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What is the smallest body in which a sling shot maneuver can be performed?

Use Pluto's gravitation to reach the next dwarf planetWhat was the smallest intentional, acknowledged slingshot maneuver?What is the smallest body that has sufficient gravity for another body to orbit it?Which orbital maneuver is currently regarded as the most viable for a human mission to mars?How can a yo-yo de-spin maneuver reverse the rotation?What would be the minimum energy trajectory for an inbound intercept course for another body?Can orbital maneuvers be performed by a solar sail to correct eccentricity?Maneuver to the optimal point of a given orbitWhat are common guidance strategies for a finite orbital maneuver?What orbital maneuver(s) did the SOHO have to execute for halo orbit insertion?What was the smallest intentional, acknowledged slingshot maneuver?Can the ISS boost maneuver engine be heard by the astronauts on board?

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8

$begingroup$

This question asks about the smallest sling shot maneuver performed. What was the smallest intentional, acknowledged slingshot maneuver?

I'm asking how small of an object be to perform a sling shot maneuver around it?

Update
I didn't think of Magnestars and micro-blackholes when I wrote this question but the replies are great.

Within our solar system I would guess that an object lacking an atmosphere a spacecraft could get closer to the surface of it during the sling shot.

orbital-mechanics orbital-maneuver physics gravity-assist

share|improve this question

edited Mar 25 at 22:35

Muze

asked Mar 25 at 3:32

MuzeMuze

1

$endgroup$

• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  This question is a little different than mine. I've asked for a real documented maneuver in a real spacecraft's planned or executed trajectory (1, 2). This is asking each person to judge for themselves what counts as a slingshot maneuver which leaves things more open to interpretation about sizes and threshold. So this is going to be more difficult to answer without expressing an opinion.
  $endgroup$
  – uhoh
  Mar 25 at 10:01
  

  
  
  
  


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  Technically, any close flyby is a slingshot maneuver. With small objects, the trajectory change just becomes too small to be significant. In this question, the calculation is done for a really close flyby of Pluto, yielding a 1.4° change in course. So the question becomes, what is the smallest course change you want to consider?
  $endgroup$
  – Hobbes
  Mar 25 at 10:45
  

  
  
  
  


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  The object also doesn't have to be lacking an atmosphere, I don't think that portion has anything to do with this and should be removed. Also the tag identify-this-object definitely doesn't belong here.
  $endgroup$
  – Magic Octopus Urn
  Mar 25 at 16:25
  
  

  
  
  
  

add a comment | 

8

$begingroup$

This question asks about the smallest sling shot maneuver performed. What was the smallest intentional, acknowledged slingshot maneuver?

I'm asking how small of an object be to perform a sling shot maneuver around it?

Update
I didn't think of Magnestars and micro-blackholes when I wrote this question but the replies are great.

Within our solar system I would guess that an object lacking an atmosphere a spacecraft could get closer to the surface of it during the sling shot.

orbital-mechanics orbital-maneuver physics gravity-assist

share|improve this question

edited Mar 25 at 22:35

Muze

asked Mar 25 at 3:32

MuzeMuze

1

$endgroup$

• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  This question is a little different than mine. I've asked for a real documented maneuver in a real spacecraft's planned or executed trajectory (1, 2). This is asking each person to judge for themselves what counts as a slingshot maneuver which leaves things more open to interpretation about sizes and threshold. So this is going to be more difficult to answer without expressing an opinion.
  $endgroup$
  – uhoh
  Mar 25 at 10:01
  

  
  
  
  


• 
  
  
  

  
  11
  

  
  
  
  
  
  

  
  $begingroup$
  Technically, any close flyby is a slingshot maneuver. With small objects, the trajectory change just becomes too small to be significant. In this question, the calculation is done for a really close flyby of Pluto, yielding a 1.4° change in course. So the question becomes, what is the smallest course change you want to consider?
  $endgroup$
  – Hobbes
  Mar 25 at 10:45
  

  
  
  
  


• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  $begingroup$
  The object also doesn't have to be lacking an atmosphere, I don't think that portion has anything to do with this and should be removed. Also the tag identify-this-object definitely doesn't belong here.
  $endgroup$
  – Magic Octopus Urn
  Mar 25 at 16:25
  
  

  
  
  
  

add a comment | 

$begingroup$

This question asks about the smallest sling shot maneuver performed. What was the smallest intentional, acknowledged slingshot maneuver?

