mcgraw-hill ryerson pre-calculus 11 chapter 9 linear and
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![Page 1: McGraw-Hill Ryerson Pre-Calculus 11 Chapter 9 Linear and](https://reader030.vdocuments.us/reader030/viewer/2022012012/61582cddf518de135925b1f8/html5/thumbnails/1.jpg)
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McGraw-Hill Ryerson
Pre-Calculus 11
Chapter 9
Linear and Quadratic Inequalities
Section 9.1
Click here to begin the lesson
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Linear InequalitiesThe graph of the linear equation x – y = –2 is referred to as a boundary
line. This line divides the Cartesian plane into two regions:
For one region, the condition x – y < –2 is true.
For the other region, the condition x – y > –2 is true.
Chapter
9
Use the pen to label the conditions
below to the corresponding parts of
the graph on the Cartesian plane.
x – y < –2
x – y > –2
x – y = –2
x – y < –2
x – y > –2
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Linear Inequalities
Click here for the solution.
The ordered pair (x, y) is a solution to a linear inequality if its coordinates
satisfy the condition expressed by the inequality.
Chapter
9Which of the following ordered pairs (x, y)
are solutions of the linear inequality
x – 4y < 4?
Click on the ordered pairs to check your
answer.
Use the pen tool to graph the boundary line
and plot the points on the graph. Then,
shade the region that represents the
inequality.
32,
2
32,
2
3,2
2
0,0
0,4 0, 4
4,0 4,04 4x y
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Graphing Linear InequalitiesChapter
9Match the inequality to the appropriate graph of a boundary line below.
Complete the graph of each inequality by shading the correct solution region.
Match Shade
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Click here for the solution.
Chapter
9a)
Graphing a Linear InequalityUse the pen tool to graph the following inequalities. Describe the steps
required to graph the inequality.
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Chapter
9 Match each inequality to its graph.
Then, click on the graph to check the answer.
Graphing a Linear Inequality
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Linear InequalitiesWrite an inequality that represents each graph.
Chapter
91. 2.
(2, 4)
(0, -2)
0
(0, 3)
(2, -1)
0
3 2x y x y 2 3
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Solve an Inequality
Click here for the solution.
Paul is hosting a barbecue and has decided to budget $48 to purchase
meat. Hamburger costs $5 per kilogram and chicken costs $6.50 per
kilogram.
Chapter
9
Let h = kg of hamburger
c = kg of chicken
Write an inequality to represent the number of
kilograms of each that Paul may purchase.
Write the equation of the boundary line
below and draw its graph.
Shade the solution region for the inequality.
Ch
icken
Hamburger
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Click here for the solution.
Chapter
9
1. Can Paul buy 6 kg of hamburger and 4 kg chicken if he wants to stay within his set
budget?
2. How many kilograms of chicken can Paul buy if he decides not to buy any hamburger?
3. If Paul buys 3 kg of hamburger, what is the greatest number of kilograms of chicken he
can buy?
Solve an Inequality
Hamburger
Ch
icke
n
h
c
5 6.5 48h c
No
7.38 kg
5.08 kg
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For next class complete
the following:
p. 472, #1 a, #2a, #3 c, e,
#4 a, b, # 9,
p. 473, #17
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The following pages contain solutions for the
previous questions.
Click here to return to the start
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(0, 0)(-4, 0)
(0, 4)
(4, 0)
(0, -4)
Solutions
Go back to the question.
0
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Solutions
• Slope of the line is .
and the y-intercept is the point (0, 1).
• The inequality is less than. Therefore,
the boundary line is a broken line.
• Use a test point (0, 0). The point
makes the inequality true.
• Therefore, shade below the line.
• The x-intercept is the point (–2, 0), the
y-intercept is the point (0, –4).
• The inequality is greater than and equal to.
Therefore, the boundary line is a solid line.
• Use a test point (0, 0). The point makes
the inequality true.
• Therefore, shade above the line.
An example method for graphing an inequality would be:
Go back to the question.
1
3
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Let h = kg of hamburger
c = kg of chicken
Write an inequality to represent the number of
kilograms of each that Paul may purchase.
Graph the boundary line for the inequality.
Hamburger
Solutions
Go back to the question.
Ch
icke
n
c
h
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1. Can Paul buy 6 kg of hamburger and 4 kg chicken if he wants to stay within his set budget?
2. How many kilograms of chicken can Paul buy if he decides not to buy any hamburger?
3. If Paul buys 3 kg of hamburger, what is the greatest whole number of kilograms of chicken he can
buy?
Hamburger
Ch
icke
n (3, 5)
(6, 4)
(0, 7.38)
The point (6, 4) is not within the shaded region. Paul could
not purchase 6 kg of hamburger and 4 kg of chicken.
This is the point (0, 7.38). Buying no hamburger would be
the y-intercept of the graph.
This would be the point (3, 5). Paul could buy 5 kg of
chicken.
Solutions
Go back to the question.
h
c
5 6.5 48h c