Indeterminate Form - Meaning | Indeterminate Forms of Limits (2024)

An indeterminate form is of the form 0/0, 0·∞, ∞/∞, etc. These forms occur mostly when we evaluate limits by substituting the given number into the given expression. For example, to evaluate the limit lim _{x →}₂ (x² - 4) / (x - 2), we usually substitute x = 2 in the given expression and that gives (2² - 4) / (2 - 2) = 0/0, and the value of 0/0 cannot be determined anymore. Such forms are known as indeterminate forms.

Let us learn more about indeterminate forms and how to solve limits with indeterminate forms.

1.	What are Indeterminate Forms?
2.	Evaluating Indeterminate Forms ofLimits
3.	Indeterminate Form Table
4.	FAQs on Indeterminate Form

What are Indeterminate Forms?

The indeterminate forms are forms whose value cannot be determined. In the process of evaluating some limits, the substitution of the given value of the variable into the given expression cannot provide enough information about the limits. Instead, if that produces the forms such as 0/0, ∞ - ∞, ∞/∞, etc, then such forms are known as indeterminate forms. There are 7 indeterminate forms:

0/0
0⁰
∞/∞
0 × ∞
∞ - ∞
1^∞
∞⁰

These indeterminate forms are a combination of a maximum of two of 0, 1, ∞. The value of each of these forms is not determined because they lead to contradictions when we try to determine their values. Let us just them along with the reasons why they are called indeterminate forms.

Indeterminate Form0/0

Let us start dividing 0 by 0 and we can find multiple answers. i.e.,

0 × 1 = 0 ⇒ 0/0 = 1
0 × 2 = 0 ⇒ 0/0 = 2
0 × 3 = 0 ⇒ 0/0 = 3
and so on

It means, 0/0 = 1 = 2 = 3 = .... It means 1 = 2 = 3 = ... which is absolutely a contradiction. It means the value of 0/0 cannot be determined and hence it is an indeterminate form. We can understand this from the figure below.

Indeterminate Form 0^0

We can calculate 0⁰ in two ways.

We know that a⁰ = 1 for any 'a'. Using this 0⁰ = 1.
We know that 0² = 0 × 0 = 0 ; 0³ = 0 × 0 × 0 = 0, etc. From this, 0⁰ = 0

From the above arguments 0⁰ = 1 = 0. This lead to 1 = 0, which is a contradiction. Hence 0⁰ is an indeterminate value.

Indeterminate Form∞/∞

We already proved that 0/0 is an indeterminate form. Also, we know that 1/∞ = 0. We can write 0/0 as

0/0 = (1/∞) / (1/∞)
= 1/∞ × ∞/1
= ∞/∞

It means ∞/∞ is an equivalent form of 0/0 and hence is an indeterminate form.

Indeterminate Form0 × ∞

We will again use the same 0/0 form to prove this. We already know that 1/0 = ∞. Now,

0/0 = 0 × 1/0 = 0 × ∞

Since 0/0 is an indeterminate form, 0 × ∞ is also an indeterminate form.

Indeterminate Form∞ - ∞

∞ represents a very very large number. But ∞ - ∞ doesn't mean that it is "the number minus the same number" because ∞ doesn't represent any fixed number. So we cannot say that ∞ - ∞ = 0, rather, its value cannot be determined. Thus, ∞ - ∞ is an indeterminate form.

Indeterminate Form 1^∞

Of course, multiplying 1 by itself for an infinite number of times leads to 1. But still, 1 raised to ∞ is an indeterminate form. For this, we need a little more analysis.

If we take a number that is less than and very close to 1, then multiplying it by itself an infinite number of times, gives a very very small number and is approximately equal to 0.
If we take a number that is greater than and very close to 1, then multiplying it by itself an infinite number of times, gives a very very bigger number and is approximately equal to ∞.

It means, the limit lim _{x →}₁ x^∞ does not exist because its left-hand limit is 0 and the right-hand limit is ∞. Hence, if we get 1^∞ after the substitution into the limit, it means that we have got an indeterminate form.

