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प्रश्न
Solve the following differential equation:
dr + (2r cotθ + sin2θ)dθ = 0
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उत्तर
dr + (2r cotθ + sin2θ)dθ = 0
∴ `(dr)/(dθ) + (2r cotθ + sin2θ) = 0`
∴ `(dr)/(dθ) + (2 cotθ)r = - sin 2θ` ...(1)
This is the linear differential equation of the form
`(dr)/(dθ) + P * r = Q`, where P = 2 cotθ and Q = −sin2θ
∴ I.F. = `e^(int Pdθ) = e^(int e cotθ) dθ`
`= e^(2 int cotθ dθ) = e^(2 log sinθ)`
`= e^(log (sin^2θ)) = sin^2θ`
∴ The solution of (1) is given by
`r * (I.F.) = int * (I.F.) dθ + c`
∴ `r * sin^2θ = int - sin 2θ * sin^2θ dθ + c`
∴ `r * sin^2θ = int - 2 sinθ cosθ * sin^2θ dθ + c`
∴ `r * sin^2θ = - 2 int sin^3θ cosθ dθ + "c"`
Put sin θ = t
∴ cosθ dθ = dt
∴ `r * sin^2θ = - 2 int t^3 dt + c`
∴ `r * sin^2θ = - 2 * t^4/4 + c`
∴ `r * sin^2θ = - 1/2 sin^4θ + c`
∴ `r * sin^2θ + (sin^4θ)/2 = c`
This is the general solution.
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