Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can...
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Transcript of Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can...
![Page 1: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/1.jpg)
MomentumMomentum
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Calvin & Hobbes by Bill Calvin & Hobbes by Bill WattersonWatterson
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Newton’s 2Newton’s 2ndnd Law Reprise Law Reprise
Newton’s second law
can be written:net m
t
���������������������������� vF
net t m ����������������������������F v
net m ����������������������������F a
netF t��������������
m v
Impulse = Change in momentum
Impulse =
Change in momentum =
![Page 4: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/4.jpg)
Momentum & ImpulseMomentum & Impulse
Momentum: ; kg-m/s
Impulse: ; N-s
Show that N-s are equivalent to kg-m/s
P��������������
J��������������
![Page 5: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/5.jpg)
Momentum & ImpulseMomentum & Impulse
Momentum: ; kg-m/s
Impulse: ; N-s
Show that N-s are equivalent to kg-m/s
P��������������
J��������������
2
m mN s kg s kg
s s
![Page 6: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/6.jpg)
Golf Ball MomentumGolf Ball Momentum
Mass of golf ball = 0.0459 kg Speed of golf ball leaving tee on
drive = 70 m/s
What is the momentum of the golf ball?
If the golf club is in contact with the ball for 0.5 ms, what is the average force exerted on the ball by the club?
![Page 7: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/7.jpg)
Golf Ball MomentumGolf Ball Momentum
Mass of golf ball = 0.0459 kg Speed of golf ball leaving tee on
drive = 70 m/s
momentum = (mass)(velocity)
P = (0.0459 kg)(70 m/s) = 3.21 kg-m/s
![Page 8: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/8.jpg)
Force on Golf BallForce on Golf Ball
Mass of golf ball = 0.0459 kg Speed of golf ball leaving tee on
drive = 70 m/s
P = 3.21 kg-m/s
P = 3.21 kg-m/s – 0 = 3.21 kg-m/s If the golf club is in contact with the
ball for 0.5 ms, what is the average force exerted on the ball by the club?
net t m ����������������������������F v
0.0005 3.21 /net s kg m s ��������������F
3.21 /6,420
0.0005net
kg m sN
s
��������������F
![Page 9: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/9.jpg)
Decreasing Momentum Over a Long Decreasing Momentum Over a Long TimeTime
Hitting dashboard compared to air bag Landing stiff-legged compared to bending knees Wooden floor compared to tile Catching a baseball
P is fixed value To minimize F, increase t
net t ����������������������������F P
![Page 10: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/10.jpg)
BouncingBouncing
Which undergoes the greatest change in momentum: (1) a baseball that is caught, (2) a baseball that is thrown, or (3) a baseball that is caught and then thrown back, if the baseballs have the same speed just before being caught and just after being thrown?
![Page 11: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/11.jpg)
BouncingBouncing
Which undergoes the greatest change in momentum: (1) a baseball that is caught, (2) a baseball that is thrown, or (3) a baseball that is caught and then thrown back, if the baseballs have the same speed just before being caught and just after being thrown?
(3) because it has twice the momentum change of either (1) or (2)
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Momentum ConservationMomentum Conservation
Newton’s second law can be written:
It tells us that if FFEXT = 0, the total momentum of the system does not change.
The total momentum of a system is conserved if there are no external forces acting.
In physics, when we say a quantity is conserved, we mean that it remains constant.
EXTt
���������������������������� PF
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Momentum ConservationMomentum Conservation
The concept of momentum conservation is one of the most fundamental principles in physics. This is a component (vector) equation.
We can apply it to any direction in which there is no external force applied. You will see that we often have momentum conservation even when energy is not conserved.
EXT t
P
F 0t
P FEXT 0
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Momentum ConservationMomentum Conservation
if mass of each astronaut is 60 kg, and the astronaut on the left is initially moving at 5 m/s, how fast does the pair move after the collision?
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Momentum ConservationMomentum Conservation
if mass of each astronaut is 60 kg, and the astronaut on the left is initially moving at 5 m/s, how fast does the pair move after the collision?
mv = (2m)v’ (60 kg)*(5 m/s) = (120 kg)*v’ v’ = (300/120) = 2.5 m/s
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Big Fish Little FishBig Fish Little Fish
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Big Fish Little fish 2Big Fish Little fish 2
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Brick on CartBrick on Cart
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Elastic vs. Inelastic CollisionsElastic vs. Inelastic Collisions A collision is said to be elastic when colliding objects rebound
without lasting deformation or generation of heat.
Carts colliding with a spring in between, billiard balls, etc.
vvi
A collision is said to be inelastic when the colliding objects become distorted, generate heat, and possibly stick togetherCar crashes, collisions where objects stick
together, etc.
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Momentum ConservationMomentum Conservation
Two balls of equal mass are thrown horizontally with the same initial velocity. They hit identical stationary boxes resting on a frictionless horizontal surface.
The ball hitting box 1 bounces back, while the ball hitting box 2 gets stuck.Which box ends up moving faster?
(a)(a) Box 1 (b)(b) Box 2 (c)(c) same
1 2
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Momentum ConservationMomentum Conservation Since the total external force in the x-direction is zero,
momentum is conserved along the x-axis.
In both cases the initial momentum is the same (mv of ball).
In case 1 the ball has negative momentum after the collision, hence the box must have more positive momentum if the total is to be conserved.
The speed of the box in case 1 is biggest!
1 2
x
V1 V2
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Momentum ConservationMomentum Conservation
1 2
x
V1 V2
mvinit = MV1 - mvfin
V1 = (mvinit + mvfin) / M
mvinit = (M+m)V2
V2 = mvinit / (M+m)
V1 numerator is bigger and its denominator is smaller than that of V2.
V1 > V2
![Page 23: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/23.jpg)
Inelastic collision in 2-DInelastic collision in 2-D Consider a collision in 2-D (cars crashing at a
slippery intersection...no friction).
vv1
vv2
VV
before after
m1
m2
m1 + m2
![Page 24: Momentum Calvin & Hobbes by Bill Watterson Newton’s 2 nd Law Reprise l Newton’s second law l can be written: Impulse = Change in momentum Impulse =](https://reader030.fdocuments.net/reader030/viewer/2022032702/56649cac5503460f9496ead1/html5/thumbnails/24.jpg)
Inelastic collision in 2-D...Inelastic collision in 2-D... We can see the same thing using vectors:
tan p
p2
1
PP
pp1
pp2
PP
pp1
pp2
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Explosion (inelastic un-Explosion (inelastic un-collision)collision)
Before the explosion:M
m1 m2
v1 v2
After the explosion:
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Explosion...Explosion... No external forces, so PP is conserved.
Initially: PP = 0
Finally: PP = m1vv1 + m2vv2 = 0
m1vv1 = - m2vv2
M
m1 m2
vv1 vv2