Free Orbit Insertion: Is it Possible?

In summary, the conversation discussed the possibility of a mass from outer space orbiting the Earth without a change in energy. While one person believed this was mathematically feasible, the other argued that it would require a change in kinetic energy. It was mentioned that objects within our solar system can be captured and start orbiting larger planets, but if the object originated from outside the solar system, it is unlikely to be affected by gravitational interactions within our solar system.
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pasanta
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TL;DR Summary
General querie about a recnt discussion with a collegue
Good evening,

This week I had a discussion/conversation with one of my coworkers about the posibility of a mass from outer spate that could start orbiting the earth. The issue is, I believe you cannot, whithout a proper change of energy (velocity) start orbiting a celestial body just by coming whithin its sphere of influence. My friend, however, argued that although basically impossible it is mathematically feasible to do just that and a body could start orbiting another indefinetely.

I would appreciate if you guys gave us some insight on whether this is possible or, indeed, you would need to temper with the bodys kynetic energy.

Thanks in advance!
 
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  • #2
If the body is coming ni from infinity, it has the energy needed to return to infinity. You need to remove energy, perhaps by an interaction with the moon.
 
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If some other process can slow it down enough (likely the gravtational influence from another solar system body) then yes it could be captured and start orbiting.

When you say outer space do you mean originating from within our solar system? If so the larger gas giants have captured objects that now orbit them that originated within our solar system.

If you mean from outside the solar system, then any such objects are likely to have such a large velocity that no gravitation interactions taking place within the solar system are likely to be able to slow it down enough, not unless the object is very small, probably too small for us to even detect.
 

1. Is it possible to insert a spacecraft into orbit without using any fuel?

No, it is not currently possible to insert a spacecraft into orbit without using any fuel. In order to achieve orbit, a spacecraft must reach a certain velocity and altitude, which requires energy. However, there are ongoing research and development efforts to create more efficient propulsion systems that may reduce the amount of fuel needed for orbit insertion.

2. Can a spacecraft use a gravitational slingshot maneuver for free orbit insertion?

Yes, a spacecraft can use a gravitational slingshot maneuver to gain speed and change its trajectory without expending any fuel. This technique involves using the gravitational pull of a planet or other celestial body to accelerate the spacecraft and change its direction.

3. What factors determine the feasibility of free orbit insertion?

The feasibility of free orbit insertion depends on several factors, including the spacecraft's mass, its initial velocity and altitude, the gravitational pull of the target planet or body, and the presence of any atmospheric drag. Some of these factors can be controlled or optimized through careful mission planning and the use of advanced propulsion systems.

4. Are there any successful examples of free orbit insertion in space missions?

Yes, there have been several successful examples of free orbit insertion in space missions. For instance, the Cassini spacecraft used a gravitational slingshot maneuver to enter orbit around Saturn, and the Juno spacecraft used a similar technique for its orbit insertion around Jupiter. These missions demonstrate the feasibility and effectiveness of using free orbit insertion techniques.

5. What are the potential benefits of free orbit insertion?

Free orbit insertion techniques have the potential to significantly reduce the amount of fuel needed for space missions, making them more cost-effective and sustainable. They also allow for more flexibility in mission planning and can enable spacecraft to reach more distant or challenging destinations in the solar system. Additionally, the use of free orbit insertion techniques can reduce the environmental impact of space missions by minimizing the amount of propellant and emissions released into the atmosphere.

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