All Calculus 2 Resources
Example Questions
Example Question #72 : New Concepts
The first step to computing a limit is direct substitution:
Now, we see that this is in the form of L'Hopital's Rule. For those problems, we take a derivative of both the numerator and denominator separately. Remember, is simply a constant!
Now, we can go back and plug in the original limit value:
Example Question #81 : New Concepts
The first step to computing a limit is direct substitution:
Now, we see that this is in the form of L'Hopital's Rule. For those problems, we take a derivative of both the numerator and denominator separately. Remember, is simply a constant!
Now, we can go back and plug in the original limit value:
.
However, we still have to rationalize the denominator. Therefore:
.
Example Question #592 : Derivatives
Evaluate the following limit by L'hospital's Rule
Undefined
Recall L'hospital's Rule for an indeterminate limit is as follows:
Since is an indeterminate limit, one must use L'hospital's rule.
Therefore the question now becomes,
Example Question #1721 : Calculus Ii
Solve the limit:
Notice if we try to plug infinity into the limit we get so we apply L'Hospital's rule.
We then take the derivative of the top and the bottom and get
Example Question #594 : Derivatives
Evaluate
Substituting 0 directly into x gives
,
which is an indeterminant form that allows the use of L'hospital's rule. Applying L'hospital's rule, we get
Using the the pythagorean trig. identity, , we rewrite the limit as
Now we plug 0 in for x.
, giving us the answer.
Example Question #65 : L'hospital's Rule
Evaluate the limit:
If we evaluate the expression with the limit of , it returns the indeterminate form . We start by rewriting the expression
We can instead use L’Hospital’s Rule to evaluate, using the form:
Where
So,
If we rewrite the limit with L'Hospital's Rule,
This is another indeterminate form, so we simply go through L'Hospital's Rule a second time. First we will rewrite the expression.
Where,
So
Example Question #601 : Derivatives
Evaluate the limit:
If we evaluate the expression with the limit of x = -1, it returns the indeterminate form .
We can instead use L’Hospital’s Rule to evaluate, using the form:
Where,
Therefore,
If we rewrite the limit with L'Hospital's Rule,
Example Question #602 : Derivatives
Evaluate the limit:
If we evaluate the expression with the limit of , it returns the indeterminate form .
We can instead use L’Hospital’s Rule to evaluate, using the form:
Where,
Therefore,
If we rewrite the limit with L'Hospital's Rule,
Example Question #603 : Derivatives
Evaluate the limit:
If we evaluate the expression with the limit of x = 8, it returns the indeterminate form .
We can instead use L’Hospital’s Rule to evaluate, using the form:
Where,
Therefore,
If we rewrite the limit with L'Hospital's Rule,
Example Question #604 : Derivatives
Evaluate the limit:
If we evaluate the expression with the limit of , it returns the indeterminate form .
We can instead use L’Hospital’s Rule to evaluate, using the form:
Where,
Therefore,
If we rewrite the limit with L'Hospital's Rule,
This is another indeterminate form, so we simply go through L'Hospital's Rule a second time.
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