Lesson 17: Indeterminate Forms and L'Hôpital's Rule

Section 3.7
Indeterminate Forms and L’Hˆpital’s
o
Rule

V63.0121.002.2010Su, Calculus I

New York University

June 7, 2010

Announcements

Announcements

V63.0121.002.2010Su, Calculus I (NYU) L’Hˆpital’s Rule
o June 7, 2010 2 / 26

Objectives

Know when a limit is of
indeterminate form:
indeterminate quotients:
0/0, ∞/∞
indeterminate products:
0×∞
indeterminate diﬀerences:
∞−∞
indeterminate powers: 00 ,
∞0 , and 1∞

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Experiments with funny limits

sin2 x
lim
x→0 x

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sin2 x
lim =0
x→0 x

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sin2 x
lim =0
x→0 x
x
lim
x→0 sin2 x

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sin2 x
lim =0
x→0 x
x
lim does not exist
x→0 sin2 x

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sin2 x
lim =0
x→0 x
x
lim does not exist
x→0 sin2 x
sin2 x
lim
x→0 sin(x 2 )

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sin2 x
lim =0
x→0 x
x
lim does not exist
x→0 sin2 x
sin2 x
lim =1
x→0 sin(x 2 )

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sin2 x
lim =0
x→0 x
x
lim does not exist
x→0 sin2 x
sin2 x
lim =1
x→0 sin(x 2 )
sin 3x
lim
x→0 sin x

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sin2 x
lim =0
x→0 x
x
lim does not exist
x→0 sin2 x
sin2 x
lim =1
x→0 sin(x 2 )
sin 3x
lim =3
x→0 sin x

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sin2 x
lim =0
x→0 x
x
lim does not exist
x→0 sin2 x
sin2 x
lim =1
x→0 sin(x 2 )
sin 3x
lim =3
x→0 sin x
0
All of these are of the form , and since we can get diﬀerent answers in
0
diﬀerent cases, we say this form is indeterminate.

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Recall

Recall the limit laws from Chapter 2.
Limit of a sum is the sum of the limits

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Recall

Limit of a diﬀerence is the diﬀerence of the limits

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Recall

Limit of a product is the product of the limits

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Recall

Limit of a product is the product of the limits
Limit of a quotient is the quotient of the limits ... whoops! This is
true as long as you don’t try to divide by zero.

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More about dividing limits

We know dividing by zero is bad.
Most of the time, if an expression’s numerator approaches a ﬁnite
number and denominator approaches zero, the quotient approaches
some kind of inﬁnity. For example:
1 cos x
lim+ = +∞ lim = −∞
x→0 x x→0− x3

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1 cos x
lim+ = +∞ lim = −∞
x→0 x x→0− x3

An exception would be something like
1
lim = lim x csc x.
x→∞ 1 sin x x→∞
x

which doesn’t exist.

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1 cos x
lim+ = +∞ lim = −∞
x→0 x x→0− x3

An exception would be something like
1
lim = lim x csc x.
x→∞ 1 sin x x→∞
x

which doesn’t exist.
Even less predictable: numerator and denominator both go to zero.

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Language Note
It depends on what the meaning of the word “is” is

Be careful with the language
here. We are not saying that
the limit in each case “is”
0
, and therefore nonexistent
0
because this expression is
undeﬁned.
0
The limit is of the form ,
0
which means we cannot
evaluate it with our limit
laws.

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Indeterminate forms are like Tug Of War

Which side wins depends on which side is stronger.

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Outline

L’Hˆpital’s Rule
o

Other Indeterminate Limits
Indeterminate Products
Indeterminate Diﬀerences
Indeterminate Powers

Summary

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The Linear Case
Question
If f and g are lines and f (a) = g (a) = 0, what is

f (x)
lim ?
x→a g (x)

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The Linear Case
Question
If f and g are lines and f (a) = g (a) = 0, what is

f (x)
lim ?
x→a g (x)

Solution
The functions f and g can be written in the form

f (x) = m1 (x − a)
g (x) = m2 (x − a)

So
f (x) m1
=
g (x) m2

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The Linear Case, Illustrated

y y = g (x)

y = f (x)

g (x)
a f (x)
x
x

f (x) f (x) − f (a) (f (x) − f (a))/(x − a) m1
= = =
g (x) g (x) − g (a) (g (x) − g (a))/(x − a) m2

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What then?

