Centrifugal force isn't just about health. It is also about hygiene. Water and dirt going "down" might make cleaning easier and reduce the risk of inhaling dirt.

@jbigbmofo

Жыл бұрын

Hygiene is just about health.

@brandonporter550

Жыл бұрын

@@jbigbmofo Hygiene is also about disgust.

@jbigbmofo

Жыл бұрын

Disgust is not in the definition for hygiene, health is in the definition.

@stevegreen8262

Жыл бұрын

good point, it makes it a maintenance issue aswell, pleanty of stories, fictional and real of floating debris getting into equipment etc. (and not having to deal with zero G toilets!)

@Vulporium

Жыл бұрын

@@jbigbmofo Hygiene is more so about cleanliness, I think that's what Brandon may have meant to say. But regardless, words have usages wherein they have meaning, they don't intrinsically have meanings. We give words meaning. Kestralwings was making a distinction from health where hygiene is more appropriately used, even making an example were hygiene threatens health. personal hygiene, food hygiene and environmental hygiene are all forms of hygiene.

The cool thing is you can basically simulate this VERY accurately in Kerbal Space Program....as long as the kraken doesnt get to you

@envybartowski8519

Жыл бұрын

bold assumption 😂

@redbiscuit-brawlstars3576

Жыл бұрын

kraken always comes, there is no exception

@themedivaltrainerdawson4951

Жыл бұрын

i think matt lowne did it before if i remember it correctly

@DrRyan82994

Жыл бұрын

just don't go 2km away

@somedudethatripsplanetinha4221

Жыл бұрын

The Kraken is here.

I think an advantage of whole ship gravity over short radius is crew sanity, it would feel a lot more comfortable and natural to just have 'gravity' all the time.

@sleelofwpg688

Жыл бұрын

Uh huh....remind us how many of the astronauts on the space station have gone nuts with no gravity at all.

@FrigidDeadline

Жыл бұрын

@@sleelofwpg688 I'm not saying you go nuts without it obviously, I'm saying it would feel better.

@thire7432

Жыл бұрын

Not to mention that in theory lower g for longer would be about the same as higher g for shorter periods.

@nazunasapostle1stapostleof755

Жыл бұрын

@@sleelofwpg688 none because all of them were specifically picked for being mentally strong not just due to the stakes involved in space travel in general but also because prolonged periods of time in a 0g environment requires a strong will and discipline

@ilonachan

Жыл бұрын

@@sleelofwpg688 mental health is not just relevant when the risk is complete insanity.

Just looking at the small centrifuge, it looks like the most likely issue with the pressure in the eyes is that there is a force gradient from the feet to the head. The surface tension of the liquid below is pulling it down slightly but not meaningful force is being applied to the head. A large centrifuge has a smaller gradient.

@robobuilder1335

Жыл бұрын

Yep. This gradient issue is actually one thing I've seen as an issue cited for artificial gravity. The gradient can mess with balance. The head basically has no centrifugal force on it in thd small scale example

@660rand

6 ай бұрын

That was the first thing I noticed. There isn't hardly any artificial gravity forces applying to his head.

@montgomeryfitzpatrick473

3 ай бұрын

His head was basically at the center of that centrifuge meaning his head would have nearly zero simulated gravity effects. If a plumber can recognize that these "scientists" shouldn't have wasted time or money on that scale

@ledocteur7701

2 ай бұрын

@@montgomeryfitzpatrick473 except health wise that's really not an issue, our heart is more than strong enough to deal with a gradient like that, and the inner ear can easily be trained to not freak out. sure it can be an issue for plumbing, but the human body is a tad more smart and adaptable than a bunch of pipes. Also, this small centrifuge is quite cheap, maybe 200$ plus the sensors they already had for other experiments. And the rest is just concepts and CGI.

@recurvestickerdragon

2 ай бұрын

​​@@montgomeryfitzpatrick473 yes, that's the whole point. to evaluate if short gradients are enough by simulating a larger diameter by spinning the small one at a different rate. they want the head to be mostly free of forces so they can more clearly read other pressures in comparison.

This gives new meaning to the term "I'm going to take Starship out for a spin"

@seasidescott

2 жыл бұрын

I couldn't wipe the smile from my face no matter how awful the pun so I gave it a like.

@KipIngram

Жыл бұрын

Oh, NICE. Very nice.

@larrystevens7410

Жыл бұрын

📣Badup boom! Nice one, I see what you did there. LOL

@jamiemarsden3823

Жыл бұрын

sure if spinning in space was actually a thing lol XD your position in a vacuum is a constant wherby the space around you rotates not you. so good luck taking your starship for a spin matey haha

@larrystevens7410

Жыл бұрын

@@jamiemarsden3823 Acting like you owned someone when you said some of the silliest stuff in this thread. Get some knowledge before doing that. You aren't really even arguing anything, just saying nonsense and then doing a Mic drop. Really embarrassing, not for you, for the rest of us. We are embarrassed for you.

bro FINALLY. when i first saw that concept with the 3 starships, i was just thinking.. what??? its so overcomplicated when you could just use a massive rope. and NO one was talking about it. my very first thought and solution to the art grav problem was just tethering two starships, and personally, i still think that's the best option. either way, i'm glad someone actually made a video about it. thank you.

@simonpetrikov3992

Жыл бұрын

That just sounds like it would be a waste of resources because you would have to launch 3 of them instead of launching one

@nickjunes

Жыл бұрын

The rope will flex and recoil inward requiring constant pressure outward, which will need to be balanced by the amount of recoil of the rope and it's period of bounce. It's not a good design. It would require more energy than a stiff system that can hold the forces that will be applied both in toward the center and out. With a stiff system you only need to keep it spinning, not spend energy keeping tension in the rope or fighting 'spring-back'.

@fxzn

Жыл бұрын

@@nickjunes ever heard of centrifugal force? that is your energy keeping tension.

@nickjunes

Жыл бұрын

@@fxzn Yes but tethers are springs. The tension out will not be perfect. It will bounce and eventually the bounce will be strong enough to cause the weights at either end to start to drift in fowling up the whole system.

@nickjunes

Жыл бұрын

@@Mrpersonman0 I suspect every rotation will add to the resonance of the rope eventually creating an 'escape velocity' bounce that will cause the rope to become slack. Depending on the period of the rop, whether you are at the top or the bottom of the bounce curve you could let out or pull in the rope to reset the system. This might be able to be automated. The amount of energy this takes would then have to be compared to the pros and cons of a rigid system. Maybe in a rigid system this energy contributes to wobbles and polar shift of the whole system. Maybe those wobbles would have to be corrected in a rigid system. I believe this would take much experimentation as a lot of this depends on the performance of specific materials and shapes in the real world.

