Solution :
We have, I = \((sin^{-1}x)^2\) dx
Let \(sin^{-1}x\) = t, Then, x = sin t \(\implies\) dx = cos t dt
\(\therefore\) I = \(\int\) \((sin^{-1}x)^2\) dx
I = \(\int\) \(t^2\) cos t dt
Applying integration by parts and,
Taking \(t^2\) as first function and cos t as second function,
I = \(t^2\) (sin t) โ \(\int\) (sin t) โ \(\int\) 2t sin t dt = \(t^2\) sin t โ 2 \(\int\) t sin t dt
Again applying integration by parts and,
Taking t as first function and sin t as second function,
I = \(t^2\) sin t โ 2{ t ( -cos t) โ \(\int\) 1 \(\times\) (-cos t) dt }
I = \(t^2\) sin t โ 2{ -t cos t + \(\int\) cos t dt }
I = \(t^2\) sin t โ 2( -t cos t + sin t ) + C
I = \(t^2\) sin t โ 2{ -t \(\sqrt{1 โ sin^2 t}\) + sin t } + C
I = \(xsin^{-1} x\) โ 2{ โ \(\sqrt{1 โ x^2} sin^{-1}x\) + x } + C
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