Artificial gravity in spinning space ship conumdrum

In summary, the idea of using spinning to create artificial gravity in deep space missions makes intuitive sense. While it may seem irrelevant to spin a ship in empty space, the presence of dark matter and the rotational frame dragging effect predicted by General Relativity suggest that the distant matter does have an influence on inertia. This effect is too small to be measured with current methods, but overall, the universe does not have an inherent sense of direction or "upness." The same effect of artificial gravity could also be achieved through continuous
  • #1
KenJackson
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In discussions, and novels, about deep space missions, we frequently read of the plan to spin the spaceship to produce artificial gravity. This intuitively makes good sense.

But would it work in a ship that is very, very, very far away from any stars or other matter? That is, if the ship is spinning, relative to what is it spinning?

If the proximity to matter is irrelevant, then does the universe have some inherent sense of direction or "upness"?
 
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  • #2
As far as we know, it would work. Also, there is only so far you can be from stars and other matter. The emptiest regions we see is probably between the galactic super clusters or possibly the "voids" between the complexes made by these, the “walls”. But these "empty" spaces, too, contain dark matter. So, if you are trying to invoke Mach’s Principle, it’ll be difficult to conduct any experiment “sufficiently” removed from matter in this universe.

The relevant spinning appears to be with respect to the "distant" matter. Exactly how the distant matter influences the inertia of an object is not known. But according to the qualitative results of Mach’s Principle, nearby masses also should influence inertia locally. This type of phenomenon was investigated by Lens and Thirring in the context of GR, and is known as the rotational frame dragging effect. The effect of local masses on the mass of a test body is also predicted in GR, but the effect is too small to measure with available methods.

Broadly speaking, the universe seems not to distinguish between uniform velocities but between accelerations with respect to the average distribution of matter.
 
  • #3
Mach’s Principle

Ah! That is what I was looking for. Thank you.
 
  • #4
KenJackson said:
In discussions, and novels, about deep space missions, we frequently read of the plan to spin the spaceship to produce artificial gravity. This intuitively makes good sense.

But would it work in a ship that is very, very, very far away from any stars or other matter? That is, if the ship is spinning, relative to what is it spinning?

If the proximity to matter is irrelevant, then does the universe have some inherent sense of direction or "upness"?

I would say, no, the universe does not have an inherent sense of direction, nor of "upness," but it does have an inherent sense of inertial and non-inertial reference frames. The same "artificial gravity" effect could be achieved by providing a ship with a form of continuous thrust, resulting in continuous acceleration. It would not matter if the ship were near any massive bodies. The ship does not have to be accelerating "relative to" some other object. It need only be accelerating compared to an inertial frame of reference.
 
  • #5
Is there even any scientific proof of this concept? If a space station is spinning rapidly around an axis in space .. simulated gravity would come from centrifugal force? I've heard lots of talk about this, but where is the proof? Does NASA have a video clip or experiment data?
 
  • #6
Yea there is proof; acceleration is a change in velocity. When you are spining around an axis, you are changing velocity from the centripetal force keeping you from traveling in a straight line. This force can feel just like like gravity, if you are far enough away from the center to where your height towards the center doesn't have a noticable effect on the force distribution on your body. Otherwise, I think your head would feel lighter while standing. But another thing would happen, if you threw a ball with equal velocity of the angular velocity of the ship(times the radius), but in opposite direction, it would just float above the surface as you spun around and it stood still relative to the center of mass of your ship. So, there would be strange things that made it not feel like gravity. If you wanted to toss something to your friend on the other side of the ship, you would have to throw it with a tangeant component to the ship's radius and opposite direction of your real velocity at that point, then it will reach him. So the effects would not be exactly like gravity. If you tried throwing it directly at him, you may just end up spinning around the axis and it landing in your face. Just like if you threw it straight up in gravity. If you were sitting down and stood straight up, you would probably fall over because your body's angular momentum stays the same while your center of mass moves in toward the center.

Have you ever been on one of these?
http://video.google.com/videoplay?docid=-1001294017951031404&q=centrifugal+machine&total=66&start=0&num=10&so=0&type=search&plindex=0" [Broken]

Notice at the end of the video when he tries to walk towards the camera, he jerks over to his left.
 
