Proportional and Non-Proportional Relationships

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Presentation transcript:

Proportional and Non-Proportional Relationships Lesson 3-6 Splash Screen

LEARNING GOAL You recognized arithmetic sequences and related them to linear functions. Write an equation for a proportional relationship. Write a relationship for a nonproportional relationship. Then/Now

Concept

Proportional Relationships A. ENERGY The table shows the number of miles driven for each hour of driving. Graph the data. What can you deduce from the pattern about the relationship between the number of hours of driving h and the numbers of miles driven m? Answer: There is a linear relationship between hours of driving and the number of miles driven. Example 1 A

B. Write an equation to describe this relationship. Proportional Relationships B. Write an equation to describe this relationship. Look at the relationship between the domain and the range to find a pattern that can be described as an equation. Example 1 B

Proportional Relationships Since this is a linear relationship, the ratio of the range values to the domain values is constant. The difference of the values for h is 1, and the difference of the values for m is 50. This suggests that m = 50h. Check to see if this equation is correct by substituting values of h into the equation. Example 1 B

The equation is correct. Proportional Relationships Check If h = 1, then m = 50(1) or 50. If h = 2, then m = 50(2) or 100. If h = 3, then m = 50(3) or 150. If h = 4, then m = 50(4) or 200. The equation is correct. Answer: m = 50h Example 1 B

Proportional Relationships C. Use this equation to predict the number of miles driven in 8 hours of driving. m = 50h Original equation m = 50(8) Replace h with 8. m = 400 Simplify. Answer: 400 miles Example 1 B

A. Graph the data in the table A. Graph the data in the table. What conclusion can you make about the relationship between the number of miles walked and the time spent walking? There is a linear relationship between the number of miles walked and time spent walking. There is a nonlinear relationship between the number of miles walked and time spent walking. There is not enough information in the table to determine a relationship. There is an inverse relationship between miles walked and time spent walking. Example 1 CYP A

B. Write an equation to describe the relationship between hours and miles walked. A. m = 3h B. m = 2h C. m = 1.5h D. m = 1h Example 1 CYP B

C. Use the equation from part B to predict the number of miles driven in 8 hours. A. 12 miles B. 12.5 miles C. 14 miles D. 16 miles Example 1 CYP C

Write an equation in function notation for the graph. Nonproportional Relationships Write an equation in function notation for the graph. Understand You are asked to write an equation of the relation that is graphed in function notation. Plan Find the difference between the x-values and the difference between the y-values. Example 2

Solve Select points from the graph and place them in a table Nonproportional Relationships Solve Select points from the graph and place them in a table The difference in the x-values is 1, and the difference in the y-values is 3. The difference in y-values is three times the difference of the x-values. This suggests that y = 3x. Check this equation. Example 2

Nonproportional Relationships If x = 1, then y = 3(1) or 3. But the y-value for x = 1 is 1. This is a difference of –2. Try some other values in the domain to see if the same difference occurs. y is always 2 less than 3x. Example 2

Nonproportional Relationships This pattern suggests that 2 should be subtracted from one side of the equation in order to correctly describe the relation. Check y = 3x – 2. If x = 2, then y = 3(2) – 2 or 4. If x = 3, then y = 3(3) – 2 or 7. Answer: y = 3x – 2 correctly describes this relation. Since the relation is also a function, we can write the equation in function notation as f(x) = 3x – 2. Check Compare the ordered pairs from the table to the graph. The points correspond.  Example 2

Write an equation in function notation for the relation that is graphed. A. f(x) = x + 2 B. f(x) = 2x C. f(x) = 2x + 2 D. f(x) = 2x + 1 Example 2 CYP

Homework page 200 #4 – 14 all End of the Lesson