Presentation is loading. Please wait.

Presentation is loading. Please wait.

CP Projectile Test Answers 1. Which of the following best represents a graph of horizontal position as a function of time for balls launched horizontally.

Published byMaud Burns Modified over 8 years ago

Similar presentations

Presentation on theme: "CP Projectile Test Answers 1. Which of the following best represents a graph of horizontal position as a function of time for balls launched horizontally."— Presentation transcript:

1 CP Projectile Test Answers 1. Which of the following best represents a graph of horizontal position as a function of time for balls launched horizontally in the positive x direction? x t Constant forward velocity

2 CP Projectile Test Answers 1. Which of the following best represents a graph of horizontal position as a function of time for balls launched horizontally in the positive x direction? x t Constant forward velocity

3 CP Projectile Test Answers 1. Which of the following best represents a graph of horizontal position as a function of time for balls launched horizontally in the positive x direction? x t Constant forward velocity

4 CP Projectile Test Answers Which of the following best represents a graph of vertical position as a function of time for balls launched horizontally? y t Increasing downward velocity

5 CP Projectile Test Answers Which of the following best represents a graph of vertical position as a function of time for balls launched horizontally? y t Increasing downward velocity

6 CP Projectile Test Answers Which of the following best represents a graph of vertical position as a function of time for balls launched horizontally? y t Increasing downward velocity

7 CP Projectile Test Answers 3. Which of the following graphs best represents the horizontal velocities vs time for balls launched horizontally? Constant Forward Velocity 0 m/s Time

8 CP Projectile Test Answers 3. Which of the following graphs best represents the horizontal velocities vs time for balls launched horizontally? Constant Forward Velocity 0 m/s Time

9 CP Projectile Test Answers 3. Which of the following graphs best represents the horizontal velocities vs time for balls launched horizontally? Constant Forward Velocity 0 m/s Time

10 CP Projectile Test Answers 4. Which of the following graphs best represents the vertical velocities vs time for balls launched horizontally? Increasing downward velocity 0 m/s Time

11 CP Projectile Test Answers 4. Which of the following graphs best represents the vertical velocities vs time for balls launched horizontally? Increasing downward velocity 0 m/s Time

12 CP Projectile Test Answers 4. Which of the following graphs best represents the vertical velocities vs time for balls launched horizontally? Increasing downward velocity 0 m/s Time

13 CP Projectile Test Answers 5. Which of the following graphs best represents the horizontal acceleration vs time for balls launched horizontally? Constant forward Velocity 0 m/s 2 Time

14 CP Projectile Test Answers 5. Which of the following graphs best represents the horizontal acceleration vs time for balls launched horizontally? Constant forward Velocity 0 m/s 2 Time

15 CP Projectile Test Answers 5. Which of the following graphs best represents the horizontal acceleration vs time for balls launched horizontally? Constant forward Velocity 0 m/s 2 Time

16 CP Projectile Test Answers 6. Which of the following graphs best represents the vertical acceleration vs time for balls launched horizontally? Constant downward acceleration equal to 9.8 m/s 2 0 m/s 2 Time

17 CP Projectile Test Answers 6. Which of the following graphs best represents the vertical acceleration vs time for balls launched horizontally? Constant downward acceleration equal to 9.8 m/s 2 0 m/s 2 Time

18 CP Projectile Test Answers 6. Which of the following graphs best represents the vertical acceleration vs time for balls launched horizontally? Constant downward acceleration equal to 9.8 m/s 2 0 m/s 2 Time

19 CP Projectile Test Answers 7. An Olympic athlete throws a javelin at five different angles above the horizontal, each with the same speed: 20 o 30 o 50 o 60 0 70 o Which two throws cause the javelin to land the same distance away? a) 20 o and 70 o b) 30 o and 60 o c) 20 o and 50 o d) 50 o and 70 o 8. Why? Projectiles fired at complementary angles produce the same horizontal range – check projectile lab 2 results.