I'm asking how small of an object be to perform a sling shot maneuver around it?

Update
I didn't think of Magnestars and micro-blackholes when I wrote this question but the replies are great.

Within our solar system I would guess that an object lacking an atmosphere a spacecraft could get closer to the surface of it during the sling shot.

orbital-mechanics orbital-maneuver physics gravity-assist

share|improve this question

edited Mar 25 at 22:35

Muze

asked Mar 25 at 3:32

MuzeMuze

1

$endgroup$

share|improve this question

edited Mar 25 at 22:35

Muze

asked Mar 25 at 3:32

MuzeMuze

1

share|improve this question

edited Mar 25 at 22:35

Muze

asked Mar 25 at 3:32

MuzeMuze

1

asked Mar 25 at 3:32

MuzeMuze

1

asked Mar 25 at 3:32

MuzeMuze

1

2 Answers
2

active

oldest

votes

21

$begingroup$

How small do you want to get? $F=GMm over r^2$ applies regardless of size. If you remove enough disturbances from other bodies you can get two neutrons to orbit a common barycenter on gravity alone - or send them against each other on a near-miss trajectory and they'll pass influencing each other gravitationally in essence performing a slingshot against each other.

That's considering mass. Considering size as radius - a singularity is dimensionless, zero size, and can easily slingshot planets or smaller stars... but if you're going to slingshot against one, better stay well clear of the event horizon, which may span many kilometers past the dimensionless singularity point.

share|improve this answer

answered Mar 25 at 7:07

SF.SF.

33k88 gold badges109109 silver badges246246 bronze badges

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  I think considering a singularity as zero size is misleading, since anything that crosses the event horizon cannot get out, so there are no slingshot trajectories that get closer than that. The event horizon is, effectively, a (very hard) surface.
  $endgroup$
  – Davidmh
  Mar 25 at 12:01
  

  
  
  
  


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  @Davidmh: I disagree. It's like adding 5mln km to the Sun radius (on top of its 700,000km) because entering the corona is bound to fry the spacecraft.
  $endgroup$
  – SF.
  Mar 25 at 13:44
  
  

  
  
  
  


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  @SF.: Davidmh didn't say it's wrong, he said it's misleading. For all intents and purposes, anything that touches the event horizon is dead (orbitally speaking) as if it smacked into a planet's surface. For your solar example, you're hinging on what you find a reasonable limit on temperatures a spacecraft can handle. Different spacecraft, different limit. You can build better spacecraft (or send something that doesn't disintegrate), but an event horizon doesn't care about what you send, it will (definitively) capture whatever you choose to send.
  $endgroup$
  – Flater
  Mar 25 at 14:55
  
  

  
  
  
  


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  4
  

  
  
  
  
  
  

  
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  @SF. a sufficiently shielded spacecraft going sufficiently fast can survive the corona; the specifics are an engineering detail. Coming back out after crossing the event horizon is a mathematical impossibility. General Relativity shows that, once you cross the horizon, the only possible trajectories are going towards the centre every step of the way.
  $endgroup$
  – Davidmh
  Mar 25 at 15:26
  

  
  
  
  


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  2
  

  
  
  
  
  
  

  
  $begingroup$
  @SF. depends on your model. You could model the black hole as a 2-brane coincident with its event horizon, with some extra strings stuck onto it. The only observers able to tell the difference would be those that have already reached the event horizon. The neat fact about this brane is that it would have exactly one bit of entropy per Planck area.
  $endgroup$
  – John Dvorak
  Mar 25 at 17:52
  

  
  
  
  

 | 
show 3 more comments

4

$begingroup$

We've done a slingshot maneuver with the Moon. That's essentially what Apollo 13's free return trajectory was when the spacecraft became crippled and had to be returned to Earth.