The phone flipping analogy was the coolest interactive thing I've seen to demonstrate a concept, well done.

@robert5

Жыл бұрын

By far the coolest thing on this video was the little T handle spinning and flipping every so many rotations. kzread.info/dash/bejne/k4OCxcluoMbZoKw.html

@mskiptr

Жыл бұрын

I wonder how many people broke their phones though

I love how absolutely absurd the way that "works" looks. This is the type of thing that would show up in Star trek and have the entire crew spend 15 minutes going "WTF is going on with their ship?"

@ythegameritaisthebest

5 күн бұрын

"it appears we have made first contact with some aliens who didn't figure out artificial gravity quite yet"

The precession problem is why I thought the design of the Hermes cycler in the Martian was epic, as the plane of rotation for the gravity hab modules is isolated to the bearing at the point where it intersects the main hull. This means you get that flat plane of rotation because the main hull is NOT rotating. It also gives you a stationary point to mount antenna, telescopes, thrusters and heavy stuff like fuel.

@tmst2199

Жыл бұрын

Wouldn't you need a large hull diameter (something in the tens of meters)?

@ralphclark

Жыл бұрын

@@tmst2199 the rotating section is a wheel with the much narrower main hull of the ship as the axis. You would also need a counter rotating flywheel in order to prevent the main hull from spinning

@KC-bu8qq

Жыл бұрын

@@ralphclark 2 wheels! Twice the fun!

@yourhandlehere1

Жыл бұрын

How are you going to get the hull NOT to spin? They will simply counteract each other.

@TheChromeRonin

Жыл бұрын

@@yourhandlehere1 Use thrusters to start the ring spinning as that will probably have the most angular momentum, then rotate the centre hull in the opposite direction

something i don't understand about short radius centrifuges: wouldn't they apply significantly less acceleration to your upper body, and especially your head? and aren't those also the areas which are the most negatively affected by low gravity?

@nineonine9082

Жыл бұрын

Same thing I was thinking, your feet could feel normal, but your head still feels weightless.

@Jinkypigs

Жыл бұрын

That depends on your facing isn't it

@153SCORN

Жыл бұрын

They have tried the small centrifuges for 50 years. There are inherent issues with them which only the long tether design can address.

@rageagainstthehygiene2357

Жыл бұрын

@@Jinkypigs Eh?? Are you suggesting they fly to mars standing on their heads in artificial G?

@christianclark347

Жыл бұрын

Apparently, a difference of about 1% between the lower and upper extremities is detectable by humans and can result in nausea, vertigo, and other balance and inner ear related problems. While that is mostly just a comfort issue and would only really be a problem for long term habitation there are serious health risks with blood pooling in your lower extremities (because it weighs more in your feet than it does in your head) if the difference is too extreme. In order to be under 1% difference in a typical 6ft human, you'd be looking at a rotational body several kilometers in diameter. It's difficult but doable.

The tether concept was experimented with and was found out that due cable stretching and pulling back like a spring the space craft is pulled towards the center then a inertia pulls the craft away from the counter weight creating an impact load on cable and makes the center of rotation unstable meaning gravity will be as well. This is a reason why solid structures are required in between the ships. As for small diameter centrifuges, they will work for research purposes and small scale transport but the selling point is colonization.

@recurvestickerdragon

2 ай бұрын

you may like Steve Mould's video on parametric resonance and different modes of elasticity

@P1taJ

10 күн бұрын

I think you could introduce damping structures, in the middle and/or at the ends, to avoid the spring effect.

Alright I was ready to come in here and defend the tether design but you actually said it makes sense so now I don't know what to complain about. I hadn't considered the other designs, but I learned a lot from your analysis. These small radius centrifuges look very interesting and I'd love to see them developed more, but artificial gravity on the whole ship is some hard to beat quality of life. Anyway, subbed!

Recently I watched a youtube video were it showed some astronauts in space doing an experiment where they spun a crew member in a chair. It was to compare the results to that of spinning a person in a small centrifuge on Earth. The result was none of the crew got sick when spinning inside the spacecraft where there is no gravity, but they did when on the Earth? The conclusion was that gravity affected the inner ear and that was what made people sick when spinning. I am not sure how this relates to artificial gravity in space, but maybe the human body can tolerate a faster spin rate in space than what is presently accepted. I don't know the answer, just food for thought.

@seasidescott

2 жыл бұрын

Yeah, since there is no other major gravitational competition off Earth the confusion or mixed signals might be significantly less.

@tomfu6210

2 жыл бұрын

While being on Earth your stability system is still affected by it's gravity. So your perception is of you rotating in some general position to ground.

@santos-kn5dt

Жыл бұрын

Going around ain't no gravity, that's centrifugal force

@paulmichaelfreedman8334

Жыл бұрын

Makes sense. In 0 G, the way your body rotates is directly influenced by any motion of your body. The natural direction change of all the body parts is less disorienting for the inner ear as there are less forces working on it.

@eleventy-seven

Жыл бұрын

@@santos-kn5dt Einsteins equivalence principle says that gravity and centrifugal force are equivalent.

I would think short-radius centrifuges have major disadvantages vs the tethered starships option: 1.) Uneven: Different spin and therefore uneven G-force applied from top-down on the body. 2.) Stationary: Movement around the cabin and useful work is limited to near zero: inactive astronauts. 3.) Periodical: This is a guess, but I can hardly imagine that anyone could so much get used to the rotation that sleep could be accomplished: only periodical use vs continuous.

@ConHathy

2 жыл бұрын

Sleeping in a centrifuge wouldn’t be worth it, we use bed rest to simulate the side effects of zero-g already so there would be no benefit. The best use would be for exercise like the MIT designed bike I show near the end. This is time where the crew is already staying in one spot and is committed to zero-g countermeasures. Exercise in a centrifuge would just make the existing countermeasures more effective. It is unevenly distributed, but if it’s good enough to reduce pressure in your eyes and puts strain on your skeleton and heart, then it’s an improvement to what we have for a fraction of the cost and complexity of tethering. Either way the first missions will probably just use normal exercise like we do on the ISS.

Always liked this choice of a cable. With 2 starships you can rescue each other if necessary that far safer

@Andreas-gh6is

Жыл бұрын

With starship being so cheap, you'd have a robotic cargo/replacement spaceship close by anyway.

We had a mechanical merry go round in my local park. Only one ive seen physically. It was a wonder. I digress, it was covered with a metal dome where we could climb into once pushing it to its limits. Orienting yourself to he correct position had this same effect. You could spin full speed for 15 minutes looking any direction with no ill effects. Compared to to the 5 on the actual seats at 3/4 speed. I was instantly reminded of those memories upon seeing your video. Thanks for bringing up golden times.

