- In this weeks lab, we measured the patterns in velocity when two things collide. we did this by having two carts, both .25 kg, collide with each other. We did trials with elastic, and inelastic collisions. For the elastic collision, the cart's spring launchers were facing each other which made them bounce away from each other after they collided. During the inelastic collision, the cart's Velcro ends were facing each other, causing them to stick together and stop moving. A picture of our inelastic collision, BEFORE the collision, is shown below:
We defined momentum as mass in motion, giving us the equation: p=mv- After we calculated everything and filled out the chart to the right, we were asked to find the amount of Momentum (p) and Kinetic Energy(KE or just K) that was lost during the collision to our surroundings.
- For the elastic collision, 19.61% of the kinetic energy was lost to surroundings, and only 1.71% of momentum was lost! In the inelastic collision, more kinetic energy was lost compared to momentum as well.
- From this, we concluded that in a collision, energy is often lost to the surroundings, but momentum is conserved.
- P total before=P total after
ENDURING QUESTION:
- Why is it that in the inelastic collision, the carts came to a standstill when they collided?
Remember above when i said that momentum is conserved, therefore the momentum before and after a collision are the same? Well if we break down momentum (p) into mass (m) times velocity (v), and recognize that a cart moving to the right has a positive momentum, and a cart moving to the left has a negative momentum, we could conclude something like the picture below:
REAL-WORLD CONNECTION:
This lab made me think of playing pool, considering there is more than one ball and they collide on the table all the time. If i were to hit a pool ball with my pool stick, this ball would have momentum. Then when this ball is moving across the pool table with a certain velocity and collides with another pool ball, both of these balls now have momentum because the momentum from the first ball was transferred and conserved. Considering these balls are not going to stick together, the balls will most likely move apart from each other.
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