How do you find #int 10/((x-1)(x^2+9)) dx# using partial fractions?

1 Answer
Oct 29, 2015

#ln|x-1|-1/2ln|x^2+9|+1/3tan^(-1)(x/3)+C#

Explanation:

Since the denominator consists of 1 linear factor and 1 irreducible quadratic factor, we may use the method of partial fractions to rewrite it as :

#10/((x-1)(x^2+9))=A/(x-1)+(Bx+C)/(x^2+9)#

#=(A(x^2+9)+(Bx+C)(x-1))/((x-1)(x^2+9))#

#therefore 10 = Ax^2+9A+Bx^2-Bx+Cx-C#

#= (A+B)x^2-(B-C)x+(9A-C)#

Now comparing terms we get that

#A+B=0#
#C-B=0#
#9A-C=10#

Solving this linear system of equations yields :

#A=1, B=-1, C=-1#

Therefore the original integral may be written and solved as

#int10/((x-1)(x^2+9))dx=int1/(x-1)dx-int(x)/(x^2+9)dx-int1/(x^2+9)dx#

#=ln|x-1|-1/2ln|x^2+9|+1/3tan^(-1)(x/3)+C#