Gravitational Stress: Source of Energy for Orbiting Bodies

In summary: The Earth's gravity acts as a medium for energy exchange as water flows downhill, turning turbines and generating electricity.
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T S Bailey
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Orbiting bodies are often stressed and twisted by the tidal forces of the larger body. My question is, if these stresses cause the planet to heat up then what system provides the energy to do this? Does the larger body lose energy? Can the gravitational field act as a medium for energy exchange?
 
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T S Bailey said:
if these stresses cause the planet to heat up then what system provides the energy to do this?

The general answer is, it depends. :wink:

Let's take the innermost large moon of Jupiter, Io, as an example. Io is heated by the tidal effect of Jupiter. What else happens to the Jupiter-Io system in the process? At least two possible things can happen: Jupiter's rotation rate can slow down; or Io's orbital motion can change. Both of these involve energy being taken from some other part of the system and put into heating Io: in the first case, Jupiter's rotational kinetic energy is the source; in the second, Io's orbital kinetic energy is the source. In general, both are possible, but it is not necessarily true that both will take place in a particular case.

T S Bailey said:
Does the larger body lose energy?

It can, but it does not necessarily have to, as the above example shows.

In fact, it is even possible for the larger body to gain energy in the process of tidal interaction. If the larger body is not rotating at all, then the effect of tidal interaction will be to start the larger body rotating; so in addition to any heating of the smaller body, energy also has to be supplied to increase the rotational kinetic energy of the larger body. In this case, the smaller body's orbital kinetic energy will have to decrease.

T S Bailey said:
Can the gravitational field act as a medium for energy exchange?

This is the easiest of your questions to answer; the answer is yes, as the above examples clearly show.
 
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  • #3
T S Bailey said:
Can the gravitational field act as a medium for energy exchange
PeterDonis' answer above is correct and pretty complete. I will just point out that gravity as a means of energy exchange is not just theoretical, but it is the basis for hydroelectric power.
 
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Related to Gravitational Stress: Source of Energy for Orbiting Bodies

1. What is gravitational stress?

Gravitational stress is the force that two objects with mass exert on each other due to the gravitational pull between them. It is a fundamental force of nature that is responsible for keeping planets in orbit around the sun and moons in orbit around planets.

2. How does gravitational stress provide energy for orbiting bodies?

When an object is in orbit around a larger object, it is constantly experiencing gravitational stress. This stress causes the orbiting body to accelerate towards the larger object, which in turn increases its kinetic energy. This kinetic energy can then be converted into other forms of energy, such as heat or potential energy.

3. Can gravitational stress be harnessed as a source of energy?

While gravitational stress is a significant source of energy for orbiting bodies, it is currently not feasible to harness it as a source of energy on Earth. The amount of energy produced would be minimal compared to the resources and technology required to capture and convert it.

4. How does the distance between two objects affect gravitational stress?

The force of gravitational stress between two objects decreases as the distance between them increases. This is described by Newton's Law of Universal Gravitation, which states that the force is inversely proportional to the square of the distance between the objects. Therefore, the closer two objects are, the stronger the gravitational stress between them.

5. Can gravitational stress cause changes in an object's orbit?

Yes, gravitational stress can cause changes in an object's orbit. For example, if a third object with a significant mass passes by an orbiting body, it can exert a gravitational force that alters the object's orbit. This is known as a gravitational perturbation and can result in changes in the orbit's shape, direction, or speed.

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