Two gliders on a frictionless linear air track have a collision with a coefficient of restitution of e = 0.48, as shown in the figure. A B Glider A has a mass of mA = 1.4 kg and is moving to the right with a speed of vμ = 4 m/s before the collision. Glider B has a mass of m µ = 5.5 kg and is moving to the right with a speed of vB = 1.4 m/s before the collision. What is the velocity of A after the collision () with reference to the coordinate system shown? A Number Units What is the velocity of B after the collision (') with reference to the coordinate system shown? Number Units
Two gliders on a frictionless linear air track have a collision with a coefficient of restitution of e = 0.48, as shown in the figure. A B Glider A has a mass of mA = 1.4 kg and is moving to the right with a speed of vμ = 4 m/s before the collision. Glider B has a mass of m µ = 5.5 kg and is moving to the right with a speed of vB = 1.4 m/s before the collision. What is the velocity of A after the collision () with reference to the coordinate system shown? A Number Units What is the velocity of B after the collision (') with reference to the coordinate system shown? Number Units
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Transcribed Image Text:Two gliders on a frictionless linear air track have a collision with a coefficient of restitution of e=0.48, as shown in the figure.
A
B
Glider A has a mass of mA = 1.4 kg and is moving to the right with a speed of A = 4 m/s before the collision.
Glider B has a mass of mp = 5.5 kg and is moving to the right with a speed of vB = 1.4 m/s before the collision.
What is the velocity of A after the collision (₁) with reference to the coordinate system shown?
Number
Units
What is the velocity of B after the collision (v
(VB) with reference to the coordinate system shown?
Number
Units
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