All Calculus 2 Resources
Example Questions
Example Question #352 : Finding Integrals
Recall that when integrating, raise the exponent of the x term by 1 and then also put that result on the denominator. Integrate each term separately and get an answer of . Remember to add a C at the end because it is an indefinite integral:
Example Question #71 : Indefinite Integrals
Remember, when integrating, raise the exponent by 1 and then put that result in the denominator as well. Therefore, you should get: . Remember to add a C at the end to get because it is an indefinite integral.
Example Question #72 : Indefinite Integrals
Evaluate the following indefinite integral:
Example Question #704 : Integrals
Evaluate.
Answer not listed
In order to evaluate this integral, first find the antiderivative of
If then
If then
If then
If then
If then
If then
If then
In this case, .
The antiderivative is .
Example Question #705 : Integrals
Evaluate.
Answer not listed
In order to evaluate this integral, first find the antiderivative of
If then
If then
If then
If then
If then
If then
If then
In this case, .
The antiderivative is .
Example Question #2453 : Calculus Ii
Evaluate.
Answer not listed
In order to evaluate this integral, first find the antiderivative of
If then
If then
If then
If then
If then
If then
If then
In this case, .
The antiderivative is .
Example Question #707 : Integrals
Evaluate.
Answer not listed
In order to evaluate this integral, first find the antiderivative of
If then
If then
If then
If then
If then
If then
If then
In this case, .
The antiderivative is .
Example Question #351 : Finding Integrals
Evaluate.
Answer not listed
In order to evaluate this integral, first find the antiderivative of
If then
If then
If then
If then
If then
If then
If then
In this case, .
The antiderivative is .
Example Question #703 : Integrals
Evaluate.
Answer not listed
In order to evaluate this integral, first find the antiderivative of
If then
If then
If then
If then
If then
If then
If then
In this case, .
The antiderivative is .
Example Question #703 : Integrals
Evaluate.
Answer not listed.
In order to evaluate this integral, first find the antiderivative of
If then
If then
If then
If then
If then
If then
If then
In this case, .
The antiderivative is .