The change in the center-of-mass velocity.
Answer to Problem 39TP
Option (a) There will be no change in the centre-of-mass velocity.
Explanation of Solution
Given:
Mass of A is
Mass of B is
Initial velocity of mass A is
Initial velocity of mass B is
Formula used:
The conservation of momentum to find the center of mass velocity of the bodies before collision is given by
Final velocity after collision will be calculated as
The conservation of momentum to find the center of mass velocity of the bodies after collision is given by
Change in the center of mass velocity of the system after collision is given as
Calculation:
The conservation of momentum to find the center of mass velocity of the bodies before collision is given by
Final velocity after collision will be calculated as
The conservation of momentum to find center of mass velocity of the bodiesaftercollision is given by
Change in the center of mass velocity of the system after collision is given as
Conclusion:
The change in the center of mass velocity of the system after collision is zero. Thus, the correct option is (a).
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Chapter 8 Solutions
COLLEGE PHYSICS (OER)
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