Hi there, could I please have some help solving the problem below. Thank you very much in advance. Two particles collide with a normal direction defined: 0.7i+0.714j (eT=0.714i+-0.7j). The first mass has a mass of 4 kg and a velocity of 4i m/s. The second mass has a mass of 6 kg and a velocity of -2i+0j m/s. The collision has a coefficient of restitution of 0.6. 1. Determine the tangential velocity of the second particle after the impact [m/s]. 2. Determine the velocity in the normal direction of the second particle after the impact [m/s]. (eN w.r.t. the collision framework, not the kinematic reference frame system) 3. Determine the velocity in the j-direction of the second particle after the impact [m/s].
Hi there, could I please have some help solving the problem below. Thank you very much in advance. Two particles collide with a normal direction defined: 0.7i+0.714j (eT=0.714i+-0.7j). The first mass has a mass of 4 kg and a velocity of 4i m/s. The second mass has a mass of 6 kg and a velocity of -2i+0j m/s. The collision has a coefficient of restitution of 0.6. 1. Determine the tangential velocity of the second particle after the impact [m/s]. 2. Determine the velocity in the normal direction of the second particle after the impact [m/s]. (eN w.r.t. the collision framework, not the kinematic reference frame system) 3. Determine the velocity in the j-direction of the second particle after the impact [m/s].
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Hi there, could I please have some help solving the problem below. Thank you very much in advance.
Two particles collide with a normal direction defined: 0.7i+0.714j (eT=0.714i+-0.7j). The first mass has a mass of 4 kg and a velocity of 4i m/s. The second mass has a mass of 6 kg and a velocity of -2i+0j m/s. The collision has a coefficient of restitution of 0.6.
1. Determine the tangential velocity of the second particle after the impact [m/s].
2. Determine the velocity in the normal direction of the second particle after the impact [m/s]. (eN w.r.t. the collision framework, not the kinematic reference frame system)
3. Determine the velocity in the j-direction of the second particle after the impact [m/s].
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