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प्रश्न
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उत्तर
We have,
\[\frac{dy}{dx} + y \tan x = x^2 \cos^2 x\]
\[P = \tan x \]
\[Q = x^2 \cos^2 x\]
Now,
\[I . F . = e^{\int\tan x\ dx} = e^{log \left| \sec x \right|} = \sec x\]
Therefore, solution is given by
\[y \times I . F . = \int x^2 \cos^2 x \times I . F . dx + C\]
\[ \Rightarrow y \sec x = \int x^2 \cos x dx + C\]
\[ \Rightarrow y \sec x = I + C\]
Where,
\[ \Rightarrow I = x^2 \sin x - 2\int x \sin x dx\]
\[ \Rightarrow I = x^2 \sin x - 2\int x_I \sin x_{II} dx\]
\[ \Rightarrow I = x^2 \sin x - 2x\int\sin x dx + 2\int\left[ \frac{d}{dx}\left( x \right)\int\sin x dx \right]dx\]
\[ \Rightarrow I = x^2 \sin x + 2x \cos x - 2\int\cos x dx\]
\[ \Rightarrow I = x^2 \sin x + 2x \cos x - 2\sin x\]
\[ \Rightarrow I = x^2 \sin x + 2x \cos x - 2\sin x\]
\[ \therefore y \sec x = x^2 \sin x + 2x \cos x - 2\sin x + C\]
\[ \Rightarrow y \sec x = x^2 \sin x + 2x \cos x - 2\sin x + C\]
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