Question

How do you integrate `int (2x - 1) / (x^2 + 5x - 6) dx` using partial fractions?

Answer 1

The integral equals `13/7ln|x + 6| + 1/7ln|x - 1| + C`.

Explanation:

We can factor the denominator as `(x + 6)(x - 1)`.

So,

`A/(x + 6) + B/(x- 1) = (2x - 1)/((x + 6)(x - 1))`

`A(x - 1) + B(x + 6) = 2x - 1`

`Ax - A + Bx + 6B = 2x - 1`

`(A + B)x +(-A + 6B) = 2x - 1`

We can now write a systems of equations to solve for `A` and `B`.

`A + B = 2`
`-A + 6B = -1`

`B = 2- a`

`-A + 6(2 - A) = -1`

`-A + 12 - 6A = -1`

`-7A = -13`

`A = 13/7`

`13/7 + B = 2`

`B = 2- 13/7`

`B = 1/7`

Resubstitute into the initial equation.

The integral become `int((13/7)/(x + 6) + (1/7)/(x - 1)) dx`

We now use the rule `int(1/x)(dx) = ln|x| + C` to get rid of the integral.

Letting the function be `f(x)`.

`f(x) = 13/7ln|x + 6| + 1/7ln|x - 1| + C`

Hopefully this helps!