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Example Questions
Example Question #2251 : Calculus
Evaluate the following integral:
To evaluate this integral, it is easier to split it into two integrals:
For the first integral, the following substitution must be made:
Rewriting the integral and integrating, we get:
The following rule was used to integrate:
Replacing u with the original term, we get
Next, we evaluate the second integral:
which was found using the following rule:
Combining the results - and the constants of integration - we get
Example Question #2252 : Calculus
Set up, but don't evaluate an integral expression which will find the area of the region bound by the lines , , the x-axis, and the function v(x)
Set up, but don't evaluate an integral expression which will find the area of the region bound by the lines , , the x-axis, and the function v(x)
First, we need the correct limits of integration. We want 5 as the lower limit and 25 as the upper limit.
Next, add in our function and the dx and we are all set!
Example Question #171 : Integral Expressions
Set up, but do not evaluate, an integral expression for the area of the region bound by the y-axis, h(t), and the lines ,
Set up, but do not evaluate, an integral expression for the area of the region bound by the y-axis, h(t), and the lines ,
To set up a definite integral, we first need our limits of integration:
In this case, they will be 5 and 6, because those are the lines which are the boundaries of our region.
Finally, we want to include our function
Don't forget the dt, so that we know which variable we would integrate with respect to.
Example Question #171 : Integral Expressions
Evaluate the following integral:
The integral is equal to
and was found using the following rules:
, ,
Example Question #2255 : Calculus
Find the indefenite integral
We need to use substitution to solve. Let
Differentiating, gives
Solving for dx gives
Plugging into the original integral gives
Simplifying gives
Plugging back in for u gives
Example Question #2256 : Calculus
Find the indefenite integral
We need to use substitution to solve. Let
Differentiating gives
Solving for dx, so that we can plug back in, gives
Plugging in gives
Simplifying gives
Integrating gives
Plugging u back in gives
Example Question #2257 : Calculus
Find the indefenite integral
We need to use integration by parts, which says
Let
Differentiating u and integrating dv, gives
Plugging into the equation, gives
Now, we can integrate the last term to get
Example Question #172 : Integral Expressions
Find the indefenite integral
We need to use integration by parts, which says
Let
Differentiating u and integrating dv, gives
Plugging into the equation, gives
Now, we can integrate the last term to get
Example Question #1224 : Functions
Solve the integral:
To solve the integral, we must first make the following substitution:
The derivative was found using the following rule:
,
Now, rewrite the integral and integrate:
The integral was found using the rule
Finally, replace u with the original term:
.
Example Question #2260 : Calculus
A very important physics formula is called the continuity equation. We will only consider the 1-dimensional continuity equation for now.
In the continuity equation, we're given that:
, where is a function of and .
Rewrite the right side of the equation in integral form.
Recall that the fundamental theorem of calculus states that:
Using this knowledge we write the right side as:
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