Conservation of linear Momentum Theory

In summary, in order to minimize your velocity when standing on a skateboard and having a heavy ball thrown at you, you should catch the ball. This is because of the conservation of momentum, where the momentum of the system (you and the ball) must remain the same. Hitting the ball back would require a greater force and result in a larger reaction force, potentially increasing your momentum.
  • #1
Speedking96
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0

Homework Statement



You are standing on your skateboard, which is at rest. Your friend throws a heavy ball at you. What should you do to minimize your velocity?

A. Catch the ball
B. Hit the ball back with the same velocity
C. Neither, they both have the same effect.

I would say (A). Because if I were to hit the ball, then I would have to provide a greater force to get it going back in the other direction, this would create a larger reaction force on me, which would give me even more momentum.

Is this correct?
 
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  • #2
You're correct but not quite for the right reason. What you have to consider is conservation of momentum. Reaction forces can be large or small depending upon the time over which they occur, but momentum is ALWAYS conserved.

If you start out stationary then your momentum is zero and the ball moving towards you has all the momentum of the "system" that comprises you and the ball. Remember that momentum is a vector quantity! The momentum of the system must retain that same magnitude and direction. Think about how that can be true if you (a) catch the ball, and (b) hit it back. What does it imply for your eventual velocity in each case?
 

Related to Conservation of linear Momentum Theory

1. What is the conservation of linear momentum theory?

The conservation of linear momentum theory states that in a closed system, the total momentum before a collision or interaction is equal to the total momentum after the collision or interaction, provided that no external forces are acting on the system.

2. Why is the conservation of linear momentum important?

The conservation of linear momentum is important because it is a fundamental law of nature that governs the behavior of objects in motion. It allows us to predict and understand the motion of objects and systems, and is a key concept in many areas of physics.

3. How is the conservation of linear momentum applied in real-world situations?

The conservation of linear momentum can be applied in various real-world situations, such as collisions between objects, rocket propulsion, and the motion of celestial bodies. It is also used in engineering and design to ensure the safety and efficiency of structures and vehicles.

4. Are there any exceptions to the conservation of linear momentum?

There are no known exceptions to the conservation of linear momentum. However, in certain situations, it may appear that momentum is not conserved, but this is due to external forces that are not accounted for or are too small to be measured.

5. How does the conservation of linear momentum relate to other laws of physics?

The conservation of linear momentum is closely related to other fundamental laws of physics, such as the law of inertia, Newton's laws of motion, and the law of conservation of energy. In fact, the conservation of linear momentum is often used in conjunction with these laws to analyze and understand physical phenomena.

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