Slide 4 - 1 Copyright © 2009 Pearson Education, Inc. Active Learning Lecture Slides For use with Classroom Response Systems © 2009 Pearson Education, Inc.

Slide 4 - 1Copyright © 2009 Pearson Education, Inc.

Active Learning Lecture SlidesFor use with Classroom Response Systems

© 2009 Pearson Education, Inc.All rights reserved.

Chapter 4Linear

Functions, Their

Properties and Linear Models


Determine the slope and y-intercept of the

a.

b.

c.

d.

f x 8

7x 4.function

m 8

7; b 4

m 7

8; b 4

m 4; b 8

7

m 8

7; b 4


Determine the slope and y-intercept of the

a.

b.

c.

d.

f x 8

7x 4.function

m 8

7; b 4

m 7

8; b 4

m 4; b 8

7

m 8

7; b 4


Graph

a. b.

c. d.

h x 1

2x 3.


Graph

a. b.

c. d.

h x 1

2x 3.


Determine the average rate of change for the

a.

b.

c.

d.

f x 2

5x 3.function

3

3

2

5

2

5


Determine the average rate of change for the

a.

b.

c.

d.

f x 2

5x 3.function

3

3

2

5

2

5


Graph

a. decreasing b. increasing

c. increasing d. increasing

h x 3

4x 3. State whether it is

increasing, decreasing, or constant.


Graph

a. decreasing b. increasing

c. increasing d. increasing

h x 3

4x 3. State whether it is

increasing, decreasing, or constant.


To convert a temperature from degrees Celsius to degrees Fahrenheit, you multiply the temperature in degrees Celsius by 1.8 and then add 32 to the result. Express F as a linear function of C.

a.

b.

c.

d. F c c 32

1.8

F c 33.8c

F c 1.8c 32

F c 1.8 32c


To convert a temperature from degrees Celsius to degrees Fahrenheit, you multiply the temperature in degrees Celsius by 1.8 and then add 32 to the result. Express F as a linear function of C.

a.

b.

c.

d. F c c 32

1.8

F c 33.8c

F c 1.8c 32

F c 1.8 32c


The cost of a taxi ride is computed as follows: there is a fixed charge of $2.80 as soon as you get in the taxi, to which a charge of $2.45 per mile is added. Find the equation of the cost, C(x), an x mile taxi ride.

a.

b.

c.

d. C x 3.75x

C x 5.25x

C x 2.45 2.80x

C x 2.80 2.45x


The cost of a taxi ride is computed as follows: there is a fixed charge of $2.80 as soon as you get in the taxi, to which a charge of $2.45 per mile is added. Find the equation of the cost, C(x), an x mile taxi ride.

a.

b.

c.

d. C x 3.75x

C x 5.25x

C x 2.45 2.80x

C x 2.80 2.45x


Find the equation of the line containing the points (2, 1.2) and (9, 4.3) and graph the line on a scatter diagram of the given data.

a. b.

c. d.y 0.44x 0.31

y 0.49x 0.31 y 0.37x 0.47

y 0.44x 0.37


Find the equation of the line containing the points (2, 1.2) and (9, 4.3) and graph the line on a scatter diagram of the given data.

a. b.

c. d.y 0.44x 0.31

y 0.49x 0.31 y 0.37x 0.47

y 0.44x 0.37


The table gives the times spent watching TV and the grades of several students. Plot and interpret the appropriate scatter diagram.

a. More hours watching TV may reduce grades

Weekly TV (h) 6 12 18 24 30 36

Grade (%) 92.5 87.5 72.5 77.5 62.5 57.5

b. More hours watching TV may increase grades

c. More hours watching TV may reduce grades

d. More hours watching TV may increase grades


The table gives the times spent watching TV and the grades of several students. Plot and interpret the appropriate scatter diagram.

a. More hours watching TV may reduce grades

Weekly TV (h) 6 12 18 24 30 36

Grade (%) 92.5 87.5 72.5 77.5 62.5 57.5

b. More hours watching TV may increase grades

c. More hours watching TV may reduce grades

d. More hours watching TV may increase grades


Determine if the type of relation is linear, nonlinear, or none.

a. Linear

b. Nonlinear

c. None


Determine if the type of relation is linear, nonlinear, or none.

a. Linear

b. Nonlinear

c. None


Identify the scatter diagram of the relation that appears linear.a. b.

c. d.


