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3.6 Model Direct Variation • You will write and graph direct variation equations. • How do you write and graph direct variation equations? You will learn how to answer this question by recognizing situations that represent direct variation and identifying the constant of variation. Warm-Up Exercises Rewrite the equation so y is a function of x. 1. 4x – 2y = –8 ANSWER 2. y = 2x + 4 –9x + 3y = 21 ANSWER y = 3x + 7 Warm-Up Exercises 3. You are traveling by bus. After 4.5 hours, the bus has traveled 234 miles. Use the formula d = rt where d is distance, r is rate, and t is time to find the average rate of speed of the bus. ANSWER 52 mi/h Warm-Up1Exercises EXAMPLE Identify direct variation equations Tell whether the equation represents direct variation. If so, identify the constant of variation. a. 2x – 3y = 0 b. –x + y = 4 Warm-Up1Exercises EXAMPLE Identify direct variation equations SOLUTION To tell whether an equation represents direct variation, try to rewrite the equation in the form y = ax. 2x – 3y = 0 –3y = –2x 2x y= 3 Write original equation. Subtract 2x from each side. Simplify. ANSWER Because the equation 2x – 3y = 0 can be rewritten in the form y = ax, it represents direct variation. The constant of variation is 2 . 3 Warm-Up1Exercises EXAMPLE Identify direct variation equations b. –x + y = 4 y = x+4 Write original equation. Add x to each side. ANSWER Because the equation –x + y = 4 cannot be rewritten in the form y = ax, it does not represent direct variation. Warm-Up Exercises GUIDED PRACTICE for Example 1 Tell whether the equation represents direct variation. If so, identify the constant of variation. 1. –x + y = 1 ANSWER not direct variation Warm-Up Exercises GUIDED PRACTICE for Example 1 Tell whether the equation represents direct variation. If so, identify the constant of variation. 2. 2x + y = 0 ANSWER direct variation; –2 Warm-Up Exercises GUIDED PRACTICE for Example 1 Tell whether the equation represents direct variation. If so, identify the constant of variation. 3. 4x – 5y = 0 ANSWER 4 direct variation; 5 Warm-Up2Exercises EXAMPLE Graph direct variation equations Can the y-intercept Graph the direct variation equation. for the graph of a direct variation 2 a. y = x b. y = –3x equation be a 3 number other than zero? SOLUTION a. Plot a point at the origin. The slope is equal to the constant of variation, or 2 . Find and plot a second 3 point, then draw a line through the points. What is the relationship of slope to the constant of variation? Warm-Up2Exercises EXAMPLE Graph direct variation equations b. Plot a point at the origin. The slope is equal to the constant of variation, or –3. Find and plot a second point, then draw a line through the points. Warm-Up3Exercises EXAMPLE Write and use a direct variation equation The graph of a direct variation equation is shown. a. Write the direct variation equation. b. Find the value of y when x = 30. What can you tell about the SOLUTION Constant of variation from looking at the graph? a. Because y varies directly with x, the equation has the form y = ax. Use the fact that y = 2 when x = –1 to find a. What do you need from a graph to write a direct variation equation? y = ax Write direct variation equation. Substitute. 2 = a (–1) Solve for a. –2 = a Warm-Up3Exercises EXAMPLE Graph direct variation equations ANSWER A direct variation equation that relates x and y is y = –2x. b. When x = 30, y = –2(30) = –60. Warm-Up Exercises GUIDED PRACTICE 4. for Examples 2 and 3 Graph the direct variation equation. y = 2x ANSWER Warm-Up Exercises GUIDED PRACTICE for Examples 2 and 3 5. The graph of a direct variation equation passes through the point (4, 6). Write the direct variation equation and find the value of y when x = 24. ANSWER 3 y = x; 36 2 Warm-Up4Exercises EXAMPLE Solve a multi-step problem SALTWATER AQUARIUM The number s of tablespoons of sea salt needed in a saltwater fish tank varies directly with the number w of gallons of water in the tank. A pet shop owner recommends adding 100 tablespoons of sea salt to a 20 gallon tank. • Write a direct variation equation that relates w and s. • How many tablespoons of salt should be added to a 30 gallon saltwater fish tank? Warm-Up4Exercises EXAMPLE Solve a multi-step problem SOLUTION STEP 1 Write a direct variation equation. Because s varies directly with w, you can use the equation s = aw. Also use the fact that s = 100 when w = 20. s = aw 100 = a(20) 5=a Write direct variation equation. Substitute. Solve for a. ANSWER A direct variation equation that relates w and s is s = 5w. Warm-Up4Exercises EXAMPLE Solve a multi-step problem STEP 2 Find the number of tablespoons of salt that should be added to a 30 gallon saltwater fish tank. Use your direct variation equation from Step 1. s = 5w Write direct variation equation. s = 5(30) Substitute 30 for w. s = 150 Simplify. ANSWER You should add 150 tablespoons of salt to a 30 gallon fish tank. Warm-Up Exercises GUIDED PRACTICE 6. for Example 4 WHAT IF? In Example 4, suppose the fish tank is a 25 gallon tank. How many tablespoon of salt should be added to the tank? ANSWER 125 tbsp Warm-Up5Exercises EXAMPLE Use a direct variation model ONLINE MUSIC The table shows the cost C of downloading s songs at an Internet music site. a. Explain why C varies directly with s. b. Write a direct variation equation that relates s and C. Warm-Up5Exercises EXAMPLE Use a direct variation model SOLUTION a. To explain why C varies directly with s, compare the ratios C for all data pairs (s, C ): s 2.97 4.95 6.93 = = = 0.99. 3 5 7 Because the ratios all equal 0.99, C varies directly with s. b. A direct variation equation is C = 0.99s. Warm-Up EXAMPLE 5Exercises for of Example 5 Find a rate change GUIDED PRACTICE 7. WHAT IF? In Example 5, suppose the website charges a total of $1.99 for the first 5 songs you download and $.99 for each song after the first 5. Is it reasonable to use a direct variation model for this situation? Explain. ANSWER No; the equation that models this situation does not have the form y = ax. Daily Homework Quiz Warm-Up Exercises Tell whether the equation represents direct variation. If so, identify the constant of variation. 1. 5x – 6y = 2 ANSWER 2. no x+y = 0 ANSWER yes, –1 Daily Homework Quiz Warm-Up Exercises 3. The number p of parts a machine produces varies directly with the time t (in minutes) the machine is in operation. The machine produces 84 parts in 14 minutes. Write a direct variation equation that relates t and p. how many parts does the machine produce in 25 minutes? ANSWER p = 6t; 150 parts • You will write and graph direct variation equations. • A direct variation equation is of the form y 5 ax, with a not equal to 0. • The graph of a direct variation equation is a line through the origin with slope a. • Essential Question: How do you write and graph direct variation equations? Use facts in a real-world situation or the coordinates of a point for the values of x and y in the direct variation equation y = ax. Then solve for the constant of variation. To graph a direct variation equation, plot a point at the origin and then use the constant of variation, which is the slope, to plot a second point.