They could put a small one up on the ISS or Gateway to be used as sleeping quarters. It spins with the beds positioned to the sides, allowing you to sleep like you're on Earth, but also letting your body recover from zero gravity.

@ConHathy

2 жыл бұрын

I don't think you would want to use this while sleeping, bed rest is a pretty good analog for zero-g on Earth so sleeping in AG wouldn't be very productive. I think the best implementation is for use during exercise similar to the MIT concepts around 15:16. This would take the form of an exercise bike or something similar that is on an arm within the ship. This would limit balance and motion sickness issues as you'd be on a bike seat and not turning your head too much. Intermittent exposure seems to be adequate to counteract zero-g, the 2nd paper on the right around 0:22 demonstrated that 30 minutes a day was enough to offset the muscle losses we usually see during bed rest studies. "Aerobic exercise capacity" was not maintained but this is probably because they were not moving while in AG, 30-60 minutes on a bike is pretty reasonable given current astronaut schedules and would likely do a better job maintaining "cardio."

@richardtheweaver4891

Жыл бұрын

@@ConHathy An external enclosed ladder attached to the ship's nose can provide a bit of gravity for the ship and great full-gravity (or more) exercise for the crew. Leave the ladder in orbit around Mars for the return trip.

@Accumulator1

Жыл бұрын

The counterweight would need a dampening buffer or your balls would tend to sling around and chime when they collide, thus keeping you awake.

@robertbolding4182

Жыл бұрын

They don't deserve gravity if they didn't think of it first

@paulmoffat9306

Жыл бұрын

@@Accumulator1 !!

Allright, so as a soon to be mechanical engineer I can say that the short centrifuge AT FIRST looks dizzying, with the head near the center of rotation, but really it's genius. The way it's built is *chef's kiss*. I even mistook the linear rails for an aluminum ladder, but linear rails are better. Linear rails are cheap as hell in these large quantities and you need only simple hardware like: a)Wood b)Bolt c)Matress Also it's so goddamn simple :D I feel like doing the structural analysis would be the best experience in the world since even hand calculations would end up near exact. Bruh why they say it's a waste of funds lmaoooo

@HyperVectra

Жыл бұрын

@@Mrpersonman0 Same with economists - a funeral is cheaper than heart surgery

@Norsilca

Жыл бұрын

The issue isn't with the construction. It's whether it's giving results relevant to the problem. People who think small radius artificial gravity was shown to be unworkable long ago are asking why we're still doing studies with a centrifuge so small it barely fits a full person.

@richardmcclung6710

3 ай бұрын

You are not going to get a diploma, Bruh. LMAO

@recurvestickerdragon

2 ай бұрын

galvanized square steel, eco-friendly wood veneer, and screws borrowed from an aunt

Oh my god I love you. I do the moment of inertia with a phone demo for people ALL THE TIME

@trueriver1950

2 ай бұрын

Are you sponsored by the repair shops that fit new screens when the phone gets dropped?

10:15 I am SO HAPPY you used this example. When I first learned about the intermediate axis theorem, the first thing I did was realize that a smartphone can be used to easily demonstrate it. Now, whenever I'm meeting new people or talking to a stranger about the importance of understanding physics, my favorite thing to do is to take out my phone and demonstrate this. No one ever expects it to behave like that, and I always have a phone with me, so it's super cool to be able to show that to anyone any time. It really makes my point so well because of how unexpected it is for people. ^^

@guard13007

Ай бұрын

Oh, and there's a secondary benefit: I've done this so much that I am now proficient at tossing my phone in a way to get exactly one tumble (or half tumble? not sure how you'd define that) and one full rotation, so that if I want to show someone something I'm looking at on my screen, I casually toss the phone and it lands in my hand screen up facing them. It looks like a magic trick and gets fun reactions sometimes. :D

I love the way you went about this discussion. Don't give up on snapping the tether as NASA has proven fairly good at projecting trajectories and wasting all that momentum would be a shame.

@marsbase3729

Жыл бұрын

Exactly, it's like a stone in a sling. If you time the release just right, it will go where you want.

@RCAvhstape

Жыл бұрын

It depends on your design. If the counterweight is a big propellant tank (like a Starship tanker version or something) then throwing it away will get you less delta-V than despinning and using the propellant in your engine.

@paulmoffat9306

Жыл бұрын

Also, NASA has real world experiences with their tethered weight experiment for power generation using the Earth's magnetic field. The cable was several kilometers in length, and actually jammed, forcing them to cut it loose from the shuttle.

@seasidescott

Жыл бұрын

@@paulmoffat9306 I missed hearing of that, so tragic since some people have been waiting most of their lives to see that experiment done.

Note this is very noticeable in KSP for early RP-1 rockets, which almost always have at least one spin-stabilized stage. If you start them spinning on the minimum axis, above a certain altitude, they will slowly spin out towards the maximum one due to the fact that KSP rockets are made of multiple parts that can bend and move in relation to each other. It's also an important concern when making stock props. A 3-bladed prop is stable but a 2-bladed prop wants to yank the axle out of its housing whenever you turn the aircraft.

@TheWorldsprayer

Жыл бұрын

...I honestly don't think I've ever had to spin a single KSP ship...

@aniquinstark4347

Жыл бұрын

@@TheWorldsprayer Me neither. Some people really overcomplicate that game.

@forsaken841

Жыл бұрын

@@TheWorldsprayer he’s referring to the realism mod overhaul.

@SqaurebearSqaurebear

Жыл бұрын

@@aniquinstark4347 you do with certain mods

@MrHaggyy

Жыл бұрын

@TheWorldsprayer you never build a giant mass spinning completely unnecessary to brake either your ship, physic engine or hardware. Man you really missed out on a hell of a lot of fun.

Also, regarding the ring-stations - yeah, they're not very practical to build, but my favorite proposal for building a space station was one that involved the big orange fuel tanks used in the shuttle program - the idea was that rather than discarding them, they'd give them just enough extra push to get into orbit, where after numerous launches, we could send up a space-tug with some extra hardware to rendezvous and gather them all together and use them to build the segments of a ring station (of course you'd start with the dumbbell of 2, but then you can keep attaching them in pairs until you have the full ring).

In the case of a space station, beyond the ISS, I think a thin cylinder shape, probably a quarter of the diameter thick, would make sense to have enough space for people to live in with plenty more in addition. Instead of thrusters, I'm thinking an equivalent to reaction wheels for the spin and moveable weights along the edge to maintain a consistent center of gravity with a docking bay in the center which would decrease in RPM to match the incoming ship to allow for a proper connection. After the ship departs, the center will start to spin after those who entered are along the outside until it's matched the RPM of the station when they're able to exit the dock and go elsewhere. There's more to the idea, but this should be enough for now.

