Learn on PengiBig Ideas Math, Course 3Chapter 4: Graphing and Writing Linear Equations

Lesson 3: Graphing Proportional Relationships

In this Grade 8 lesson from Big Ideas Math Course 3, students learn to identify proportional relationships, graph the direct variation equation y = mx, and interpret the slope m as the constant of proportionality and unit rate. Using real-world contexts like internet data costs and planetary weights, students practice writing direct variation equations and connecting the slope of a line through the origin to real-life rates. The lesson aligns with Common Core standards 8.EE.5 and 8.EE.6.

Section 1

Proportional Relationship

Property

Two quantities xx and yy are in a proportional relationship if the quotient y/xy/x is a fixed number rr whenever xx is not zero.
This may also be written y=rxy = rx or x=y/rx = y/r (when rr is nonzero).
In a proportional relationship, rr is the unit rate of yy with respect to xx.
This same unit rate, rr, is also called the constant of proportionality.

Examples

  • The cost of apples is proportional to their weight. If they cost 2 dollars per pound (r=2r=2), then 5 pounds will cost y=2×5=10y = 2 \times 5 = 10 dollars.
  • The distance a car travels at a constant speed is proportional to time. At 60 mph (r=60r=60), in 2.5 hours you travel y=60×2.5=150y = 60 \times 2.5 = 150 miles.
  • The number of pages read is proportional to the time spent reading. If you read 25 pages per hour (r=25r=25), after 3 hours you will have read y=25×3=75y = 25 \times 3 = 75 pages.

Explanation

This means two quantities are perfectly in sync. If you double one, the other doubles too. Their relationship is defined by a constant multiplier, called the constant of proportionality, which is just another name for the unit rate.

Section 2

Writing and Graphing Proportional Equations

Property

To write the equation for a proportional relationship from a point (x,y)(x, y), find the constant of proportionality m=yxm = \frac{y}{x} and write the equation as y=mxy = mx. To graph the equation, plot the origin (0,0)(0, 0) and use the slope m=riserunm = \frac{\text{rise}}{\text{run}} to find a second point.

Examples

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Chapter 4: Graphing and Writing Linear Equations

  1. Lesson 1

    Lesson 1: Graphing Linear Equations

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  2. Lesson 2

    Lesson 2: Slope of a Line

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  3. Lesson 3Current

    Lesson 3: Graphing Proportional Relationships

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  4. Lesson 4

    Lesson 4: Graphing Linear Equations in Slope-Intercept Form

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  5. Lesson 5

    Lesson 5: Graphing Linear Equations in Standard Form

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  6. Lesson 6

    Lesson 6: Writing Equations in Slope-Intercept Form

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  7. Lesson 7

    Lesson 7: Writing Equations in Point-Slope Form

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Lesson overview

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Section 1

Proportional Relationship

Property

Two quantities xx and yy are in a proportional relationship if the quotient y/xy/x is a fixed number rr whenever xx is not zero.
This may also be written y=rxy = rx or x=y/rx = y/r (when rr is nonzero).
In a proportional relationship, rr is the unit rate of yy with respect to xx.
This same unit rate, rr, is also called the constant of proportionality.

Examples

  • The cost of apples is proportional to their weight. If they cost 2 dollars per pound (r=2r=2), then 5 pounds will cost y=2×5=10y = 2 \times 5 = 10 dollars.
  • The distance a car travels at a constant speed is proportional to time. At 60 mph (r=60r=60), in 2.5 hours you travel y=60×2.5=150y = 60 \times 2.5 = 150 miles.
  • The number of pages read is proportional to the time spent reading. If you read 25 pages per hour (r=25r=25), after 3 hours you will have read y=25×3=75y = 25 \times 3 = 75 pages.

Explanation

This means two quantities are perfectly in sync. If you double one, the other doubles too. Their relationship is defined by a constant multiplier, called the constant of proportionality, which is just another name for the unit rate.

Section 2

Writing and Graphing Proportional Equations

Property

To write the equation for a proportional relationship from a point (x,y)(x, y), find the constant of proportionality m=yxm = \frac{y}{x} and write the equation as y=mxy = mx. To graph the equation, plot the origin (0,0)(0, 0) and use the slope m=riserunm = \frac{\text{rise}}{\text{run}} to find a second point.

Examples

Book overview

Jump across lessons in the current chapter without opening the full course modal.

Continue this chapter

Chapter 4: Graphing and Writing Linear Equations

  1. Lesson 1

    Lesson 1: Graphing Linear Equations

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  2. Lesson 2

    Lesson 2: Slope of a Line

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  3. Lesson 3Current

    Lesson 3: Graphing Proportional Relationships

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  4. Lesson 4

    Lesson 4: Graphing Linear Equations in Slope-Intercept Form

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  5. Lesson 5

    Lesson 5: Graphing Linear Equations in Standard Form

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  6. Lesson 6

    Lesson 6: Writing Equations in Slope-Intercept Form

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  7. Lesson 7

    Lesson 7: Writing Equations in Point-Slope Form

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