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Evaluating Functions and Difference Quotient

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1 Evaluating Functions and Difference Quotient

2 Objectives Standard 24.0 I will evaluate the value of any functions, including piecewise functions. Calculus Standard 4.0 I will evaluate the difference quotient of any given function.

3 When we evaluate a function we are finding the function value for
a specific input. To do this we replace the function variable in the function’s formula with the specific input and proceed from there. The “specific input” can be a constant, another variable or an algebraic expression. The important thing to remember is it replaces the function variable everywhere in the function’s formula For example:

4 Another example: Because is an imaginary number 1 is not in the domain of f (x)

5 Another example:

6 Another example: Because 5/0 is undefined 4 is not in the domain of h(x).

7 Problems - 1 Given find

8 Problems - 2

9 Sometimes a function has different rules or formulas depending
on what the input value is. These functions are known as piece-wise defined functions.

10 Problems - 3

11 The Difference Quotient
The difference quotient of a function f (x) is defined as follows: This is used in calculus when finding derivatives so it is worthwhile to become familiar with it in precalculus.

12 As we take Q closer to P, the accuracy with which the slope of the secant line approximates the slope of the tangent line increases.

13 Find the difference quotients for the following functions:

14 The difference quotient for

15 The difference quotient for

16 The difference quotient for

17 Problems - 4 Find the difference quotient for the following function (click on mouse to see answer).

18 Problems - 5 Find the difference quotient for the following function (click on mouse to see answer).

19 Practice Textbook P.69 Q Answers

20 Problems - 6 Find the difference quotient for the following function (click on mouse to see answer).

21 Average Rate of Change A special kind of difference quotient is the average rate of change. We can use the function values at two different points, a and b to find the average rate of change of a function over the interval [ a, b ]. This is given by: Notice, this is equal to the slope of the line connecting the two points ( a, f(a) ) and ( b, f(b) ). The average rate of change for the function f (x) = x2 over the interval [2,4] is:

22 Find the average rate of change for each of the following functions over the given intervals (click on mouse to see answer).

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