INSTRUCTONS:Show that the total kinetic energy before is the equal to the total kinetic energy after the collisionIN BOTH MAGNITUDE AND DIRECTION.Show all solutions completely.0.5 m0.5 mKinetic Energy = 0.77 J0.00 sMore Data(1)v=1.02 m/sIpl -0.51 kgm/s0.501.50Mass (kg)✔More DataMass (kg)Position (m)Xy0.00-0.200.501.50-1.000.60Kinetic Energy = 0.77 J1.00 sM=1.66 m/sIpl - 0.83 kg misPosition (m)yX-0.800.07-0.300.03v=0.82 m/sIpl = 1.23 kg m/s1.00-0.80Velocity (m/s)Vy-0.180.19NormalSlowM=0,32 m/sIpl -0.48 kg misAFTER COLLISIONMomentum (kg m/s)Px0.50-1.20NormalSlowVelocity (m/s)Vx-1.56 -0.560.050.32Py-0.090.29QMomentum (kg m/s)Px-0.780.08Py-0.280.48Balls2Balls2#0OOROQEVelocityMomentumCenter of MassKinetic EnergyValuesReflecting BorderPathElasticityInelasticConstant SizeMomenta DiagramOQQQOOKtotalVelocityMomentumCenter of MassKinetic EnergyValuesReflecting BorderPathElasticityInelasticConstant Size100%↑↑*ElasticMomenta Diagram↑ ↑ *100%-0

Given:mass of ball 1, m1 = 0.5 kgmass of ball 2, m2 = 1.50 kginital velocity components of ball…

Answered: Show that the total kinetic energy…

Show that the total kinetic energy before is the equal to the total kinetic energy after the collision IN BOTH MAGNITUDE AND DIRECTION. Show all solutions completely.

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Question

INSTRUCTONS:
Show that the total kinetic energy before is the equal to the total kinetic energy after the collision
IN BOTH MAGNITUDE AND DIRECTION.
Show all solutions completely.
0.5 m
0.5 m
Kinetic Energy = 0.77 J
0.00 s
More Data
(1)
v=1.02 m/s
Ipl -0.51 kgm/s
0.50
1.50
Mass (kg)
✔More Data
Mass (kg)
Position (m)
X
y
0.00
-0.20
0.50
1.50
-1.00
0.60
Kinetic Energy = 0.77 J
1.00 s
M=1.66 m/s
Ipl - 0.83 kg mis
Position (m)
y
X
-0.80
0.07
-0.30
0.03
v=0.82 m/s
Ipl = 1.23 kg m/s
1.00
-0.80
Velocity (m/s)
Vy
-0.18
0.19
Normal
Slow
M=0,32 m/s
Ipl -0.48 kg mis
AFTER COLLISION
Momentum (kg m/s)
Px
0.50
-1.20
Normal
Slow
Velocity (m/s)
Vx
-1.56 -0.56
0.05
0.32
Py
-0.09
0.29
Q
Momentum (kg m/s)
Px
-0.78
0.08
Py
-0.28
0.48
Balls
2
Balls
2
#0
OOR
OQE
Velocity
Momentum
Center of Mass
Kinetic Energy
Values
Reflecting Border
Path
Elasticity
Inelastic
Constant Size
Momenta Diagram
OQQQOOK
total
Velocity
Momentum
Center of Mass
Kinetic Energy
Values
Reflecting Border
Path
Elasticity
Inelastic
Constant Size
100%
↑↑*
Elastic
Momenta Diagram
↑ ↑ *
100%
-0

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