Solving 1D Collision Lab: Is it Elastic?

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Homework Help Overview

The discussion revolves around a one-dimensional collision experiment involving two gliders on an air rail, each equipped with rubber band bumpers. The primary question is whether the collision is elastic, based on the data collected during the experiment.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • The original poster attempts to determine the nature of the collision (elastic vs. inelastic) based on their data and expresses confusion regarding momentum loss. Participants question the behavior of rubber bands during the collision and suggest exploring energy transfer and deformation effects.

Discussion Status

Participants are actively engaging with the original poster's observations and providing insights into the nature of rubber bands in collisions. There is a suggestion to conduct additional experiments to further explore the concepts of elasticity and energy transfer, indicating a productive direction in the discussion.

Contextual Notes

The original poster mentions potential issues with data collection and expresses uncertainty about the definitions of elastic and inelastic collisions. The discussion includes references to energy loss and the behavior of materials during collisions.

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Homework Statement


Hello,

I have a question about a one dimensional collision lab done in class. We set up an air rail with two gliders..one at each end. Each glider had a rubber band bumper. We pushed them towards each other and they hit each other and bounced back some. We collected our data..see attachement.


Homework Equations



see attached

The Attempt at a Solution



The question that goes along with this collision is - is this an elastic collision?

Looking at the data I would say no. I am confused however because perfectly elastic, inelastic and elastic collisons should not show a loss of momentum. So I think we must have done something really wrong when we collected our data. Any thoughts?

thanks much
 

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Rubber bands huh?

Your data shows it was an inelastic collision all-right. Rubber bands are good for this. The word "elastic" used by the manufacturer is just marketing - elastic bands are not all that elastic, they are just stretchy.

Where do you think the energy and momentum went?
Did the bumpers go "twang"? Did they heat up?

Here's another experiment for you:

Get a bunch of rubber-bands and join them together so you get one long one.
Suspend it, add weights in even increments (I've done this with 4 bands and 20g washers) and graph the stretched length against weight added.
(predict, before you do, what the shape of the graph will be.)

When you run out of ruler, reverse the process - take weights away, and plot the length against weight as before. (usually you want 20-40 reading total.)
(predict: before you do, what path do you expect the graph to follow?)

Comment on the curves you get.

If you've not done it - do it. You can do this at home.
I count this experiment as essential for learning physics.
 
Thanks for the response.

So what your saying is the rubber bands absorbed the momentum? So the momentum was preserved in the rubber bands? Since they did go twang (stretch)? I am guessing not much heat was generated during the twang. So energy was lost during the stretch(deformation)?
 
Momentum and got transferred to motion in the molecules of the rubber band (heat), as well as motion of air molecules (sound). If you do the experiment I suggested you'll see why.
 
Thanks for the help Simon
 
No worries.

For best effect, repeat the collision experiment with different bumpers.
 

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