Questions: Part B Now, consider the collision between two happy balls described in Part A. How much of the balls' kinetic energy is dissipated? View Available Hint(s) None of it Half of it All of it : Submit Next>

Part B

Now, consider the collision between two happy balls described in Part A. How much of the balls' kinetic energy is dissipated?

View Available Hint(s)
None of it
Half of it
All of it :
Submit
Next>

Transcript text: Part B Now, consider the collision between two happy balls described in Part A. How much of the balls' kinetic energy is dissipated? View Available Hint(s) None of it Half of it All of it : Submit Next>

Solution

Solution Steps

Step 1: Understanding the Problem

We need to determine how much of the kinetic energy is dissipated in a collision between two "happy" balls. "Happy" balls typically refer to balls that are perfectly elastic, meaning they do not lose kinetic energy during collisions.

Step 2: Analyzing Elastic Collisions

In an elastic collision, both momentum and kinetic energy are conserved. This means that the total kinetic energy before the collision is equal to the total kinetic energy after the collision.

Step 3: Conclusion Based on Elastic Collision Properties

Since the balls are described as "happy" and we assume they are perfectly elastic, none of the kinetic energy is dissipated during the collision.