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  • #7
PatPwnt, Thanks for that video, it was entertaining. But, it proves nothing really.

Please explain why:

1. This simulates the same effects that would occur in outer space.

2. Centrifugal force can't be the 'redirection' of gravity.
 
  • #8
It's not redirection of gravity, it's redirection of motion which happens to behave a bit like gravity to the person being spun.
 
  • #9
Ok. Prove it. A video clip like the previous one (small scale) in space would be great.
 
  • #10
Why do you believe it would happen any differently in space than on land? The centrifuge on land is spinning fast enough (horizontally to the ground) to OVERRIDE the effects of gravity (in the vertical axis to the ground), it'd be the same in space, only easier, because there'd be nothing pulling the person downward.

To prove it to you, I'd have to launch a centrifuge into deep space, which is beyond my current budget I'm afraid.
 
  • #11
KenJackson said:
That is, if the ship is spinning, relative to what is it spinning?

To itself, or different parts of itself. If you picture the centrifuge from 'above', that is, your viewpoint in line with the axis of rotation but not rotating with the 'fuge, then you'll see that one side is moving 'left' and the other moving 'right' in regard to each other. I mean that in the same sense that one describes a watch hand moving to the 'right' once it passes the 9 o'clock mark, then curving back 'left' once it passes 3 o'clock.
 
  • #12
Is it safe to say centrifugal existing in outer space is just an assumption?
 
  • #13
KenJackson said:
But would it work in a ship that is very, very, very far away from any stars or other matter? That is, if the ship is spinning, relative to what is it spinning?

unlike translational velocity, which is completely relative (anyone flying around in a vacuum relative to someone else at a constant velocity has an equal claim to being "at rest" as anyone else at a constant, but different, velocity), rotational velocity is absolute. it's not spinning if the folks in the outer rim of the cylinderical spaceship are experiencing 0g. even if there were no heavenly vistas in which to base one's measurement of spin rate, with an accelerometer at a known location, one can determine the spin rate.
 
  • #14
nuby said:
Is it safe to say centrifugal existing in outer space is just an assumption?

Not in front of any qualified physicist, especially if he's bigger than you. Here, you have the whole internet shielding you. :smile:

What more can we tell you about the existence of centrifugal force? The earth, the Sun, Jupiter, to name a few -- all these bodies which are in "space" -- bulge out at the equator due to centrifugal force. The bulges are visible. These are your large scale experiments in space.

Please don't hijack this thread. If you have so much doubt, start a new one.
-------------------------------------------------------------
Dear Mentor/Admin,

Doesn't nuby's previous post violate the PF rules/guidelines? Someone may as well question Newton's laws of motion directly, instead of indirectly as member nuby is doing.
 
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  • #15
Shooting Star said:
What more can we tell you about the existence of centrifugal force? The earth, the Sun, Jupiter, to name a few -- all these bodies which are in "space" -- bulge out at the equator due to centrifugal force. The bulges are visible. These are your large scale experiments in space.

That's not relevant, it's not 'outer space' .. centrifugal force on planets coexist with other forces, gravity, etc.
 
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  • #16
rbj said:
unlike translational velocity, which is completely relative (anyone flying around in a vacuum relative to someone else at a constant velocity has an equal claim to being "at rest" as anyone else at a constant, but different, velocity), rotational velocity is absolute. it's not spinning if the folks in the outer rim of the cylinderical spaceship are experiencing 0g. even if there were no heavenly vistas in which to base one's measurement of spin rate, with an accelerometer at a known location, one can determine the spin rate.
You hit the crux of my original question, but you seem to have answered it based on Newton's classical absolute space argument.

rotational velocity is absolute. it's not spinning if the folks in the outer rim of the cylinderical spaceship are experiencing 0g. This sounds like Newton's bucket argument.

I was pleased that someone mentioned Mach's Principle, which caused me to find the wikipedia discussion on the same. I am content to learn that Einstein grappled with the issue and decided that inertia originates in a kind of interaction between bodies. That is, (as I understand it) the presence of other matter (I guess all matter in the universe) determines what is and is not spinning.
 