Indeterminate Form∞^0

We know that a⁰ using the quotient rule of exponents can be written as a/a. In the same way, ∞⁰ can be written as ∞/∞, which is an indeterminate form. Thus, ∞⁰ is an indeterminate form.

Evaluating Indeterminate Forms ofLimits

Though there are 7 indeterminate forms, the most occurring indeterminate forms are 0/0 and ∞/∞. For calculating limits leading to these forms, L'Hopital's rule is most helpful. But sometimes, other methods are also applicable. Let us discuss each method along with examples.

Factoring Method

Whenever we get an indeterminate form while evaluating limits by direct substitution, the easiest way is to see whether factoring allows any cancellation of terms. Sometimes, the direct substitution after the cancellation of common factors (from numerator and denominator) would prevent getting indeterminate forms. Here is an example.

Example: As we discussed in the beginning if we substitute x = 2 in the limit lim _{x →}₂ (x² - 4) / (x - 2), we get 0/0. Now we will factor the numerator using a2 - b2 formula. Then we get x² - 4 = x² - 2² = (x + 2)(x - 2). Then:

lim _{x →}₂ (x² - 4) / (x - 2) = lim _{x →}₂ [(x + 2)(x - 2)] / (x - 2)
= lim _{x →}₂ (x + 2)
= 2 + 2
= 4

Hence, we could evaluate the limit by factoring and canceling the common terms.

Taking the Highest Power Term as Common Factor

Most of the times, the limits like lim _{x → ∞} (2x² - 4x + 1) / (3x² - 8x + 3) would tend to ∞/∞ by direct substitution x = ∞. In such cases, we can take the highest power term (which is x² in each of the numerator and denominator in this case) as the common factor and simplify it.

lim _{x → ∞} (2x² - 4x + 1) / (3x² - 8x + 3)
= lim _{x → ∞} [x²(2 - 4/x + 1/x²)] / [x²(3 - 8/x + 3/x²)]
= lim _{x → ∞} (2 - 4/x + 1/x²) / (3 - 8/x + 3/x²) (x² has got cancelled)
= (2 - 0 + 0) / (3 - 0 + 0)
= 2/3

L'Hopital's Rule

L'Hopital's rule is very helpful in evaluating the limits with indeterminate forms. This rule says to take the derivative of numerator and denominator separately and then apply the limit whenever we get an indeterminate form by direct substitution. If we get an indeterminate form after the first application of L'Hopital's rule, then the rule can be applied again. Here is an example.

Example: lim _{x →}₀ (sin x / x) = 0/0 by direct substitution of x = 0. Now, by L'Hopital's rule, this limit is same as

lim _{x →}₀ (cos x / 1) (as derivative of sin x is cos x; and the derivative of x is 1)
= (cos 0) / 1
= 1/1
= 1

This rule can be applied instead of the above two methods (of "factoring method" and "taking the highest power term as common factor") as well.

Taking ln in Cases of 1^∞, 0⁰, and ∞⁰

Whenever we get an indeterminate form with exponents such as 1^∞ while evaluating a limit, then assume that limit as L and apply the natural logarithm "ln" on both sides. But don't forget to convert the log form into exponential form at the end to calculate L. Here is an example:

Example: Evaluate the limit lim _{x →}₀ (1 + x)^1/x.

Solution:

Let L = lim _{x →}₀ (1 + x)^1/x

Taking "ln" on both sides,

ln L = lim _{x →}₀ (1/x) ln (1 + x)
= lim _{x →}₀ [ ln (1 + x) ] / x
= lim _{x →}₀ [1/(1+x)] / 1 (by L'Hopital's rule)
= 1/(1+0)
= 1

So we got ln L = 1. From this, L = e¹ = e.

Indeterminate Form Table

Sometimes, a combination of the above methods also would work in evaluating the limits with indeterminate forms. The following table gives each of the 7 indeterminate forms along with an example. Also, each example is solved for you in an alternative method.

