1. Topic 1.2 Velocity

2. Uniform Motion 2 conditions –Constant speed –Single direction When both the speed and direction remain the same, we say the velocity is constant or uniform

3. Mathematically defined as … Velocity is a vector displacement time interval is a scalar

4. Sample Problem 1 What is the velocity of a runner who runs 108m[S] in 12s? [S] is +ive

5. What is it in km/h? Is … 1 = 3 ? Is … 1 yd = 3 ft ? What about … 1 km = 1000 m ? What if we divide both sides by 1000 m?

7. What is … 6702.45 … multiplied by … 1 6702.45 !!!!

8. Now remember …

9. Back to the problem … What is the velocity of a runner who runs 108m[S] in 12s? Unit conversion ratio

10. Back to the problem … What is the velocity of a runner who runs 108m[S] in 12s?

11. Back to the problem … What is the velocity of a runner who runs 108m[S] in 12s? [S] is +ive

12. Or … How many seconds are in an hour?

13. Now recall our original answer How many numbers do you see? There are actually 2!!! Velocity is a ratio of 2 numbers

14. Sample Problem 2 An air traffic controller notices that a distant aircraft has a velocity of 360 km/h [SW]. What displacement will the plane experience in the 25 s period before the controller checks its position again? [SW] is +ive

15. Formula? Given this on a formula sheet

16. Use Algebra

17. Sample Problem 2 [SW] is +ive Wrong!!! FYI: Earth’s radius is about 6400km

18. What we really get is …

19. Sample Problem 2 An air traffic controller notices that a distant aircraft has a velocity of 360 km/h [SW]. What displacement will the plane experience in the 25 s period before the controller checks its position again? [SW] is +ive Convert to m/s first

21. Sample Problem 2 [SW] is +ive

22. Practice 1.What is the velocity of an airplane that experiences a displacement of 580 m[N] in 2.5s? 2.A car has a velocity of 29 m/s[E]. What is its displacement if it travels at this velocity for 2 hours? 3.How long would it take for a dolphin swimming at 8.0 m/s[W] to travel 208 m[W]? 4.What velocity is required for a truck moving along the highway to experience a displacement of 400 m [S] in a time of 20 s? Express your answer in both metres per second and kilometres per hour.

23. Assignment 1 on Topic 1.2 Due Friday at the beginning of class

24. Sample Problem 3 Suppose a car travels with uniform motion from a position of 2.0 km[N] to a position of 20 km[S] in 0.50 h. Find the car’s displacement. [N][S] Initial positionFinal position km

25. Sample Problem 3 Suppose a car travels with uniform motion from a position of 2.0 km[N] to a position of 20 km[S] in 0.50 h. Find the car’s velocity. [N][S] Initial positionFinal position km

26. Sample Problem 3 Suppose a car travels with uniform motion from a position of 2.0 km[N] to a position of 20 km[S] in 0.50 h. Find the car’s distance travelled. [N][S] Initial positionFinal position km This is displacement This is the distance travelled The magnitude of the displacement is the same as the distance travelled when motion is uniform

27. Sample Problem 3 Suppose a car travels with uniform motion from a position of 2.0 km[N] to a position of 20 km[S] in 0.50 h. Find the car’s speed. [N][S] Initial positionFinal position km Velocity is displacement over time and is a vector

28. Sample Problem 3 Suppose a car travels with uniform motion from a position of 2.0 km[N] to a position of 20 km[S] in 0.50 h. Find the car’s speed. [N][S] Initial positionFinal position km Speed is distance over time and is a scalar

29. Sample Problem 4 How long does it take for a car traveling at 60 km/h to travel a distance of 20 m?

30. Practice 1.The tip of a tuning fork moves 1.1 mm in 4.0×10 -3 s. What is its speed in metres per second? (Note 1m =1000mm) 2.How long does the goalkeeper for a hockey team have to react if a puck travelling at 25m/s is unexpectedly deflected and changes direction without slowing down when it is at a distance of 10m away. 3.How far does a car with it’s cruise control set to 110km/h travel in 10 minutes?

31. Graphing Motion +20 m/s Time (s) Position(m) 00 1+20 2+40 3+60 4+80

32. Let’s make a position-time graph! Also called a d-t graph

33. Straight-line on a d-t graph means we have uniform motion or constant velocity (and vice versa) Here’s the Point!!

34. Can we determine an object’s velocity from its d-t graph?

36. Wait a minute … This is the slope formula!!!

37. Big idea!! The velocity is equal to the slope of the line on a d-t graph

38. Sample Problem Runner A

39. Sample Problem Runner C

40. Practice See handout

41. Sample Problem When was the jogger running the fastest? A

42. Sample Problem When, if ever, did the jogger rest? C

43. Sample Problem State the jogger’s displacement from 0 to 200s? +750m

44. Sample Problem State the jogger’s displacement from 100 to 300s? +250m

45. Sample Problem State the jogger’s displacement from 300 to 500s? -750m

46. Sample Problem State the jogger’s displacement from 0 to 500s? 0m

47. Sample Problem Find the velocity for section A?

48. Sample Problem Find the velocity for section B?

49. Sample Problem Find the velocity for section C?

50. Sample Problem Find the velocity for section D?

51. Sample Problem What was the total distance travelled?

52. Practice

53. Assignment

54. The above position-time graph could not actually represent the motion of a real object. Why?

55. This one could.

56. When velocity changes … … we calculate the average velocity and the average speed.

57. … the exact velocity when motion is uniform … the average velocity when it isn’t

58. Sample problem A football player warming up for a game jogs along the sideline. He jogs 50 m[N] and then jogs 30 m[S] back toward his starting point before stopping to talk to his coach. If he jogged for 20 s, determine his average velocity. 50 m 30 m start finish [N] is +ive

59. Sample problem A football player warming up for a game jogs along the sideline. He jogs 50 m[N] and then jogs 30 m[S] back toward his starting point before stopping to talk to his coach. If he jogged for 20 s, determine his average speed. 50 m 30 m start finish [N] is +ive

60. Sample Problem For the time interval from 4.0 s to 20 s determine the average velocity The average velocity is equal to the slope of the straight line joining the two points on a d-t graph

61. Sample Problem For the time interval from 4.0 s to 20 s determine the average speed

62. Practice

63. Assignment

64. Let me tell you why you're here. You're here because you know something. What you know you can't explain, but you feel it. You've felt it your entire life, that there's something wrong with the world. You don't know what it is, but it's there, like a splinter in your mind, driving you mad. It is this feeling that has brought you to me. Do you know what I'm talking about?

65. Instantaneous Velocity

66. This is your last chance. After this, there is no turning back. You take the blue pill - the story ends, you wake up in your bed and believe whatever you want to believe. You take the red pill - you stay in Wonderland and I show you how deep the rabbit-hole goes.

67. You are all laboratory babies!!!

68. Analogy Average = 43.5 Average = 50.0 Average = 49.4 Average = 49.3 What was the height on its 9 th birthday?

70. Sample Problem What is the average velocity for the first 5.0s?

71. Sample Problem What is the average velocity from the 2.0s mark to the 13.0s mark?

72. Sample Problem At what time is the velocity zero? Somewhere in between 8.0s to 9.5s

73. Sample Problem What is the instantaneous velocity at 3.0s?

74. Sample Problem What is the instantaneous velocity at 6.5s?

75. Sample Problem What is the instantaneous velocity at 11.25s?

76. The average velocity from 4s to 40s.

77. The average speed from 4s to 40s. 220m 140m

78. The time at which the velocity is zero. Approximately at 26s

79. The instantaneous velocity at 10s.

80. The instantaneous velocity at 38s.