All Calculus 2 Resources
Example Questions
Example Question #2681 : Calculus Ii
Evaluate:
Substitute . Then and .
The bounds of integration become
and
.
The integral can be rewritten as
Example Question #583 : Finding Integrals
Evaluate:
, so the integral can be rewritten as
.
Substitute , so and .
Also, the bounds of integration become
and
.
The integral can be rewritten as
Example Question #584 : Finding Integrals
Give the indefinite integral:
Substitute .
Then ; also, and .
We can rewrite this:
Note the absorption of into the constant.
Now, since ,
and
.
Therefore the answer becomes
.
Example Question #2682 : Calculus Ii
Determine the indefinite integral:
The integrand can be rewritten using the method of partial fractions.
For some ,
Therefore,
It can be quickly seen that , and
.
The integral can be rewritten as
Substitute . Then , and the expression becomes
Note the absorption of the two constants in the third-to-last step.
Example Question #1 : Solving Integrals By Substitution
Solve the following integral.
To solve this problem we need to use u-substitution. The key to knowing that is by noticing that we have both an and an term, and that hypothetically if we could take the derivate of the term it could cancel out the term. Let's take a closer look.
Let's choose our in this problem to be . We would need to calculate the term since we're switching from the x variable to the u variable.
Let's take a look back at the orginal problem and begin to make substitutions.
Notice here that the x's will cancel out, leaving us with an integral with entirely the u variable.
This is a nice simple integral that results in
. Now all we need to do is replace that u with the original variable.
Example Question #1 : Solving Integrals By Substitution
Evaluate:
The problem is a U-substitution question. The term might not be easily seen, but the term must equal to .
Factor the denominator by taking as the common factor.
Rewrite the integral.
Resubstitute .
Example Question #1 : Solving Integrals By Substitution
What is
Although the integral may look tough, we see a possible relationship between the polynomial of the exponential and the polynomial in front of the exponential.
Let's make our
Now let's see the original integral to make the substitutions.
.
At first sight it may seem that nothing cancels out, but at a closer look we can see that the term can actually be simplified to , which can now cancel with the denominator.
is our new integral, which simply leads to
. Now substitute u for what we had earlier.
Example Question #1 : Solving Integrals By Substitution
Solve:
To evaluate , use U-substitution.
Let , which also means . Take the derivative and find .
Rewrite the integral in terms of and , and separate into two integrals.
Evaluate the two integrals.
Re-substitute .
Pull out the common factor .
Example Question #2 : Solving Integrals By Substitution
Solve the following integral:
.
In order to solve this, we must use -substitution.
Because , we should let so the can cancel out.
We can now change our integral to .
We know that , so , which means .
We can substitue that in for in the integral to get .
The can cancel to get .
The limits of the integral have been left off because the integral is now with respect to , so the limits have changed. This integral can now be solved using the power rule
which will give you .
Now we can substitute back in for to get . We can bring back our limits now and evaluate because we're in terms of again, which is what our original limits were with respect to.
TIP: whenever doing -substitution, don't use the limits until you're in terms of the original variable.
Example Question #6 : Solving Integrals By Substitution
Solve the following integral.
Here, we can use u-substitution. We'll set and we'll factor out the outside the integral.
Now let's calculate
And solve for dx.
.
Plugging these values into the integral we now get
.
We now see that the 's cancel out and we're left with an integral entirely with u.
.
We just need to replace u with its original value, doing so results in our final solution.