20 CP Projectile Test Answers 7. An Olympic athlete throws a javelin at five different angles above the horizontal, each with the same speed: 20 o 30 o 50 o 60 0 70 o Which two throws cause the javelin to land the same distance away? a) 20 o and 70 o b) 30 o and 60 o c) 20 o and 50 o d) 50 o and 70 o 8. Why? Projectiles fired at complementary angles produce the same horizontal range – check projectile lab 2 results.

21 CP Projectile Test Answers 7. An Olympic athlete throws a javelin at five different angles above the horizontal, each with the same speed: 20 o 30 o 50 o 60 0 70 o Which two throws cause the javelin to land the same distance away? a) 20 o and 70 o b) 30 o and 60 o c) 20 o and 50 o d) 50 o and 70 o 8. Why? Projectiles fired at complementary angles produce the same horizontal range – check projectile lab 2 results.

22 CP Projectile Test Answers 9. A projectile is fired at 30 degrees above the horizon. Which statement is true of the y – component of its velocity a) it is greater than the x component of its velocity b) it is less than the x component of its velocity c) it is equal to the x component of its velocity d) its y component of its velocity is -9.8 m/s 2 10. Why – Any launch angle less than 45 o produces greater initial horizontal launch velocities. Any launch angle greater than 45 o produces greater vertical launch velocities.

23 CP Projectile Test Answers 9. A projectile is fired at 30 degrees above the horizon. Which statement is true of the y – component of its velocity a) it is greater than the x component of its velocity b) it is less than the x component of its velocity c) it is equal to the x component of its velocity d) its y component of its velocity is -9.8 m/s 2 10. Why – Any launch angle less than 45 o produces greater initial horizontal launch velocities. Any launch angle greater than 45 o produces greater vertical launch velocities.

24 CP Projectile Test Answers 9. A projectile is fired at 30 degrees above the horizon. Which statement is true of the y – component of its velocity a) it is greater than the x component of its velocity b) it is less than the x component of its velocity c) it is equal to the x component of its velocity d) its y component of its velocity is -9.8 m/s 2 10. Why – Any launch angle less than 45 o produces greater initial horizontal launch velocities. Any launch angle greater than 45 o produces greater vertical launch velocities.

25 CP Projectile Test Answers 11. Which of the following will have the greatest time of flight when fired from the ground to the ground? a) A projectile fired at 100 m/s at 25 o degrees b) A projectile fired at 100 m/s at 35 o degrees c) A projectile fired at 100 m/s at 45 o degrees d) A projectile fired at 100 m/s at 55 o degrees 12. Why? The higher the launch angle the longer the time of flight.The higher the launch angle the longer it takes the projectile to achieve zero vertical velocity at the projectiles maximum height

26 CP Projectile Test Answers 11. Which of the following will have the greatest time of flight when fired from the ground to the ground? a) A projectile fired at 100 m/s at 25 o degrees b) A projectile fired at 100 m/s at 35 o degrees c) A projectile fired at 100 m/s at 45 o degrees d) A projectile fired at 100 m/s at 55 o degrees 12. Why? The higher the launch angle the longer the time of flight.The higher the launch angle the longer it takes the projectile to achieve zero vertical velocity at the projectiles maximum height

27 CP Projectile Test Answers 13. Which of the following will travel the greatest horizontal distance when fired from the ground to the ground? a) A projectile fired at 100 m/s at 10 o degrees b) A projectile fired at 100 m/s at 20 o degrees c) A projectile fired at 100 m/s at 50 o degrees d) A projectile fired at 100 m/s at 70 o degrees e) A projectile fired at 100 m/s at 80 o degrees 14. Why? A 45 degree launch angle results in the greatest horizontal distance. A 50 0 launch angle is the closest to 45 0 of the choices listed.

28 CP Projectile Test Answers 13. Which of the following will travel the greatest horizontal distance when fired from the ground to the ground? a) A projectile fired at 100 m/s at 10 o degrees b) A projectile fired at 100 m/s at 20 o degrees c) A projectile fired at 100 m/s at 50 o degrees d) A projectile fired at 100 m/s at 70 o degrees e) A projectile fired at 100 m/s at 80 o degrees 14. Why? A 45 degree launch angle results in the greatest horizontal distance. A 50 0 launch angle is the closest to 45 0 of the choices listed.

