http://www.ck12.org Chapter 3. Applications of Derivatives
Evaluate limx→ 0 ex−x^1.
Solution:
Since limx→ 0 (ex− 1 ) =limx→ 0 x=0, L’Hospital’s Rule applies and we have
xlim→ 0 ex− 1
x =limx→ 0ex
1 =1
1 =^1.
Example 4:
Evaluate limx→+∞xe^2 x
Solution:
Since limx→+∞x^2 =limx→+∞ex= +∞, L’Hospital’s Rule applies and we have
xlim→+∞x2
ex=x→lim+∞2 x
ex.
Here we observe that we still have the indeterminate form∞∞. So we apply L’Hospital’s Rule again to find the limit
as follows:
x→lim+∞x2
ex=x→lim+∞2 x
ex=x→lim+∞2
ex=^0
L’Hospital’s Rule can be used repeatedly on functions like this. It is often useful because polynomial functions can
be reduced to a constant.
Let’s look at an example with trigonometric functions.
Example 5:
Evaluate limx→ 01 −xcos 2 x.
Solution:
Since limx→ 0 ( 1 −cosx) =limx→ 0 x^2 =0, L’Hospital’s Rule applies and we have
xlim→ 01 −xcos^2 x=xlim→ 0 sin 2 xx=limx→ 0 cos 2 x=^12.Lesson Summary
- We learned to examine end behavior of functions on infinite intervals.
- We determined horizontal asymptotes of rational functions.
- We examined indeterminate forms of limits of rational functions.
- We applied L’Hospital’s Rule to find limits of rational functions.
Multimedia Links
For an introduction to L’Hopital’s Rule(8.0), see Khan Academy, L’Hopital’s Rule (8:51).