@recurvestickerdragon

2 ай бұрын

you probably don't need a rotating berth, just sync your incoming spacecraft's rotational rate. we've all seen interstellar by now, yes?

Feels like they're shoehorning this into a craft that didn't have this in mind from conception.

@benjaminmeusburger4254

Жыл бұрын

Yes, it makes a big difference if the lift-points and the upper structure is designed to hold the weight of an empty or a fully fueled and loaded Starship. At the moment it is an empty steel-silo with blank slates welded together, nobody is dreaming about hanging additional hundreds of tons to the frame

@gabrieldoudna6570

Жыл бұрын

Lower bound on dry mass is 100t and Wikipedia payload mass is 100t, so the lift points can handle at least 200 tonnes-force, conservatively. Even if for some reason you're traveling with 1200 tonnes of prop, pushing total mass to 1400 tonnes, the lift points can still provide 200 tonnes-force of centripetal force, or 0.14Gs. My guess is that would be worth it. More likely tho travel mass would probably be low enough to provide at least as much gravity as Mars does

Very well done! You deserve so many more views!

Just accelerate the ship towards Mars at 9.8m/s^2, then decelerate the ship at 9.8m/s^2. This is clearly the most elegant solution.

@ConHathy

11 күн бұрын

@@RiverReeves23 I actually made an entire video all about trying to use thrust gravity: kzread.info/dash/bejne/oIZ_sMpmd9ufh6Q.html

@VoxAstra-qk4jz

10 күн бұрын

Unfortunately, Musk doeant have an Epstein drive to slap on his Starship. It only Wworks in the Expanse because the ships have functionally infinite fuel.

This just drifted through my feed, I think I just found a channel to sub to. I also really like the use of the astronaut avatar as a way to deal with the microphone. Some serious "calling it a feature" there.

Haha I was thinking about the T Axis handle all the time, great that you mentioned it!

Finally! I found a video talking about the same thing I've been thinking about for years now. Yes, bone and muscle loss are the biggest physiological problems for a trip to Mars. I envisioned two cuboid shipping containers tethered together by cables (and transit ducts) about 200 feet apart, slowly rotating around their center of mass.

@amramjose

Жыл бұрын

A trip can be shortened to about 40+ days with a variable impulse ion or plasma engine, such as Ad Astra's Vasimr engine.

@Andreas-gh6is

Жыл бұрын

The biggest problem may actually be radiation. Bone and muscle loss can be kept in check with training. The longest stay so far was 437 days, so the astronauts would probably survive a Mars mission even without artificial gravity or spending time on Mars with a 3rd of Earth gravity. The question is how long it will take them to recuperate....

Great show! Not previously aware of the opportunities with small radius centrifuges. Like the instability demonstrations, saw the spaces Tatiana handle previously but you provided an excellent explanation, thanks!

Great video! Love how in depth it is for just a 16 minute video

Well done. The medium moment of inertia of rotating bodies is a very difficult concept to understand.

excellently presented! Thanks for sharing! I'm all for going to Mars when we can travel 20 times faster than we now can. The "problem" is going to be with mental health and such. Best of luck to all of us!

@kennethkho7165

Жыл бұрын

we actually already have the technology, we already have small nuclear reactors inside military submarines, and we already have ion thrusters that's pretty much in every satellite we launch, and we already have giant radiators in the international space station. you only need to combine these 3 things to make nuclear spaceship viable. nuclear spaceship is basically just your average satellite, but instead of being powered by battery or solar panel, it's powered by a small nuclear power plant, and the most conservative estimates say that we should be able to cut travel time to only one month.

@MacNerfer

Жыл бұрын

Mental health will be okay. We have submarines out at sea for months, scientists who over-winter at the south pole, etc. Obviously you need to screen the people, and give them some structure, but it's completely do-able. The classic case was the BioSphere 2, which had 8 people locked up inside for 2 years. There was major conflict, but they also had to deal with constant stress over oxygen levels and insufficient food. And nobody got hurt.

Artificial gravity caused by rotation has an important advantage: You can go to the toilet normally and take a shower normally.

Yay, finally somebody has reminded us all of what I learned 50 years ago in year 12 physics about rotational motion.

@ConHathy

Жыл бұрын

The ellipsoid rolls on Poinsot's plane

this guy gotta get more recognition

Tethers are lighter than a rigid trusswork, but are there secondary stability issues with a flexible tether? Such as wobbling or twisting of the load, "crack the whip" scenarios, etc.? Is some sort of shock absorbing and dampening system necessary?

@jackwalters5506

Жыл бұрын

When enough tension is applied to a flexible cord it begins to act rigid. The velocity of spin required to create meaningful artificial gravity easily accounts for that

After watching Real Engineering's video on the SpinLaunch, I am fascinated by the discourse on design concerns that people have for certain things. I know some people do comment with their credentials and a really well thought out argument for their point, but I'm really interested in how sometimes the discussion gets side tracked by assumptions in the proposed solution. For example, people were dismissive of SpinLaunch's vacuum chamber based on aerospace testing vacuum chambers, which were orders of magnitude more complex and expensive than the actual needs of the SpinLaunch system. I wonder if the concerns about the tether or the centrifuges could be similar in this case, or if it's all just a reaction from ignorance on the actual science

I'm glad someone finally discussed tethered options. I've thought about this for years, but never saw any analysis of it. My thought was to have your utility stuff at the other end of the tether (like say, and unshielded nuclear reactor) where 1km of separation could be really helpful. Although when it comes to artifical gravity, I tend to think longer term (space stations, deep space missions), not a trip to Mars.

I had suspected that astronauts could adapt to short-radius centrifuges based on watching a ride operator walk around inside an amusement park centrifuge (with a radial acceleration of about 1g) circa 1970. I'm really happy to see this confirmed by the recent research you mention here. Thanks for a really excellent video. By the way, here's an idea I had a while back that I've never seen mentioned elsewhere, though I seriously doubt I'm the first person to think of it, and I would love to see someone do a video about it. Land the lunar starship upside down. The lunar engines are already going to be mounted high up the side anyway. Landing nose-down would put the astronauts and cargo near the surface and give a clear view of the terrain from the flight deck. It might even be more stable, depending how how full the tanks are at landing.

@TheBooban

2 жыл бұрын

I think you are the first person in history to think of landing a space ship upside down.

@isaacstevens1912

2 жыл бұрын

I think this is a really clever concept.

@phildavenport4150

Жыл бұрын

@@TheBooban I'm sure Elon Musk would have thought of it. That bugger seems to think of just about everything, and of ways to make them work. A latter day Edison, to be sure.

