Section 1



Section 2.4: The Chain Rule

Practice HW from Larson Textbook (not to hand in)

p. 122 # 1-23 odd, 33-97 odd

In this section, we want to differentiate different type of function compositions. The rules displayed are all special cases of the chain rule, which we discuss later in the section.

General Power Rule

[pic]

Example 1: Differentiate[pic].

Solution:

█

Example 2: Differentiate[pic].

Solution:

█

Example 3: Differentiate[pic].

Solution: Using the exponent law [pic], start by rewriting the function as [pic]. Then using the general power rule, we calculate the derivative as follows.

[pic]

█

Example 4: Differentiate[pic].

Solution:

█

Derivative of an Exponential Function for an Arbitrary Base

Base e: [pic]

Arbitrary Base: [pic]

Example 5: Differentiate[pic].

Solution:

█

Chain Rule For Exponential Functions

Base e: [pic]

Arbitrary Base: [pic]

Example 6: Differentiate[pic].

Solution:

█

Example 7: Differentiate[pic].

Solution:

█

Example 8: Differentiate[pic].

Solution: Since this function is a product of two functions of t, we need to use the product rule. When taking the derivative of the second function, we apply the chain rule applied to the exponential function of base e. This gives

[pic]

█

Chain Rule

Used to take the derivative of a composition of two functions.

Chain Rule

[pic]

Note: The general power rule and chain rule for the exponential function are special cases of the Chain Rule.

Example 9: Differentiate [pic] using the general power rule and the chain rule.

Solution:

█

Chain Rule Applied to the Trigonometric Functions

[pic]

[pic]

[pic]

[pic]

[pic]

[pic]

Example 10: Differentiate[pic].

Solution:

█

Example 11: Differentiate[pic].

Solution:

█

Example 12: Differentiate[pic].

Solution:

█

Example 13: Differentiate[pic].

Solution:

█

Formulas for the Derivative of Logarithmic Functions

Natural Logarithm: [pic]

[pic]

Logarithm of an Arbitrary Base: [pic]

Example 14: Differentiate [pic]

Solution:

█

Chain Rule for the Logarithmic Functions

Natural Logarithm: [pic]

[pic]

Logarithm of an Arbitrary Base: [pic]

Example 15: Differentiate[pic].

Solution:

█

Example 16: Differentiate[pic].

Solution:

█

Example 17: Differentiate[pic].

Solution: Using the chain rule formula for the natural logarithm of an absolute value [pic], we calculate the derivative as follows:

[pic]

█

Example 18: Differentiate[pic].

Solution: On this one, it is easier to use some properties of logarithms to rewrite the function before differentiating. We do this as follows:

[pic]

We now apply the chain rule for the ln function to differentiate [pic]

as follows:

[pic]

█

................
................

In order to avoid copyright disputes, this page is only a partial summary.

Google Online Preview   Download