How do you know when to not use L'hospital's rule?
The first thing to do is to really understand when you should use L'Hôpital's Rule.
L'Hôpital's Rule is a brilliant trick for dealing with limits of an indeterminate form.
An indeterminate form is when the limit seems to approach a deeply weird answer. For example:
seems to equal
Let's review what the fraction
and you should see that
Now, lets look at
There is no value of x that will make the above statement true. We cannot define one. So we call that answer undefined.
Now let's look at
We call this an indeterminate form. There are several others, like "infinity/infinity", or "zero times infinity." None of them can possibly be the actual answer to an algebraic or logarithmic or exponential or trigonometric limit.
In the limit above, it's a bit of a trick question. I've set up what's called a removable discontinuity. We can work around the issue like so:
which just equals
Now L'Hôpital's Rule says:
If you have an indeterminate form for your answer to your limit, then you can take the derivative of the numerator and of the denominator separately in order to find the limit.
You can repeat this process if you continue to get an indeterminate form.
You must stop as soon as you no longer get an indeterminate form by allowing the limit to be reached.
So for my example, we could have used L'Hôpital's Rule:
Now, since I've taken the derivative of the numerator and the denominator separately, I can try to substitute 2 in for x, and I get
If I had found the answer to still be
But as soon as I get a zero, or a number, or even a number over zero, I must stop.
Because when the answer is no longer an indeterminate form, L'Hôpital's Rule no longer applies.
Hope this helps.