How do you integrate #int x^3 sin^2 x dx # using integration by parts?
2 Answers
See the answer below:
# int \ x^3sin^2x \ dx = (2 x^4+(6x-4x^3)sin2x (3-6x^2)cos2x)/16 + C #
Explanation:
We seek:
# I = int \ x^3sin^2x \ dx #
In preparation for an application of integration by Parts, we note that using the identity
# int \ sin^2x \ dx = 1/2 int \ 1-cos2x \ dx #
# " " = 1/2 (x-1/2sin2x) #
# " " = 1/2 x-1/4sin2x #
We can then apply Integration By Parts:
Let
# { (u,=x^3, => (du)/dx,=3x^2), ((dv)/dx,=sin^2 x, => v,=1/2 x-1/4sin2x ) :}#
Then plugging into the IBP formula:
# int \ (u)((dv)/dx) \ dx = (u)(v) - int \ (v)((du)/dx) \ dx #
We have:
# int \ x^3sin^2x \ dx = x^3(1/2 x-1/4sin2x) - int \ (1/2 x-1/4sin2x)3x^2 \ dx #
# :. I = 1/2 x^4-1/4x^3sin2x - 3/4 int \ 2 x^3-x^2sin2x \ dx #
# \ \ \ \ \ \ \ = 1/2 x^4-1/4x^3sin2x - 3/4 x^4/2+3/4 int \ x^2sin2x \ dx #
# \ \ \ \ \ \ \ = 1/8 x^4-1/4x^3sin2x +3/4 int \ x^2sin2x \ dx # ..... [A]
Now consider the last integral:
# I_1 = int \ x^2sin2x \ dx #
We can again apply integration by parts:
Let
# { (u,=x^2, => (du)/dx,=2x), ((dv)/dx,=sin2x, => v,=-1/2cos2x ) :}#
So we have:
# I_1 = (x^2)(-1/2cos2x) - int \ (-1/2cos2x)(2x) \ dx #
# \ \ \ = -1/2x^2cos2x + int \ xcos2x \ dx # ..... [B]
And, now we have to consider:
# I_2 = int \ xcos2x \ dx #
Which again requires an application of Integration By Parts:
Let
# { (u,=x, => (du)/dx,=1), ((dv)/dx,=cos2x, => v,=1/2sin2x ) :}#
And so:
# I_2 = (x)(1/2sin2x) - int \ 1/2sin2x \ dx #
# \ \ \ = 1/2xsin2x + 1/4cos2x # ..... [C]
Combining the result [B] and [C] with [A] we have:
# I = 1/8 x^4-1/4x^3sin2x +3/4 {-1/2x^2cos2x + 1/2xsin2x + 1/4cos2x} +C#
# \ \ = 1/16(2 x^4-4x^3sin2x) +3/16 {-2x^2cos2x + 2xsin2x + cos2x} +C#
# \ \ = (2 x^4-4x^3sin2x -6x^2cos2x + 6xsin2x + 3cos2x)/16 +C#
# \ \ = (2 x^4+(6x-4x^3)sin2x (3-6x^2)cos2x)/16 +C#