Introduction to Functions and Graphs Algebra
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Oct 05, 2024
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About This Presentation
Introduction to functions
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College Algebra with Modeling and Visualization Sixth Edition Chapter 1 Introduction to Functions and Graphs Copyright © 2018, 2014, 2010 Pearson Education, Inc. All Rights Reserved
1.4 Types of Functions and Their Rates of Change Identify linear functions Interpret slope as a rate of change Identify nonlinear functions Identify where a function is increasing or decreasing Use and interpret average rate of change Calculate the difference quotient
Linear Function A function f represented by f ( x ) = mx + b , where m and b are constants, is a linear function .
Recognizing Linear Functions A car initially located 30 miles north of the Texas border, traveling north at 60 miles per hour is represented by the function f ( x ) = 60 x + 30 and has the graph:
Rate of Change of a Linear Function (1 of 2) In a linear function f , each time x increases by one unit, the value of f ( x ) always changes by an amount equal to m . That is, a linear function has a constant rate of change . The constant rate of change m is equal to the slope of the graph of f .
Constant Function A function f represented by f ( x ) = b , where b is a constant (fixed number), is a constant function .
Rate of Change of a Linear Function (2 of 2) In our car example: Elapsed time (hours) 1 2 3 4 5 Distance (miles) 30 90 150 210 270 330 Throughout the table, as x increases by 1 unit, y increases by 60 units. That is, the rate of change or the slope is 60 .
Slope of Line as a Rate of Change The slope m of the line passing through the points ( x 1 , y 1 ) and ( x 2 , y 2 ) is
Positive Slope If the slope of a line is positive, the line rises from left to right . Slope 2 indicates that the line rises 2 units for every unit increase in x .
Negative Slope If the slope of a line is negative, the line falls from left to right .
Slope of 0 Slope 0 indicates that the line is horizontal.
Slope is Undefined When x 1 = x 2 , the line is vertical and the slope is undefined.
Example: Calculating the slope of a line given two points (1 of 2) Find the slope of the line passing through the points ( − 2 , 3 ) and (1, − 2 ). Plot these points together with the line. Explain what the slope indicates about the line . Solution
Example: Calculating the slope of a line given two points (2 of 2)
Zero of a Function Let ƒ be any function. Then any number c for which ƒ ( c ) = 0 is called a zero of the function ƒ .
Four Representations of a Linear Function f
Nonlinear Functions If a function is not linear, then it is called a nonlinear function . The following are characteristics of a nonlinear function : Graph is not a (straight) line. Does not have a constant rate of change. Cannot be written as ƒ ( x ) = mx + b . Can have any number of zeros .
Graphs of Nonlinear Functions (1 of 2) There are many nonlinear functions.
Graphs of Nonlinear Functions (2 of 2) Here are two other common nonlinear functions:
Rock Music’s Share of All U.S. Sales (Percentage)
Increasing and Decreasing Functions (1 of 2)
Increasing and Decreasing Functions (2 of 2) Suppose that a function f is defined over an interval I on the number line. If x 1 and x 2 are in I , a. f increases on I if, whenever x 1 < x 2 , f ( x 1 ) < f ( x 2 ); b. f decreases on I if, whenever x 1 < x 2 , f ( x 1 ) > f ( x 2 ).
Example: Determining where a function is increasing or decreasing
Average Rate of Change (1 of 2) Graphs of nonlinear functions are not straight lines, so we speak of average rate of change. The line L is referred to as the secant line , and the slope of L represents the average rate of change of f from x 1 to x 2 . Different values of x 1 and x 2 usually yield a different secant line and a different average rate of change .
Average Rate of Change (2 of 2) Let ( x 1 , y 1 ) and ( x 2 , y 2 ) be distinct points on the graph of a function f . The average rate of change of f from x 1 to x 2 is That is, the average rate of change from x 1 to x 2 equals the slope of the line passing through ( x 1 , y 1 ) and ( x 2 , y 2 ).
Example: Finding an average rate of change (1 of 2) Let f ( x ) = 2 x ². Find the average rate of change from x = 1 to x = 3. Solution Calculate f (1) and f (3) f(1) = 2(1 )² = 2 f(3) = 2(3 )² = 18 The average rate of change equals the slope of the line passing through the points (1, 2) and (3, 18).
Example: Finding an average rate of change (2 of 2) (1, 2) and (3, 18) The average rate of change from x = 1 to x = 3 is 8 .
Difference Quotient (1 of 2)
Difference Quotient (2 of 2) The difference quotient of a function f is an expression of the form
Example : Finding a difference quotient (1 of 2) Let f ( x ) = 3 x − 2. a. Find f ( x + h ) b. Find the difference quotient of f and simplify the result. Solution a . To find f ( x + h ), substitute ( x + h ) for x in the expression 3 x – 2.
Example : Finding a difference quotient (2 of 2) b. The difference quotient can be calculated as follows:
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