4.3 please 4.1: What energy is internal to the system (the ball in free-fall)? Is any workinjected or removed from the system during free-fall? What happens to theball in free-fall after it collides with the floor? Describe the ball's motionafter the collision. Where does the energy go during this collision?How much total energy and momentum are in the system prior to thecollision with the ground? (There are a couple of ways to figure these out).4.2:4.3:Now let's consider the system after the collision with the ground. Howmuch total energy and momentum is in the system after the collision withthe ground? (Again, there are a couple of ways to figure these out).Was this an inelastic or elastic collision? Why?How much energy and momentum was lost in the collision? Where did itgo? Discuss this in terms of the free-fall system doing work on thesurrounding environment.

Step-1 There are three cases after the ball collides with the ground, Case-1 If the ball rebounds…

Now let's consider the system after the collision with the ground. How much total energy and momentum is in the system after the collision with the ground? (Again, there are a couple of ways to figure these out). • Was this an inelastic or elastic collision? Why? How much energy and momentum was lost in the collision? Where did it go? Discuss this in terms of the free-fall system doing work on the surrounding environment.

Now let's consider the system after the collision with the ground. How much total energy and momentum is in the system after the collision with the ground? (Again, there are a couple of ways to figure these out). • Was this an inelastic or elastic collision? Why? How much energy and momentum was lost in the collision? Where did it go? Discuss this in terms of the free-fall system doing work on the surrounding environment.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Forms of Energy

Energy is described as the capability to accomplish a task, like the ability to push a block by applying force on it. It is a quantitative property that is used to accomplish work on an object.

Question

4.3 please

4.1: What energy is internal to the system (the ball in free-fall)? Is any work
injected or removed from the system during free-fall? What happens to the
ball in free-fall after it collides with the floor? Describe the ball's motion
after the collision. Where does the energy go during this collision?
How much total energy and momentum are in the system prior to the
collision with the ground? (There are a couple of ways to figure these out).
4.2:
4.3:
Now let's consider the system after the collision with the ground. How
much total energy and momentum is in the system after the collision with
the ground? (Again, there are a couple of ways to figure these out).
Was this an inelastic or elastic collision? Why?
How much energy and momentum was lost in the collision? Where did it
go? Discuss this in terms of the free-fall system doing work on the
surrounding environment.

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