Identify the scatter diagram of the relation that appears linear.a. b.

c. d.


Use a graphing utility to find the equation of the line of best fit. Round to two decimal places, if necessary.

a.

b.

c.

d. y 0.85x 2.79

y 0.80x 3.79

y 0.95x 2.79

y 0.90x 3.79

x 6 8 20 28 36

y 2 4 13 20 30


Use a graphing utility to find the equation of the line of best fit. Round to two decimal places, if necessary.

a.

b.

c.

d. y 0.85x 2.79

y 0.80x 3.79

y 0.95x 2.79

y 0.90x 3.79

x 6 8 20 28 36

y 2 4 13 20 30


Match the graph to one of the listed functions.

a.

b.

c.

d. y x2 10x

y x2 10x

y x2 10x

y x2 10x


Match the graph to one of the listed functions.

a.

b.

c.

d. y x2 10x

y x2 10x

y x2 10x

y x2 10x


Use transformations of the graph of y = x2 to graph f (x) = 3x2 – 6.

a. b.

c. d.


Use transformations of the graph of y = x2 to graph f (x) = 3x2 – 6.

a. b.

c. d.


Find the vertex and axis of symmetry of the graph of the function

a.

b.

c.

d.

f x 3x2 18x.

3,0 ; x 3

3,27 ; x 3

3,27 ; x 3

3,0 ; x 3


Find the vertex and axis of symmetry of the graph of the function

a.

b.

c.

d.

f x 3x2 18x.

3,0 ; x 3

3,27 ; x 3

3,27 ; x 3

3,0 ; x 3


Graph the function f (x) = –x2 – 6x – 5 using its vertex, axis of symmetry, and intercepts.

a. b.

c. d.


Graph the function f (x) = –x2 – 6x – 5 using its vertex, axis of symmetry, and intercepts.

a. b.

c. d.


Find the domain and range of f (x) = x2 – 4x + 3.

a. Domain: all real numbers

Range: {y | y ≥ –1}

b. Domain: {x | x ≥ –2}

Range: {y | y ≥ –1}

c. Domain: all real numbers

Range: {y | y ≤ 1}

d. Domain: all real numbers

Range: all real numbers


Find the domain and range of f (x) = x2 – 4x + 3.

a. Domain: all real numbers

Range: {y | y ≥ –1}

b. Domain: {x | x ≥ –2}

Range: {y | y ≥ –1}

c. Domain: all real numbers

Range: {y | y ≤ 1}

d. Domain: all real numbers

Range: all real numbers


Determine where the function f (x) = –x2 – 2x + 8 is increasing and decreasing.

a. Increasing on (–1, ∞)Decreasing on (–∞, –1)

b. Increasing on (–∞, –1)Decreasing on (–1, ∞)

c. Increasing on (–∞, 9)Decreasing on (9, ∞)

d. Increasing on (–9, ∞)Decreasing on (–∞, 9)


Determine where the function f (x) = –x2 – 2x + 8 is increasing and decreasing.

a. Increasing on (–1, ∞)Decreasing on (–∞, –1)

b. Increasing on (–∞, –1)Decreasing on (–1, ∞)

c. Increasing on (–∞, 9)Decreasing on (9, ∞)

d. Increasing on (–9, ∞)Decreasing on (–∞, 9)


Determine the maximum or minimum value of the quadratic function f (x) = 2x2 – 2x + 9 .

a. Minimum value is

b. Maximum value is

c. Minimum value is

d. Maximum value is

19

2

19

21

21

2


Determine the maximum or minimum value of the quadratic function f (x) = 2x2 – 2x + 9 .

a. Minimum value is

b. Maximum value is

c. Minimum value is

d. Maximum value is

19

2

19

21

21

2


The owner of a video store has determined that the profits P of the store are approximately given by P (x) = –x2 + 50x + 53. Where x is the number of videos rented daily. Find the maximum profit to the nearest dollar.

a. $678

b. $625

c. $1303

d. $1250


The owner of a video store has determined that the profits P of the store are approximately given by P (x) = –x2 + 50x + 53. Where x is the number of videos rented daily. Find the maximum profit to the nearest dollar.

