Where Does the Energy Go When Gravity Changes an Asteroid's Trajectory?

In summary, the conservation of energy is not violated in the scenario described. The potential energy between the asteroid and Earth is converted into kinetic energy, thus maintaining the overall energy balance. The gravitational field between the two bodies remains unchanged as it continuously provides potential energy to the asteroid. The impact of this interaction may be negligible due to the difference in mass between the two bodies.
  • #1
ofirgil
2
0
Hi,

I would like some help with the following question that has been bothering me.

If energy is not created or destroyed then how does the following work:

Consider an asteroid traveling close enough to the Earth to have its trajectory changed due to the gravitational interaction with the earth. The asteroid is far enough so it passes by, and does not fall to Earth or travel through the atmosphere. Energy was used to change its trajectory that is an outcome of the gravitational interaction (force was exerted and work was done). The gravitational field of Earth or the asteroid are not change since they are related to their respective masses which were not changed. In fact you can have a new asteroid travel like that every second with no depletion of Earth’s gravitational field. This seems like unlimited free energy being used.

Any ideas on where the energy that is used to change the trajectory is taken away from? Where do we see depletion in energy?

Thanks for your help.
 
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  • #2
You should consider picking up an introductory conceptual physics textbook.

The energy would begin as 'potential energy,' (stored in the gravitational field between the two bodies), and would then be converted to kinetic energy (although that doesn't necessarily happen in all cases, e.g. a stable orbit).
 
  • #3
I understand that.
I am looking for the source of the potential energy.
Once the asteroid received the potential energy it will spend it as kinetic. That’s obvious.
Remember that the potential energy source is the gravitational field. As it is “giving” the energy to the asteroid it is not depleted in any way.
 
  • #4
ofirgil said:
Hi,

I would like some help with the following question that has been bothering me.

If energy is not created or destroyed then how does the following work:

Consider an asteroid traveling close enough to the Earth to have its trajectory changed due to the gravitational interaction with the earth. The asteroid is far enough so it passes by, and does not fall to Earth or travel through the atmosphere. Energy was used to change its trajectory that is an outcome of the gravitational interaction (force was exerted and work was done). The gravitational field of Earth or the asteroid are not change since they are related to their respective masses which were not changed. In fact you can have a new asteroid travel like that every second with no depletion of Earth’s gravitational field. This seems like unlimited free energy being used.

Any ideas on where the energy that is used to change the trajectory is taken away from? Where do we see depletion in energy?

Thanks for your help.

There is no violation of the conservation of energy here. Every mass in the universe has energy between every other mass in the universe. This energy is called gravitational potential energy. The change in gravitational potential energy and the change of kinetic energy between any two objects will always be zero in isolation. Just because an asteroid speeds up, doesn't mean that energy is being created and added to the asteroid. The potential energy is being converted into kinetic energy. Therefore, energy is still conserved
 
  • #5
The thing is, these two things are contradictory:

ofirgil said:
That’s obvious.
Remember that the potential energy source is the gravitational field. As it is “giving” the energy to the asteroid it is not depleted in any way.
ofirgil said:
The gravitational field of Earth or the asteroid are not change since they are related to their respective masses which were not changed.

Grav. field can't both "give" away its energy, and have the grav field "not change"d in anyway.
As I said. You should get an introductory conceptual physics textbook.
 
  • #6
An asteroid passing close to our Earth WILL alter the Earth's' rotation, trajectory around the sun, or both.
However, considering the mass difference, this effect may not even be measurable with current instrumentation; thus, the effect might have a negligible influence.
 

1. How does energy produced using gravity work?

Energy produced using gravity is the conversion of the potential energy of an object at a higher altitude to kinetic energy as it falls to a lower altitude. This kinetic energy can then be harnessed and converted into electricity.

2. What are some examples of energy produced using gravity?

Some examples of energy produced using gravity include hydroelectric power plants, where the gravitational force of falling water is used to turn turbines and generate electricity, and gravity-based energy storage systems, where heavy objects are lifted to a higher altitude and then released to generate energy as they fall.

3. What are the advantages of energy produced using gravity?

One advantage of energy produced using gravity is that it is a renewable and sustainable source of energy, as gravity will always exist and objects will always have potential energy when lifted to a higher altitude. It also does not produce greenhouse gas emissions or other pollutants.

4. Are there any limitations to energy produced using gravity?

One limitation of energy produced using gravity is that it requires specific geographical features, such as large bodies of water or steep hills, to generate significant amounts of energy. It also requires a significant initial investment for infrastructure and technology.

5. How does energy produced using gravity compare to other renewable energy sources?

Compared to other renewable energy sources, such as solar and wind, energy produced using gravity is more consistent and reliable, as it does not depend on weather conditions. However, it may not be as widely available and may have higher initial costs.

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