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341.

$\int_{1}^{2} e^{x} (\frac{1}{x} - \frac{1}{x^{2}}) dx$ is equal to

342.

The value of $\int_{- π}^{π} \sin^{3} (x) \cos^{2} (x) dx$ is equal to

343.

$\int \sqrt{\frac{x - 1}{x + 1}} dx$ is equal to

344.

The value of $\int_{- 1}^{1} \log (\frac{x - 1}{x + 1}) dx$ is

$\frac{65}{3}$

Here, a = 0, b = 4, n = 4

$h = \frac{b - a}{n} = \frac{4 - 0}{4} = 1$

By Simpson's rule

$\int_{0}^{2} 2^{x} dx = \frac{h}{3} [y_{0} + y_{4} + 4 (y_{1} + y_{3}) + 2 y_{2}]$

$= \frac{1}{3} [1 + 16 + 4 (2 + 8) + 2 ((4))] = \frac{1}{3} (17 + 40 + 8) = \frac{65}{3}$

346.

If I₁ = $\int \sin^{- 1} (x) dx$ and I₂ = $\int \sin^{- 1} (\sqrt{1 - x^{2}}) dx$ , then

347.

$\int \frac{(\sin (θ) + \cos (θ))}{\sqrt{\sin (2 θ)}} dθ$ is equal to

348.

$\int_{\frac{π}{6}}^{\frac{π}{3}} \frac{dx}{1 + \sqrt{\tan (x)}}$ is equal to

349.

If f is a continuous function, then

350.

$\int \frac{1 + \sin (x)}{1 + \cos (x)} dx$ is equal to