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Goal: To understand momentum

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Goal: To understand momentum Objectives: To Learn about What momentum is To learn about how to calculate Momentum in 2 dimensions To understand How is momentum changed? – PowerPoint PPT presentation

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Title: Goal: To understand momentum


1
Goal To understand momentum
  • Objectives
  • To Learn about What momentum is
  • To learn about how to calculate Momentum in 2
    dimensions
  • To understand How is momentum changed?
  • To understand the Conservation of momentum
  • To learn about Why momentum is useful to
    understand.
  • Tomorrow To learn about applications to the
    conservation of momentum

2
What is momentum
  • In reality momentum is quite simply a measure of
    your ability to create change.
  • Momentum p mv
  • Lets do a quick sample
  • 1) A car with mass of 500 kg moves at a velocity
    of 20 m/s. What is the cars momentum?

3
Another example
  • Two cars are headed towards one another.
  • The first car has 700 kg of mass and moves at a
    velocity of 20 m/s North
  • The 2nd car has 1400 kg of mass and moves at a
    velocity of 10 m/s South.
  • What is the combined momentum of the cars (yes
    momentum has direction)?

4
Momentum in 2 dimensions
  • Each dimension has momentum.
  • So, you have to find the total momentum for each
    dimension separately.
  • Then at the end you can get a magnitude if you
    want, but usually it is more useful to keep them
    separate much like you keep a checking account
    separate from a savings account.

5
Straight Foreward 2 D question
  • A car is heading North with a mass of 1000 kg and
    a velocity of 12 m/s.
  • A 2nd car is heading East with a mass of 750 kg
    and a velocity of 20 m/s.
  • Which car has a greater magnitude of momentum?
  • What is the combined magnitude of momentum for
    both cars combined

6
Changing momentum
  • How do you change momentum?
  • You use what is called an impulse.
  • Impulse change in momentum
  • Impulse mass change in velocity
  • Impulse F t
  • Note that F ma
  • So, Impulse m (a t)
  • What does acceleration time equal?

7
Example
  • A car runs into a mailbox.
  • The mass of the mailbox is 10 kg and the mass of
    the car is 800 kg.
  • If the car imparts a 2000 N force to the mailbox
    for 0.4 seconds find
  • A) The impulse on the mailbox
  • B) The new velocity of the mailbox (set impulse
    to mass change in velocity)?
  • C) What is the impulse the mailbox imparts on the
    car? (What, you have forgotten about Newtons
    3rd law already?)
  • D) How much does the cars momentum change?
  • E) What is the net change in momentum (i.e. if
    you add the changes in momentum of the car and
    mailbox what do you get)?

8
Conservation of momentum!
  • Momentum is almost always conserved in a
    collision.
  • In fact it is conserved for each dimension.
  • Total p before Total p after
  • Quick question will kinetic energy be
    conserved?

9
Energy?
  • Sometimes kinetic energy is also conserved.
  • Collisions that conserve kinetic energy are
    called elastic collisions.
  • Collisions where energy is not conserved are
    called inelastic collisions.

10
Oooh, oooh, fender benderThe pips from that
car commercial
  • In many collisions energy is transferred.
  • Energy is transferred to sound energy, heat
    energy, and used to crumple a car.
  • These collisions are always inelastic collisions.
  • So, if you get hit by a car, you want it to be an
    elastic collision!
  • You will fly faster and further, but the initial
    impact wont use energy to bend and break things.

11
Rear end crash
  • A speeding car of mass 800 kg attempting to elude
    the police crashes into a 600 kg car sitting
    parked at the intersection.
  • Ignoring brakes and friction, if the initial
    velocity of the speeding car is 50 m/s forward
    and the final velocity of the speeding car is 10
    m/s forward then what will the final velocity of
    the other car be?
  • There are 2 ways to do this problem

12
Head on collision
  • Car 1 25 m/s East and a mass of 800 kg.
  • Car 2 30 m/s West and a mass of 900 kg.
  • A) What is the net momentum of the two cars
    combined before the collision.
  • C) After the crash Car 1 moves West at a velocity
    of 5 m/s. What will the final velocity of car 1
    be? Hint, total momentum

13
T Bone!
  • Car 1 mass of 650 kg and headed North at 10 m/s
  • Car 2 mass of 750 kg and headed west at 5 m/s.
  • Car 1 T Bones Car 2 and car 1 comes to a complete
    stop.
  • A) Before the crash what are the momentums in the
    north and west directions?
  • B) After the crash how much momentum will car 1
    have?
  • C) After the crash what is the north and west
    velocity of Car 2 (hint will the west velocity
    change?)
  • D) What is the magnitude of the final velocity
    for car 2?

14
If time Ball off a wall
  • You bounce a 0.15 kg ball off of the wall.
  • The ball hits the wall at 20 m/s forward and when
    it bounces it returns (backward) at 80 of the
    SPEED of when it hit the wall.
  • A) What is the change in velocity for the ball
    (remember direction)?
  • B) What is the change in momentum?
  • C) If the ball is in contact with the wall for
    0.6 seconds then what is the average force that
    the wall imparts to the ball?
  • D) What is the acceleration the wall gives the
    ball?

15
Conclusion
  • Momentum mass velocity
  • Momentum is conserved!
  • Momentum is conserved in every direction!
  • If you run into something or it runs into you
    at high velocity dont bounce!
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