  • #17
nuby said:
Is it safe to say centrifugal existing in outer space is just an assumption?

No, it is not an assumption. The European Space Agency built a centrifuge for space (obviously not deep space) and a copy was flown by NASA.

Start by Googling NASA JSC. Specifically, you might also look at work done by Scott Wood.
 
  • #18
Archaic argument

rbj said:
... rotational velocity is absolute. it's not spinning if the folks in the outer rim of the cylinderical spaceship are experiencing 0g. even if there were no heavenly vistas in which to base one's measurement of spin rate, with an accelerometer at a known location, one can determine the spin rate.

Absolute with respect to what? The mean of the distant matter? Or Absolute Space?

If there's a germ of truth in Mach's Principle, which the scientific community does believe there is, then a massive rotating shell spinning around you should produce a centrifugal force similar to what is produced by you spinning wrt the background of the distant matter.

Even otherwise, spinning near a massive body gives rise to different effects than spinning in a relatively mass free region, and the accelerometer would show different readings.
 
  • #19
  • #20
Does that video prove "artificial gravity" is possible?
 
  • #21
I'm a little confused- are people wondering if the concept is sound, or if it's practical to actually construct such a device?

Is the concept sound (the science)- yes.
Is the device practical (the engineering)- no.
 
  • #22
nuby said:
Is it safe to say centrifugal existing in outer space is just an assumption?

Here is a sort of proof that it is not just an assumption:

Imagine two large disk shaped spaceships traveling alongside each other. Each is spinning around their own axis of symmetry parallel to the direction of motion, but rotating in opposite directions with respect to each other. As they move far away from any massive body, which will stop rotating (as you suggest)? If neither stops rotating how would they account for the lack of "apparent centrifugal force" in both spaceships (as you are suggesting) when it is obvious to any local observer (spinning or not) that at least one of the spaceships IS rotating? If both spaceships stop rotating with respect to each other where has the stored rotational energy gone?
 
  • #23
nuby said:
Does that video prove "artificial gravity" is possible?

Yes, the video proves that generating artificial gravity in space via "centrifugal force" is not only possible, but has been done. That is what kept the astronaut's feet on the "floor." It was obviously not a full G, but it was keeping him "down" on the track.
 
  • #24
When I hear "artificial gravity" I think of something out of 2001: A Space Odyssey.. The rotating space craft, with people walking around inside of it. This is not possible. Real "artificial gravity" is created in a smaller centrifuge, with an astronaut strapped inside of it.. Without the straps (or physical motion of astronauts) there will not be a centrifugal force on the astronauts.

This leads to a few more questions:
Why are the astronauts not experiencing the same affects as they would on say a "gravitron" (carnival ride) or in their training centrifuge? Are they experiencing "real" centrifugal force without centripetal force? Can centripetal force exist without gravity?
 
  • #25
You'll need to do some research on some of your questions. The only reason anyone cares about artificial gravity is the effect weightlessness has on astronauts. So, the place to look for your answers is at the Johnson Space Center, beginning in the Human Adaptation labs.
http://hacd.jsc.nasa.gov/ [Broken]
You might also look at Krug Life Sciences to see some other work being done there.
 
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  • #26
nuby said:
When I hear "artificial gravity" I think of something out of 2001: A Space Odyssey.. The rotating space craft, with people walking around inside of it. This is not possible. Real "artificial gravity" is created in a smaller centrifuge, with an astronaut strapped inside of it..

Why do you think centrifugal force is felt in a small centrifuge but not in a large centrifuge?


nuby said:
Without the straps (or physical motion of astronauts) there will not be a centrifugal force on the astronauts.

The astronaut is running in the video because the space station is not spinning. Running inside the rim of a non spinning station has the same effect as standing in a spinning station.

nuby said:
This leads to a few more questions:
Why are the astronauts not experiencing the same affects as they would on say a "gravitron" (carnival ride) or in their training centrifuge? Are they experiencing "real" centrifugal force without centripetal force? Can centripetal force exist without gravity?

They would experience the same effects as in a gravitron if the station was spinning, (but it was not). I suspect you have not read or thought about any of the responses posted above.
 