@crabby7668

Жыл бұрын

@@TheBooban isn't that normally called a Crash? 😊

@mikicerise6250

Жыл бұрын

Yeah. Who would have imagined that astronauts who spend over a year in microgravity without spontaneously combusting could possibly adapt to life in a centrifuge for a few months? 🙄

Use a combination of short radius centrifuges at the axis for workouts at higher gravity with lower gravity (lunar level) at larger radius with slower spin rate.

@Bullshitvol2

Жыл бұрын

The human body needs a gravity of 1g constantly or the human will experience changes. Not more and not less. NASA made an experiment with short radius centrifuges that were running at 1.2g. It ended in disaster (one participant had a short cardiac arrest). The human body isn't made for anything except 1g.

Just wanted to share some thoughts on your video. Awesome content! Thank you for making it. The idea of the tether is genius. It would be practical and easy to add. Each Starship could have the tether cable, winch system and its own tethering hook in the nose cone. You could have two Starships meet nose to nose in order to initiate the tether, with each ship hooking to the other one's tether. This would give you redundancy, with two tether cables, one from each ship, keeping the system connected. You can then initiate the spin with a really short radius, the length of two Starships essentially, and pay out the tether cable as you accelerate to use that centrifugal inertia to help with the acceleration process. Then disengaging those tethers at the same time when it's time for the Starship pair to separate, after they are done with their journey.

@stargazer7644

2 ай бұрын

Paying out the cable will slow you down. It won't help with the acceleration.

Spinning the entire ship will make your control engineer hate you as your actuators change orientation all the time. I do actually like the two ship rope idea. Make the rope a winch and you have a great control tool. Hock in close bring the system to target rpm. Then let the winch increase distance while the thrusters keep the rpm to increase gravity. Would love to experience this. Having a centrifuge inside the ship is somerhing your controlengineer would love. As it stabelizes the system. Actually having two like a dumbbell would be great to control stability. While you travel speed it up to keep orientation, even if you hit something. If you want to manover regenerative brake the centrifuges, manover with little moment of inertia and spin them up again. It might be possible to rotate more efficient with coordinated acceleration of the centrifuge and thrusting. Sience fiction got his point right quite a view times. Many long travel ships have a ring rotating, the main thruster in the center of rotation and the thrusters located on a long leaver fixed on the none rotating frame. Thats basically a centrifuge but outside of the main rockets shell.

Very interesting. Would spinning up a "small"ish centrifuge inside of Starship affect the ships movement?

@somefuckstolemynick

2 ай бұрын

Yes. Rotational momentum is conserved. Meaning if you spin something up in the station (at least if you use the station to “push” against) you will start spinning the station as well. From there it depends on the relative masses and where the center of rotation is placed what effect you get.

I think for a Mars mission you would aim for 1/3 gravity. They are going to be on Mars and under that gravity for some time. And the simple two starship 500m tether gets my vote. You want the whole living space at 1/3 g.

@jonathananderson7990

2 жыл бұрын

You want 1g, cause one of the biggest issues astronauts face is loss of bone density. This would also be the longest time a human has been out in space. It's crucial they experience the most amount of artificial gravity as possible in order to stay healthy enough for the trip back and carry out their job on mars.

@moozoowizard

2 жыл бұрын

@@jonathananderson7990 They will be on Mars for 2 years at least.... 730 day, Way past any record on the ISS. They go knowing that it will permanently affect their bodies. In fact they may not be able to return at all for that exact reason.

@jonathananderson7990

2 жыл бұрын

@@moozoowizard Well what would be the point in giving them anything less than the most time possible under normal gravity? Is there a purpose you want them to get used to mars gravity?

@moozoowizard

2 жыл бұрын

@@jonathananderson7990 they are going to make a colony. At least with Elon they are. A colony where everyone comes back every two years isn't going to work. 6-9 months of 1g on the way won't make much of a difference if they are going for 10 years + say. And they won't be taking a centrifuge for gravity on Mars. Anyway that's my view if it. Sure on the way back. Start at .3 g and slow increase to 1g so they are use to it when they land on earth

@technoquetz126

Жыл бұрын

@@moozoowizard no competent space agency will send astronauts on a one way trip, that’s pointless, because what’s the point of going to Mars if you can’t bring samples back to Earth, rovers provide plenty of pictures, considering NASA is the most likely space agency to send a crewed mission to Mars, they certainly will make sure they bring the astronauts home again, because there’s literally no reason to send humans to another planet if they aren’t coming back, as probes can mostly do everything a human can do on the planet

Centrifugal force still requires friction to impart force on the occupants. A rotating disk on earth spinning imparts centrifugal force on it's surface due to the force of gravity on earth. Simply spinning a disk in zero gravity will not impart any force on bodies unless they are tethered to the disk in some way. So rather than walking around the outside wall occupants would need to walk on perpendicular walls along radials. The spinning wall would then collide with and impart a constant force on the occupants. However the force would change depending on position along the radial axis. So the depicted diagram with star ships tethered end to end would actually collide with occupants from the side walls which are aligned with the radials of the axis of rotation. This could all be solved by rotating the habitation module internally instead of rotating the entire ship. So just to be clear the force imparted on the occupants would first be perpendicular to the centrifugal force. Once friction occurs between the occupants and radial walls there would be a centrifugal force imparted as well. So if there were no radial walls you could jump from the outer ring and still be spinning at the speed of the outer ring but there would be no force to push you back out to the outer ring if you are suspended in zero gravity. You would just be spinning while jumping across the ring from side to side. The centrifugal force only works if there is friction.

small example that might not apply to everyone about that " you can adpt to the motion sickness of a short cetrifuge" if you've ever been on a boat, you know your body does this pretty well subconciously. if you have ever spent a bit of time on a boat, you know when you go from standing on a boat to solid ground you feel quite wobbly. the whole " sea legs" thing. that's your ear doing that. "get your legs under you" even being dizzy, is a feature of that as your brain is trying to readjust to the spinning.

Short radius is a good solution for astronauts, whom have been rigorously trained. And for a situation where all you need the gravity for is maintaining human health. It most likely is not a solution for anything else. Civilians wouldn't be able to handle the restrictions for the periods of time involved.

@travcollier

2 жыл бұрын

"a situation where all you need the gravity for is maintaining human health" Yep... But that's not the only thing a bit of gravity is very useful for. Tons of activities are much easier with some constant acceleration "down". Micro gravity is the point of a lot of space research and (hopefully) manufacturing, but we really want to have areas with micro gravity *and* areas with some appreciable gravity with easy access to each other. Oh, on the health thing... Have we figured out how much gravity is required to maintain long-ish human health?

