Coefficient of restitution definition

AI Thread Summary
The coefficient of restitution (e) is defined as the ratio of the relative velocities of two colliding objects before and after impact, expressed as e = |v2 - v1| / |u2 - u1|. The variables u1 and u2 represent the initial velocities of the objects, while v1 and v2 represent their final velocities after the collision. In the example provided, u1 is 5 m/s for particle a, u2 is 0 m/s for particle b, v1 is -2 m/s for particle a, and v2 is 4 m/s for particle b. The discussion clarifies that these values can yield a coefficient of restitution greater than 1, indicating an unusual scenario where kinetic energy is not conserved. This highlights the importance of understanding the direction and magnitude of velocities in collision analysis.
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[SOLVED] coefficient of restitution

Homework Statement


My book defines the coefficient of restitution as

\epsilon = \frac{|v_2-v_1|}{|u_2-u_1|}

but does not really explain what u_1, u_2, v_1, and v_2 mean. Those terms are all scalars since the coefficient of restitution only "works" in one direction. But do they mean the difference between the magnitudes of the initial and final velocities? I am asking whether those terms can be negative depending on the direction the particles are moving after the collisions.

Homework Equations


The Attempt at a Solution

 
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Just one dimensional scalars. u1 means velo of object 1 before impact etc. The velocities used are the components pointing along the direction of impact. If u1 and u2 point in opp dircn, they have to be added.

So, e = magnitude of relative velo after impact/mag of rel velo before impact.
 
Last edited:
Shooting star said:
Just magnitudes and scalars.

I'm not really sure that you answered my question. Here is an example.

Suppose particle a and particle b live on a line.

Suppose b is initially at rest. Suppose a is traveling at 5 m/s from the left towards b. After the collision, a travels at 2 m/s to the left and b travels at 4 m/s to the right. What are u1,u2,v1,v2?
 
(Pl read the my edited 1st post.)


u1=5, u2=0, v1=-2, v2=4.

mod(u2-u1)=5,
mod(v2-v1)=mod[4-(-2)]=6.

(Here, e>1 !)
 
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