Question

Question #c5bb3

Answer 1

`3)` `int (arctanx)^2/(1+x^2)*dx`

=`(arctanx)^3/3+C`

Explanation:

`3)` `int (arctanx)^2/(1+x^2)*dx`

After using `u=arctanx`, `x=tanu` and `dx=(secu)^2*du` transforms, this integral became,

`int (u^2*(secu)^2*du)/(secu)^2`

=`u^2*du`

=`u^3/3+C`

=`(arctanx)^3/3+C`

Answer 2

`1)` `int (x^2-3x)*(cosx)^2*dx`

=`x^3/6-(3x^2)/4+(2x^2-6x-1)/8*sin2x+(2x-3)/8*cos2x+C`

Explanation:

`1)` `int (x^2-3x)*(cosx)^2*dx`

=`1/2int (x^2-3x)*(1+cos2x)*dx`

=`1/2int (x^2-3x)*dx`+`1/2int (x^2-3x)*cos2x*dx`

`A=int (x^2-3x)*dx=x^3/3-(3x^2)/2+2C`

`B=int (x^2-3x)*cos2x`

=`(x^2-3x)*1/2sin2x-(2x-3)(-1/4cos2x)+2(-1/8sin2x)`

=`(2x^2-6x-1)/4*sin2x+(2x-3)/4*cos2x`

Thus,

`int (x^2-3x)*(cosx)^2*dx`

=`1/2*A+1/2*B`

=`x^3/6-(3x^2)/4+(2x^2-6x-1)/8*sin2x+(2x-3)/8*cos2x+C`

Answer 3

`int (x^3+2)/(x^2-x+1)*dx`

=`x^2/2+x+(2sqrt3)/3arctan((2x-1)/sqrt3)+C`

Explanation:

`2)` `int (x^3+2)/(x^2-x+1)*dx`

=`int (x^3+1)/(x^2-x+1)*dx`+`int (dx)/(x^2-x+1)`

=`int ((x^2-x+1)*(x+1))/(x^2-x+1)*dx`+`int (4dx)/(4x^2-4x+4)`

=`int (x+1)*dx`+`2int (2dx)/((2x-1)^2+3)`

=`x^2/2+x+(2sqrt3)/3arctan((2x-1)/sqrt3)+C`