1350Kg tuned up Civic moving at 15m/s hits a 1450Kg car moving at 12m/s

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Homework Help Overview

The discussion revolves around the topic of collisions, specifically elastic and inelastic collisions, using a scenario involving two cars with given masses and velocities. The original poster seeks assistance in determining the final velocities of the cars after the collision.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the conservation laws applicable to elastic and inelastic collisions, noting the need for two equations in the elastic case and one in the inelastic case. The original poster expresses difficulty in solving for the final velocities, particularly in the inelastic scenario.

Discussion Status

Some participants have provided guidance on the conservation of momentum and kinetic energy, while others have noted the need for specific calculations. The original poster has made some progress with the elastic collision but remains uncertain about the inelastic case.

Contextual Notes

The original poster mentions an upcoming lab related to collisions, indicating a time constraint for understanding the concepts discussed. There is also a reference to a change in the frame of reference used in calculations, which may affect the approach taken.

DrVirus
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Im not really good at elastic and inelastic collisions,, can someone help me with collisions please.

In the movie the fast and the furious, a 1350Kg tuned up Civic moving at 15m/s hits a 1450Kg car moving at 12m/s. Determine the final velocity of the cars if (a) the collision was elastic AND (b) the collision was inelastic.

THank you for any help you can give.
 
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DrVirus,
you have 2 unknowns (the final velocities).

In an elastic collision, both momentum and kinetic energy are conserved. So 2 equations, fine.

In an inelastic collision, only momentum is conserved. To get the 2nd equation, you usually assume that the bodies stick together after collision.
 
Well, its been an hour since i posted the question. I got the first part for elastic collision right.. but the inelastic i can't solve it, can someone show me how to solve it, because then tomorrow i have a lab that has to do with collisions and i have to understand this. Thanks a lot
 
As I said:
Momentum: pfinal=pinitial
Sticking: v1,final=v2,final=:vfinal
=>
(m1+m2)vfinal=pinitial

You have calculated pinitial in part (a), haven't you?
 
No, i didnt solve for Pi. i used an equation that works with elastic collision only and has to have V2 as 0. so i change the frame of reference to be 0, and changed it back after i got the answer.
 
pinitial=m1v1,initial+m2v2,initial

Just plug in.
 

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