ch 6 - momentum
DESCRIPTION
Ch 6 - Momentum. What is momentum?. Momentum = a vector quantity defined as the product of an object’s mass and velocity p = mv (momentum = mass x velocity) SI Unit = kgm/s (kilogram meter per second). - PowerPoint PPT PresentationTRANSCRIPT
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Ch 6 - Momentum
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What is momentum?
Momentum = a vector quantity defined as the product of an object’s mass and velocity
p = mv (momentum = mass x velocity)
SI Unit = kgm/s (kilogram meter per second)
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A 2250 gram toy truck has a velocity of 4 m/s to the east. What is the momentum of the toy?
M = 2250 g = 2.25 kgV = 4 m/sp = mv = 2.25 x 4 = 9 kgm/s east
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Momentum Continued…
A change in momentum takes force and time When a soccer ball is moving very fast, the
player must exert a large force over a short time to change the ball’s momentum and quickly bring the ball to a stop
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Impulse – Momentum Theorem
Impulse = for a constant external force, the product of the force and the time over which it acts on an object; OR, the change in momentum of an object
FΔt = Δp = mvf – mvi
Impulse = change in momentum = final momentum – initial momentum
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A 1400kg car moving westward with a velocity of 15 m/s collides with a utility pole and is brought to rest in 0.30s. Find the magnitude of the force exerted on the car during the collision.
M = 1400kg Δt = 0.30s Vi = 15 m/s west =
-15 m/s Vf = 0 m/s F = ?
(1400 )(0 / ) (1400 )( 15 / )0.30
21000 70,000 to the East0.30
f imv mvF
tkg m s kg m sF
s
F N
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6.2 – Conservation of Momentum
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Law of Conservation of Momentum
The total momentum is conserved That is, the total momentum at the beginning of the
situation has to equal the total momentum at the end
This formula can be used in lots of different examples, like collisions, explosions, or when objects push away from each other.
1 1 2 2 1 1 2 2i i f fm v m v m v m v
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A 76kg boater, initially at rest in a stationary 45kg boat, steps out of the boat and onto the dock. If the boater moves out of the boat with a velocity of 2.5 m/s to the right, what is the final velocity of the boat?
1
2
1
2
1
2
7645002.5 /
?
i
i
f
f
m kgm kgvvv m s
v
1 1 2 2 1 1 2 2i i f fm v m v m v m v
1 1 2 20 f fm v m v
2
2
2
2
2
0 (76 )(2.5 / ) (45 )
0 190 45
190 45
19045
4.2 /
f
f
f
f
f
kg m s kg v
v
v
v
v m s
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Momentum Continued…
The conservation of momentum fits with Newton’s Third Law Every action has an equal but opposite reaction
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Real World vs. Physics World
In real life, forces during collisions are not constant
In physics world, we will work as if we are using the “average force” in our calculations
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6.3 – Elastic and Inelastic Collisions
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Types of Collisions
Perfectly Inelastic Collisions Two objects collide and stick together, moving
together as one mass Momentum is Conserved
1 1 2 2 1 2( )i i fm v m v m m v
NOTE: You will get the same results using the equation we already learned for conservation of momentum. This just reminds you that the masses stuck together!
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Perfectly Inelastic Collisions, Cont.
Kinetic Energy is NOT constant (conserved) in inelastic collisions When the two objects stick together, some energy is lost
Deformation of objects (crunching of cars) Sound Heat
2 21 1 2 2
2 21 1 2 2
1 12 21 12 2
i i i
f f f
KE m v m v
KE m v m v
Then compare the initial KE to the final KE to see how much energy was
“lost”
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Type of Collisions
Elastic Collisions Two objects collide and then move separately Both Momentum and Kinetic Energy are Conserved
1 1 2 2 1 1 2 2i i f fm v m v m v m v
2 2 2 21 1 2 2 1 1 2 2
1 1 1 12 2 2 2
i f
i i f f
KE KE
m v m v m v m v
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Real World vs. Physics World
In the real world, most collisions are neither elastic nor perfectly inelastic
In physics world, we act as if they fall into one of the two categories
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Review
Perfectly Inelastic Collision Stick together Momentum Conserved Kinetic Energy NOT
Conserved
Elastic Collision Bounce off Momentum Conserved Kinetic Energy
Conserved