Mathematics

Implicit Differentiation

Implicit differentiation is the main type of differential calculus. It is widely used to find the derivative of one variable with respect to another variable. The derivative is a major topic of calculus used to calculate the rate of change in the given function.

The other type of derivative is explicit differentiation. Both types are used to solve the problems of differential calculus. In this post, we will discuss the definition, methods, and examples of implicit differentiation.

What is implicit differentiation?

Implicit differentiation is a branch of differentiation in which you can calculate the derivative of an equation. In this type of derivative, two variables are used like x and y. These variables behave as one is the function of the other and you have to calculate dy/dx of the given function. 

In implicit differentiation, the term y with respect to x is not considered as constant. The derivative of y2 in the implicit differentiation must be 2y dy/dx. All the formulas and rules remain the same in this type of differentiation.

The implicit differentiation can be defined as calculating the derivative of y with respect to x without solving the given equation for y. The main purpose of this type of differentiation is to calculate the dy/dx term of the given equation. More simply, we can say that implicit differentiation is used to calculate the differential of the inverse function.

Rules of implicit differentiation

Rules of differentiation remains unchanged for implicit differentiation. 

Sum rule 

d/dx (u + v) = d/dx (u) + d/dx (v)

Difference rule 

d/dx (u – v) = d/dx (u) – d/dx (v)

Product rule

d/dx (u * v) = u d/dx (v) + v d/dx (u)

Quotient rule 

d/dx (u / v) = 1/v2 [v d/dx (u) – u d/dx (v)]

Power rule

d/dx (un) = n (u)n-1 d/dx (u)

 By using rules and formulas of differentiation, we can easily find the implicit differentiation of the given equation. 

How to calculate the implicit differentiation?

Implicit differentiation of the given function can be calculated by treating x and y as variables and applying the rules of differentiation. You can also use an implicit differentiation calculator for getting the step-by-step solution of the given problems. In just a single click, you can calculate the result. You have to put the question into the input box like:

Then click the “calculate” button the result will show below the calculate button in a couple of seconds.

By pressing show steps, you can see the step-by-step solution of the given problem.

Example 1

Calculate the derivative of the given function with respect to x, 9x2y + 17xy2 – 19xy3 = 3x5 / 3x2 + 17x + 2y + 3?

Solution

Step 1: First of all, write the given equation.

9x2y + 17xy2 – 2y3 = 3x5 / 3x2 + 17x + 2y + 3

Step 2: Now apply the differential operator on both side in the given equation.

d/dx (9x2y + 17xy2 – 2y3) = d/dx (3x5 / 3x2 + 17x + 2y + 3)

Step 3: Apply the difference, product, sum, and quotient rules on the above equation.

d/dx (9x2y) + d/dx (17xy2) – d/dx (2y3) = d/dx (3x5 / 3x2) + d/dx (17x) + d/dx (2y) + d/dx (3)

9x2 d/dx (y) + y d/dx (9x2) + x d/dx (17y2) + y2 d/dx 17x – d/dx (2y3) = 1/(3x2)2 [3x2 * d/dx (3x5) – 3x5 d/dx (3x2)] + d/dx (17x) + d/dx (2y) + d/dx (3)

Step 4: Now apply the constant and power rules on the above equation.

9x2 d/dx (y) + 9y d/dx (x2) + 17x d/dx (y2) + 17y2 d/dx (x) – 2d/dx (y3) = 1/(3x2)2 [3x2 * 3d/dx (x5) – 3x5 3d/dx (x2)] + 17d/dx (x) + 2d/dx (y) + 0

9x2 dy/dx + 9y (2x2-1) + 17x (2y2-1) dy/dx + 17y2 (x1-1) – 2 (3y3-1) = 1/(9x4) [9x2 * (5x5-1) – 9x5 (2x2-1)] + 17 (x1-1) + 2dy/dx

9x2 dy/dx + 18xy + 34xy dy/dx + 17y2 – 6y2 = 1/(9x4) [9x2 * (5x4) – 9x5 (2x)] + 17 + 2dy/dx

9x2 dy/dx + 18xy + 34xy dy/dx + 17y2 – 6y2 dy/dx = 1/(9x4) [45x6 – 18x6] + 17 + 2dy/dx 

9x2 dy/dx + 18xy + 34xy dy/dx + 17y2 – 6y2 dy/dx = 1/(9x4) [27x6] + 17 + 2dy/dx 

9x2 dy/dx + 18xy + 34xy dy/dx + 17y2 – 6y2 dy/dx = 3x2 + 17 + 2dy/dx 

Step 5: Take the dy/dx term on one side and take it as common.

9x2 dy/dx + 34xy dy/dx – 6y2 dy/dx – 2dy/dx = 3x2 + 17 – 18xy – 17y2

(9x2 + 34xy – 6y2– 2) dy/dx = 3x2 + 17 – 18xy – 17y2

dy/dx = (3x2 + 17 – 18xy – 17y2) / (9x2 + 34xy – 6y2– 2)

Example 2

Calculate the derivative of the given function with respect to x, 3xy2 + 4x2y – 13y = 3x5 * 19y2 + 34x + 2?

Solution

Step 1: First of all, write the given equation.

3xy2 + 4x2y – 13y = 3x5 * 19y2 + 34x + 2

Step 2: Now apply the differential operator on both side in the given equation.

d/dx (3xy2 + 4x2y – 13y) = d/dx (3x5 * 19y2 + 34x + 2)

Step 3: Apply the difference, product, sum, and quotient rules on the above equation.

d/dx (3xy2) + d/dx (4x2y) – d/dx (13y) = d/dx (3x5 * 19y2) + d/dx (34x) + d/dx (2)

3x d/dx (y2) + y2 d/dx (3x) + 4x2 d/dx (y) + y d/dx (4x2) – d/dx (13y) = 19y2 d/dx (3x5) + 3x5 d/dx (19y2) + d/dx (34x) + d/dx (2)

Step 4: Now apply the constant and power rules on the above equation.

3x (2y2-1) dy/dx + y2 (3(1)) + 4x2 dy/dx + y ((4 * 2) x2-1) – 13 dy /dx = 19y2 ((3 * 5) x5-1) + 3x5 ((19 * 2) y2-1) dy/dx + (34(1)) + 0

3x (2y dy/dx) + y2 (3) + 4x2 dy/dx + y (8x) – 13 dy /dx = 19y2 (15x4) + 3x5 (38y) dy/dx + (34(1)) 

6xy dy/dx + 3y2 + 4x2 dy/dx + 8xy – 13 dy /dx = 285x4y2 + 114x5y dy/dx + 34 

Step 5: Take the dy/dx term on one side and take it as common.

6xy dy/dx + 4x2 dy/dx– 13 dy /dx – 114x5y dy/dx = 285x4y2 + 34 – 8xy – 3y2

(6xy + 4x2 – 13 – 114x5y) dy/dx = 285x4y2 + 34 – 8xy – 3y2

dy/dx = (285x4y2 + 34 – 8xy – 3y2) / (6xy + 4x2 – 13 – 114x5y)

Conclusion

Implicit differentiation is used to find the values of dy/dx by applying rules to the given equation without solving the terms of y. You can easily solve the problems of implicit differentiation, once you grab all the basics of implicit differentiation. 

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