Determining Limits using Algebraic Manipulation

Limits give us the power to approximate functions and see the values they are approaching. Limit is not the value of the function at a particular point. It is the value which the function is approaching as one moves towards the given point. There are many ways to solve the limits, often limits are easy to solve, but sometimes they evaluate into indeterminate forms which are not defined and are difficult to estimate. The goal is to avoid these forms and solve the limits of the function. Let’s look at some algebraic ways to solve such limits.

A limit is a value the function or a sequence approach as the input or the index approaches some value. These concepts are essential in calculus and real analysis as they help us define continuity, differentiability, and integrals. In the formula, the limit for a function f(x) at a point x = c is usually denoted as, 

Often only the substitution method is enough for calculating the limit. But sometimes some limits might evaluate to indeterminate forms. 

An indeterminate form is usually encountered where the limit involves more than one function. It is defined as an expression involving two or more whose limit cannot be determined solely from the individual functions. 

The most common indeterminate forms are generated from the limits of ratio of functions,, when both functions evaluate either to 0 or ∞ generating the limits of the form  or . Other indeterminate forms include 0 x ∞, ∞ – ∞, 0^∞ etc.

Certain algebraic methods can help us avoid these forms.

These techniques from algebra can help in avoiding the indeterminate forms in the limits. Some of these forms include evaluating limits by factoring and sometimes rationalizing. In the case of trigonometric functions, some other tricks such as using the Pythagorean identity or trigonometric limit using double angle identity can help us solve these limits. 

Usually, in the ratio functions consisting of polynomials, the indeterminate form stems from one of the factors occurring in the expression. For example, in the function f(x) given below, the indeterminate form is due to the factor (x – 1). 

In such cases, we factorize both the polynomials such that the common factor cancels out. 

⇒

⇒

⇒

⇒2

In this method, indeterminate form is dealt with by rationalizing the function. 

Notice that this generates the indeterminate form of ∞ – ∞. 

In such cases, we rationalize the expression.

⇒

⇒

⇒

⇒

⇒

⇒

⇒

Pythagorean Identities consists of following three identities: 

1. sin²x + cos²x = 1
2. 1 + tan²x = sec²x
3. 1 + cot²x = cosec²x

These identities can be used to substitute in the functions when trigonometric functions show indeterminate forms. 

Following double angle identities can also be used for substitution in trigonometric functions:

1. cos2x = 2cos²x – 1 = 1 – 2sin²x
2. sin2x = 2sinxcosx

Let’s see some examples of these concepts. 

Question 1: Find out the following limit. 

Solution: 

This limit is of the 0/0 form. Factorization can be used here.

⇒

⇒

⇒

⇒

⇒

⇒

Question 2: Find out the following limit. 

Solution: 

This limit is of the 0/0 form. Factorization can be used here.

⇒

⇒

⇒

⇒

⇒ -1

Question 3: Find out the following limit. 

Solution: 

This limit is of the indeterminate form. Rationalization can be used here.

Question 4: Find out the limit of,

Solution:

Putting the limit x tends to 2 to see the value obtained,

= Undefined.

As, it is clear that the answer is undefined, rationalize the denominator,

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To solve limits using algebraic manipulation, factorize, rationalize, expand, and use known limits. If indeterminate, apply L’Hôpital’s Rule or the Squeeze Theorem for evaluation.

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Algebraic manipulation is a method of rearranging algebraic expressions to simplify them or solve problems more effectively.

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Limit manipulation refers to the techniques used to evaluate limits, often involving algebraic operations, factorization, rationalization, and other methods to simplify expressions in order to find the value a function approaches as it approaches a specific point.

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To determine a limit, analyze how a function behaves as the input approaches a specific value. If the function approaches a finite number, that’s the limit. If it approaches infinity, negative infinity, or oscillates, the limit does not exist.