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§ 4.5 The Derivative of ln x.

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Presentation on theme: "§ 4.5 The Derivative of ln x."— Presentation transcript:

1 § 4.5 The Derivative of ln x

2 Section Outline Derivatives for Natural Logarithms
Differentiating Logarithmic Expressions

3 Derivative Rules for Natural Logarithms

4 Differentiating Logarithmic Expressions
EXAMPLE Differentiate. SOLUTION This is the given expression. Differentiate. Use the power rule. Differentiate ln[g(x)]. Finish.

5 Differentiating Logarithmic Expressions
EXAMPLE The function has a relative extreme point for x > 0. Find the coordinates of the point. Is it a relative maximum point? SOLUTION This is the given function. Use the quotient rule to differentiate. Simplify. Set the derivative equal to 0.

6 Differentiating Logarithmic Expressions
CONTINUED The derivative will equal 0 when the numerator equals 0 and the denominator does not equal 0. Set the numerator equal to 0. Write in exponential form. To determine whether the function has a relative maximum at x = 1, let’s use the second derivative. This is the first derivative. Differentiate.

7 Differentiating Logarithmic Expressions
CONTINUED Simplify. Factor and cancel. Evaluate the second derivative at x = 1. Since the value of the second derivative is negative at x = 1, the function is concave down at x = 1. Therefore, the function does indeed have a relative maximum at x = 1. To find the y-coordinate of this point So, the relative maximum occurs at (1, 1).

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