How Does the Oberth Effect Relate to Energy Conservation in Space Propulsion?

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In summary, the Oberth effect describes the phenomenon where a rocket can gain extra kinetic energy at infinity by burning its propellant while it is moving at a maximum velocity. This is possible because the propellant carries both chemical and kinetic energy, and by burning it at high speeds, more kinetic energy can be transferred to the rocket. This effect can be explained by the rocket's fuel having a constant total energy, but by burning it at higher speeds, more kinetic energy can be siphoned off. The benefits of the Oberth effect can be accounted for in various ways, such as considering the energy in the rocket fuel or the work done by the rocket motor.
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metastable
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pervect said:
otherwise we'd have a paradox where converting chemical energy into electricity and then a magnetic field would change the mass of the system at infinity which is impossible.
I'm confused on this point. This seems similar to the description of an oberth manuever, in which a craft derives extra kinetic energy at infinity from its propellant than would otherwise be possible, by burning its propellant while the propellant's kinetic energy is at a maximum with respect to a gravity well.

https://en.wikipedia.org/wiki/Oberth_effect
"At very high speeds the mechanical power imparted to the rocket can exceed the total power liberated in the combustion of the propellant; this may also seem to violate conservation of energy. But the propellants in a fast-moving rocket carry energy not only chemically, but also in their own kinetic energy, which at speeds above a few kilometres per second exceed the chemical component. When these propellants are burned, some of this kinetic energy is transferred to the rocket along with the chemical energy released by burning."
 
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metastable said:
I'm confused on this point. This seems similar to the description of an oberth manuever, in which a craft derives extra kinetic energy at infinity from its propellant than would otherwise be possible, by burning its propellant while the propellant's kinetic energy is at a maximum with respect to a gravity well.
You can account for the benefits in various ways.

If you are far outside any gravity well, consider the energy in the rocket fuel. It starts with high velocity and correspondingly high kinetic energy. When burned, it is exhausted at a lower velocity and low kinetic energy.

Or consider the work done by the rocket motor. For a fixed thrust, pushing against a high speed object produces more power than pushing against a low speed object.

Nothing changes much in a gravity well. In a free fall trajectory, the fuel has a constant total energy (chemical plus kinetic plus potential) no matter where you burn it. But if you burn it while it is moving faster, you siphon off more kinetic energy than if you burn it while it is moving more slowly.
 

Related to How Does the Oberth Effect Relate to Energy Conservation in Space Propulsion?

1. What is the Oberth Maneuver?

The Oberth Maneuver is a space travel technique that utilizes the gravitational pull of a planet or other celestial body to increase the velocity and efficiency of a spacecraft's propulsion system. It was first proposed by German physicist Hermann Oberth in the early 20th century.

2. How does the Oberth Maneuver work?

The Oberth Maneuver involves performing a burn or firing the spacecraft's engines while it is in close proximity to a planet or other celestial body. This allows the spacecraft to take advantage of the increased velocity gained from the gravitational pull of the body, resulting in a more efficient use of fuel and a greater increase in velocity.

3. What are the benefits of using the Oberth Maneuver?

The Oberth Maneuver can significantly reduce the amount of fuel needed for a spacecraft to achieve a desired velocity, making it a more cost-effective and efficient method of space travel. It can also allow for faster travel times and greater flexibility in mission planning.

4. Are there any risks or limitations to using the Oberth Maneuver?

One potential risk of using the Oberth Maneuver is the possibility of a miscalculation or error in the trajectory, which could result in the spacecraft colliding with the planet or other celestial body. Additionally, the Oberth Maneuver may not be suitable for all types of space missions and may require precise timing and positioning.

5. Has the Oberth Maneuver been used in real space missions?

Yes, the Oberth Maneuver has been used in various space missions, including NASA's Voyager and Cassini missions, as well as the European Space Agency's Rosetta mission. It has also been used in interplanetary missions by countries such as Japan and China.

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