29 CP Projectile Test Answers 13. Which of the following will travel the greatest horizontal distance when fired from the ground to the ground? a) A projectile fired at 100 m/s at 10 o degrees b) A projectile fired at 100 m/s at 20 o degrees c) A projectile fired at 100 m/s at 50 o degrees d) A projectile fired at 100 m/s at 70 o degrees e) A projectile fired at 100 m/s at 80 o degrees 14. Why? A 45 degree launch angle results in the greatest horizontal distance. A 50 0 launch angle is the closest to 45 0 of the choices listed.

30 CP Projectile Test Answers 15. A projectile is fired at 45 degrees above the horizon. Which statement is true of the y – component of its acceleration a)the y – component of its acceleration at its maximum height is 0 m/s 2 b) the y – component of its acceleration initially is 9.8 m/s 2 sin 45 0 c)the y – component of its acceleration initially is -9.8 m/s 2 sin 45 0 d) the y – component of its acceleration at its maximum height is -9.8 m/s 2 16. Why? The y – component of the acceleration due to gravity is a constant -9.8m/s 2 regardless of the y position of the projectile. It is -9.8m/s 2 on a projectiles way up, at itsmaximum height and on its way down.

31 CP Projectile Test Answers 15. A projectile is fired at 45 degrees above the horizon. Which statement is true of the y – component of its acceleration a)the y – component of its acceleration at its maximum height is 0 m/s 2 b) the y – component of its acceleration initially is 9.8 m/s 2 sin 45 0 c)the y – component of its acceleration initially is -9.8 m/s 2 sin 45 0 d) the y – component of its acceleration at its maximum height is -9.8 m/s 2 16. Why? The y – component of the acceleration due to gravity is a constant -9.8m/s 2 regardless of the y position of the projectile. It is -9.8m/s 2 on a projectiles way up, at itsmaximum height and on its way down.

32 CP Projectile Test Answers 15. A projectile is fired at 45 degrees above the horizon. Which statement is true of the y – component of its acceleration a)the y – component of its acceleration at its maximum height is 0 m/s 2 b) the y – component of its acceleration initially is 9.8 m/s 2 sin 45 0 c)the y – component of its acceleration initially is -9.8 m/s 2 sin 45 0 d) the y – component of its acceleration at its maximum height is -9.8 m/s 2 16. Why? The y – component of the acceleration due to gravity is a constant -9.8m/s 2 regardless of the y position of the projectile. It is -9.8m/s 2 on a projectiles way up, at itsmaximum height and on its way down.

33 CP Projectile Test Answers 17. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, its time of flight will be a.1.4 times as much. b.half as much. c.twice as much. v fy =v iy + gt t=v fy -v iy t related to v i g d) Four times as much e. the same

34 CP Projectile Test Answers 17. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, its time of flight will be a.1.4 times as much. b.half as much. c.twice as much. v fy =v iy + gt t=v fy -v iy t related to v i g d) Four times as much e. the same

35 CP Projectile Test Answers 17. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, its time of flight will be a.1.4 times as much. b.half as much. c.twice as much. v fy =v iy + gt t=v fy -v iy t related to v i g d) Four times as much e. the same

36 CP Projectile Test Answers 17. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, its time of flight will be a.1.4 times as much. b.half as much. c.twice as much. v fy =v iy + gt t=v fy -v iy t related to v i g d) Four times as much e. the same

37 CP Projectile Test Answers 17. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, its time of flight will be a.1.4 times as much. b.half as much. c.twice as much. v fy =v iy + gt t=v fy -v iy t related to v i g d) Four times as much e. the same

38 CP Projectile Test Answers 18. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, the maximum height it will achieve is a. 1.4 times as much. b. half as much. c. twice as much. d. four times as much The ball will be in the air for twice as long and it will travel twice as fast initially. twice the time at twice the speed. e. the same

39 CP Projectile Test Answers 18. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, the maximum height it will achieve is a. 1.4 times as much. b. half as much. c. twice as much. d. four times as much The ball will be in the air for twice as long and it will travel twice as fast initially. twice the time at twice the speed. e. the same

