Question

How do you write the partial fraction decomposition of the rational expression `x^2/((x-1)(x+2))`?

Answer 1

`x^2/((x-1)(x+2))=1/(3(x-1))-4/(3(x+2))`

Explanation:

We need to write these in terms of each factors.

`x^2/((x-1)(x+2))=A/(x-1)+B/(x+2)`

`x^2=A(x+2)+B(x-1)`

Putting in `x=-2`:
`(-2)^2=A(-2+2)+B(-2-1)`
`4=-3B`
`B=-4/3`

Putting in `x=1`:
`1^2=A(1+2)+B(1-1)`
`1=3A`
`A=1/3`

`x^2/((x-1)(x+2))=(1/3)/(x-1)+(-4/3)/(x+2)`
`color(white)(x^2/((x-1)(x+2)))=1/(3(x-1))-4/(3(x+2))`

Answer 2

`1+1/3*1/(x-1)-4/3*1/(x+2)`

Explanation:

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

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

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

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

Now, I decomposed fraction into basic ones,

`(x-2)/[(x-1)(x+2)]=A/(x-1)+B/(x+2)`

After expanding denominator,

`A*(x+2)+B*(x-1)=x-2`

Set `x=-2`, `-3B=-4`, so `B=4/3`

Set `x=1`, `3A=-1`, so `A=-1/3`

Hence,

`(x-2)/[(x-1)(x+2)]=-1/3*1/(x-1)+4/3*1/(x+2)`

Thus,

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

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

=`1+1/3*1/(x-1)-4/3*1/(x+2)`