---

I would like to address some comments this answer has drawn. First, some have said that this dies not answer the question of what the smallest object suitable for a slingshot is. But that question has no clear answer because technically any gravitational deflection that does not result in capture is a slingshot. [This reference] describes a (very low angle) slingshot-type maneuver past the Martian moon Phobos used to nail down it's mass and density (thus, it's porosity). Thus the above is intended as a practical example of a much more significant slingshot involving an object smaller than the planets.

share|improve this answer

edited Mar 31 at 10:26

answered Mar 25 at 9:26

Oscar LanziOscar Lanzi

1,35111 gold badge33 silver badges1313 bronze badges

$endgroup$

• 
  
  
  

  
  10
  

  
  
  
  
  
  

  
  $begingroup$
  This is interesting trivia, but does not answer the question about what body is the smallest with which a slingshot maneuver can be performed. I am not even sure Luna is the smallest body ever used for a slingshot maneuver in practice. What about Cassini and its fly-bys of several Saturn moons, for example?
  $endgroup$
  – Philipp
  Mar 25 at 10:28
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  I'm not sure that was done for the slingshot effect -- it was more a case of "this is the simplest path requiring the least thruster use and lowest risk of return failure" . I remember listening to the news every day during A-13's journey.
  $endgroup$
  – Carl Witthoft
  Mar 25 at 14:54
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  I know. What I'm saying is, at the beginning of the return we used the Moon as we would for a slingshot effect, basically setting the turn angle to 180°.
  $endgroup$
  – Oscar Lanzi
  Mar 25 at 17:49
  

  
  
  
  


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  @CarlWitthoft Which does not say it wasn't a slingshot maneuver. The Apollo rockets specifically launched into a path that would slingshot back to Earth if no further burns were done.
  $endgroup$
  – Loren Pechtel
  Mar 25 at 18:39
  

  
  
  
  


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  @OscarLanzi, most of the turnaround on an Apollo free-return trajectory was because the spacecraft was near the apoapsis of its Earth-centered orbit. Yes, the lunar flyby provided a bit of braking, but it was nowhere near as dramatic as it seems.
  $endgroup$
  – Mark
  Mar 25 at 20:43
  

  
  
  
  

 | 
show 1 more comment

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21

$begingroup$

How small do you want to get? $F=GMm over r^2$ applies regardless of size. If you remove enough disturbances from other bodies you can get two neutrons to orbit a common barycenter on gravity alone - or send them against each other on a near-miss trajectory and they'll pass influencing each other gravitationally in essence performing a slingshot against each other.

That's considering mass. Considering size as radius - a singularity is dimensionless, zero size, and can easily slingshot planets or smaller stars... but if you're going to slingshot against one, better stay well clear of the event horizon, which may span many kilometers past the dimensionless singularity point.

share|improve this answer

answered Mar 25 at 7:07

SF.SF.

33k88 gold badges109109 silver badges246246 bronze badges

$endgroup$

• 
  
  
  

  
  10
  

  
  
  
  
  
  

  
  $begingroup$
  I think considering a singularity as zero size is misleading, since anything that crosses the event horizon cannot get out, so there are no slingshot trajectories that get closer than that. The event horizon is, effectively, a (very hard) surface.
  $endgroup$
  – Davidmh
  Mar 25 at 12:01
  

  
  
  
  


• 
  
  
  

  
  2
  

  
  
  
  
  
  

  
  $begingroup$
  @Davidmh: I disagree. It's like adding 5mln km to the Sun radius (on top of its 700,000km) because entering the corona is bound to fry the spacecraft.
  $endgroup$
  – SF.
  Mar 25 at 13:44
  
