ap calculus ab chapter 5, section 1
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AP Calculus AB Chapter 5, Section 1. Natural Logarithmic Functions: Differentiation 2013 - 2014. The Natural Logarithmic Function. This about what you know about the integral power rule. One important disclaimer: it doesn’t apply when n = -1. What would happen if n = -1??. - PowerPoint PPT PresentationTRANSCRIPT
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AP Calculus ABChapter 5, Section 1
Natural Logarithmic Functions: Differentiation
2013 - 2014
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The Natural Logarithmic Function
• Evaluate
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The Natural Logarithmic Function
• Definition of the Natural Logarithmic Function:
• The domain of the natural logarithmic function is the set of all positive real numbers.
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The Number e
• The number e is the base of ln. • e and ln are inverses of each other.• In the equation , the value of x to make this
statement true is e. • e is irrational and has the decimal
approximation
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Definition of e
• The letter e denotes the positive real number such that
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Let’s look at the graph• Set your window to [-1, 10] by [-5, 5]• Graph in and sketch below.
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Theorem: Properties of the Natural Logarithmic Function
• The natural logarithmic function has the following properties:– The domain is (0, ∞) and the range is (-∞, ∞).– The function is continuous, increasing, and one-to-
one.– The graph is concave downward.
• Do you remember how we check for concavity?????
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Theorem: Logarithmic Properties
• If a and b are positive numbers and n is rational, then the following properties are true:
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Expanding Logarithmic Expressions
ln(𝑥2+3 )23√𝑥2+1
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Condensing Logarithmic Expressions
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The Derivative of the Natural Logarithmic Function
• Let u be a differential function of x
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Differentiation of Logarithmic Functions
𝑑𝑑𝑥
[ ln(2 𝑥) ]
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Differentiation of Logarithmic Functions
𝑑𝑑𝑥
[ ln √𝑥+1 ]
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Differentiation of Logarithmic Functions
𝑦=ln (ln𝑥 ) , 𝑓𝑖𝑛𝑑 𝑦 ′
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Differentiation of Logarithmic Functions
𝑑𝑑𝑥
[ (ln 𝑥 )3 ]
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Derivative Involving Absolute Value
• If u is a differentiable function of x such that , then
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Differentiation of Logarithmic Functions
𝑦=ln|cos 𝑥|, 𝑦 ′=¿
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Logarithmic Properties as Aids to Differentiation
• Differentiate:
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• Show that is a solution to the differential equation
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Finding Relative Extrema
• Locate the relative extrema of
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Ch 5.1 Homework
• Pg 329 – 330, #’s: 7 – 10, 15, 21, 27, 29, 33, 41, 49, 55, 61, 71, 75, 79