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प्रश्न
Evaluate: `int_0^π sin^3x (1 + 2cosx)(1 + cosx)^2.dx`
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उत्तर
Let I = `int_0^π sin^3x (1 + 2cosx)(1 + cosx)^2.dx`
= `int_0^π sin^2x(1 + 2 cosx)(1 + cosx)^2.sinx.dx`
= `int_0^π (1 - cos^2x)(1 + 2cosx)(1 + cosx)^2.sinx.dx`
Put cos x = t
∴ – sinx.dx = dt.
∴ sinx.dx = –dt
When x = 0, t = cos 0 = 1
When x = π, t = cos π = –1
∴ I = `int_1^(-1) (1 - t^2)(1 + 2t)(1 + t)^2(- dt)`
= `-int_1^(-1)(1 + 2t - t^2 - 2t^3)(1 + 2t + t^2).dt`
= `- int_1^(-1) (1 + 2t - t^2 - 2t^3 + 2t + 4t^2 - 2t^3 - 4t^4 + t^2 + 2t^3 - t^4 - 2t^5).dt`
= `int_1^(-1) (1 + 4t + 4t^2 - 2t^3 - 5t^4 - 2t^5).dt`
= `-[t + 4(t^2/2) + 4(t^3/3) - 2(t^4/4) - 5(t^5/5) - 2(t^6/6)]_1^(-1)`
= `-[t + 2t^2 4/3t^3 - 1/2t^4 - t^5 - 1/3t^6]_1^(-1)`
= `-[(-1 + 2 - 4/3 - 1/2 + 1 - 1/3) - (1 + 2 + 4/3 - 1/2 - 1 - 1/3)]`
= `-[-1 + 2 - 4/3 - 1/2 + 1 - 1/3 - 1 - 2 - 4/3 + 1/2 + 1 + 1/3]`
= `-[-8/3]`
= `(8)/(3)`.
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