  

  
  
  
  


• 
  
  
  

  
  6
  

  
  
  
  
  
  

  
  $begingroup$
  @SF.: Davidmh didn't say it's wrong, he said it's misleading. For all intents and purposes, anything that touches the event horizon is dead (orbitally speaking) as if it smacked into a planet's surface. For your solar example, you're hinging on what you find a reasonable limit on temperatures a spacecraft can handle. Different spacecraft, different limit. You can build better spacecraft (or send something that doesn't disintegrate), but an event horizon doesn't care about what you send, it will (definitively) capture whatever you choose to send.
  $endgroup$
  – Flater
  Mar 25 at 14:55
  
  

  
  
  
  


• 
  
  
  

  
  4
  

  
  
  
  
  
  

  
  $begingroup$
  @SF. a sufficiently shielded spacecraft going sufficiently fast can survive the corona; the specifics are an engineering detail. Coming back out after crossing the event horizon is a mathematical impossibility. General Relativity shows that, once you cross the horizon, the only possible trajectories are going towards the centre every step of the way.
  $endgroup$
  – Davidmh
  Mar 25 at 15:26
  

  
  
  
  


• 
  
  
  

  
  2
  

  
  
  
  
  
  

  
  $begingroup$
  @SF. depends on your model. You could model the black hole as a 2-brane coincident with its event horizon, with some extra strings stuck onto it. The only observers able to tell the difference would be those that have already reached the event horizon. The neat fact about this brane is that it would have exactly one bit of entropy per Planck area.
  $endgroup$
  – John Dvorak
  Mar 25 at 17:52
  

  
  
  
  

 | 
show 3 more comments

21

$begingroup$

How small do you want to get? $F=GMm over r^2$ applies regardless of size. If you remove enough disturbances from other bodies you can get two neutrons to orbit a common barycenter on gravity alone - or send them against each other on a near-miss trajectory and they'll pass influencing each other gravitationally in essence performing a slingshot against each other.

That's considering mass. Considering size as radius - a singularity is dimensionless, zero size, and can easily slingshot planets or smaller stars... but if you're going to slingshot against one, better stay well clear of the event horizon, which may span many kilometers past the dimensionless singularity point.

share|improve this answer

answered Mar 25 at 7:07

SF.SF.

33k88 gold badges109109 silver badges246246 bronze badges

$endgroup$

• 
  
  
  

  
  10
  

  
  
  
  
  
  

  
  $begingroup$
  I think considering a singularity as zero size is misleading, since anything that crosses the event horizon cannot get out, so there are no slingshot trajectories that get closer than that. The event horizon is, effectively, a (very hard) surface.
  $endgroup$
  – Davidmh
  Mar 25 at 12:01
  

  
  
  
  


• 
  
  
  

  
  2
  

  
  
  
  
  
  

  
  $begingroup$
  @Davidmh: I disagree. It's like adding 5mln km to the Sun radius (on top of its 700,000km) because entering the corona is bound to fry the spacecraft.
  $endgroup$
  – SF.
  Mar 25 at 13:44
  
  

  
  
  
  


• 
  
  
  

  
  6
  

  
  
  
  
  
  

  
  $begingroup$
  @SF.: Davidmh didn't say it's wrong, he said it's misleading. For all intents and purposes, anything that touches the event horizon is dead (orbitally speaking) as if it smacked into a planet's surface. For your solar example, you're hinging on what you find a reasonable limit on temperatures a spacecraft can handle. Different spacecraft, different limit. You can build better spacecraft (or send something that doesn't disintegrate), but an event horizon doesn't care about what you send, it will (definitively) capture whatever you choose to send.
  $endgroup$
  – Flater
  Mar 25 at 14:55
  
  

  
  
  
  


• 
  
  
  

  
  4
  

  
  
  
  
  
  