40 CP Projectile Test Answers 19. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, the vertical velocity at the maximum height will be a. 1.4 times as much. b. half as much. c. twice as much. d. four times as much e. the same – All projectiles at their maximum height will have a vertical velocity of 0 m/s

41 CP Projectile Test Answers 19. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, the vertical velocity at the maximum height will be a. 1.4 times as much. b. half as much. c. twice as much. d. four times as much e. the same – All projectiles at their maximum height will have a vertical velocity of 0 m/s

42 CP Projectile Test Answers 19. You are throwing a ball for the second time. If the ball leaves your hand with twice the velocity it had on your first throw, the vertical velocity at the maximum height will be a. 1.4 times as much. b. half as much. c. twice as much. d. four times as much e. the same – All projectiles at their maximum height will have a vertical velocity of 0 m/s

43 CP Projectile Test Answers 20. Projectiles that are fired down at 10 degrees below the horizon will have a)a higher y velocity when they hit the ground when compared to projectile fired up at 10 degrees above the horizon at the same speed b)a lower y velocity when they hit the ground when compared to a projectile fired up at 10 degrees above the horizon at the same speed c) the same y velocity when they hit the ground when compared to a projectile fired up at 10 degrees above the horizon at the same speed. d) have a velocity that could be higher or lower when compared to a projectile fired up at 10 degrees above the horizon depending on the whether the initial velocities are above 10 m/s or below 10 m/s.

44 CP Projectile Test Answers 20. Projectiles that are fired down at 10 degrees below the horizon will have a)a higher y velocity when they hit the ground when compared to projectile fired up at 10 degrees above the horizon at the same speed b)a lower y velocity when they hit the ground when compared to a projectile fired up at 10 degrees above the horizon at the same speed c) the same y velocity when they hit the ground when compared to a projectile fired up at 10 degrees above the horizon at the same speed. d) have a velocity that could be higher or lower when compared to a projectile fired up at 10 degrees above the horizon depending on the whether the initial velocities are above 10 m/s or below 10 m/s.

45 CP Projectile Test Answers The projectile fired up at 10 m/s 10 o above the horizon will eventually become a 10 m/s projectile fired down Fired up becomes Fired down. Fired down

46 CP Projectile Test Answers The projectile fired up at 10 m/s 10 o above the horizon will eventually become a 10 m/s projectile fired down Fired up becomes Fired down. Fired down

47 CP Projectile Test Answers The projectile fired up at 10 m/s 10 o above the horizon will eventually become a 10 m/s projectile fired down Fired up becomes Fired down. Fired down

48 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

49 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

50 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

51 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

52 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

53 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

54 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

55 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

56 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

57 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

58 Projectile Test- time of flight for y i =1.20m and y f =0m a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) t =.49s

59 Projectile Test- a) What is the time of flight of the dropped ball? Given Find FRS g= - 9.8 m/s 2 t=?s y f = y i + v iy t + ½ gt 2 v iy =0m/s y f = y i + ½ gt 2 y i =1.20 m y f - y i = ½ gt 2 y f =0m y f - y i = t 2 ½ g y f - y i = t = 0m-1.20m ½ g ½ (-9.8m/s 2 ) a) t =.49s

60 Projectile Test- time of flight for y i =1.20m and y f =0m b) What is the time of flight for the ball fired at 10 m/s horizontally? The time of flight for the horizonatally fired ball is also 0.49s. The time of flight is independent of the horizontal velocity.

61 Projectile Test- time of flight for y i =1.20m and y f =0m b) What is the time of flight for the ball fired at 10 m/s horizontally? The time of flight for the horizonatally fired ball is also 0.49s. The time of flight is independent of the horizontal velocity.

62 Projectile Test- time of flight for y i =1.20m and y f =0m b) What is the time of flight for the ball fired at 10 m/s horizontally? The time of flight for the horizonatally fired ball is also 0.49s. The time of flight is independent of the horizontal velocity.

