All Calculus 2 Resources
Example Questions
Example Question #81 : Integral Applications
Find the area under the curve for from to , rounded to the nearest integer.
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
When rounded, the area under the curve is
Example Question #87 : Integral Applications
Find the area under the curve for from to
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
When rounded to the nearest integer, the area under the curve is
Example Question #88 : Integral Applications
Find the area under the curve for from to , when rounded to the nearest integer.
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
When rounded, the area under the curve is
Example Question #82 : Integral Applications
Find the area under the curve for from to , rounded to the nearest integer.
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
This function is negative from x=[-2,0], and positve everywhere else. Split this integral up into 2 pieces, multiplying x=[-2,0] region by -1, and sum everything up.
1st Piece:
2nd piece:
Sum:
The area under the curve is
Example Question #89 : Integral Applications
Find the area under the curve for from to , rounded to the nearest integer.
inding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
This function is negative from x=[0,2], and positve everywhere else. Split this integral up into 2 pieces, multiplying x=[0,2] region by -1, and sum everything up.
1st piece:
2nd piece:
sum:
When rounded to the nearest integer, the area under the curve is
Example Question #33 : Area Under A Curve
Find the area under the curve for from to , rounded to the nearest integer.
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
This function is negative from , and positve everywhere else. Split this integral up into 2 pieces, multiplying region by , and sum everything up.
First piece:
Second piece:
Sum:
When rounded to the nearest integer, the area under the curve is
Example Question #261 : Integrals
Find the area under the curve for from to
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
Rounded to the nearest integer, the area under the curve is
Example Question #91 : Integral Applications
Find the area under the curve for from to
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
The area under the curve is
Example Question #36 : Area Under A Curve
Find the area under the curve for from to
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
This function is negative from and positve everywhere else. Split this integral up into 3 pieces, multiplying x=[0,\frac{4}{3}] region by -1, and sum everything up.
1st piece:
2nd piece:
3rd piece:
Sum:
When rounded to the nearest integer, the area under the curve is
Example Question #37 : Area Under A Curve
Find the area under the curve for from to
Finding the area of a region is the same as integrating over the range of the function and it can be rewritten into the following:
Solution:
First, simplify the function and then evaluate the integral.
1. Simplify the function
2. Evaluate the integral
The area under the curve is
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