  
  $begingroup$
  @SF. a sufficiently shielded spacecraft going sufficiently fast can survive the corona; the specifics are an engineering detail. Coming back out after crossing the event horizon is a mathematical impossibility. General Relativity shows that, once you cross the horizon, the only possible trajectories are going towards the centre every step of the way.
  $endgroup$
  – Davidmh
  Mar 25 at 15:26
  

  
  
  
  


• 
  
  
  

  
  2
  

  
  
  
  
  
  

  
  $begingroup$
  @SF. depends on your model. You could model the black hole as a 2-brane coincident with its event horizon, with some extra strings stuck onto it. The only observers able to tell the difference would be those that have already reached the event horizon. The neat fact about this brane is that it would have exactly one bit of entropy per Planck area.
  $endgroup$
  – John Dvorak
  Mar 25 at 17:52
  

  
  
  
  

 | 
show 3 more comments

$begingroup$

How small do you want to get? $F=GMm over r^2$ applies regardless of size. If you remove enough disturbances from other bodies you can get two neutrons to orbit a common barycenter on gravity alone - or send them against each other on a near-miss trajectory and they'll pass influencing each other gravitationally in essence performing a slingshot against each other.

That's considering mass. Considering size as radius - a singularity is dimensionless, zero size, and can easily slingshot planets or smaller stars... but if you're going to slingshot against one, better stay well clear of the event horizon, which may span many kilometers past the dimensionless singularity point.

share|improve this answer

answered Mar 25 at 7:07

SF.SF.

33k88 gold badges109109 silver badges246246 bronze badges

$endgroup$

share|improve this answer

answered Mar 25 at 7:07

SF.SF.

33k88 gold badges109109 silver badges246246 bronze badges

answered Mar 25 at 7:07

SF.SF.

33k88 gold badges109109 silver badges246246 bronze badges

answered Mar 25 at 7:07

SF.SF.

33k88 gold badges109109 silver badges246246 bronze badges

4

$begingroup$

We've done a slingshot maneuver with the Moon. That's essentially what Apollo 13's free return trajectory was when the spacecraft became crippled and had to be returned to Earth.

---

I would like to address some comments this answer has drawn. First, some have said that this dies not answer the question of what the smallest object suitable for a slingshot is. But that question has no clear answer because technically any gravitational deflection that does not result in capture is a slingshot. [This reference] describes a (very low angle) slingshot-type maneuver past the Martian moon Phobos used to nail down it's mass and density (thus, it's porosity). Thus the above is intended as a practical example of a much more significant slingshot involving an object smaller than the planets.

share|improve this answer

edited Mar 31 at 10:26

answered Mar 25 at 9:26

Oscar LanziOscar Lanzi

1,35111 gold badge33 silver badges1313 bronze badges

$endgroup$

• 
  
  
  

  
  10
  

  
  
  
  
  
  

  
  $begingroup$
  This is interesting trivia, but does not answer the question about what body is the smallest with which a slingshot maneuver can be performed. I am not even sure Luna is the smallest body ever used for a slingshot maneuver in practice. What about Cassini and its fly-bys of several Saturn moons, for example?
  $endgroup$
  – Philipp
  Mar 25 at 10:28
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  I'm not sure that was done for the slingshot effect -- it was more a case of "this is the simplest path requiring the least thruster use and lowest risk of return failure" . I remember listening to the news every day during A-13's journey.
  $endgroup$
  – Carl Witthoft
  Mar 25 at 14:54
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  I know. What I'm saying is, at the beginning of the return we used the Moon as we would for a slingshot effect, basically setting the turn angle to 180°.
  $endgroup$
  – Oscar Lanzi
  Mar 25 at 17:49
  

  
  
  
  


• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  $begingroup$
  @CarlWitthoft Which does not say it wasn't a slingshot maneuver. The Apollo rockets specifically launched into a path that would slingshot back to Earth if no further burns were done.
  $endgroup$
  – Loren Pechtel
  Mar 25 at 18:39
  

