1 / 26

Warm Up Exercise

Warm Up Exercise. Solve each equation for the given variable: V = LWH solve for W A = ½ BH solve for H ax + by = 0 solve for y. Lesson #5.5 Direct Variation. Objective: SWBAT write an equation of direct variation and use ratios and proportions with direct variation. Definition:

nuwa
Download Presentation

Warm Up Exercise

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Warm Up Exercise Solve each equation for the given variable: V = LWH solve for W A = ½ BH solve for H ax + by = 0 solve for y

  2. Lesson #5.5 Direct Variation Objective: SWBAT write an equation of direct variation and use ratios and proportions with direct variation.

  3. Definition: Y varies directly as x means that y = kx where k is the constant of variation. Constant of Variation: k = * the constant of variation (k) in a direct variation is the constant ratio of two variable quantities.

  4. Direct Variation graphs always pass through the origin.

  5. Tell if the following graph is a Direct Variation or not. Yes No No Yes

  6. Is each equation a direct variation? If it is, find the constant of variation. 5x + 2y = 0 7y = 2x 3y + 4x = 8 y – 7.5x = 0

  7. Writing a Direct Variation Equation… • Write an equation that includes the point (4, -3)

  8. Writing a Direct Variation Equation… • Write an equation that includes the point (-3, -6)

  9. Writing a Direct Variation Equation… • Your distance from lightning varies directly with the time it takes you to hear thunder. If you hear thunder 10 seconds after you see lightning, you are about 2 miles from lightning. Write an equation for the relationship between time and distance.

  10. Writing a Direct Variation Equation… • A recipe for a dozen corn muffins calls for 1 cup of flour. The number of muffins varies directly with the amount of flour you use. Write a direct variation for the relationship between the number of cups of flour and the number of muffins.

  11. Warm Up Exercise… Is each equation a direct variation? If so, find the constant of variation. (k) (1) x + 5y =10 (2) 3y + 8x = 0 (3)Write an equation of the direct variation that includes the point (-5, -4).

  12. Lesson #5.5 Direct Variation Objective: SWBAT write an equation of direct variation and use ratios and proportions with direct variation.

  13. Examples of Direct Variation: Note: X increases, 6 , 7 , 8 And Y increases. 12, 14, 16 What is the constant of variation of the table above? Since y = kx we can say Therefore: 12/6=k or k = 2 14/7=k or k = 2 16/8=k or k =2 Note k stays constant. y = 2x is the equation!

  14. Examples of Direct Variation: Note: X decreases, 10, 5, 3 And Y decreases. 30, 15, 9 What is the constant of variation of the table above? Since y = kx we can say Therefore: 30/10=k or k = 3 15/5=k or k = 3 9/3=k or k =3 Note k stays constant. y = 3x is the equation!

  15. Examples of Direct Variation: Note: X decreases, -4, -16, -40 And Y decreases. -1,-4,-10 What is the constant of variation of the table above? Since y = kx we can say Therefore: -1/-4=k or k = ¼ -4/-16=k or k = ¼ -10/-40=k or k = ¼ Note k stays constant. y = ¼ x is the equation!

  16. Is this a direct variation? If yes, give the constant of variation (k) and the equation. Yes! k = 6/4 or 3/2 Equation? y = 3/2 x

  17. Is this a direct variation? If yes, give the constant of variation (k) and the equation. Yes! k = 25/10 or 5/2 k = 10/4 or 5/2 Equation? y = 5/2 x

  18. Is this a direct variation? If yes, give the constant of variation (k) and the equation. No! The k values are different!

  19. Using Direct Variation to find unknowns (y = kx) Given that y varies directly with x, and y = 28 when x=7, Find x when y = 52. HOW??? 2 step process 1. Find the constant variation k = y/x or k = 28/7 = 4 k=4 2. Use y = kx. Find the unknown (x). 52= 4x or 52/4 = x x= 13 Therefore: X =13 when Y=52

  20. Using Direct Variation to find unknowns (y = kx) Given that y varies directly with x, and y = 3 when x=9, Find y when x = 40.5. HOW??? 2 step process 1. Find the constant variation. k = y/x or k = 3/9 = 1/3 K = 1/3 2. Use y = kx. Find the unknown (x). y= (1/3)40.5 y= 13.5 Therefore: X =40.5 when Y=13.5

  21. Using Direct Variation to find unknowns (y = kx) Given that y varies directly with x, and y = 6 when x=-5, Find y when x = -8. HOW??? 2 step process 1. Find the constant variation. k = y/x or k = 6/-5 = -1.2 k = -1.2 2. Use y = kx. Find the unknown (x). y= -1.2(-8) x= 9.6 Therefore: X =-8 when Y=9.6

  22. Suppose y varies directly with x and y = 28 when x = 3. Find x when y = 14. Suppose a varies directly with b and a = 75 and b = 100. Find a when b = 8.

  23. Using Direct Variation to solve word problems A car uses 8 gallons of gasoline to travel 290 miles. Miles varies directly with gallons. Write a direct variation equation to model this relationship. How much gasoline will the car use to travel 400 miles?

  24. Using Direct Variation to solve word problems Joyce wages vary directly as the number of hours that she works. If his wages for 5 hours are $29.75, how much will they be for 30 hours?

  25. Using Direct Variation to solve word problems Charles’s Law states that at constant pressure, the volume of a fixed amount of gas varies directly with its temperature measured in degrees Kelvin. A gas has a volume of 250 mL at 300 degrees K. Write an equation for the relationship between volume and temperature. What is the volume if the temperature increases to 420 degrees K?

More Related