1. MOMENTUM

2. Momentum
Momentum-inertia in motion; more specifically, the mass of an object multiplied by its velocity
momentum=mass x velocity or
p=mv
Momentum is measured in units of mass and velocity (ex. Kg m/s)

3. When does an object have momentum?
An object can have a large momentum either if its mass is large, its speed is large, or both.
Object must be moving

4. Is it possible to think that a child on roller skates and a large truck can have the same momentum?
Yes, they can have the same momentum if the speed of the roller skater is much larger than the speed of the truck. For example, if the truck is 1000x heavier, the skater would need to move 1000x faster.

5. Check Yourself
A 2 ton car, going 60 m.p.h. hits a 5 ton truck, going 20 m.p.h..
Which vehicle, the car or the truck, has greater momentum?
What would the car’s speed have to be for the momentums to match?
Aren’t you forgetting something?
How does that matter?
22-Nov-18
Physics 1 (Garcia) SJSU

6. Direction
Direction is important for momentum

7. Impulse changes momentum
In order to change the momentum of an object, either the mass or the velocity must change
Mass usually remains unchanged
Therefore, velocity changes and the object accelerates.
Forces cause acceleration-therefore, force causes a change in momentum

8. What else is important?
How long a force acts determines the amount of momentum change.
The longer a force acts, the greater the change in momentum.
The quantity of the force x time is called the impulse.
The greater the impulse, the greater the change in momentum
I=Ft

9. Impulse Changes Momentum
Using Newton’s Second Law F=MA and substituting that A=
We conclude that
Ft=MDV
Where Ft is the Impulse and MDV is the change in momentum

10. Increasing Momentum There are 2 ways to increase the momentum
Apply the greatest force possible
Apply the force for the longest time possible
That is why golfers, baseball players etc., follow through when making an impact

11. Decreasing Momentum over a long time
If you were to fall out of your bed while sleeping, would you rather land on a padded rug or a hard concrete floor? Why?
Why are dashboards in cars padded?
Why do seat belts and air bags keep people in a car safer?

12. Automobile Safety
Maximizing the time of impact on the driver minimizes the force of impact. This principle used in design of:
Seatbelts
Crumple
Zones
Air Bags
22-Nov-18
Physics 1 (Garcia) SJSU

13. Whenever a collision occurs, the change in momentum is the same, and therefore, the impulse acting on the person is the same. However, the force is what is important. In order to lessen the force of impact, the time is lengthened. In all of the previous examples, the time of impact is increased, decreasing the impact force.

14. Decreasing Momentum over a short time
Examples
Riding a bike into a brick wall
Not wearing a seat belt in a car collision

15. Decreasing the impact time for a given change in momentum increases the force imparted. For example, the car comes to an almost instantaneous stop (very low time) so the force on the rider is very great for a given change in momentum.

16. A karate expert brings their hand swiftly toward the bricks with considerable momentum. The momentum is quickly reduced, causing a large impact force, breaking the bricks.

17. Bouncing
In order for an object to bounce off of another, a greater change in momentum is needed and therefore, a greater impulse and greater force.
Imagine the force required to catch a thrown baseball versus catching it and throwing it back. More force is required to also throw it back.

18. Conservation of Momentum
Only external forces change the momentum of objects
Internal forces do not change momentum
For example, if you are sitting inside a car and push the dashboard, the car will not move because it is an internal force. If a bulldozer pushed the outside of the car, it would move because it is an extrernal force.

19. Another example
The gas inside of a basketball has no effect on the momentum of the basketball. It is not until there is an outside force (a person throwing the ball) that the ball moves

20. How about a rifle firing a bullet?
Force is internal
Should be no change in momentum
Before the gun is fired, momentum is zero
After the gun is fired, the momentum should also be zero
Momentum of gun is equal and opposite the momentum of the bullet
This is an example of an explosion

21. Law of Conservation of Momentum
In the absence of an external force, the momentum of a system remains unchanged
Equation pbefore=pafter or

22. Explosions
Explosion-any interaction where one object is broken into 2 objects because of an internal force
Total momentum before the explosion is zero (everything at rest)
Total momentum after must also equal zero
MaVa=-MbVb

23. Examples A person standing on a skateboard, jumps off.
A rifle being fired
Two people on ice skates, pushing back on each other

24. From the Laser Disc
In the toy cannon/bullet example, the mass of the toy gun is 350 grams (.35 kg) and the mass of the bullet is 3.5 grams (.0035 kg). If we find the speed of the bullet to be 1000 m/s, what is the recoil speed of the cannon?

25. Collisions
The Law of Conservation of Momentum can be neatly summarized by the following relationship
Total Momentum before collision=
Total Momentum after collision

26. Elastic Collisions
An Elastic Collision is when objects collide with no lasting deformation or the generation of heat.
Examples
Billiard balls
Air molecules
Calculations will not be covered

27. Inelastic Collisions
An inelastic collision is 2 or more objects collide and become distorted and generate heat. We will consider inelastic collisions where the 2 objects stick together and move off as one.
Examples
Freight cars coupling together
Mashed potatos thrown at someone

28. Collision Equation Using the law of Conservation of Momentum
p(before)=p(after)
becomes
MaVa + MbVb=(Ma+Mb)Vfinal

29. Example
A freight car of mass 1000 kg is moving at 3 m/s when it collides and couples to a stationary freight car of mass 1200 kg. After the collision, what is the new velocity?
Answer-
Ma=1000 kg MaVa + MbVb=(Ma+Mb)Vfinal kg(3 m/s) kg (0m/s)=2200kg (Vfinal)
Va=3 m/s
Mb=1200 kg Vfinal=1.36 m/s
Vb=0 m/s

30. It is important to note direction
Example-John has a mass of 40 kg and Emily a mass of 50 kg. John is skating towards Emily at 2 m/s, Emily is skating toward John at 3 m/s. They collide and move off together after the collision. What is their new speed?
*Must make one direction negative*
40 kg (2 m/s) + 50 kg (-3 m/s)= 90 kg (Vfinal)
80 kg m/s -150 kg m/s=90 kg (Vfinal)
-70= 90 kg (Vfinal) Vfinal=-.77 m/s
Since the velocity is negative, they are moving in the direction of Emily.