  
  
  
  


• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  $begingroup$
  @OscarLanzi, most of the turnaround on an Apollo free-return trajectory was because the spacecraft was near the apoapsis of its Earth-centered orbit. Yes, the lunar flyby provided a bit of braking, but it was nowhere near as dramatic as it seems.
  $endgroup$
  – Mark
  Mar 25 at 20:43
  

  
  
  
  

 | 
show 1 more comment

4

$begingroup$

We've done a slingshot maneuver with the Moon. That's essentially what Apollo 13's free return trajectory was when the spacecraft became crippled and had to be returned to Earth.

---

I would like to address some comments this answer has drawn. First, some have said that this dies not answer the question of what the smallest object suitable for a slingshot is. But that question has no clear answer because technically any gravitational deflection that does not result in capture is a slingshot. [This reference] describes a (very low angle) slingshot-type maneuver past the Martian moon Phobos used to nail down it's mass and density (thus, it's porosity). Thus the above is intended as a practical example of a much more significant slingshot involving an object smaller than the planets.

share|improve this answer

edited Mar 31 at 10:26

answered Mar 25 at 9:26

Oscar LanziOscar Lanzi

1,35111 gold badge33 silver badges1313 bronze badges

$endgroup$

• 
  
  
  

  
  10
  

  
  
  
  
  
  

  
  $begingroup$
  This is interesting trivia, but does not answer the question about what body is the smallest with which a slingshot maneuver can be performed. I am not even sure Luna is the smallest body ever used for a slingshot maneuver in practice. What about Cassini and its fly-bys of several Saturn moons, for example?
  $endgroup$
  – Philipp
  Mar 25 at 10:28
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  I'm not sure that was done for the slingshot effect -- it was more a case of "this is the simplest path requiring the least thruster use and lowest risk of return failure" . I remember listening to the news every day during A-13's journey.
  $endgroup$
  – Carl Witthoft
  Mar 25 at 14:54
  

  
  
  
  


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  I know. What I'm saying is, at the beginning of the return we used the Moon as we would for a slingshot effect, basically setting the turn angle to 180°.
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  – Oscar Lanzi
  Mar 25 at 17:49
  

  
  
  
  


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  @CarlWitthoft Which does not say it wasn't a slingshot maneuver. The Apollo rockets specifically launched into a path that would slingshot back to Earth if no further burns were done.
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  – Loren Pechtel
  Mar 25 at 18:39
  

  
  
  
  


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  @OscarLanzi, most of the turnaround on an Apollo free-return trajectory was because the spacecraft was near the apoapsis of its Earth-centered orbit. Yes, the lunar flyby provided a bit of braking, but it was nowhere near as dramatic as it seems.
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  – Mark
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We've done a slingshot maneuver with the Moon. That's essentially what Apollo 13's free return trajectory was when the spacecraft became crippled and had to be returned to Earth.

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I would like to address some comments this answer has drawn. First, some have said that this dies not answer the question of what the smallest object suitable for a slingshot is. But that question has no clear answer because technically any gravitational deflection that does not result in capture is a slingshot. [This reference] describes a (very low angle) slingshot-type maneuver past the Martian moon Phobos used to nail down it's mass and density (thus, it's porosity). Thus the above is intended as a practical example of a much more significant slingshot involving an object smaller than the planets.

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edited Mar 31 at 10:26

answered Mar 25 at 9:26

Oscar LanziOscar Lanzi

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share|improve this answer

edited Mar 31 at 10:26

answered Mar 25 at 9:26

Oscar LanziOscar Lanzi

1,35111 gold badge33 silver badges1313 bronze badges

answered Mar 25 at 9:26

Oscar LanziOscar Lanzi

1,35111 gold badge33 silver badges1313 bronze badges

answered Mar 25 at 9:26

Oscar LanziOscar Lanzi

1,35111 gold badge33 silver badges1313 bronze badges