@saumyacow4435

2 жыл бұрын

@@travcollier Correct. Even fractional gravity is a good thing and its not that hard to achieve with spin. Its good that liquids don't float around. Its good that you can eat (relatively) normally. Its good that you don't have to strap yourself into the bunk. But one thing a lot of people haven't really given much thought to is the possibility of a real shower on a long space flight. Rather than using wipes (which itself becomes a garbage/recycling problem). A real shower would make a huge difference to morale. Another point is that you can compensate for having less than a full Earth gravity environment by adding wearable mass - which puts more load on your bones/muscles. And as it happens, wearable radiation protection (vests etc) is a good idea and will also add to your effective weight. That lands you in a zone around 0.8 Earth gravity. Just crunching the math. A transit vehicle (Earth to Mars and return) comprised of a 150 metre truss with tankage on the far end acting as a counterweight to the habitat on the near end. Effective radius about 80 metres. For this we have 2 revolutions per minute provides near Mars gravity. 3 rpm provides 0.8 Earth gravity. And that is acceptable provided it is spun up gradually.

@Graknorke

Ай бұрын

Why would civilians be on a spacecraft? That barely ever happens.

Not sure if you have mentioned this in any of your more recent videos, but I suspect that the eye pressure problem on the short radius centrifuges is most likely due to the gradient offset of the G-forces. The subject's head is close to the centre point of the rotational axis meaning that the head is closer to the zero G point. If the short radius centrifuge is just a bit longer such that the subject's head is closer to 0.5 G it might help with the eye pressure problem. But, I'm no physicist, so I might be wrong on this, it's just what made logical sense to me. 😅

@recurvestickerdragon

2 ай бұрын

psst! that's the whole point of the experiment, and I guarantee they didn't do _all_ their trials centered. you start off with one end of your gradient as "no movement" then adjust the radius and speed in little increments from there to see what different ratios are like.

Phenomenal content, just subscribed!

I think you wouldn't need to budget extra delta V for spin up/down, since a series of short burns on one end of a tethered ship configuration could combine the spinning maneuvers with the insertion burn at earth and the capture burn on mars. It would require aligning these burns perpendicular to the axis of rotation though.

The first thing that people ask is "what happens when the tether breaks?" because that's exactly what happened during the mission TSS-1R; you also didn't considered the damage that the whiplashing cable would do

@dpsamu2000

Жыл бұрын

Was that the one that dragged a cable through the magnetic field of the Earth to generate electricity but wound up generating too much which blew the cable? Not the same thing at all.

@Beregorn88

Жыл бұрын

@@dpsamu2000 the application was different but the concept was the same: two objects in space tethered by a cable under tension. When the cable broke, the object without propulsion was lost to space. That's why "what happens when the tether breaks" is a perfectly valid question

@dpsamu2000

Жыл бұрын

@@Beregorn88 The conductor wasn't a structural support cable. It was thin, and in an experiment of unknown electric forces. The tension on an AG is known, and mentioned in the video. The solution to the question of what happens was answered by making the cable strong enough not to break, redundant if one broke, and having enough fuel to recover from the separation. There are only so many things that can be done practically. Too much pearl clutching on one thing winds up neglecting other things. Every major disaster in NASA was caused by that. Apollo 1 fire pressurized oxygen was the cause, and failure of an impossible standard of no ignition source caused the negligence of the hazard. Neglecting the cause of Gus Grisom's blown Mercury capsule hatch resulted in the Apollo 1 hatch that couldn't blow. If it could have blown the pressure would have dropped, fire wouldn't have spread explosively, could have been put out, and the astronauts could have been extracted. Same with the Challenger O rings where dire warnings were repressed, and NASA tried to fraudulently technobabble out of their responsibility to the investigating committee. Richard Feynman on the committee exposed their fraud with a glass of ice water, and a clamp. Columbia was lost because tile damage was neglected as was scheduling a backup rescue vehicle. That backup was done on subsequent missions as was tile inspection and repair equipment. All of which I suggested in a paper I wrote 2 days after the disaster. Also criticizing NASA for failing to advance the next shuttle in line just 30 days from its scheduled launch for a rescue. I pointed out the foam strike was large enough to do significant damage. In that same paper I predicted the damage to within a few tenths of an inch the length, depth, and width of the gouge the foam would make on the tiles. Spending over a million dollars on a test simulation of the strike produced a gouge within that few tenths of an inch on the first try. NASA claiming it was a fluke that the damage was predictable, and to evade responsibility for failing to launch a rescue, and to evade having a standby for subsequent launches spent another 20 million testing with a different angle strikes to prove me wrong. Those tests only succeeded in blowing holes in the wing. I can no longer find the video of the first test that resulted in the gouge I predicted. The point is rationalization is not reason. Your comparison to the breaking of the conducting tether of the TSS-1R experiment was an intellectually incompetent rationalization.

Ok, so to jump in on the questions about the small centrifuge. Is this something that can only be used for sleep? What would you suggest for an implementation of a small centrifuge on Starship? Can people on this solution do useful work, or are they just going to be lying down while their body fluids drain back to places where they should be? I have generally been on the anti-small camp, but I'm really curious as to what a recommended implementation might look like, and how it might help Starship travelers. Also, most importantly, can you poop within the small centrifuge?

@ConHathy

3 жыл бұрын

I don't think you would want to use this while sleeping, bed rest is a pretty good analog for zero-g on Earth so sleeping in AG wouldn't be very productive. I think the best implementation is for use during exercise similar to the MIT concepts around 15:16. This would take the form of an exercise bike or something similar that is on an arm within the starship's 9m diameter. This would further limit balance and motion sickness issues as you'd be on a bike seat and not moving your head side to side. Intermittent exposure seems to be adequate to counteract zero-g, the 2nd paper on the right around 0:22 demonstrated that 30 minutes a day was enough to offset the muscle losses we usually see during bed rest studies. "Aerobic exercise capacity" was not maintained but this is probably because they were not moving while in AG, 30-60 minutes on a bike is pretty reasonable given current astronaut schedules and would likely do a better job maintaining "cardio." I wouldn't put a toilet on one but I don't see why it wouldn't work.

@philipfahy9658

Жыл бұрын

@@ConHathy I mean have you seen how they use the loo in space? I'll take gravity for my toilet runs, please!

I'm sure I'm not the first to ask this, but what happens when the people inside move around? How much mass do you need so that the change inside doesn't affect the overall spin? Will your guidance system have to constantly deal with changing balance in your centrifuge?

@ConHathy

Жыл бұрын

It’s really going to depend on how many tons the ship is and how many tons the crew is. A dozen people in two starships probably couldn’t do much to the rotation

How would it function if you strap the starships together at the ends. Similar to the tether method just closer. Nore around like, 10 meters. I mean yes small centrefuges are an option but would constant gs be better? I haven't done any research but it's just a question.

I like how this video is about the quality of youtube comments, but that's not making people think twice before posting their opinions on matter's they don't really understand very well at all.