63 Projectile Test- time of flight for y i =1.20m and y f =0m c) What is the horizontal distance of the ball fired at 10m/s? c) v ix =v x =  x t v x =  x =.49 s (10 m/s) = 4.9 m t

64 Projectile Test- time of flight for y i =1.20m and y f =0m c) What is the horizontal distance of the ball fired at 10m/s? c) v ix =v x =  x t v x =  x =.49 s (10 m/s) = 4.9 m t

65 Projectile Test- time of flight for y i =1.20m and y f =0m c) What is the horizontal distance of the ball fired at 10m/s? c) v ix =v x =  x t v x =  x =.49 s (10 m/s) = 4.9 m t

66 Projectile Test- time of flight for y i =1.20m and y f =0m c) What is the horizontal distance of the ball fired at 10m/s? c) v ix =v x =  x t v x =  x =.49 s (10 m/s) = 4.9 m t

67 Projectile Test- time of flight for y i =1.20m and y f =0m c) What is the horizontal distance of the ball fired at 10m/s? c) v ix =v x =  x t v x =  x =.49 s (10 m/s) = 4.9 m t

68 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

69 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

70 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

71 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

72 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

73 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

74 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

75 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

76 Projectile Test- time of flight for y i =1.20m and y f =0m d) What is the horizontal and vertical positions of the ball fired 10 m/s horizontally.25 seconds into its flight? v ix =v x =  x t v x =  x =.25 s (10 m/s) = 2.5 m t y f = y i + v iy t + ½ gt 2 y f = 1.20 m + 0 m/s (.25s) + ½ (-9.8m/s 2 )(.25s) 2 =.31 m

77 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

78 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

79 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

80 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

81 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

82 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

83 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

84 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

85 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

86 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

87 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

88 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

89 Projectile Test Answers Givens y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s a) v ox = v o cos  m/s cos 65 o = 4.23 m/s b) v oy = v o sin  m/s sin 65 o = 9.06 m/s

90 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

91 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

92 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

93 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

94 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

95 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

96 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

97 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

98 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

99 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

100 Projectile Test Answers c) Given y o =.25 m y=.98m v o = 10.0 m/s   g = - 9.8 m/s 2 v fy =0m/s v fy =v iy + gt t=v fy -v iy = 0 m/s – 9.06 m/s =.92seconds g9.8m/s 2

101 Projectile Test Answers Determine the maximum height achieved by the ball. d) y f = y i + v iy t + ½ gt 2 y f =.25m + 10 m/s (.92s) + ½ (-9.8m/s 2 )(.92s) 2 = 5.25m Determine the horizontal position of the ball at the maximum height. e) v ix =v x =  x t v x =  x =.92 s (10 m/s) = 9.2 m t

102 Projectile Test Answers Determine the maximum height achieved by the ball. d) y f = y i + v iy t + ½ gt 2 y f =.25m + 10 m/s (.92s) + ½ (-9.8m/s 2 )(.92s) 2 = 5.25m Determine the horizontal position of the ball at the maximum height. e) v ix =v x =  x t v x =  x =.92 s (10 m/s) = 9.2 m t

103 Projectile Test Answers Determine the maximum height achieved by the ball. d) y f = y i + v iy t + ½ gt 2 y f =.25m + 10 m/s (.92s) + ½ (-9.8m/s 2 )(.92s) 2 = 5.25m Determine the horizontal position of the ball at the maximum height. e) v ix =v x =  x t v x =  x =.92 s (10 m/s) = 9.2 m t

104 Projectile Test Answers Determine the maximum height achieved by the ball. d) y f = y i + v iy t + ½ gt 2 y f =.25m + 10 m/s (.92s) + ½ (-9.8m/s 2 )(.92s) 2 = 5.25m Determine the horizontal position of the ball at the maximum height. e) v ix =v x =  x t v x =  x =.92 s (10 m/s) = 9.2 m t

105 Projectile Test Answers Determine the maximum height achieved by the ball. d) y f = y i + v iy t + ½ gt 2 y f =.25m + 10 m/s (.92s) + ½ (-9.8m/s 2 )(.92s) 2 = 5.25m Determine the horizontal position of the ball at the maximum height. e) v ix =v x =  x t v x =  x =.92 s (10 m/s) = 9.2 m t