But what if the functions aren’t linear?

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What then?

Can we approximate a function near a point with a linear function?

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What then?

What would be the slope of that linear function?

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What then?

What would be the slope of that linear function? The derivative!

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Theorem of the Day

Theorem (L’Hopital’s Rule)
Suppose f and g are diﬀerentiable functions and g (x) = 0 near a (except
possibly at a). Suppose that

lim f (x) = 0 and lim g (x) = 0
x→a x→a

or

lim f (x) = ±∞ and lim g (x) = ±∞
x→a x→a

Then
f (x) f (x)
lim = lim ,
x→a g (x) x→a g (x)

if the limit on the right-hand side is ﬁnite, ∞, or −∞.

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Meet the Mathematician: L’Hˆpital
o

wanted to be a military
man, but poor eyesight
forced him into math
did some math on his own
(solved the “brachistocrone
problem”)
paid a stipend to Johann
Bernoulli, who proved this
theorem and named it after
him! Guillaume Fran¸ois Antoine,
c
Marquis de L’Hˆpital
o
(French, 1661–1704)

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Revisiting the previous examples
Example

sin2 x
lim
x→0 x

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Example

sin2 x H 2 sin x cos x
lim = lim
x→0 x x→0 1

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Example sin x → 0

lim = lim
x→0 x x→0 1

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Example sin x → 0

lim = lim =0
x→0 x x→0 1

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Example sin x → 0

lim = lim =0
x→0 x x→0 1

Example

sin2 x
lim
x→0 sin x 2

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Example

lim = lim =0
x→0 x x→0 1

Example numerator → 0

sin2 x
lim
x→0 sin x 2

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Example

lim = lim =0
x→0 x x→0 1


sin2 x
lim
x→0 sin x 2

denominator → 0

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Example

lim = lim =0
x→0 x x→0 1


¡
lim 2
= lim
x→0 sin x x→0 (cos x 2 ) (2x )
¡

denominator → 0

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Example

lim = lim =0
x→0 x x→0 1


¡
lim 2
= lim
x→0 sin x x→0 (cos x 2 ) (2x )
¡

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Example

lim = lim =0
x→0 x x→0 1


sin2 x H 2 sin x cos x H
¡ cos2 x − sin2 x
lim = lim = lim
x→0 sin x 2 x→0 (cos x 2 ) (2x )
¡ x→0 cos x 2 − 2x 2 sin(x 2 )

denominator → 0

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Example

lim = lim =0
x→0 x x→0 1


lim = lim = lim
x→0 sin x 2 x→0 (cos x 2 ) (2x )
¡ x→0 cos x 2 − 2x 2 sin(x 2 )

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Example

lim = lim =0
x→0 x x→0 1


lim = lim = lim
x→0 sin x 2 x→0 (cos x 2 ) (2x )
¡ x→0 cos x 2 − 2x 2 sin(x 2 )

denominator → 1

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Example

lim = lim =0
x→0 x x→0 1

Example

lim = lim = lim =1
x→0 sin x 2 x→0 (cos x 2 ) (2x )
¡ x→0 cos x 2 − 2x 2 sin(x 2 )

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Example

lim = lim =0
x→0 x x→0 1

Example

lim = lim = lim =1
x→0 sin x 2 x→0 (cos x 2 ) (2x )
¡ x→0 cos x 2 − 2x 2 sin(x 2 )

Example

sin 3x H 3 cos 3x
lim = lim = 3.
x→0 sin x x→0 cos x

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Another Example

Example
Find
x
lim
x→0 cos x

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Beware of Red Herrings

Example
Find
x
lim
x→0 cos x

Solution
The limit of the denominator is 1, not 0, so L’Hˆpital’s rule does not
o
apply. The limit is 0.

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Outline

L’Hˆpital’s Rule
o

Other Indeterminate Limits
Indeterminate Products
Indeterminate Diﬀerences
Indeterminate Powers

Summary

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Indeterminate products

Example
Find √
lim+ x ln x
x→0

This limit is of the form 0 · (−∞).