@GraveUypo

2 ай бұрын

i'd like to address having a video doesn't make his opinion more valid than anyone else's. that's a weird misconception that seems to plague youtube for some reason. he admitted himself that he's not an expert, so you can just take his video as a fancy comment.

Small spinnes are health risk for the crew in long term missions. Better will be to use the whole ship version, but go for lower G than 1. Spincalc mostly covers all situations. By the way, the best "spinner ship" would be either equivalent of tyqoon "station" from ixion pc game, or Nauvoo from expanse sci-fi universe.

@theapexsurvivor9538

Жыл бұрын

Yeah, all I can think of with the a small spinner is the drastic difference in g-force between the head and feet and how that'd affect stuff like circulation.

@lunaticbz3594

Жыл бұрын

I imagine if we don't have the data already before launching a mission to mars, it make the most sense to see how well the crew manages in simulated martian gravity. For the long voyage. If there's negative health effects then we know colonizing mars is going to have more issues then we thought.

I liked the design of the hail Mary for smaller-scale ships

doesn't a short radius have a greater variation of g's across the length of the body? as the head is moving at a relatively and significantly slower speed than that of the feet. or do the g's come from the point of contact ie the floor? just curious.

My criticism of short radius centrifuges is that they solve a subset of problems and also tend to be more effective in loading the lower body. Spin gravity applied to the whole vehicle has other worthwhile benefits. One of those is simply to create a sense of "up" and "down" within the crew cabin which has psychological benefits. There is also the practical benefit of ensuring objects will fall. That makes a lot of activities, like eating, a lot less complicated. (Ok, so you still need zero g procedures for when you're not spinning). Again, the intangible here is psychological benefit. Speaking of which, I don't think it too much of a luxury to have a normal shower and spin gravity is essential to this (you need the water to head down and be collected, not float). So while I get the idea of centrifuges in some contexts, I still feel that spin gravity, if its practical to implement, should be implemented. And while I'm here, I'll point out that a lot of people seem to be fixated on creating exactly one Earth g. Much of the benefits noted above work at fractions of an Earth g. Also, wearable masses (imagine for instance a radiation protection vest) would increase musculoskeletal loading and would be applicable in the range of 0.5 to 0.8 Earth gs. So you may be able to seek a reasonable compromise at below 0.8 g. Again, something to factor in when you're doing the real engineering trades.

I'm a big fan of the two-Starships-connected-by-cables concept for a Mars mission. One passenger and one cargo (with the cargo Starship also acting as a lifeboat). Two things. One, there is no need to create an artificial gravity greater than Mars' gravity (.375 g). There will already be a gravity gradient between decks that can be put to some use. Second, I have a concern if the cable breaks it will snap back on the Starship and damage it or wrap around it. It will be under 80 tons of tension, and I have no idea how it will react when suddenly going to zero.

@virginiamiller3521

2 жыл бұрын

I grew up just south of KSC, with several family members working there , one worked in the graphic design dept of the print shop . She would bring home non classified projects that were to be presented to NASA and DOD or congressional big wigs . One of these was a well engineered copy of Zubrin's direct to mars, others were more complicated variations . Zubrin's plan was shot down because it did not bring jobs and money to their districts . DOD and NASA engineers the simplicity .low risk, low cost and short lead time . Congressmen did not care what this could do for the country just how much public credit and private kickback they could claim.

@virginiamiller3521

2 жыл бұрын

part two The first presentation was over a hundred pages of what had to be designed and what they had on the shelf , with pages of draft blue prints for a 23? ton package of booster, landing system , and hab can launch-able on the shuttle . They also had plans for two expendable launchers with orbital docking of booster and landing system/ hab can but this would have much larger and cheaper than shuttle plan. I vaguely remember they all used Zubrin's rotational system at .4G , They had already tested synthetic cable that could hold the entire stress of lander but they used 6 for safety. This all came about maybe 6-9 months after Zubrin's book .

@franksolario1842

2 жыл бұрын

@@virginiamiller3521 His plan has a lot of moving parts consisting of many elements that have yet to be designed, built, and tested. My plan for Mars is two Starships (one cargo, one passenger), refueled in Earth orbit, connected nose-to-nose with a tether after TMI and course corrections, and spun up to Mars gravity with side-firing hot gas thrusters. Simple, cheap, uses existing technology, and probably the safest approach in that the cargo Starship could be used as a lifeboat. Not as sexy as the cycler system in "Stowaway" or some of futuristic nuclear electric proton warp drive proposals, but it is doable today.

Incredible video! So well done. I'm saying for years that short arm centrifuges are the way to go for science missions. They allow the ship to keep its orientation (solar cells, antenna, thermal management all depend on that!), are relatively easy to install in a ship like Starship and are super usuful for supplementing daily workout to keep the astronauts in shape.

Great explainer about the concept of moments in general. This would have been real helpful for applied mechanics class.

The three-starship solution seems to have the same problem like the rotating wingnut in zero gravity, that in regular intervals flips around 180 degrees.

@antonliakhovitch8306

Жыл бұрын

That's addressed in the video

The two vehicles connected by a tether has been my favorite for many years. I am no expert, but my intuition tells me that that is the easiest, cheapest, and most stable large radius set up. I hope that someone sets this rig up in orbit around earth for experimental purposes. Would it be possible to deliver and retrieve people and cargo to that rotating system without stopping it? Some sort of creeper car stationed on the axis point that creeps down the tether to the vehicles?

@ConHathy

2 жыл бұрын

I don’t see any physical reason why you couldn’t, you would want a rotating docking mount so it didn’t move but otherwise this seems like something we could pull off if we wanted to

@theobserver9131

2 жыл бұрын

@@ConHathy ha! You are right there right now! I did not expect your immediate presence! That was almost startling. :-)

@grlcowan

2 жыл бұрын

The "creeper car" is more usually known as an _elevator_ . It takes people and cargo down from the axis point, gravity gradually increasing, and -- unless they want to exit via a trapdoor in an unpressurized deck down there -- back up. Trapdoor diving takes rotational kinetic energy away from the station. If the loss is made up by ion thrusters, it is a way to get an impulse from those thrusters in a short time that they took much longer to make.

@phildavenport4150

Жыл бұрын

@@ConHathy What AG, if any, has already been tried aboard the ISS? I do appreciate that the whole station is a microgravity environment for the benefits of science, but has anybody considered the use of something like an attached module, for AG research?

@ConHathy

Жыл бұрын

@@phildavenport4150 if I remember correctly I think they discussed it in the very early days of the design but we’re concerned about how the vibrations could affect the rest of the station. The only a.g. done in space was gemini and it was very slow tethered rotation. The purpose of the test was more for “station keeping” between two vehicles than actually creating meaningful acceleration.