106 Projectile Test Answers Determine the maximum height achieved by the ball. d) y f = y i + v iy t + ½ gt 2 y f =.25m + 10 m/s (.92s) + ½ (-9.8m/s 2 )(.92s) 2 = 5.25m Determine the horizontal position of the ball at the maximum height. e) v ix =v x =  x t v x =  x =.92 s (10 m/s) = 9.2 m t

107 Projectile Test Answers Determine the maximum height achieved by the ball. d) y f = y i + v iy t + ½ gt 2 y f =.25m + 10 m/s (.92s) + ½ (-9.8m/s 2 )(.92s) 2 = 5.25m Determine the horizontal position of the ball at the maximum height. e) v ix =v x =  x t v x =  x =.92 s (10 m/s) = 9.2 m t

108 Projectile Test Answers Determine the maximum height achieved by the ball. d) y f = y i + v iy t + ½ gt 2 y f =.25m + 10 m/s (.92s) + ½ (-9.8m/s 2 )(.92s) 2 = 5.25m Determine the horizontal position of the ball at the maximum height. e) v ix =v x =  x t v x =  x =.92 s (10 m/s) = 9.2 m t

109 Projectile Test Answers f) Determine the total time of flight from the.25 m vertical launch position to the.98 m vertical landing position. y = y o + v o sin  t + ½ g t 2.98=.25m + 10m/s sin(65 0 ) t + ½ (-9.8 m/s 2 ) (t) 2 0= -.73 m + 9.06 m/s ( t ) + ½ (-9.8 m/s 2 ) (t) 2 A = -4.9 B = 9.06 C = -.73 m Using the quadratic equation t =.0844s (way up ) and 1.76s (way down)

110 Projectile Test Answers f) Determine the total time of flight from the.25 m vertical launch position to the.98 m vertical landing position. y = y o + v o sin  t + ½ g t 2.98=.25m + 10m/s sin(65 0 ) t + ½ (-9.8 m/s 2 ) (t) 2 0= -.73 m + 9.06 m/s ( t ) + ½ (-9.8 m/s 2 ) (t) 2 A = -4.9 B = 9.06 C = -.73 m Using the quadratic equation t =.0844s (way up ) and 1.76s (way down)

111 Projectile Test Answers f) Determine the total time of flight from the.25 m vertical launch position to the.98 m vertical landing position. y = y o + v o sin  t + ½ g t 2.98=.25m + 10m/s sin(65 0 ) t + ½ (-9.8 m/s 2 ) (t) 2 0= -.73 m + 9.06 m/s ( t ) + ½ (-9.8 m/s 2 ) (t) 2 A = -4.9 B = 9.06 C = -.73 m Using the quadratic equation t =.0844s (way up ) and 1.76s (way down)

112 Projectile Test Answers f) Determine the total time of flight from the.25 m vertical launch position to the.98 m vertical landing position. y = y o + v o sin  t + ½ g t 2.98=.25m + 10m/s sin(65 0 ) t + ½ (-9.8 m/s 2 ) (t) 2 0= -.73 m + 9.06 m/s ( t ) + ½ (-9.8 m/s 2 ) (t) 2 A = -4.9 B = 9.06 C = -.73 m Using the quadratic equation t =.0844s (way up ) and 1.76s (way down)

113 Projectile Test Answers f) Determine the total time of flight from the.25 m vertical launch position to the.98 m vertical landing position. y = y o + v o sin  t + ½ g t 2.98=.25m + 10m/s sin(65 0 ) t + ½ (-9.8 m/s 2 ) (t) 2 0= -.73 m + 9.06 m/s ( t ) + ½ (-9.8 m/s 2 ) (t) 2 A = -4.9 B = 9.06 C = -.73 m Using the quadratic equation t =.0844s (way up ) and 1.76s (way down)

