More Related Content
What's hot
What's hot (16)
Viewers also liked
Viewers also liked (20)
Similar to X2 T07 03 circular motion (2010)
Similar to X2 T07 03 circular motion (2010) (20)
More from Nigel Simmons
More from Nigel Simmons (20)
Recently uploaded
Recently uploaded (20)
X2 T07 03 circular motion (2010)
- 3. Circular Motion Angular Velocity Let O be the centre of a circle, radius r units. O r
- 4. Circular Motion Angular Velocity Let O be the centre of a circle, radius r units. If the point moves from A to P in time t , where AOP , O r A P
- 5. Circular Motion Angular Velocity Let O be the centre of a circle, radius r units. If the point moves from A to P in time t , where AOP , then the angular velocity, , of the O point is defined as the rate of change of with r respect to time. A measured in radians/second P
- 6. Circular Motion Angular Velocity Let O be the centre of a circle, radius r units. If the point moves from A to P in time t , where AOP , then the angular velocity, , of the O point is defined as the rate of change of with r respect to time. A measured in radians/second d P dt
- 7. Circular Motion Angular Velocity Let O be the centre of a circle, radius r units. If the point moves from A to P in time t , where AOP , then the angular velocity, , of the O point is defined as the rate of change of with r respect to time. A measured in radians/second d P dt Linear Velocity (Tangential Velocity)
- 8. Circular Motion Angular Velocity Let O be the centre of a circle, radius r units. If the point moves from A to P in time t , where AOP , then the angular velocity, , of the O point is defined as the rate of change of with r respect to time. A measured in radians/second d P dt Linear Velocity (Tangential Velocity) The linear velocity, v, of the point at every position on its path is tangential to the circle.
- 9. Circular Motion Angular Velocity Let O be the centre of a circle, radius r units. If the point moves from A to P in time t , where AOP , then the angular velocity, , of the O point is defined as the rate of change of with r respect to time. A measured in radians/second v d P dt Linear Velocity (Tangential Velocity) The linear velocity, v, of the point at every position on its path is tangential to the circle.
- 10. Circular Motion Angular Velocity Let O be the centre of a circle, radius r units. If the point moves from A to P in time t , where AOP , then the angular velocity, , of the O point is defined as the rate of change of with r respect to time. A measured in radians/second v d P dt Linear Velocity (Tangential Velocity) The linear velocity, v, of the point at every position on its path is tangential to the circle. Let arc AP = x
- 11. x r
- 12. x r dx d r dt dt r
- 13. x r v r dx d r OR dt dt r v r
- 14. x r v r dx d r OR dt dt r v r Period
- 15. x r v r dx d r OR dt dt r v r Period 2 T (time taken for one revolution)
- 16. x r v r dx d r OR dt dt r v r Period 2 T (time taken for one revolution) e.g. A satellite moves in a circular orbit of 20 rev/day a) Describe in rad/s
- 17. x r v r dx d r OR dt dt r v r Period 2 T (time taken for one revolution) e.g. A satellite moves in a circular orbit of 20 rev/day a) Describe in rad/s 20 2 rad/day
- 18. x r v r dx d r OR dt dt r v r Period 2 T (time taken for one revolution) e.g. A satellite moves in a circular orbit of 20 rev/day a) Describe in rad/s 20 2 rad/day 20 2 rad/s 24 60 60 rad/s 2160
- 19. b) Find the satellite' s tangential velocity, given that its radius is 9000km, in km/h
- 20. b) Find the satellite' s tangential velocity, given that its radius is 9000km, in km/h v r 9000 km/s 2160
- 21. b) Find the satellite' s tangential velocity, given that its radius is 9000km, in km/h v r 9000 km/s 2160 9000 60 60km/h 2160 15000km/h
- 22. b) Find the satellite' s tangential velocity, given that its radius is 9000km, in km/h v r 9000 km/s 2160 9000 60 60km/h 2160 15000km/h Exercise 9A; odd