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Do now! In pairs can you discuss what we learnt about momentum at the end of last lesson? You have 2 minutes.

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Presentation on theme: "Do now! In pairs can you discuss what we learnt about momentum at the end of last lesson? You have 2 minutes."— Presentation transcript:

1 Do now! In pairs can you discuss what we learnt about momentum at the end of last lesson? You have 2 minutes.

2 Last lesson  Momentum YouTube - Spectacular 100mph Train Crash Test http://www.you tube.com/watch ?v=PggkC3iX57 8 http://www.yout ube.com/watch?v =qGacupc5- tE&feature=relat ed

3 Momentum  Momentum is a useful quantity to consider when thinking about "unstoppability". It is also useful when considering collisions and explosions. It is defined as Momentum (kg.m/s) = Mass (kg) x Velocity (m./s) p = mv

4 An easy example  A lorry has a mass of 10 000 kg and a velocity of 3 m.s -1. What is its momentum? Momentum = Mass x velocity = 10 000 x 3 = 30 000 kg.m.s -1.

5 The Law of conservation of momentum “in an isolated system, momentum remains constant”.

6 momentum before = momentum after  In other words, in a collision between two objects, momentum is conserved (total momentum stays the same). i.e. Total momentum before the collision = Total momentum after Momentum is not energy!

7 A harder example!  A car of mass 1000 kg travelling at 5 m/s hits a stationary truck of mass 2000 kg. After the collision they stick together. What is their joint velocity after the collision?

8 A harder example! 5 m/s 1000kg 2000kg Before After V m/s Combined mass = 3000 kg Momentum before = 1000x5 + 2000x0 = 5000 kg.m/s Momentum after = 3000v

9 A harder example The law of conservation of momentum tells us that momentum before equals momentum after, so Momentum before = momentum after 5000 = 3000v V = 5000/3000 = 1.67 m/s

10 Momentum is a vector  Momentum is a vector, so if velocities are in opposite directions we must take this into account in our calculations

11 An even harder example! Snoopy (mass 10kg) running at 4.5 m/s jumps onto a skateboard of mass 4 kg travelling in the opposite direction at 7 m/s. What is the velocity of Snoopy and skateboard after Snoopy has jumped on? I love physics

12 An even harder example! 10kg 4kg-4.5 m/s 7 m/s Because they are in opposite directions, we make one velocity negative 14kg v m/s Momentum before = 10 x -4.5 + 4 x 7 = -45 + 28 = -17 Momentum after = 14v

13 An even harder example! Momentum before = Momentum after -17 = 14v V = -17/14 = -1.21 m/s The negative sign tells us that the velocity is from left to right (we choose this as our “negative direction”)

14 “Explosions” - recoil

15 Let’s try some questions!

16 Let’s follow Mr Porter

17 Impulse Ft = mv – mu The quantity Ft is called the impulse, and of course mv – mu is the change in momentum (v = final velocity and u = initial velocity) Impulse = Change in momentum

18 Impulse Ft = mv – mu F = Δp/Δt

19 Units Impulse is measured in N.s (Ft) or kg.m.s -1 (mv – mu)

20 Impulse Note; For a ball bouncing off a wall, don’t forget the initial and final velocity are in different directions, so you will have to make one of them negative. In this case mv – mu = -3m -5m = -8m 5 m/s -3 m/s

21 Example  Szymon punches Eerik in the face. If Eerik’s head (mass 10 kg) was initially at rest and moves away from Szymon’s fist at 3 m/s, what impulse was delivered to Eerik’s head? If the fist was in contact with the face for 0.2 seconds, what was the force of the punch?

22 Example  Szymon punches Eerik in the face. If Eerik’s head (mass 10 kg) was initially at rest and moves away from Szymon’s fist at 3 m/s, what impulse was delivered to Eerik’s head? If the fist was in contact with the face for 0.2 seconds, what was the force of the punch?  m = 10kg, t = 0.2, u = 0, v = 3

23 Example  Szymon punches Eerik in the face. If Eerik’s head (mass 10 kg) was initially at rest and moves away from Szymon’s fist at 3 m/s, what impulse was delivered to Eerik’s head? If the fist was in contact with the face for 0.2 seconds, what was the force of the punch?  m = 10kg, t = 0.2, u = 0, v = 3  Impulse = Ft = mv - mu

24 Example  Szymon punches Eerik in the face. If Eerik’s head (mass 10 kg) was initially at rest and moves away from Szymon’s fist at 3 m/s, what impulse was delivered to Eerik’s head? If the fist was in contact with the face for 0.2 seconds, what was the force of the punch?  m = 10kg, t = 0.2, u = 0, v = 3  Impulse = Ft = mv – mu = 10x3 – 10x0 = 30 Ns

25 Example  Szymon punches Eerik in the face. If Eerik’s head (mass 10 kg) was initially at rest and moves away from Szymon’s fist at 3 m/s, what impulse was delivered to Eerik’s head? If the fist was in contact with the face for 0.2 seconds, what was the force of the punch?  m = 10kg, t = 0.2, u = 0, v = 3  Impulse = Ft = mv – mu = 10x3 – 10x0 = 30 Ns  Impulse = Ft = 30 Fx0.2 = 30 F = 30/0.2 = 150 N

26 Another example  A tennis ball (0.3 kg) hits a racquet at 3 m/s and rebounds in the opposite direction at 6 m/s. What impulse is given to the ball?

27 Another example  A tennis ball (0.3 kg) hits a racquet at 3 m/s and rebounds in the opposite direction at 6 m/s. What impulse is given to the ball? 3 m/s -6 m/s

28 Another example  A tennis ball (0.3 kg) hits a racquet at 3 m/s and rebounds in the opposite direction at 6 m/s. What impulse is given to the ball?  Impulse = mv – mu = = 0.3x-6 – 0.3x3 = -2.7kg.m.s -1 3 m/s -6 m/s

29 Now let’s try some fun questions! But first let’s watch this! http://www.youtube.com/watch?v=bKLrj3UFqQI

30 TICKET TO EXIT

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