Momentum Conservation
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Transcript Momentum Conservation
Momentum Conservation
Law of Action Redefined
Newton originally framed the second law
(acceleration) in terms of momentum, not velocity.
• The rate of change in momentum is proportional to the net
force and the change is in the same direction as the force
Initial
momentum
Rocket: has
momentum
Force:
changes
momentum
Final
momentum:
changed by
the force
p
F
t
Bounce
A falling ball has a
momentum.
After hitting the floor there
has been a change in
momentum.
The change is due to a force
from the floor.
pf
pi
FN
Two Balls
Two balls fall at the same
rate due to gravity, but with
different momenta.
Ball 1 bounces from the
ground.
Ball 2 bounces from ball 1.
pf2
pi2
pf1
pi1
Two Bodies
When two bodies strike each other they exert a force
on each other.
The forces are equal and opposite.
F12
F21
Momentum Change
If two forces are equal in magnitude, then the
changes in momentum are equal in magnitude.
F12
pf1
pi1
F21
pi2
pf2
F21
p f 1 pi1
t
F12
p f 2 pi 2
t
Internal Forces
Two objects can be
considered together.
This is called a system.
The internal forces cancel
out from the law of reaction.
The external forces remain.
F12
Fg2
F21
Fg1
Isolated System
A system with no external forces is isolated.
• Only internal forces that cancel out
The net change in momentum for all internal forces
must be zero.
Total momentum in an isolated system is constant.
• Zero change means constant value
Law of Reaction Redefined
The law of reaction can be defined in terms of
momentum.
• In an isolated system the total momentum is conserved.
total momentum of the rocket
and gas stays the same
Fint 0
rocket
hot gas is
forced out
reaction force acts
on the rocket
rocket
momentum
increases
p CONSTANT
Double Bounce
Initially both balls
go down together
with the same
velocity.
The lower ball
gets a force from
the floor and
changes
momentum.
pi2
pi1
The lower ball
hits the upper
ball and
momentum is
conserved
between the
balls.
pf2
pi2
pf1
pm1
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