All AP Calculus BC Resources
Example Questions
Example Question #1 : Euler's Method And L'hopital's Rule
Evaluate:
The limit does not exist.
Let's examine the limit
first.
and
,
so by L'Hospital's Rule,
Since ,
Now, for each , ; therefore,
By the Squeeze Theorem,
and
Example Question #2 : Euler's Method And L'hopital's Rule
Evaluate:
The limit does not exist.
Therefore, by L'Hospital's Rule, we can find by taking the derivatives of the expressions in both the numerator and the denominator:
Similarly,
So
But for any , so
Example Question #3 : Euler's Method And L'hopital's Rule
Evaluate:
The limit does not exist.
and
Therefore, by L'Hospital's Rule, we can find by taking the derivatives of the expressions in both the numerator and the denominator:
Similarly,
so
Example Question #4 : Euler's Method And L'hopital's Rule
Evaluate:
and
Therefore, by L'Hospital's Rule, we can find by taking the derivatives of the expressions in both the numerator and the denominator:
Example Question #1 : Euler's Method
Suppose we have the following differential equation with the initial condition:
Use Euler's method to approximate , using a step size of .
We start at x = 0 and move to x=2, with a step size of 1. Essentially, we approximate the next step by using the formula:
.
So applying Euler's method, we evaluate using derivative:
And two step sizes, at x = 1 and x = 2.
And thus the evaluation of p at x = 2, using Euler's method, gives us p(2) = 2.
Example Question #2 : Euler's Method
Approximate by using Euler's method on the differential equation
with initial condition (which has the solution ) and time step .
Using Euler's method with means that we use two iterations to get the approximation. The general iterative formula is
where each is
is an approximation of , and , for this differential equation. So we have
So our approximation of is
Example Question #1 : L'hospital's Rule
Evaluate the limit using L'Hopital's Rule.
Undefined
L'Hopital's Rule is used to evaluate complicated limits. The rule has you take the derivative of both the numerator and denominator individually to simplify the function. In the given function we take the derivatives the first time and get
.
This still cannot be evaluated properly, so we will take the derivative of both the top and bottom individually again. This time we get
.
Now we have only one x, so we can evaluate when x is infinity. Plug in infinity for x and we get
and .
So we can simplify the function by remembering that any number divided by infinity gives you zero.
Example Question #1 : L'hospital's Rule
Evaluate the limit using L'Hopital's Rule.
Undefined
L'Hopital's Rule is used to evaluate complicated limits. The rule has you take the derivative of both the numerator and denominator individually to simplify the function. In the given function we take the derivatives the first time and get
.
Since the first set of derivatives eliminates an x term, we can plug in zero for the x term that remains. We do this because the limit approaches zero.
This gives us
.
Example Question #2 : L'hospital's Rule
Evaluate the limit using L'Hopital's Rule.
Undefined
L'Hopital's Rule is used to evaluate complicated limits. The rule has you take the derivative of both the numerator and denominator individually to simplify the function. In the given function we take the derivatives the first time and get
.
This still cannot be evaluated properly, so we will take the derivative of both the top and bottom individually again. This time we get
.
Now we have only one x, so we can evaluate when x is infinity. Plug in infinity for x and we get
.
Example Question #3 : L'hospital's Rule
Calculate the following limit.
To calculate the limit, often times we can just plug in the limit value into the expression. However, in this case if we were to do that we get , which is undefined.
What we can do to fix this is use L'Hopital's rule, which says
.
So, L'Hopital's rule allows us to take the derivative of both the top and the bottom and still obtain the same limit.
.
Plug in to get an answer of .
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