\sqrt{x}+\tan ^{-1} \sqrt{x}\right)+\mathrm{c}$, where c is a constant of integration.

MHT CET 2024 10th May Morning Shift

MCQ (Single Correct Answer)

-0

$$\int \frac{1+\sin (\log x)}{1+\cos (\log x)} d x=$$

$x^2 \tan \left(\frac{\log x}{2}\right)+c$, where $c$ is a constant of integration.

$x \tan \left(\log \left(\frac{x}{2}\right)\right)+\mathrm{c}$, where c is a constant of integration.

$x^3 \log \left(\frac{\tan x}{2}\right)+\mathrm{c}$, where c is a constant of integration.

$x \cdot \tan \left(\frac{\log x}{2}\right)+\mathrm{c}$, where c is a constant of integration.

MHT CET 2024 9th May Evening Shift

MCQ (Single Correct Answer)

-0

The value of $\int \frac{x+1}{x\left(1+x \mathrm{e}^x\right)^2} \mathrm{dx}$ is equal to

$\log \left(\frac{x \mathrm{e}^x}{1+x \mathrm{e}^x}\right)+\frac{x}{1+x \mathrm{e}^x}+\mathrm{c}$, where c is a constant of integration

$\log \left(\frac{x \mathrm{e}^x}{1+x \mathrm{e}^x}\right)+\frac{\mathrm{e}^x}{1+x \mathrm{e}^x}+\mathrm{c}$, where c is a constant of integration

$\log \left(\frac{x \mathrm{e}^x}{1+x \mathrm{e}^x}\right)+\frac{1}{1+x \mathrm{e}^x}+\mathrm{c}$, where c is a constant of integration

$\log \left(\frac{x \mathrm{e}^x}{1+x \mathrm{e}^x}\right)-\frac{x}{1+x \mathrm{e}^x}+\mathrm{c}$, where c is a constant of integration

MHT CET 2024 9th May Evening Shift

MCQ (Single Correct Answer)

-0

$$\int \sqrt{\mathrm{e}^x-1} \mathrm{dx}=$$

$\sqrt{\mathrm{e}^x-1}+\tan ^{-1} \sqrt{\mathrm{e}^x-1}+\mathrm{c}$, (where c is constant of integration)

$2 \sqrt{\mathrm{e}^x-1}+\tan ^{-1} \sqrt{\mathrm{e}^x-1}+\mathrm{c}$, (where c is constant of integration)

$2 \sqrt{\mathrm{e}^x-1}-2 \tan ^{-1} \sqrt{\mathrm{e}^x-1}+\mathrm{c}$, (where c is constant of integration)

$2 \sqrt{\mathrm{e}^x-1}-\tan ^{-1} \sqrt{\mathrm{e}^x-1}+\mathrm{c}$, (where c is constant of integration)

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