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Direct Variation Section 5-2. Goals Goal To write and graph an equation of a direct variation. Rubric Level 1 – Know the goals. Level 2 – Fully understand.

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Presentation on theme: "Direct Variation Section 5-2. Goals Goal To write and graph an equation of a direct variation. Rubric Level 1 – Know the goals. Level 2 – Fully understand."— Presentation transcript:

1 Direct Variation Section 5-2

2 Goals Goal To write and graph an equation of a direct variation. Rubric Level 1 – Know the goals. Level 2 – Fully understand the goals. Level 3 – Use the goals to solve simple problems. Level 4 – Use the goals to solve more advanced problems. Level 5 – Adapts and applies the goals to different and more complex problems.

3 Vocabulary Direct Variation Constant of variation for a direct variation

4 A recipe for paella calls for 1 cup of rice to make 5 servings. In other words, a chef needs 1 cup of rice for every 5 servings. The equation y = 5x describes this relationship. In this relationship, the number of servings varies directly with the number of cups of rice. Direct Variation

5 Definition Direct Variation – a special type of linear relationship that can represented by a function in the form y = kx, where k ≠ 0. Constant of Variation – is k, the coefficient of x, in the function y = kx. –By dividing each side of y = kx by x, you can see that the ratio of the variables is constant: y/x = k.

6 Direct Variation

7

8 Determining Direct Variation To determine whether an equation represents a direct variation; 1)Given an equation.  Solve for y.  If you can write the equation in the form y = kx, where k ≠ 0, then it is a direct variation. 2)Given a table of values.  Find y/x for each ordered pair.  If the ratio y/x is constant for all ordered pairs, then it is a direct variation. 3)Given a graph.  The graph is a line and passes through the origin, then it is a direct variation.  The slope of the line is k.

9 Tell whether the equation represents a direct variation. If so, identify the constant of variation. y = 3x This equation represents a direct variation because it is in the form of y = kx. The constant of variation is 3. Example: Determine Direct Variation from an Equation

10 3x + y = 8 Solve the equation for y. Since 3x is added to y, subtract 3x from both sides. –3x y = –3x + 8 This equation is not a direct variation because it cannot be written in the form y = kx. Tell whether the equation represents a direct variation. If so, identify the constant of variation. Example: Determine Direct Variation from an Equation

11 –4x + 3y = 0 Solve the equation for y. Since –4x is added to 3y, add 4x to both sides. +4x +4x 3y = 4x This equation represents a direct variation because it is in the form of y = kx. The constant of variation is. Since y is multiplied by 3, divide both sides by 3. Tell whether the equation represents a direct variation. If so, identify the constant of variation. Example: Determine Direct Variation from an Equation

12 3y = 4x + 1 This equation is not a direct variation because it is not written in the form y = kx. Tell whether the equation represents a direct variation. If so, identify the constant of variation. Your Turn:

13 3x = –4y Solve the equation for y. –4y = 3x Since y is multiplied by –4, divide both sides by –4. This equation represents a direct variation because it is in the form of y = kx. The constant of variation is. Tell whether the equation represents a direct variation. If so, identify the constant of variation. Your Turn:

14 y + 3x = 0 Solve the equation for y. Since 3x is added to y, subtract 3x from both sides. – 3x –3x y = –3x This equation represents a direct variation because it is in the form of y = kx. The constant of variation is –3. Tell whether the equation represents a direct variation. If so, identify the constant of variation. Your Turn:

15 What happens if you solve y = kx for k? y = kx So, in a direct variation, the ratio is equal to the constant of variation. Another way to identify a direct variation is to check whether is the same for each ordered pair (except where x = 0). Divide both sides by x (x ≠ 0). Determine Direct Variation from a Table

16 Tell whether the relationship is a direct variation. Explain. Find for each ordered pair. This is a direct variation because is the same for each ordered pair. Example: Determine Direct Variation from a Table

17 Find for each ordered pair. This is not direct variation because is the not the same for all ordered pairs. Tell whether the relationship is a direct variation. Explain. … Example: Determine Direct Variation from a Table

18 Tell whether the relationship is a direct variation. Explain. Find for each ordered pair. This is not direct variation because is the not the same for all ordered pairs. Your Turn:

19 Tell whether the relationship is a direct variation. Explain. Your Turn: Find for each ordered pair. This is a direct variation because is the same for each ordered pair.

20 Tell whether the relationship is a direct variation. Explain. Find for each ordered pair. This is not direct variation because is the not the same for all ordered pairs. Your Turn:

21 The value of y varies directly with x, and y = 3, when x = 9. Find y when x = 21. Find the value of k and then write the equation. y = kx Write the equation for a direct variation. 3 = k(9) Substitute 3 for y and 9 for x. Solve for k. Since k is multiplied by 9, divide both sides by 9. The equation is y = x. When x = 21, y = (21) = 7. Example: Writing a Direct Variation Equation

22 The value of y varies directly with x, and y = 4.5 when x = 0.5. Find y when x = 10. Find the value of k and then write the equation. y = kx Write the equation for a direct variation. 4.5 = k(0.5) Substitute 4.5 for y and 0.5 for x. Solve for k. Since k is multiplied by 0.5, divide both sides by 0.5. The equation is y = 9x. When x = 10, y = 9(10) = 90. 9 = k Your Turn:

23 A group of people are tubing down a river at an average speed of 2 mi/h. Write a direct variation equation that gives the number of miles y that the people will float in x hours. Then graph. Step 1 Write a direct variation equation. distance = 2 mi/h times hours y =2  x Example: Graphing Direct Variation

24 Step 2 Choose values of x and generate ordered pairs. x y = 2x(x, y) 0 y = 2(0) = 0(0, 0)(0, 0) 1 y = 2(1) = 2(1, 2)(1, 2) 2 y = 2(2) = 4(2, 4)(2, 4) Example: Continued

25 Step 3 Graph the points and connect.

26 The perimeter y of a square varies directly with its side length x. Write a direct variation equation for this relationship. Then graph. Step 1 Write a direct variation equation. perimeter = 4 sides times length y =4 x Your Turn:

27 Step 2 Choose values of x and generate ordered pairs. x y = 4x(x, y) 0 y = 4(0) = 0(0, 0)(0, 0) 1 y = 4(1) = 4(1, 4)(1, 4) 2 y = 4(2) = 8(2, 8)(2, 8) Your Turn: Continued

28 Step 3 Graph the points and connect. Your Turn: Continued

29 Joke Time How would you describe a frog with a broken leg? Unhoppy What did the horse say when he got to the bottom of his feed bag? That’s the last straw! What kind of music do chiropractors listen to? Hip - Pop

30 Assignment 5-2 Exercises Pg. 325 - 327: #8 – 52 even


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