Kinetic Energy Gain: Why Is There a Difference?

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In summary, the gain in kinetic energy as recorded by the person in the car, when a ball is thrown with speed v relative to themselves, will be mv2/2. However, for an observer on the ground, the change in kinetic energy will be m[v2 + 2uv]/2, where u is the speed of the car and v is the speed of the ball. This difference in energy gain is due to the fact that there is a difference in how much the kinetic energy of the Earth and the car has changed. This can be better understood by imagining a roller skater throwing a brick or a ball and considering the momentum energy of the skater.
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WiFO215
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Say a car is moving with speed u. The guy in the car chucks a ball with speed v relative to himself. The gain in KE,as recorded by him will be mv2/2. For an observer on the ground, i.e. non-moving frame, the change in kinetic energy is [(v+u)2 - u2]m/2 = m[v2 + 2uv]/2. Why is there a difference in energy gained? I am not able to put my finger on it.
 
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Because there is a difference in how much the kinetic energy of the Earth and car has changed. (Do the math, imagine what happens when a roller-skater throws a brick.)

There was a long thread here previously about "DDWFTTW" propulsion, and your topic is the reason why it never made much sense there to argue (without agreeing on a reference frame) whether the cart's power was "coming from" either the air at the propeller or the ground at the wheels.
 
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  • #3
I'm going to use the example Cesiumfrog used.

Think of a roller skater throwing a ball or a brick, the amount of energy the object thrown has is not just the energy that the roller skater threw the object, but also the momentum energy the roller skater had while he threw it
 

Related to Kinetic Energy Gain: Why Is There a Difference?

1. What is kinetic energy gain?

Kinetic energy gain is the increase in energy that an object gains as it moves or accelerates. It is a result of the object's motion and is directly related to its mass and velocity.

2. Why is there a difference in kinetic energy gain?

The difference in kinetic energy gain is due to the difference in mass and velocity between two objects. The greater the mass and velocity of an object, the more kinetic energy it will gain compared to an object with a lower mass and velocity.

3. How is kinetic energy gain calculated?

Kinetic energy gain is calculated using the formula KE = 1/2mv2, where m is the mass of the object and v is its velocity. This formula shows that kinetic energy gain is directly proportional to both mass and velocity.

4. What factors can affect kinetic energy gain?

Aside from mass and velocity, other factors that can affect kinetic energy gain include air resistance, friction, and the presence of external forces such as gravity or electromagnetic forces. Changes in these factors can result in a difference in kinetic energy gain between two objects.

5. How is kinetic energy gain important in real-life applications?

Kinetic energy gain is important in various real-life applications, including transportation, sports, and industrial processes. It helps in understanding the behavior of moving objects and in designing efficient and safe systems that involve motion and acceleration.

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