What is the Velocity of Gliders A and B in an Inelastic Collision?

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Homework Help Overview

The discussion revolves around an inelastic collision between two gliders on an air track, focusing on calculating their velocities post-collision. The problem involves concepts from mechanics, specifically momentum conservation and the differences between elastic and inelastic collisions.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster expresses confusion regarding the calculation of velocities in an inelastic collision, contrasting it with their understanding of elastic collisions. Some participants suggest using the conservation of momentum to find the common velocity after the collision.

Discussion Status

Participants have provided guidance on setting up the conservation of momentum equation for the inelastic collision. The original poster acknowledges understanding the concept better after receiving input from others.

Contextual Notes

The discussion includes assumptions about the nature of the collision being completely inelastic and the need to consider momentum rather than kinetic energy in this context.

KU_Mustang
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Given:

Two gliders on an air track collide. Glider A has a mass of 0.269 kg and is moving in the +x direction with a speed of 1.07 m/s. Glider B has a mass of 0.330 kg and is moving in the -x direction with a speed of 0.675 m/s. a) What is the velocity of A and B if the collision is completely inelastic? Calculate the velocities of b) A and c) B if the collision is completely elastic.

Im stuck on solving for the veloctiy of A + B if it in inelastic. I understand how to do it if it is elastic, just not sure what to do when KE is transfered.
 
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If the collision is completely inelastic then you don't need to worry about the energy.

setup the conservation of momentum equation like this:
m1v1 + m2v2 = (m1 + m2) v3
(m1 + m2) because they are stuck together post collision.

you have m1, m2, v1 and v2 so just solve for v3.
 
COMPLETELY inelastic means that the two objects stick together and move as one after the collision so you only have one variable, the common speed after the collision.
Before the collision, A's momentum was 0.269(1.07) kg and B's momentum was (0.33)(-0.675) so the total momentum was (0.269)(1.07)-(0.33)(0.675). Their joint momentum after the collision is (0.260+0.33)v. Set those equal and solve for v.
 
Thank you so much. I really do understand it now.
 

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