Indeterminate Form	Example (Limit with Direct Substitution)	Evaluating Limit
0/0	lim _{x →}₁ (x² - 1) / (x - 1) = 0/0	Factor method (or) L'Hopital's rule lim _{x →}₁ (x² - 1) / (x - 1) = lim _{x →}₁ [(x - 1)(x + 1)] / (x - 1) = lim _{x →}₁ (x + 1) = 1 + 1 = 2
1^∞, 0⁰, and ∞⁰	lim _{x →}₀ x^x = 0⁰	Assume the limit as L and apply "ln": Let L = lim _{x →}₀ x^x ln L = lim _{x →}₀ x ln x ln L = lim _{x →}₀ (ln x) / (1/x) Using L'Hopital's rule, ln L = lim _{x →}₀ (1/x) / (-1/x²) ln L = lim _{x →}₀ (-x) ln L = -0 = 0 L = e⁰ = 1
∞/∞	lim _{x → ∞} (3x + 1) / (2x + 3) = ∞/∞	Taking highest power term as common factor (or) L'Hopital's rule lim _{x → ∞} [x (3 + 1/x) ] / [x (2 + 3/x)] = lim _{x → ∞}(3 + 1/x) / (2 + 3/x) = (3 + 0) / (2 + 0) = 3/2
∞ - ∞	lim _{x →} _π/2(tan x - sec x) = ∞ - ∞	Write as fraction and apply L'Hopital's rule lim _{x →} _π/2 [ (sin x/cos x) - (1/cos x)] = lim _{x →} _π/2 [ (sin x - 1) / cos x] By L'hopital's rule = lim _{x →} _π/2 (cos x) / (- sin x) = lim _{x →} _π/2 (- cot x) = - cot π/2 = -0 = 0

Important Notes on Indeterminate Form:

1/0 is not an indeterminate form, rather 1/0 = ∞.
0/1 is not an indeterminate form, its value is 0/1 = 0.
1/∞ is not an indeterminate form, it is 1/∞ = 0.
∞/1 is not an indeterminate form, but ∞/1 = ∞.

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FAQs on Indeterminate Form

What is the Meaning ofIndeterminate Form?

An indeterminate form is a mathematical expression whose value cannot be determined. When we try to determine its value, it leads to a contradiction. Examples: 0/0, 0⁰, ∞/∞, etc are indeterminate forms. If we try to find what is 0/0, then we can get infinite values like 1, 2, 3, .... because 0 multiplied by any number is 0 itself and this gives 0⁰ = 1 = 2 = 3 = ... which is a contradiction as all numbers cannot be equal to each other.

What are 7 Indeterminate Forms of Limits?

There are 7 indeterminate forms which are mentioned as follows:

0/0
∞/∞
0⁰
1^∞
∞⁰
0 × ∞
∞ - ∞

How do I Remove Indeterminate Form?

We come across indeterminate forms while evaluating limits by substitution of the given value. In such cases, we apply one of the following methods:

factoring (and canceling)
take the highest power term as the common factor
apply L'hopital's rule
assume the given limit as L and apply "ln" on both sides.

Sometimes, we would need to apply a combination of these methods as well.

How to Calculate Indeterminate Forms of Limits?

To calculate limits with indeterminate forms such as 0/0, ∞/∞, ∞ - ∞, and 0 × ∞, writing the given function as a fraction and applying L'Hopital's rule would be the better option.
To evaluate the limits that lead to indeterminate forms of exponents such as 0⁰, 1^∞, and ∞⁰ we assume the given limit as a variable (say L) and then apply "ln" on both sides.

Is Infinity^Infinity an Indeterminate Form?

No, ∞^∞ is NOT an indeterminate form, it is a determinate form but its value is ∞ (undefined). On the other hand, ∞ - ∞ is an indeterminate form.

Is Indeterminate Form Same as Undefined?

No, indeterminate form and undefined values are different.

The indeterminate values are 0/0, ∞/∞, 0⁰, 1^∞, ∞⁰, 0 × ∞, and ∞ - ∞. These values when tried to be found lead to contradictions.
Undefined values mean that are not defined. For example, 1/0, -1/0, ∞, and -∞ are undefined values. These values cannot be found.

What Do You Do with Indeterminate Forms of Limits?

Indeterminate forms mostly occur while evaluating limits. In such cases, we go for factoring (or) L'hopital's rule. In the case of indeterminate forms of exponents, we apply the natural logarithm "ln".