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Let \( f : \mathbb{R} \rightarrow \mathbb{R} \) be a function defined by \[ f(x) = \frac{4^x}{4^x + 2} \] and \[ M = \int_{f(a)}^{f(1 - a)} x \sin^4 \left( x (1 - x) \right) \, dx, \] \[ N = \int_{f(a)}^{f(1 - a)} \sin^4 \left( x (1 - x) \right) \, dx; \quad a \neq \frac{1}{2}. \] If \( \alpha M = \beta N \), \( \alpha, \beta \in \mathbb{N} \), then the least value of \( \alpha^2 + \beta^2 \) is equal to _____
Let \( f : \mathbb{R} \rightarrow \mathbb{R} \) be a function defined by \[ f(x) = \frac{4^x}{4^x + 2} \] and \[ M = \int_{f(a)}^{f(1 - a)} x \sin^4 \left( x (1 - x) \right) \, dx, \] \[ N = \int_{f(a)}^{f(1 - a)} \sin^4 \left( x (1 - x) \right) \, dx; \quad a \neq \frac{1}{2}. \] If \( \alpha M = \beta N \), \( \alpha, \beta \in \mathbb{N} \), then the least value of \( \alpha^2 + \beta^2 \) is equal to _____
Updated On: Nov 20, 2024
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Correct Answer: 5
Solution and Explanation
Given:
\[ f(a) + f(1 - a) = 1 \]
Calculate \( M \) and \( N \):
\[ M = \int_{f(0)}^{f(1)} (1 - x) \sin^4(x(1 - x)) \, dx \]
From symmetry, we have:
\[ M = N - M \quad \implies \quad 2M = N \]
With \( \alpha = 2 \) and \( \beta = 1 \), the least value is:
\[ \alpha^2 + \beta^2 = 2^2 + 1^2 = 5 \]
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