A particle of mass m, = 1.50 kg and initial velocity U1, i = (9.30 i + 8.00 j) m/s collides with the second particle of mass m2 = 3.00 kg initially at rest. After the collision, the velocity of the first particle is ,f = (3.10 î – 4.00 ĵ) m/s . Find the velocity of the second particle after the collision. (a) x component of the velocity: V2,f,x = (No Response) 3.100 m/s (b) y component of the velocity: V2,f,y = (No Response) 6.000 m/s
A particle of mass m, = 1.50 kg and initial velocity U1, i = (9.30 i + 8.00 j) m/s collides with the second particle of mass m2 = 3.00 kg initially at rest. After the collision, the velocity of the first particle is ,f = (3.10 î – 4.00 ĵ) m/s . Find the velocity of the second particle after the collision. (a) x component of the velocity: V2,f,x = (No Response) 3.100 m/s (b) y component of the velocity: V2,f,y = (No Response) 6.000 m/s
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter9: Dynamics Of A System Of Particles
Section: Chapter Questions
Problem 9.36P: In an elastic collision of two particles with masses m1 and m2, the initial velocities are u1 and u2...
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can you please provide the equations and how to solve these problems, thank you
Transcribed Image Text:A particle of mass m, = 1.50 kg and initial velocity U = (9.30 i + 8.00 j) m/s collides with the second particle of mass m2 = 3.00 kg initially at rest. After
the collision, the velocity of the first particle is u1, f = (3.10 î – 4.00 ĵ) m/s .
Find the velocity of the second particle after the collision.
(a) x component of the velocity:
V2,f,x
(No Response)
3.100 m/s
(b) y component of the velocity:
V2,f,y
(No Response)
6.000 m/s
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