Direct Variation

12-5 Direct Variation
Course 3
Warm UpWarm Up
Problem of the DayProblem of the Day
Lesson PresentationLesson Presentation

Warm Up
Use the point-slope form of each
equation to identify a point the line
passes through and the slope of the
line.
1. y – 3 = – (x – 9)
2. y + 2 = (x – 5)
3. y – 9 = –2(x + 4)
4. y – 5 = – (x + 7)
(–4, 9), –2
Course 3
1
7
2
3
1
4
(9, 3), –
1
7
(5, –2),
2
3
(–7, 5), – 1
4

Problem of the Day
Where do the lines defined by the
equations y = –5x + 20 and y = 5x – 20
intersect?
(4, 0)
Course 3

Learn to recognize direct variation by
graphing tables of data and checking for
constant ratios.
Course 3

Vocabulary
direct variation
constant of proportionality
Insert Lesson Title Here
Course 3

Course 3

Course 3
The graph of a direct-variation equation is always
linear and always contains the point (0, 0). The
variables x and y either increase together or
decrease together.
Helpful Hint

Determine whether the data set shows direct
variation.
Additional Example 1A: Determining Whether a Data
Set Varies Directly
Course 3

Make a graph that shows the relationship between
Adam’s age and his length. The graph is not linear.
Additional Example 1A Continued
Course 3

You can also compare ratios to see if a direct
variation occurs.
22
3
27
12=
?
81
264
81 ≠ 264
The ratios are not proportional.
The relationship of the data is not a direct
variation.
Additional Example 1A Continued
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variation.
Additional Example 1B: Determining Whether a Data
Set Varies Directly
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the number of minutes and the distance the train
travels.
Additional Example 1B Continued
Plot the points.
The points lie in
a straight line.
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(0, 0) is included.

variation occurs.
The ratios are proportional. The relationship is
a direct variation.
25
10
50
20
75
30
100
40
= = =
Compare ratios.
Additional Example 1B Continued
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variation.
Check It Out: Example 1A
Kyle's Basketball Shots
Distance (ft) 20 30 40
Number of Baskets 5 3 0
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number of baskets and distance. The graph is not
linear.
Check It Out: Example 1A Continued
NumberofBaskets
Distance (ft)
2
3
4
20 30 40
1
5
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variation occurs.
Check It Out: Example 1A Continued
5
20
3
30=
?
60
150
150 ≠ 60.
The ratios are not proportional.
The relationship of the data is not a direct
variation.
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variation.
Check It Out: Example 1B
Ounces in a Cup
Ounces (oz) 8 16 24 32
Cup (c) 1 2 3 4
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ounces and cups.
Check It Out: Example 1B Continued
NumberofCups
Number of Ounces
2
3
4
8 16 24
1
32
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Plot the points.
The points lie in
a straight line.
(0, 0) is included.

variation occurs.
Check It Out: Example 1B Continued
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The ratios are proportional. The relationship is
a direct variation.
Compare ratios.
=
1
8
= =
2
16
3
24
4
32

Find each equation of direct variation, given
that y varies directly with x.
y is 54 when x is 6
Additional Example 2A: Finding Equations of Direct
Variation
y = kx
54 = k 
6
9 = k
y = 9x
y varies directly with x.
Substitute for x and y.
Solve for k.
Substitute 9 for k in the original
equation.
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x is 12 when y is 15
Additional Example 2B: Finding Equations of Direct
Variation
y = kx
15 = k 
12
Solve for k.= k5
4
Substitute for k in the original
equation.
5
4y = x
5
4
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y is 24 when x is 4
Check It Out: Example 2A
y = kx
24 = k 
4
6 = k
y = 6x
Solve for k.
Substitute 6 for k in the original
equation.
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x is 28 when y is 14
Check It Out: Example 2B
y = kx
14 = k 
28
Solve for k.= k1
2
Substitute for k in the original
equation.
1
2y = x
1
2
Course 3

Mrs. Perez has $4000 in a CD and $4000 in a
money market account. The amount of interest
she has earned since the beginning of the year
is organized in the following table. Determine
whether there is a direct variation between
either of the data sets and time. If so, find the
equation of direct variation.
Additional Example 3: Money Application
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Additional Example 3 Continued
interest from CD and time
interest from CD
time
=
17
1
= = 17
interest from CD
time
34
2
The second and third pairs of data result in a common
ratio. In fact, all of the nonzero interest from CD to
time ratios are equivalent to 17.
The variables are related by a constant ratio of 17 to
1, and (0, 0) is included. The equation of direct
variation is y = 17x, where x is the time, y is the
interest from the CD, and 17 is the constant of
proportionality.
= = = 17
interest from CD
time
= =
17
1
34
2
51
3
68
4
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Additional Example 3 Continued
interest from money market and time
interest from money market
time
= = 1919
1
time
= =18.537
2
19 ≠ 18.5
If any of the ratios are not equal, then there
is no direct variation. It is not necessary to
compute additional ratios or to determine
whether (0, 0) is included.
Course 3

Mr. Ortega has $2000 in a CD and $2000 in a
money market account. The amount of interest he
has earned since the beginning of the year is
organized in the following table. Determine
whether there is a direct variation between either
of the data sets and time. If so, find the equation
of direct variation.
Check It Out: Example 3
Course 3
Interest Interest from
Time (mo) from CD ($) Money Market ($)
0 0 0
1 12 15
2 30 40
3 40 45
4 50 50

Check It Out: Example 3 Continued
interest from CD
time
=
12
1
interest from CD
time
= = 15
30
2
The second and third pairs of data do not result in a
common ratio.
A. interest from CD and time
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Check It Out: Example 3 Continued
B. interest from money market and time
time
= = 1515
1
time
= =2040
2
15 ≠ 20
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Lesson Quiz: Part I
1. y is 78 when x is 3.
2. x is 45 when y is 5.
3. y is 6 when x is 5.
y = 26x
y = x1
9
y = x6
5
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Lesson Quiz: Part II
4. The table shows the amount of money Bob
makes for different amounts of time he works.
Determine whether there is a direct variation
between the two sets of data. If so, find the
equation of direct variation.
direct variation; y = 12x
Course 3

Direct Variation

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