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Example
Find √
lim+ x ln x
x→0

Solution
Jury-rig the expression to make an indeterminate quotient. Then apply
L’Hˆpital’s Rule:
o

√
lim x ln x
x→0+

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Example
Find √
lim+ x ln x
x→0

Solution
o

√ ln x
lim x ln x = lim+ 1/√x
x→0+ x→0

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Example
Find √
lim+ x ln x
x→0

Solution
o

√ ln x H x −1
lim x ln x = lim+ √ = lim+
x→0+ x→0 1/ x x→0 − 1 x −3/2
2

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Example
Find √
lim+ x ln x
x→0

Solution
o

√ ln x H x −1
x→0+ x→0 1/ x x→0 − 1 x −3/2
2
√
= lim+ −2 x
x→0

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Example
Find √
lim+ x ln x
x→0

Solution
o

√ ln x H x −1
x→0+ x→0 1/ x x→0 − 1 x −3/2
2
√
= lim+ −2 x = 0
x→0

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Indeterminate diﬀerences

Example

1
lim+ − cot 2x
x→0 x

This limit is of the form ∞ − ∞.

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Example

1
lim+ − cot 2x
x→0 x

Solution
Again, rig it to make an indeterminate quotient.

sin(2x) − x cos(2x)
lim
x→0+ x sin(2x)

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Example

1
lim+ − cot 2x
x→0 x

Solution

sin(2x) − x cos(2x) H cos(2x) + 2x sin(2x)
lim = lim+
x→0+ x sin(2x) x→0 2x cos(2x) + sin(2x)

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Example

1
lim+ − cot 2x
x→0 x

Solution

lim = lim+

=∞

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Example

1
lim+ − cot 2x
x→0 x

Solution

lim = lim+

=∞

The limit is +∞ becuase the numerator tends to 1 while the denominator
tends to zero but remains positive.
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Checking your work

tan 2x
lim = 1, so for small x,
x→0 2x
1
tan 2x ≈ 2x. So cot 2x ≈ and
2x
1 1 1 1
− cot 2x ≈ − = →∞
x x 2x 2x
as x → 0+ .

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Indeterminate powers

Example
Find lim+ (1 − 2x)1/x
x→0

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Example
x→0

Take the logarithm:

ln(1 − 2x)
ln lim+ (1 − 2x)1/x = lim+ ln (1 − 2x)1/x = lim+
x→0 x→0 x→0 x

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Example
x→0

Take the logarithm:

ln(1 − 2x)
x→0 x→0 x→0 x

0
This limit is of the form , so we can use L’Hˆpital:
o
0
−2
ln(1 − 2x) H 1−2x
lim+ = lim+ = −2
x→0 x x→0 1

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Example
x→0

Take the logarithm:

ln(1 − 2x)
x→0 x→0 x→0 x

0
This limit is of the form , so we can use L’Hˆpital:
o
0
−2
ln(1 − 2x) H 1−2x
lim+ = lim+ = −2
x→0 x x→0 1
This is not the answer, it’s the log of the answer! So the answer we want
is e −2 .
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Another indeterminate power limit

Example

lim (3x)4x
x→0

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Another indeterminate power limit

Example

lim (3x)4x
x→0

Solution

ln lim+ (3x)4x = lim+ ln(3x)4x = lim+ 4x ln(3x)
x→0 x→0 x→0
ln(3x) H 3/3x
= lim+ 1/4x
= lim+ −1/4x 2
x→0 x→0

= lim+ (−4x) = 0
x→0

So the answer is e 0 = 1.

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Summary
Form Method

0
0 L’Hˆpital’s rule directly
o

∞
∞ L’Hˆpital’s rule directly
o

0 ∞
0·∞ jiggle to make 0 or ∞.

∞−∞ factor to make an indeterminate product

00 take ln to make an indeterminate product

∞0 ditto

1∞ ditto

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Final Thoughts

L’Hˆpital’s Rule only works on indeterminate quotients
o
Luckily, most indeterminate limits can be transformed into
indeterminate quotients
L’Hˆpital’s Rule gives wrong answers for non-indeterminate limits!
o

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Lesson 17: Indeterminate Forms and L'Hôpital's Rule

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Lesson 17: Indeterminate Forms and L'Hôpital's Rule