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2.5 The Chain Rule.

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1 2.5 The Chain Rule

2 The Chain Rule

3 Example Find F '(x) if F (x) = .
Solution: (using the first definition) F (x) = (f  g)(x) = f (g(x)) where f (u) = and g (x) = x2 + 1. Since and g(x) = 2x we have F (x) = f (g (x))  g (x)

4 Solution: (using the second definition)
let u = x2 + 1 and y = , then

5 The Chain Rule for powers:

6 Example Differentiate: y = (x3 – 1)100. Solution:
Taking u = g(x) = x3 – 1 and n = 100 = (x3 – 1)100 = 100(x3 – 1) (x3 – 1) = 100(x3 – 1)99  3x2 = 300x2(x3 – 1)99

7 Practice:

8 Implicit Differentiation
2.6 Implicit Differentiation

9 Implicit Differentiation
So far we worked with functions where one variable is expressed in terms of another variable—for example: y = or y = x sin x (in general: y = f (x). ) Some functions, however, are defined implicitly by a relation between x and y, examples: x2 + y2 = 25 x3 + y3 = 6xy We say that f is a function defined implicitly - For example Equation 2 above means: x3 + [f (x)]3 = 6x f (x)

10 Example 1 For x3 + y3 = 6xy find:

11 Example 2 Find the equation of the tangent line at (3,2)

12 Answer:

13 Practice problem: Find the slope of the curve at (4,4)

14 Practice: In each case, find y’

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