  • #27
kev said:
They would experience the same effects as in a gravitron if the station was spinning, (but it was not)

You are wrong. Unless the astronauts are physically attached to a spinning "centrifuge", or propelling themselves forward (i.e. previous video) they will not experience any sort of "artficial gravity" at all.
 
  • #28
nuby said:
You are wrong. Unless the astronauts are physically attached to a spinning "centrifuge", or propelling themselves forward (i.e. previous video) they will not experience any sort of "artficial gravity" at all.

You're right but as soon as they touch down to the rotating "ring" if you will the tangential velocity will propel them in the direction of the ring and then the ring itself will keep changing their velocity (acceleration) to keep the person in an artificial gravity. Artificial meaning it's not real, it just seems like gravity because objects are held to the surface without restraints.

I don't understand what you're getting at. It's the centripetal force that let's the person walk on the inner surface of the ring. Maybe they have to acclimate themselves to it after first touching down but aside from that is your argument that it's not the definition of gravity or that it's not possible. I'm not getting a streamlined thought from your posts.
 
  • #29
nuby said:
When I hear "artificial gravity" I think of something out of 2001: A Space Odyssey.. The rotating space craft, with people walking around inside of it. This is not possible. Real "artificial gravity" is created in a smaller centrifuge, with an astronaut strapped inside of it.. Without the straps (or physical motion of astronauts) there will not be a centrifugal force on the astronauts.

Arthur C. Clarke was one of the greatest thinkers of all times. He was the kind of scientist who could envision and extrapolate quite a few steps ahead of the boundaries of accepted science at any time. Nobel laureates walked softly when he was around. I am not even going into his writing skills and writing prowess, which went far, far beyond Science fiction by the way.

The scientific details of his so called SF books are phenomenally accurate. The scenario of both "2001: A Space Odyssey" and "Rendezvous with Rama" comes to mind for the sheer amount of technical analysis of rotating space stations. These were written in times when very few people even imagined such things.

You, a Physics ignoramus or a lunatic without a leash, dare comment in one sentence on a great work by a great man which your brain does not have the logic circuits to process. If the things described in the book were not possible, then Arthur C. Clark would not have written about them. Do you understand?

Arthur C. Clark passed away just a month back, on 19th March, 2008. I feel that somebody near to me is no more.

You evidently are much younger than me, and that is why, though being irked, I have never commented on your writings personally. Your youth does not give you the leeway to affront the brilliant works of a great man. Threads have been locked for much less than have been tolerated from you. I advise you to take some time off and learn basic Physics.

If this mail seems to be rude in any respect, then it is meant to be.
 
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  • #30
Maybe it would be more appropriate to refer to the centrifugal effect as 'pseudo-gravity' rather than 'artificial gravity'. The latter implies to me some sort of graviton or gravity wave generation which would induce true gravity, while the former just provides a reasonable approximation thereof.
 
  • #31
nuby said:
You are wrong. Unless the astronauts are physically attached to a spinning "centrifuge", or propelling themselves forward (i.e. previous video) they will not experience any sort of "artficial gravity" at all.

As Danger pointed out the "artificial gravity" is just an aproximation of the real thing. If an astronaut managed to avoid the spinning rim for the whole trip then he could avoid being pulled down. (He is actually in a form of internal orbit). But if there is air inside the space station (as there usually is) then the air will gradually be dragged around into synchronisation with the rim and eventually the astronaut too would be dragged by the air and start to "fall".

If he was standing on the spinning rim and let go of a ball, guess where the ball will go?

A) Hover near his hand.
B) Move in an internal orbit like the astonaut before he touched down.
C) Drop towards his feet and stay on the rim after a couple of bounces.


Hint: It's not A or B ;)
 
  • #32
As long as the astronaut was connected to the rim, the ball would have a curved trajectory toward the ground/rim ..

If the answer is "C" and the ball would drop straight towards his feet. What force would keep the ball adjacent to the floor below?
 
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  • #34
I think perhaps Nuby is looking for an argument rather than an answer.
 
  • #35
I just think "artificial gravity" (walking around in space) is just a myth, and pure science fiction/speculation. And I'm interested in finding out why it should or should not work. If I wanted to argue I would have responded to Shooting Star's previous post.
 

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