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Slingshots have been touted as a cheap delivery mechanism to
LEO.
However, up to this date none have been built due to problems
with
friction, G forces, and/or atmosphere density.
Xenon Thruster Slighshot is the same thing except it sits in LEO
(delivered there by conventional rockets)
and shoots payloads onto
interplanetary trajectories.
Due to lack of air resistance and low gravity, it's ready to be built
using today's
technology. No need for exotic materials required. We can use
xenon
thrusters and plain old steel tethers. Identical slighthots can be
positioned throughout the solar system to boost payloads back and
forth.
Other advantage that's a fortunate side effect of the design is
that
now there are two permanent artificial gravity space stations
available.
(see diagram - not to scale)
Diagram
http://florian.ca/x...uster_slingshot.png [ixnaum, Mar 31 2019]
Momentum exchange tether
https://en.wikipedi...tum_exchange_tether What this is a type of, IIUC. [notexactly, Mar 31 2019]
[link]
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Before I looked at the diagram, I was imagining a long V-shaped cord with an ion thruster at each end, those thrusters acting to straighten out the cord, with the payload at the point of the V. That might have the same problem that was brought up when I proposed the idea of an electric motor-driven slingshot (using a winch in basically the same way), namely that it can't pull fast enough to work at all (which I still doubt). |
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(Off topic: I just noticed upon editing this comment that line wraps are no longer converted by the site into hard line breaks upon saving and editing! Also, I just noticed that today marks ten years since I first walked in the bakery's door as a participant, and it had mildly annoyed me that whole time, so this is a wonderful halfcakeday present! Thanks!) |
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//Slighshot// Sounds Irish. |
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Precision in orbital trajectory and speed could be
challenging. |
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You don't need precison. The spaceship would be equiped with its own chemical rocker engines. So if the trajectory was 5% off you would just spend bit extra onboard fuel to make the correction. Also you would not release until the trajectory was almost perfect anyway |
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Nice. Love the diagram, but, um... any craft leaving would be flung outwards directly away from the hub or pivot. Depending on how massive the system is, compared to the craft, moving a mass towards the outer arm of a spinning system will have the effect of causing the rotation to wobble as it becomes off center. The entire system will then feel the effects of detaching the weight as the center of mass becomes the center again. (+) |
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// any craft leaving would be flung outwards directly away from the hub or pivot // |
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// Depending on how massive the system is, compared to the craft, moving a mass towards the outer arm of a spinning system will have the effect of causing the rotation to wobble as it becomes off center. // |
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I think that could be mostly solved by having two equal-mass payloads moving outward at the same time. Then the imbalance is only between when the first one is released and when the second one is released (assuming they aren't going in opposite directions). |
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//I think that could be mostly solved by having two equal-mass payloads moving outward at the same time. Then the imbalance is only between when the first one is released and when the second one is released (assuming they aren't going in opposite directions).// |
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Yep. That's what I was thinking too. If the secondary mass didn't extend at the same rate as the payload, (and of course retracted more slowly than the retreating payload after launch), then you should be able to use the wobble to your advantage for a little extra umph before the system equalizes, and if you can allow the central hub to slide back and forth at just the right speed relative to the wobble then the occupants won't feel the change at all. |
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I would like a second (+) to give please. |
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hmmm, that's not what I see in my head. If you were to suddenly stop a spinning launcher then a detached craft would leave tangentially but unless I am mistaken about the meaning of tangent then all of the force acting on the body to be released will be in direct line of site from the center of mass when you let'r go. |
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hmmm again. Time to give the internal projector a whack. I get it now. The craft does exit the spinning launcher in direct line of sight from center of mass but it also has lateral motion so the two combine. |
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Very good then. Sorry 'bout that. That wobble thing should still give you a trebuchet effect if timed right. |
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