GPE and KE

1. GPE and KE Starter: Round the room: TIME TO BEAT : What are GPE and KE and how do I use the equations?

2. Learning outcomes • explain that energy is conserved • describe energy transfers from kinetic to potential and vice versa and calculate the kinetic and potential energy involved • use the equation for kinetic energy

3. What is gravitational potential energy ? • describe energy transfers from kinetic to potential and vice versa and calculate the kinetic and potential energy involved

4. Engage brain If work done = energy transferred what is the equation for working out the gain in GPE? Tip: check your notes on work done.

5. GPE Change in GPE (J) = weight (N) x height (m) This is the same as Work done (J) = weight (N) x distance (m) Don’t forget : Weight = mass x gravitational strength (10)

6. Examples – on earth g = 10 N/Kg • If Mia lifts a 100 N box onto a table 2m high. How much G.P.E. has the box gained?

7. It’s race time !

8. Dougie weighs 800N and is standing at the top of a tall building. He has 96000J of G.P.E. How tall is the building? Dougie weighs 800N and is standing at the top of a tall building. He has 96000J of G.P.E. How tall is the building? Dougie weighs 800N and is standing at the top of a tall building. He has 96000J of G.P.E. How tall is the building? Dougie weighs 800N and is standing at the top of a tall building. He has 96000J of G.P.E. How tall is the building? Dougie weighs 800N and is standing at the top of a tall building. He has 96000J of G.P.E. How tall is the building? Dougie weighs 800N and is standing at the top of a tall building. He has 96000J of G.P.E. How tall is the building?

9. Danny is on a diet. He runs to the top of 4 flights of stairs 5 times a day. At the top of the stairs at 70m, he has 59500J of GPE. What is his new weight? Danny is on a diet. He runs to the top of 4 flights of stairs 5 times a day. At the top of the stairs at 70m, he has 59500J of GPE. What is his new weight? Danny is on a diet. He runs to the top of 4 flights of stairs 5 times a day. At the top of the stairs at 70m, he has 59500J of GPE. What is his new weight? Danny is on a diet. He runs to the top of 4 flights of stairs 5 times a day. At the top of the stairs at 70m, he has 59500J of GPE. What is his new weight? Danny is on a diet. He runs to the top of 4 flights of stairs 5 times a day. At the top of the stairs at 70m, he has 59500J of GPE. What is his new weight? Danny is on a diet. He runs to the top of 4 flights of stairs daily. At the top of the stairs at 70m, he has 59500J of GPE. What is his new weight?

10. Tom throws his guitar in the air at the end of the concert. It reaches 5m in height. It gains 2500J of GPE at the highest point. What is the mass of the guitar? Tom throws his guitar in the air at the end of the concert. It reaches 5m in height. It gains 2500J of GPE at the highest point. What is the mass of the guitar? Tom throws his guitar in the air at the end of the concert. It reaches 5m in height. It gains 2500J of GPE at the highest point. What is the mass of the guitar? Tom throws his guitar in the air at the end of the concert. It reaches 5m in height. It gains 2500J of GPE at the highest point. What is the mass of the guitar? Tom throws his guitar in the air at the end of the concert. It reaches 5m in height. It gains 2500J of GPE at the highest point. What is the mass of the guitar?

11. Harry likes to jump. His best jump is 150 cm. His mass is 75kg. How much GPE does he gain at the highest point of his jump? Harry likes to jump. His best jump is 150 cm. His mass is 75kg. How much GPE does he gain at the highest point of his jump? Harry likes to jump. His best jump is 150 cm. His mass is 75kg. How much GPE does he gain at the highest point of his jump? Harry likes to jump. His best jump is 150 cm. His mass is 75kg. How much GPE does he gain at the highest point of his jump? Harry likes to jump. His best jump is 150 cm. His mass is 75kg. How much GPE does he gain at the highest point of his jump? Harry likes to jump. His best jump is 150 cm. His mass is 75kg. How much GPE does he gain at the highest point of his jump?

12. Kinetic Energy • KE (J) = 0.5 x mass x (velocity) 2 • use the equation for kinetic energy

13. The Law of Conservation of Energy You cannot make or destroy energy. You can only change its type. • explain that energy is conserved

14. Gravitational potential energy When you lift an object up . . . . . . you increase its gravitational potential energy. change in gravitational potential energy= weight  vertical height difference • explain that energy is conserved

15. Falling If you let the object fall . . . . . . it loses gravitational potential energy . . . . . . and gains kinetic energy. kinetic energy = ½  mass  speed2 • use the equation for kinetic energy • explain that energy is conserved

16. Lifting a bag of flour Lift up a 1kg bag of flour to a height of 2m. change in gravitational potential energy = weight  vertical height difference = = • explain that energy is conserved

17. Now drop the bag of flour As it falls, it loses gravitational potential energy . . . . . . and gains kinetic energy gain in kinetic energy = loss of gravitational potential energy = • explain that energy is conserved

18. What speed does it reach? kinetic energy = 20 J ½  mass  speed2 = 20J • use the equation for kinetic energy • explain that energy is conserved

19. What speed does it reach? kinetic energy = 20 J ½  mass  speed2 = 20J mass  speed2 = 40 speed2 = 40(m/s) speed = √40m/s speed = 6.32m/s • use the equation for kinetic energy • explain that energy is conserved

20. Jamaica has a Bobsleigh team Aim: to find out how much speed the Jamaican bobsleigh team reached in their qualifying race. http://www.youtube.com/watch?v=ar4WlU4oQPM You need to : Work out the GPE, KE and use this to find out the Speed of the bobsleigh. Info: Height: 121.48m Mass: 390 Kg Gravitational Pull : you know that! • explain that energy is conserved

21. Find Someone Who