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प्रश्न
Find `int((3sintheta-2)costheta)/(5-cos^2theta-4sin theta)d theta`.
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उत्तर
Let I = `int((3sintheta-2)costheta)/(5-cos^2theta-4sin theta)d theta`
⇒ I = `int((3sintheta-2)costheta)/(5-(1-sin^2theta)-4sintheta)d theta`
⇒ I = `int((3sintheta-2)costheta)/(sin^2theta-4sin theta+4)d theta`
Now, let sin θ = t.
⇒ cos θ dθ = dt
∴ I = `int(3t - 2)/(t^2 - 4t + 4)`
⇒ 3t − 2 = `A d/dx(t^2 - 4t + 4) + B`
⇒ 3t − 2 = A(2t − 4) + B
⇒ 3t − 2 = (2A)t + B − 4A
Comparing the coefficients of the like powers of t, we get
2A = 3
⇒ A = `3/2`
And
B = 4
A = –2
⇒ `B - 4 xx 3/2 = -2`
⇒ B = −2 + 6 = 4
Substituting the values of A and B, we get
`3t - 2 = 3/2(2t - 4) + 4`
∴ I = `int((3t - 2)dt)/(t^2 - 4t + 4)`
= `int((3/2(2t - 4) + 4)/(t^2 - 4t + 4))dt`
= `3/2int((2t - 4)/(t^2 - 4t + 4))dt + 4int dt/(t^2 - 4t + 4)`
= `3/2I_1 + 4I_2 `
Here,
`I_1 = int((2t - 4)dt)/(t^2 - 4t + 4)`
Now,
`I_2 = int((2t - 4)dt)/(t^2 - 4t + 4)`
Let t2 – 4t + 4 = p
⇒ (2t – 4) dt = dp
`I_1 = int((2t - 4)dt)/(t^2 - 4t + 4)`
= `int(dp)/p`
= log |p| + C1
= log |t2 – 4t + 4| + C1 ...(2)
And
`I_2 = intdt/(t^2 - 4t + 4)`
= `intdt/(t - 2)^2`
= `int(t - 2)^(-2) dt`
= `(t - 2)^(-2 + 1)/(-2 + 1) + C_2`
= `(-1)/(t - 2) + C_2` ...(3)
From (1), (2) and (3), we get
I = `3/2 log|t^2 - 4t + 4| + 4 xx -1/(t - 2) + C_1 + C_2`
= `3/2 log|sin^2theta - 4sintheta + 4| + 4/(2 - t) + C` ...(Where C = C1 + C2)
= `3/2 log|(sintheta - 2^2)| + 4/(2 - sin theta) + C`
= `3/2 xx 2log|sintheta - 2| + 4/(2 - sintheta) + C`
= `3log|2 - sintheta| + 4/(2 - sintheta) + C`
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