114 Projectile Test Answers f) Determine the total time of flight from the.25 m vertical launch position to the.98 m vertical landing position. y = y o + v o sin  t + ½ g t 2.98=.25m + 10m/s sin(65 0 ) t + ½ (-9.8 m/s 2 ) (t) 2 0= -.73 m + 9.06 m/s ( t ) + ½ (-9.8 m/s 2 ) (t) 2 A = -4.9 B = 9.06 C = -.73 m Using the quadratic equation t =.0844s (way up ) and 1.76s (way down)

115 Projectile Test Answers f) Determine the total time of flight from the.25 m vertical launch position to the.98 m vertical landing position. y = y o + v o sin  t + ½ g t 2.98=.25m + 10m/s sin(65 0 ) t + ½ (-9.8 m/s 2 ) (t) 2 0= -.73 m + 9.06 m/s ( t ) + ½ (-9.8 m/s 2 ) (t) 2 A = -4.9 B = 9.06 C = -.73 m Using the quadratic equation t =.0844s (way up ) and 1.76s (way down)

116 Projectile Test Answers g) Determine the horizontal landing position of the ball. v ox =  x t t v ox =  x = 1.76s (4.23 m/s ) = 7.44m

117 Projectile Test Answers g) Determine the horizontal landing position of the ball. v ix =  x t t v ox =  x = 1.76s (4.23 m/s ) = 7.44m

118 Projectile Test Answers g) Determine the horizontal landing position of the ball. v ix =  x t t v ox =  x = 1.76s (4.23 m/s ) = 7.44m

119 Projectile Test Answers g) Determine the horizontal landing position of the ball. v ix =  x t t v ox =  x = 1.76s (4.23 m/s ) = 7.44m

120 Projectile Test Answers g) Determine the horizontal landing position of the ball. v ix =  x t t v ox =  x = 1.76s (4.23 m/s ) = 7.44m

121 Projectile Test Answers h)Determine the angle of the ball as it lands in the can. (extra credit) v fy =v iy + gt v fy = 9.06 m/s + (-9.8m/s 2 ) (1.76s) v fy =-8.19 m/s v x =4.23 m/s Inv tan ( v fy /v x ) = angle with respect to the horizon Inv tan ( -8.19 m/s / 4.23 m/s ) = 62.7 0

122 Projectile Test Answers h)Determine the angle of the ball as it lands in the can. (extra credit) v fy =v iy + gt v fy = 9.06 m/s + (-9.8m/s 2 ) (1.76s) v fy =-8.19 m/s v x =4.23 m/s Inv tan ( v fy /v x ) = angle with respect to the horizon Inv tan ( -8.19 m/s / 4.23 m/s ) = 62.7 0

123 Projectile Test Answers h)Determine the angle of the ball as it lands in the can. (extra credit) v fy =v iy + gt v fy = 9.06 m/s + (-9.8m/s 2 ) (1.76s) v fy =-8.19 m/s v x =4.23 m/s Inv tan ( v fy /v x ) = angle with respect to the horizon Inv tan ( -8.19 m/s / 4.23 m/s ) = 62.7 0

124 Projectile Test Answers h)Determine the angle of the ball as it lands in the can. (extra credit) v fy =v iy + gt v fy = 9.06 m/s + (-9.8m/s 2 ) (1.76s) v fy =-8.19 m/s v x =4.23 m/s Inv tan ( v fy /v x ) = angle with respect to the horizon Inv tan ( -8.19 m/s / 4.23 m/s ) = 62.7 0

125 Projectile Test Answers h)Determine the angle of the ball as it lands in the can. (extra credit) v fy =v iy + gt v fy = 9.06 m/s + (-9.8m/s 2 ) (1.76s) v fy =-8.19 m/s v x =4.23 m/s Inv tan ( v fy /v x ) = angle with respect to the horizon Inv tan ( -8.19 m/s / 4.23 m/s ) = 62.7 0

126 Projectile Test Answers h)Determine the angle of the ball as it lands in the can. (extra credit) v fy =v iy + gt v fy = 9.06 m/s + (-9.8m/s 2 ) (1.76s) v fy =-8.19 m/s v x =4.23 m/s Inv tan ( v fy /v x ) = angle with respect to the horizon Inv tan ( -8.19 m/s / 4.23 m/s ) = 62.7 0

