Calculus 2 : Calculus II

Study concepts, example questions & explanations for Calculus 2

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Example Questions

Example Question #721 : Integrals

Integrate:

Possible Answers:

Correct answer:

Explanation:

To integrate, we must integrate by parts, which uses the following formula:

We must choose our u and dv, and differentiate and integrate, respectively:

The following rules were used:

Note that we do not include the constant of integration in this step.

Now, using the above formula, rewrite the integral:

After integrating, we get our final answer

using the same integration rule as above.

Example Question #722 : Integrals

Integrate:

Possible Answers:

Correct answer:

Explanation:

To integrate, we must integrate by parts, which is done using the following formula:

Before rewriting the integrand using integration by parts, we can use a logarithm property to rewrite it as

Now, we must designate our u and dv, and differentiate and integrate, respectively:

We used the following rules:

Note that we don't include the constant of integration in this step.

Using the above formula, we can rewrite the integral as

Integrating, we get

using the same rule as above.

Our final answer is 

 

Example Question #723 : Integrals

Integrate:

Possible Answers:

Correct answer:

Explanation:

To integrate, we must rewrite the integrand using the half angle identity:

Now, integrate:

We used the following rules to integrate:

Note that we combined the two constants of integration to make one C.

Example Question #371 : Finding Integrals

Evaluate.

Possible Answers:

Answer not listed.

Correct answer:

Explanation:

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 #95 : Indefinite Integrals

Evaluate.

Possible Answers:

Answer not listed.

Correct answer:

Explanation:

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 #96 : Indefinite Integrals

Evaluate.

Possible Answers:

Answer not listed.

Correct answer:

Answer not listed.

Explanation:

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 #97 : Indefinite Integrals

Evaluate.

Possible Answers:

Answer not listed.

Correct answer:

Explanation:

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 #101 : Indefinite Integrals

Evaluate.

Possible Answers:

Answer not listed.

Correct answer:

Explanation:

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 #372 : Finding Integrals

Evaluate.

Possible Answers:

Answer not listed.

Correct answer:

Explanation:

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 #101 : Indefinite Integrals

Possible Answers:

Correct answer:

Explanation:

This integral is a definition and should be committed to memory.  These functions are extremely useful when integrating.

Remember, every time you have an indefinite integral, you need to add on a constant to the end.

 

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