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Momentum The world is filled with objects in motion. Objects have many properties such as color, size, and composition. One important property of an object.

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Presentation on theme: "Momentum The world is filled with objects in motion. Objects have many properties such as color, size, and composition. One important property of an object."— Presentation transcript:

1 Momentum The world is filled with objects in motion. Objects have many properties such as color, size, and composition. One important property of an object is its mass.

2 Momentum The mass of an object is the amount of matter in the object. The SI unit for mass in the kilogram (kg), The weight of an object is related to the objects mass. Objects with more mass weigh more than objects with less mass.

3 Momentum A bowling ball has more mass than a pillow, so it weighs more than a pillow. A pillow is larger than a bowling ball, but the bowling ball has more mass. The size of an object is not the same as the mass of an object.

4 Momentum Objects with different masses are different in important ways. Think about what happens when you try to stop someone who is rushing toward you.

5 Momentum A small child is easy to stop. A large football player is hard to stop.

6 Inertia The more mass an object has, the harder it is to start it moving, slow it down, speed it up, or turn it. This tendency of an object to resist a change in motion is called inertia.

7 Inertia The more mass an object has, the harder it is to start it moving.

8 Inertia The more mass an object has, the harder it is to slow it down.

9 Inertia The more mass an object has, the harder it is to speed it up.

10 Inertia The more mass an object has, the harder it is to turn it.

11 Inertia Remember that the tendency of an object to resist a change in motion is called inertial.

12 Inertia Objects with more mass have more inertia. The more mass an object has, the harder it is to change its motion.

13 Momentum The faster your bicycle moves the harder it is to stop Increasing the speed or velocity of the object makes it harder to stop just like increasing the mass does also.

14 Momentum Momentum of an object is a measure of how hard it is to stop the object. Momentum depends upon the objects mass and velocity.

15 Momentum Momentum Equation: Momentum is symbolized by p. momentum (kg · m/s) = mass (kg) x velocity (m/s) p = mv

16 Momentum p = mv Mass is measured in kilograms and velocity has units of meters per second. (kg · m/s) Velocity includes direction, momentum has a direction that is the same as the direction of the velocity.

17 Momentum Applying Math Calculate the momentum of a 14 kg bicycle traveling north at 2 m/s. –Mass: m = 14 kg –Velocity: v = 2 m/s north Formula: momentum: p = kg· m/s

18 Momentum p = mv = (14 kg) (2 m/s north) =

19 Momentum Answer: –(14 kg) (2 m/s) = 28 kg.m/s north

20 Momentum Applying Math –A 10,000 kg train is traveling east at 15m/s. –Calculate the momentum of the train.

21 Momentum p = mv

22 Momentum Mass = 10,000 kg Velocity = 15 m/s east

23 Momentum p = mv 10,000 kg X 15 m/s east =

24 Momentum 150,000 kg · m/s east

25 Momentum Applying Math –What is the momentum of a car with a mass of 900 kg traveling north at 27 m/s.

26 Momentum p = mv 900kg X 27 m/s north =

27 Momentum 24,300 kg · m/s north

28 Momentum Conservation of Momentum The law of conservation of momentum: –The total momentum of objects that collide is the same before and after the collision.

29 Conservation of Momentum According to the law of conservation of momentum; if one ball swings in then how many balls will swing out?

30 Conservation of Momentum When the cue ball hits another ball, the motion of both balls change. The cue ball slows down and may change direction, so its momentum increases.

31 Conservation of Momentum It seems as if momentum is transferred from the cue ball to the other ball. In fact, during the collision, the momentum lost by the cue ball was gained by the other ball.

32 Conservation of Momentum Outside forces, such as gravity and friction are almost always acting on objects that are colliding. Sometimes these forces are small enough that they can be ignored. Then the law of conservation of momentum allows us to predict how motions of objects will change after a collision.

33 Conservation of Momentum Sometimes objects that collide will bounce off of each other.

34 Conservation of Momentum In some collisions objects will stick to each other after the collision. What would be an example of the above?

35 Conservation of Momentum In some collisions the objects will stick to each other after the collision.

36 Conservation of Momentum In both of these types of collisions, the law of conservation of momentum enables the speed of the objects after the collision to be calculated.

37 Conservation of Momentum Sticking Together Imagine being on skates when someone throws a backpack to you.

38 Conservation of Momentum When you catch the backpack, you and the backpack continue to move in the same direction as the backpack was moving before the collision.

39 Conservation of Momentum The law of conservation of momentum can be used to find your velocity after you catch the backpack.

40 Conservation of Momentum Problem Suppose a 2 kg backpack is tossed at a speed of 5 m/s. Your mass is 48 kg and initially you are at rest. Total momentum = momentum of backpack + your momentum = 2 kg X 5 m/s + 48 kg X 0 m/s = 10 kg · m/s

41 Conservation of Momentum Problem After the collision, the total momentum remains the same, and only one object is moving. Its mass is the sum of your mass and the mass of the backpack. Use the equation for momentum to find the final velocity.

42 Conservation of Momentum Problem Total momentum = (mass of backpack + your mass) X velocity 10 kg · m/s = (2 kg + 48 kg) X velocity 10 kg · m/s = (50 kg) X velocity 0.2 m/s = velocity This is the velocity right after you catch the backpack.

43 Conservation of Momentum As you continue to move on your skates, what force will act upon you?

44 Conservation of Momentum Friction The force of friction between the ground and the skates slows you down.

45 Conservation of Momentum 1.Two objects of the same mass moving at the same speed collide head-on. What happens?

46 Conservation of Momentum Two objects of the same mass moving at the same speed collide head-on. They will rebound and move with the same speed in the opposite direction. The total momentum is zero before and after the collision.

47 Conservation of Momentum 2. A less massive object strikes a more massive object that is at rest. What happens?

48 Conservation of Momentum. A less massive object strikes a more massive object that is at rest. After the collision, the smaller object bounces off in the opposite direction. The larger object moves in the same direction that the small object was initially moving.

49 Conservation of Momentum 3. A large object strikes a smaller object that is at rest. (Lets pretend that the small object is at rest.) What happens?

50 Conservation of Momentum After the collision, both objects move in the same direction. The less massive object always moves faster than the more massive one.

51 Conservation of Momentum Colliding and Bouncing Off In some collisions, the objects involved, like bumper cars bounce off each other.

52 Conservation of Momentum The law of conservation of momentum can be used to determine how these objects move after they collide. Two identical objects moving with the same speed collide head-on and bounce off. Question: What is the total momentum before the collision?

53 Conservation of Momentum Before the collision the momentum of each object is the same, but in opposite directions. The total momentum before the collision is zero. What is the total momentum after the collision?

54 Conservation of Momentum After the collision, the total momentum must also be zero. This means that the two objects must move in opposite directions with the same speed after the collision The total momentum is zero.

55 Conservation of Momentum


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