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Functions

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What Are Functions in Math?
Why Are Functions Important in Real Life?
What Is the Definition of a Function?
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How to Find x and y Values of a Function
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What Makes a Function Proportional?
What Are Quadratic Functions?
What Are Polynomial Functions?
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Exponential Functions with Euler's Number
What Does Inversely Proportional Mean in Math?
What Are Power and Root Functions?
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What Are Rational Functions?
Calculate and Interpret Average Rate of Change in Math
What Is the Point-Slope Equation?
Interpret and Find Instantaneous Rate of Change in Math
How to Approximate Instantaneous Rate of Change in Math
How to Interpret and Calculate Limits of a Function
How Do You Determine Continuity of a Function?
How to Interpret and Calculate Asymptotes of a Function
What Does the Definition of the Derivative Mean?
How Do You Determine if a Function Is Differentiable?
Rules of Differentiation for Finding Derivatives
How Does the Chain Rule for Differentiation Work?

The chain rule looks a bit complex in its theoretic form, but it is easy to use as soon as you understand the logic of it. The chain rule is used to differentiate composite functions, which are functions that have another function as an argument.

Formula

The Chain Rule

[f(g)] = f(g) g,

where f(g) = f(g(x)) and g = g(x)

The derivative of a composite function is equal to the derivative of the outer function multiplied by the derivative of the inner function.

This is how you use the chain rule:

1.
Identify what the inner function and the outer function. To put it simply, the inner function is the one you can cover with a finger, while the outer function is the function that is visible around your finger.
2.
Call the inner function g(x). When you differentiate, everything becomes a bit clearer if you write just g instead of g(x).
3.
Differentiate the outer function.
4.
Differentiate the inner function.
5.
Multiply the two functions.
6.
Clean up the expression.

Example 1

Differentiate f(x) = (2x2 + 2x + 4) 5

Hold your finger over what is inside the parentheses. You can see that the “power of 5” is on the outside. That means

g = 2x2 + 2x + 4

is the inner function and (g)5 is the outer function. That gives you f(g) = (g)5 and g = 2x2 + 2x + 4, and

f(g) = 5(g)4 g = 4x + 2.

Then you get

[f(g)] = 5(g)4 g = 5 (2x2 + 2x + 4) 4(4x + 2)

Example 2

Differentiate f(x) = ex3+2x

You hold your finger over the stuff in the exponent and see that “e” is on the outside. That gives you that g = x3 + 2x is the inner function and eg is the outer function. This means that f(g) = eg and g = x3 + 2x, and

f(g) = eg g = 3x2 + 2

Then you get

[f(g)] = eg g = ex3+2x (3x2 + 2) = (3x2 + 2) ex3+2x

Example 3

Differentiate f(x) = ln (4x2 3x + 2)

Put your finger over what’s in the parentheses and see that ln(g) is on the outside. That gives you that g = 4x2 3x + 2 is the inner function and ln(g) is the outer function, and

f(g) = 1 g g g = 8x 3

Then you get

[f(g)] = 1 g g = 1 4x2 3x + 2 (8x 3) = 8x 3 4x2 3x + 2
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How to Find Derivatives using the Product Rule
How to Differentiate Functions Using the Quotient Rule
Make Sign Charts of the Derivatives of a Function
Derivation of Distance to Get Velocity and Acceleration
What Are Stationary Points of a Function?
How to Calculate the Curvature of a Function
What Are Inflection Points of a Function?
How to Analyze Polynomial Functions
How to Analyze Logarithmic Functions
How to Analyze Power Functions
How to Analyze the Cosine Function
Analyzing Exponential Functions
What Are Riemann Sums Used for?
What Are the Important Integration Rules?
Which Basic Relations in Integration Should You Know?
How to Interpret and Calculate the Definite Integral
How to Interpret and Calculate the Indefinite Integral
How to Use the Formula for Integration by Parts
How to Do Integration by Substitution
Use Partial Fraction Decomposition for Integration
How to Find the Area Between Two Graphs by Integration
How to Use Solids of Revolution to Find Volumes
What Is a Differential Equation?
What Are Integral Curves and Direction Fields Used for?
What Can Differential Equations Be Used for?
What Are First Order Differential Equations?
First Order Differential Equations with Constant Coefficients
First Order Differential Equations with Initial Conditions
How to Solve Exact First Order Differential Equations
How to Write and Solve Separable Differential Equations
Integrating Factor Method for Differential Equations
Logistic Growth and Carrying Capacity of a Population
What Are Second Order Differential Equations?
How to Solve Exact Second Order Differential Equations
Homogeneous Second Order Differential Equations with Constant Coefficients
Second Order Differential Equations with Initial Conditions
Verify Solutions to Second Order Differential Equations
Find the Equation of a Tangent Line of a Function
The Differential Equation for Harmonic Oscillators
Reduction of Order Method for Differential Equations
What Does Mathematical Modeling Mean?
What Is Mathematical Regression?
The Difference Between Interpolation and Extrapolation
What Are Linear Models?
What Are Quadratic Models?
What Are Exponential Models?
What Are Power Models in Math?
What Are Logistic Models Used For?
What Are Cubic Models in Math?
What Are Trigonometric Models?
What Does the Feasible Region in Optimization Mean?
How to Use the Graphical Method for Linear Optimization
How to Use the Ruler Method for Linear Optimization