All Calculus 2 Resources
Example Questions
Example Question #2201 : Calculus Ii
Evaluate.
Answer not listed
Answer not listed
In this case, .
The antiderivative is .
Using the Fundamental Theorem of Calculus, evaluate the integral using the antiderivative:
In this step it should be pointed out that natural log cannot be evaluated for values less than 1 thus there is no solution to this problem.
Example Question #2202 : Calculus Ii
Evaluate.
Answer not listed.
In this case, .
The antiderivative is .
Using the Fundamental Theorem of Calculus, evaluate the integral using the antiderivative:
Example Question #101 : Finding Integrals
Evaluate.
Answer not listed.
In this case, .
The antiderivative is .
Using the Fundamental Theorem of Calculus, evaluate the integral using the antiderivative:
Example Question #102 : Finding Integrals
If and , what is ?
First off, you're going to want to integrate the derivative to get the original function.
When integrating, raise the exponent by 1 and put that result on the denominator.
Therefore, the integral is
.
Remember to add a C because it is an indefinite integral at this point.
To find C, plug in 1 for x and set the integral equal to 2 from your initial conditions:
.
Plug 2 in for C to get your function:
.
Example Question #103 : Finding Integrals
If and what is ?
Recall that the integral of acceleration is velocity.
Therefore, integrate the acceleration function first. Recall that you raise the exponent by 1 and then put that result on the denominator.
Therefore,
.
Remember to add a +C because it is an indefinite integral.
Then, plug in your initial conditions to find C:
.
Plug your value in for C to get an answer of
.
Example Question #104 : Finding Integrals
Evaluate.
Answer not listed.
In this case, .
The antiderivative is .
Using the Fundamental Theorem of Calculus, evaluate the integral using the antiderivative:
Example Question #105 : Finding Integrals
Evaluate.
Answer not listed.
In this case, .
The antiderivative is .
Using the Fundamental Theorem of Calculus, evaluate the integral using the antiderivative:
Example Question #106 : Finding Integrals
Evaluate.
Answer not listed.
In this case, .
The antiderivative is .
Using the Fundamental Theorem of Calculus, evaluate the integral using the antiderivative:
Example Question #107 : Finding Integrals
Evaluate.
Answer not listed.
In this case, .
The antiderivative is .
Using the Fundamental Theorem of Calculus, evaluate the integral using the antiderivative:
Example Question #91 : Definite Integrals
Evaluate.
Answer not listed.
Answer not listed.
In this case, .
The antiderivative is .
Using the Fundamental Theorem of Calculus, evaluate the integral using the antiderivative:
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