127 Projectile Test Answers h)Determine the angle of the ball as it lands in the can. (extra credit) v fy =v iy + gt v fy = 9.06 m/s + (-9.8m/s 2 ) (1.76s) v fy =-8.19 m/s v x =4.23 m/s Inv tan ( v fy /v x ) = angle with respect to the horizon Inv tan ( -8.19 m/s / 4.23 m/s ) = 62.7 0

Download ppt "CP Projectile Test Answers 1. Which of the following best represents a graph of horizontal position as a function of time for balls launched horizontally."

Similar presentations

PLAY Physics Con-Seal From RegentsEarth.com.

PLAY Physics Con-Seal From RegentsEarth.com.
Projectile Motion Chapter 3.

Projectile Motion Chapter 3.
Projectile Motion - Angled Launches Fill in the component and resultant velocities of the thrown projectile as it ascends and descends. Assume that g =

Projectile Motion - Angled Launches Fill in the component and resultant velocities of the thrown projectile as it ascends and descends. Assume that g =
1 Projectile Motion. 2 Projectile An object that moves through the air only under the influence of gravity after an initial thrust For simplicity, we’ll.

1 Projectile Motion. 2 Projectile An object that moves through the air only under the influence of gravity after an initial thrust For simplicity, we’ll.
PHYS 201 Chapter 3 Kinematics in 2-D Equations in 2-D Projectile.

PHYS 201 Chapter 3 Kinematics in 2-D Equations in 2-D Projectile.
Aim: How can we approach projectile problems?

Aim: How can we approach projectile problems?
Projectile Motion Questions.

Projectile Motion Questions.
CHAPTER 3 PROJECTILE MOTION. North South EastWest positive x positive y negative x negative y VECTORS.

CHAPTER 3 PROJECTILE MOTION. North South EastWest positive x positive y negative x negative y VECTORS.
2-D Motion Because life is not in 1-D. General Solving 2-D Problems  Resolve all vectors into components  x-component  Y-component  Work the problem.

2-D Motion Because life is not in 1-D. General Solving 2-D Problems  Resolve all vectors into components  x-component  Y-component  Work the problem.
Physics Kinematics: Projectile Motion Science and Mathematics Education Research Group Supported by UBC Teaching and Learning Enhancement Fund 2012-2013.

Physics Kinematics: Projectile Motion Science and Mathematics Education Research Group Supported by UBC Teaching and Learning Enhancement Fund
Projectile Motion.

Projectile Motion.
Regents Physics – Mr. Rockensies

Regents Physics – Mr. Rockensies
Unit 4 Class Notes Accelerated Physics Projectile Motion Days 1 thru 3.

Unit 4 Class Notes Accelerated Physics Projectile Motion Days 1 thru 3.
How to do kinematics in 2-D Remember the ball shot at the monkey. Motion, force and accelerations in the X direction do not affect Y motion. And vice versa:

How to do kinematics in 2-D Remember the ball shot at the monkey. Motion, force and accelerations in the X direction do not affect Y motion. And vice versa:
CH10 – Projectile and Satellite Motion Projectiles Projectile Motion.

CH10 – Projectile and Satellite Motion Projectiles Projectile Motion.
Chapter 4 Two-Dimensional Kinematics

Chapter 4 Two-Dimensional Kinematics
Chapter Assessment Questions

Chapter Assessment Questions
Motion in 2-Dimensions. Projectile Motion A projectile is given an initial force and is then (assuming no air resistance) is only acted on by gravity.

Motion in 2-Dimensions. Projectile Motion A projectile is given an initial force and is then (assuming no air resistance) is only acted on by gravity.
Projectile Motion I 11/7/14. Throwing a ball in the air On the way up: At the top of the throw: On the way down: velocity decreases acceleration stays.

Projectile Motion I 11/7/14. Throwing a ball in the air On the way up: At the top of the throw: On the way down: velocity decreases acceleration stays.
Chapter 5 Projectile motion

Chapter 5 Projectile motion

Similar presentations

Ads by Google