Wood Car Ramp Impacts: Will Bouncing Affect Force?

AI Thread Summary
The discussion centers on the dynamics of a wooden car with two eggs as passengers descending a ramp and colliding with a cement block. The impact's nature is analyzed through the lens of collision types: elastic, inelastic, and plastic. A key focus is on how bouncing affects the force experienced during impact. In a perfectly elastic collision, the object retains some speed post-impact, while in a perfectly inelastic collision, it comes to a complete stop. The conversation highlights that the average acceleration experienced during the collision is influenced by whether the object bounces back or sticks to the surface. A bouncing ball experiences a larger average acceleration compared to one that sticks, as it undergoes a greater change in velocity over the same time interval. The implications of these collision types on force and acceleration are crucial for understanding the overall impact dynamics in this scenario.
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Situation: A wood car with 2 eggs as passengers goes down a 2.43 meter ramp at 40 degrees. The car has a crumple zone on the front to absorb some impact. If the car bounces when it hit the cement block at the end of the ramp, how will the bouncing affect the force the car experiences on impact?
 
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Have you studied the difference between an elastic, inelastic, and plastic collision?
 
I've studied the different collisions a little, but I still don't understand what affects of the different types of collisions.
 
Lets assume a perfectly elastic collision versus a perfectly inelastic collision (plastic). So a typical example is a steel ball and a round piece of putty both striking a very hard surface.

If you look at the speed over time, and use the same interval for the collision time, what happens in terms of acceleration forces?

We know the steel ball starts at X speed and ends up at X speed, whereas the putty starts at the same X speed and ends up at zero.

Cliff
 
The force is a vector, and is proportional to the acceleration, which is also a vector.

Given that the acceleration is a vector, which system represents a larger average acceleration? A ball hitting a wall and sticking to it, or a ball hitting a wall and bouncing backwards?
 

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