MHT CET 2025 19th April Morning Shift | Indefinite Integration Question 41 | Mathematics

Algebra

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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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Statistics

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Properties of Triangles

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Differentiation

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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

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MHT CET 2025 19th April Morning Shift

MCQ (Single Correct Answer)

-0

$$\int \frac{\mathrm{e}^{2030 \log x}-\mathrm{e}^{2029 \log x}}{\mathrm{e}^{2028 \log x}-\mathrm{e}^{2027 \log x}} \mathrm{~d} x=\ldots$$

$\frac{x^2}{2}+c$, where $c$ is the constant of integration

$x+c$, where $c$ is the constant of integration

$\frac{x^3}{3}+c$, where $c$ is the constant of integration

$\frac{x}{3}+c$, where $c$ is the constant of integration

MHT CET 2025 19th April Morning Shift

MCQ (Single Correct Answer)

-0

$$\int \frac{\sin 2 x}{(a+b \cos x)^2} d x=$$

$\frac{2}{a^2}\left[\log (a+b \cos x)-\frac{a}{a+b \cos x}\right]+c$ where c is the constant of integration.

$\frac{-1}{a^2}\left[\log (a+b \cos x)+\frac{a}{a+b \cos x}\right]+c$, where c is the constant of integration.

$\frac{-2}{b^2}\left[\log (a+b \cos x)+\frac{a}{a+b \cos x}\right]+c$ where c is the constant of integration.

$\frac{-2}{b^2}\left[\log (a+b \cos x)-\frac{a}{a+b \cos x}\right]+c$, where c is the constant of integration.

MHT CET 2024 16th May Evening Shift

MCQ (Single Correct Answer)

-0

$\int \frac{x^2-4}{x^4+9 x^2+16} \mathrm{dx}=\tan ^{-1}(\mathrm{f}(x))+\mathrm{c}$ (where c is a constant of integration), then value of $f(2)$ is

MHT CET 2024 16th May Evening Shift

MCQ (Single Correct Answer)

-0

$$\int \cos ^{\frac{-3}{7}} x \cdot \sin ^{\frac{-11}{7}} x d x=$$

$\frac{-4}{7} \tan ^{\frac{-4}{7}} x+c$, where $c$ is a constant of integration.

$\frac{4}{7} \tan ^{\frac{4}{7}} x+c$, where c is a constant of integration.

$\frac{-7}{4} \tan ^{\frac{-4}{7}} x+c$, where c is a constant of integration.

$\frac{7}{4} \tan ^{\frac{4}{7}} x+c$, where c is a constant of integration.

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