Integration via Partial Fractions: Example 4

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Solve $partial fraction integral problem$ , using partial fractions.

Factors in the denominator, as we have here, indicate that we can use partial fractions.

Using just the integrand above, set up the partial fraction equivalent. See this excellent reference site for techniques.

$partial fraction setup$

How do we proceed?

We can determine A, B, and C by combining the terms on the right hand side:

What is the least common denominator for them?

(x – 3) * (x² + 7)

Combine the fractions

Distribute the multiplication on the right-hand side.

We get

Collect like terms in x.

What do we do next?

We equate coefficients of like powers of x.

Do that.

Using the numerators of the last equation, we get

Equation 1

Equation 2

Equation 3

We have 3 equations in the 3 unknowns: A, B, and C. How can we solve for them?

The Substitution and Elimination Methods will help us get to two equations in 2 unknowns.

Solve equation 1 for B.

B = –A

Use this to rewrite equation 2 in terms of A and C.

We get 3A + C = 10 Equation 4

Which equation might we combine with this one?

Since equation 4 involves only A and C, we should attempt to combine it with equation 3.

Can we just add the equations?

No. First we need to multiply equation 4 by the constant 3 so that the “C” terms will eliminate.

Now combine (three times equation 4) and equation 3.

We get

Adding, we get

, or A = 2

Use this in equation 3 to find C.

, or C = 4

Use the result for A in equation 1 to find B.

B = -2

Use these results to rewrite our fraction, F.

$partial fraction result$

Substitute in the original integral.

We get

To see what type of result we will get from these terms substitute u = x–3 in the first term and
v = x²+7, dv = 2xdx in the second.

Splitting the second integral into two, we get

What type of result do we get from each term?

We get a natural log form form from the first two, and an arctan form from the last one.

Do the integration.

Are we done?

No.

What next?

We convert back to expressions in x.

Do that.

$partial fraction integral solution$

How can we check this result?

We can take the derivative,

.

What do we then compare it to?

We compare it to the integrand of the original problem.

Determine this derivative.

Combine these fractions.

We get $partial fraction integral check$ , which checks.

The end. If you found this helpful and would recommend that I create more pages like this one, please let me know: Email to John Taylor

General Contents

Detailed Contents