Question

What is `f(x) = int (2x-xe^x)(-xe^x+secx) dx` if `f(0 ) = 5`?

Answer 1

Can't be perfectly determined.

Explanation:

First, Integrate.

So, `int (2x - xe^x)(-xe^x + secx)dx`

`= int (-2x^2e^x -x^2e^(2x) + 2xsec x - xe^xsecx)dx`

`= -2int x^2e^xdx -int x^2e^(2x)dx +2 int xsecx dx -int xe^xsecxdx`

Now We have to Integrate By Parts.

Assume `I_1 = -2 int x^2e^xdx`,

`I_2 = -int x^2e^(2x)dx`

`I_3 = 2int x sec xdx`

`I_4 = -intxe^xsecxdx`

Now The Problem is,

`I_1` and `I_2` can be found, but `I_3` and `I_4` can't be expressed by elementary functions. These integrals are undeterminable.

So, Get the `I_1` first.

`I_1 = -2[x^2inte^xdx - int {d/dx(x^2)inte^x dx}dx]`

`= -2 [x^2e^x - 2 intxe^xdx]`

`= -2[x^2e^x - 2{x inte^xdx - int (d/dx(x) int e^xdx)dx}]`

`= -2[x^2e^x - 2{xe^x - inte^xdx}]`

`= -2[x^2e^x - 2{xe^x -e^x}]`

`= -2[x^2e^x - 2xe^x +2e^x]`

`= -2e^x[x^2 - 2x + 2]`

Now, `I_2`.

`I_2 = -2[x^2inte^(2x)dx - int {d/dx(x^2)inte^(2x) dx}dx]`

`= -2 [1/2x^2e^(2x) - 2 intxe^(2x)dx]`

`= -2[1/2x^2e^(2x) - 2{x inte^(2x)dx - int (d/dx(x) int e^(2x)dx)dx}]`

`= -2[1/2x^2e^(2x) - 2{1/2xe^(2x) - inte^(2x)dx}]`

`= -2[1/2x^2e^(2x) - 2{1/2xe^(2x) -1/2e^(2x)}]`

`= -2[1/2x^2e^(2x) - xe^(2x) +e^(2x)]`

`= -2e^(2x)[1/2x^2 - x + 1]`

So, The Entire Integral is :

`int(2x - xe^x)(-xe^x + sec x) dx`

`= -2e^x[x^2 - 2x + 2] -2e^(2x)[1/2x^2 - x + 1] + 2 intxsecxdx - intxe^xsecxdx`

Hope this helps, but It won't, most probably.