$\int_{-\pi}^\pi (1 - x^2)\sin x \cos^2 x \, dx =$
- $\frac{\pi}{3}$
- $2\pi - \pi^2$
- $\frac{\pi^3}{2}$
- $0$
The Correct Option is D
Approach Solution - 1
1. Understand the integral:
We need to evaluate \( \int_{-\pi}^{\pi} (1 - x^2) \sin x \cdot \cos^2 x \, dx \).
2. Analyze the integrand:
The integrand is \( (1 - x^2) \sin x \cos^2 x \). Notice that:
- \( (1 - x^2) \) is an even function.
- \( \sin x \) is an odd function.
- \( \cos^2 x \) is an even function.
The product of an even function and an odd function is odd, so \( (1 - x^2) \sin x \cos^2 x \) is odd.
3. Use the property of odd functions:
For an odd function \( f(x) \), the integral over symmetric limits \([-a, a]\) is zero:
\[ \int_{-a}^{a} f(x) \, dx = 0 \]
Thus, the given integral evaluates to 0.
Correct Answer: (D) 0
Approach Solution -2
The integral is 0 because the integrand is an odd function, and we're integrating over a symmetric interval around 0.
- $ \sin(x) $ is an odd function.
- $ \cos^2(x) $ is an even function.
- $ (1 - x^2) $ is an even function.
The product of two even functions is even, and the product of an even and an odd function is odd.
Thus, $ (1 - x^2)\sin(x)\cos^2(x) $ is an odd function.
The integral of an odd function over a symmetric interval $[-a, a]$ is always 0.
Therefore,
\[ \int_{-\pi}^{\pi} (1 - x^2)\sin(x)\cos^2(x) \, dx = 0 \]
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