Integration by Substitution
Integration by Substitution
There is a theorem that will help you with substitution for integration. It is called Change of Variables for Definite Integrals.
what the theorem looks like is this
In order to get you must plug a into the function g and to get you must plug b into the function g.
The tricky part is trying to identify what you want to make your u to be. Some times substitution will not be enough and you will have to use the rules for integration by parts. That will be covered in a different section
Steps
(1) i.e. (2) i.e. (3) i.e. (4) i.e. Now equate with (5) i.e. (6) i.e. (7) i.e. We have achieved our desired result
Example 1
Instead of making this a big polynomial we will just use the substitution method.
Step 1
Identify your u
Let
Step 2
Identify
Step 3
Now we plug in our limits of integration to our u to find our new limits of integration
When
and when
Now our integration problem looks something like this
Step 4
write your new integration problem
When we plug in our u it looks like
Step 5
Evaluate the Integral
As you can see this all simplified fairly nice. Using substitution will be hard, for most people, at first. Once you get the hang of doing this it should come to you faster and faster each time.
Example 2
we see that is the derivative of . Letting
we have
or, in order to apply it to the integral,
With this we may write
Note that it was not necessary that we had exactly the derivative of in our integrand. It would have been sufficient to have any constant multiple of the derivative.
For instance, to treat the integral
we may let . Then
and so
the right-hand side of which is a factor of our integrand. Thus,
Resources
- Recognizing Derivatives and Substitution Rules, WikiBooks: Calculus
- Integration by Substitution, WikiBooks: High School Calculus
- Example 1. Produced by Professor Zachary Sharon, UTSA
- Example 2. Produced by TA Catherine Sporer, UTSA
Indefinite Integrals Using Substitution
- Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Integration by Substitution Part 1 by James Sousa, Math is Power 4U
- Integration by Substitution Part 2 by James Sousa, Math is Power 4U
- Ex 1: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 2: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 3: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 4: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 5: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 6: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 7: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 8: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 9: Indefinite Integration Using Substitution by James Sousa, Math is Power 4U
- Integration using U-Substitution by patrickJMT
- U-Substitution - More Complicated Examples by patrickJMT
- U-Substitution Example 1 by Krista King
- U-Substitution Example 2 by Krista King
- U-Substitution Example 3 by Krista King
- U-Substitution Example 4 by Krista King
- U-Substitution Example 5 by Krista King
- U-Substitution Example 6 by Krista King
- U-Substitution Example 7 by Krista King
- How To Integrate Using U-Substitution by The Organic Chemistry Tutor
Definite Integrals Using Substitution
- Definite Integration Using Subsitution by James Sousa, Math is Power 4U
- Ex 1: Definite Integration Using Substitution - Change Limits of Integration? by James Sousa, Math is Power 4U
- Ex 2: Definite Integration Using Substitution - Change Limits of Integration? by James Sousa, Math is Power 4U
- Ex 1: Definite Integration Using Substitution by James Sousa, Math is Power 4U
- Ex 2: Definite Integration Using Substitution by James Sousa, Math is Power 4U
- Integration by U-Substitution, Definite Integral by patrickJMT
- U-Substitution: When Do I Have to Change the Limits of Integration ? by patrickJMT
- U-Substitution Integration, Indefinite & Definite Integral by The Organic Chemistry Tutor
Licensing
Content obtained and/or adapted from:
- Recognizing Derivatives and Substitution Rules, WikiBooks: Calculus under a CC BY-SA license
- Integration by Substitution, WikiBooks: High School Calculus under a CC BY-SA license