a. $678

b. $625

c. $1303

d. $1250


Alan is building a garden shaped like a rectangle with a semicircle attached to one short side. If he has 30 feet of fencing to go around it, what dimensions will give him maximum area?

a. L: 10.8 ft;

b. L: 8.4 ft;

c. L: 8.1 ft;

d. L: 4.2 ft;

W :60

48.4 ft

W :30

44.2 ft

W :60

85.4 ft

W :60

48.4 ft


Alan is building a garden shaped like a rectangle with a semicircle attached to one short side. If he has 30 feet of fencing to go around it, what dimensions will give him maximum area?

a. L: 10.8 ft;

b. L: 8.4 ft;

c. L: 8.1 ft;

d. L: 4.2 ft;

W :60

48.4 ft

W :30

44.2 ft

W :60

85.4 ft

W :60

48.4 ft


You have 96 feet of fencing to enclose a rectangular plot that borders on a river. If you do not fence the side along the river, find the length and width of the plot that will maximize the area.

a. length: 72 ft, width: 24 ft

b. length: 48 ft, width: 24 ft

c. length: 48 ft, width: 48 ft

d. length: 24 ft, width: 24 ft


You have 96 feet of fencing to enclose a rectangular plot that borders on a river. If you do not fence the side along the river, find the length and width of the plot that will maximize the area.

a. length: 72 ft, width: 24 ft

b. length: 48 ft, width: 24 ft

c. length: 48 ft, width: 48 ft

d. length: 24 ft, width: 24 ft


An engineer collects data showing the speed s of a car model and its average miles per gallon M. Use a graphing calculator to plot the scatter diagram and find the quadratic function of best fit.

a.

b.

c.

d.

M s 0.0063x2 0.720x 5.143

M s 0.631x2 0.720x 5.143

M s 6.309x2 0.720x 5.143

M s0.063x2 0.720x 5.143


An engineer collects data showing the speed s of a car model and its average miles per gallon M. Use a graphing calculator to plot the scatter diagram and find the quadratic function of best fit.

a.

b.

c.

d.

M s 0.0063x2 0.720x 5.143

M s 0.631x2 0.720x 5.143

M s 6.309x2 0.720x 5.143

M s0.063x2 0.720x 5.143


Use the figure to solve the inequality.

a.

b.

c.

d.

x x 1 or x 2 ; ° , 1 or 2,°

x 1 x 2 ; 1,2

x x 1 or x 2 ; ° , 1 or 2,°

x 1x 2 ; 1,2


Use the figure to solve the inequality.

a.

b.

c.

d.

x x 1 or x 2 ; ° , 1 or 2,°

x 1 x 2 ; 1,2

x x 1 or x 2 ; ° , 1 or 2,°

x 1x 2 ; 1,2


Solve the inequality.

a.

b.

c.

d.

7 ; , 7x x

7 or 1 ; , 7 or 1,x x x

1 ; 1,x x

x 7 x 1 ; 7,1

x2 6x 7 0


Solve the inequality.

a.

b.

c.

d.

7 ; , 7x x

7 or 1 ; , 7 or 1,x x x

1 ; 1,x x

x 7 x 1 ; 7,1

x2 6x 7 0


The revenue achieved by selling x graphing calculators is figured to be x(38 – 0.2x) dollars. The cost of each calculator is $22. How many graphing calculators must be sold to make a profit (revenue – cost) of at least $295.80?

a.

b.

c.

d.

x 30 x 28 ; 30,28

x 9 x 31 ; 9,31

x 31 x 49 ; 31,49

x 29 x 51 ; 29,51


The revenue achieved by selling x graphing calculators is figured to be x(38 – 0.2x) dollars. The cost of each calculator is $22. How many graphing calculators must be sold to make a profit (revenue – cost) of at least $295.80?

a.

b.

c.

d.

x 30 x 28 ; 30,28

x 9 x 31 ; 9,31

x 31 x 49 ; 31,49

x 29 x 51 ; 29,51

Slide 4 - 1 Copyright © 2009 Pearson Education, Inc. Active Learning Lecture Slides For use with Classroom Response Systems © 2009 Pearson Education, Inc.

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