For each run of your elastic and inelastic collision experiment, observe the initial momentum and the final momentum. Does your data indicate conservation of momentum? (NOTE: Please see the attached photos of the values of masses velocities, and momentum in order to answer the question.)
For each run of your elastic and inelastic collision experiment, observe the initial momentum and the final momentum. Does your data indicate conservation of momentum? (NOTE: Please see the attached photos of the values of masses velocities, and momentum in order to answer the question.)
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter28: Special Relativity
Section: Chapter Questions
Problem 37PE: (a) Find the momentum of a 1.00109 kg asteroid heading towards the Earth at 30.0 km/s. (b) Find the...
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For each run of your elastic and inelastic collision experiment, observe the initial momentum and the final momentum. Does your data indicate conservation of momentum? (NOTE: Please see the attached photos of the values of masses velocities, and momentum in order to answer the question.)

Transcribed Image Text:Mass
Initial
Initial
Total
Final
Final
Total
Trials
(kg)
Velocities
Momentum
Initial
Velocities
Momentum
Final
(m/s)
(kg m/s)
Momentum
(m/s)
(kg m/s)
Momentum
(kg m/s)
(kg m/s)
mı= 0.50
Vi= 1.25
pi= 0.625
vị = -1.75
v2 = 0.50
pi= -0.88
p2= -0.50
Trial 1
m2= 1.00
V= -1.00
p= -0.375
p=-1.25
p2= -1
mį= 1.35
Vi= 0.80
vi = -1.12
V2 = 1.28
pi= 1.08
pi= -1.51
p2= 1.15
Trial 2
m2= 0.90
Vz= -1.60
p= -0.36
p= -0.36
p2= -1.44

Transcribed Image Text:Mass
Initial
Initial
Total
Final
Final
Total
(kg)
Velocities
Momentum
Initial
Velocities
Momentum
Final
Trials
(m/s)
(kg m/s)
Momentum
(m/s)
(kg m/s)
Momentum
(kg m/s)
(kg m/s)
pi= -0.13
P2= - 0.25
pi=-1.51
P2= 1.15
vi = -0.25
v2= -0.25
mi= 0.50
vi= 1.25
pi= 0.625
Trial 1
p= -0.375
p= -0.38
m3= 1.00
V= -1.00
P2= -1
pi= 1.08
P2= -1.44
vi = -1.12
V2 = 1.28
mi= 1.35
Vi= 0.80
Trial 2
p= -0.36
p= -0.36
m2= 0.90
V½= -1.60
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