I suppose the one nice thing about the tethered method is since that would cause the gravity to be in the same direction as when the starship lands, allowing you to design the interior to be used the same way on land and in space, a minor benefit but a cool one

I've done the phone thing before this video, and always wondered why rotating about the short axis was always unstable. I figured it had something to do with moment of inertia, but not how different directions could change the interaction.

Hey, thank you for the insight on rotational stability problem. I really liked it. As layperson I have a question regarding the segment around 12:20: if the all 500m apparatus was rotating at 2 rpm, shouldn't the starships rotate faster than that after the tether is cut because of conservation of angular momentum?

@JamesSeedorf

3 жыл бұрын

That's what I thought but no. If you cut the tether you go from a force pulling the ships together to no force at all. There is no force to cause angular acceleration of the ships. The angular momentum stays the same because the starships continue to move in two parallel straight lines which when looked at from the correct frame of reference, gives you angular momentum. Hopefully we can get a follow up #short better explaining it

@ConHathy

3 жыл бұрын

No, they would still rotate at 2 RPM. Angular momentum at a very general level is actually masses traveling parallel in opposite directions. The relationship where it's the moment of inertia times the angular velocity is actually derived from this and is really just a simplified version of totaling up the angular momentum of a bunch of tiny point masses (atoms) moving in opposite directions. The two Starships are themselves, traveling in opposite directions and are separated by 1 km. When the tether breaks they are still moving in opposite directions and their paths are still separated. This is where the bulk of the angular momentum of the system is because the Starships are small relative to how far apart they are. Breaking the tether does not require this momentum to be transferred to the rotation of the Starships. As they float off into space, their separation increases, and their relative angular velocity decreases such that angular momentum is conserved. By the way, this is why two non-spinning objects can collide and end up spinning in the same direction, it's turning the angular momentum of non-aligned velocities into the more familiar form of rotating objects. But again, if we zoom in on the rotating objects are just a bunch of atoms traveling along opposite parallel (actually concentric) paths. Thanks for the comment, I didn't even think to mention this in the video. Also, don't worry, my brother has been an engineer longer than me and he asked a pretty similar question.

@justpaulo

3 жыл бұрын

@@ConHathy & ​ @seedorfj Thank you! I understand. Actually it's pretty obvious now duh!

@evoelias6035

2 жыл бұрын

@@ConHathy ... So you are a fan of small centrifuges inside the ship? Then what is the point of preserving the human body if you a apply a gradient of gravity from the legs to the head, if the head only experiences a fraction of the gravity. Are you willing to preserve the crew's feet only? Have you ever thought about how important the bones sustaining the head on your shoulders really are? Imagine you land on mars and your head is suddenly falling cause you are not able to sustain it anymore... that's why i support the idea of larger centrifuges. Cheers! And keep the science up, overall i liked the video!

@ConHathy

2 жыл бұрын

@@evoelias6035 true, you would probably want at least 1/3 g at their head level so their neck is accustomed to at least Mars level gravity. That said, astronauts have spent up to a year in space with no AG and didn’t break their necks. I would be more concerned with heart and eye health or the recently discovered blood clots that form in zero g.

I still think constant acceleration with plasma/ion engines (Like VASIMR) is the best option for artificial gravity. The gravity is toward the base of the starship and you just need to rotate 180 degrees during the deceleration half of the flight. Just build the damned radiant heat exchangers so you can run a nuclear generator about the size we already have on nuclear submarines and you have sufficient power for VASIMR engines. You may still not get enough acceleration for a full 1G but that probably is not necessary to maintain health anyway, especially since with constant acceleration the trip to Mars is shortened to like 40 days. If you can generate 1/3 G everyone is already acclimated by the time you get to Mars.

@ConHathy

2 жыл бұрын

Constant thrust would be great, but you certainly couldn’t get 40 days of 1/3 G with any like current technology. I don’t see a thrust to weight ratio for VASIMR but the thrust is only 5 N so if the engine, reaction mass, and power source have a mass of more than 1.5kg (they definitely do) it isn’t capable of that level of acceleration even at this small scale.

@jaceksiuda

2 жыл бұрын

Constant thrust would help in many ways. Like, even constant 0.1G would limit travel time to Mars to under 1 week (in the launch window around the shortest distance) - this translates to much less radiation, wider practical launch window, no need for aerobraking.

@saumyacow4435

2 жыл бұрын

With a realistic power source, you're talking about less than 0.01 gs. In other words, enough gravity to make things settle and leave a sense of "up" and "down". Perhaps enough to have a real shower (if you were patient). But not enough to get the physiological effects of gravity.

@seasidescott

2 жыл бұрын

Epstein Drive from the Expanse was that bit of magic. Maybe someday in some universe.

@grlcowan

2 жыл бұрын

@@jaceksiuda -- "even constant 0.1G" -- that's not as big a concession as you think. Accelerating 'A' metres per second squared halfway through a distance 'x', then decelerating at the same rate the other half of the distance, the minimum possible time-averaged rate of kinetic energy accumulation per unit mass is one-half of the square root of (A cubed x). For A=0.98 m/s^2 and 'x'=64 billion metres that comes out 123 kW/kg. That's with a perfectly efficient engine that gets perfect traction on space itself. A heat engine, throwing propellant (which carries off kinetic energy of its own) you're looking at a need to radiate away about 1 MW/kg.

The short centrifuge concept looks very interesting, I would love to look at the paper if/when it's published. My one concern would be about how long it would take for astronauts to go from dealing with such strong Coriolis force to not dealing with it. Will it take them minutes? Hours? Days? It's probably fine as you can most likely plan for that when designing the mission but I'd be interested in knowing the long-term effects of our brains adapting to a different kind of environment.

I'd be interested to see what you think of the design described in Andy weir's "Project Hail Mary" at the time of reading I certainly found it inoffensive and while it's no short radius it seems like the next best thing.

i cant do the actual math myself, but using spincalc, 500 meter radius to get 1g is about 1.3 rpm. also i'd imagine they dont even NEED 1g. i wonder how low they could get away with and still stave off the effects of 0g life.

@fluitfluiten

Жыл бұрын

Since Mars is 0.34g that is the most that is needed.

I very much appreciate you not brushing off what if the tether snaps. Human history is literally the story of shit failing over and over again until we find something acceptable. It would extreme arrogance to act like the tether would never fail ever, and there should absolutely be plans addressed in case it does.

What percentage of my time do I need to spend exercise in the small centrifuge to reduce the effects of zero g as much as simply existing in a large centrifuge?

Re: Small-radii centrifuges ... What happens when matter inside the centrifuge shifts around -- e.g., when a human walks around the ring to the opposite side? The center of gravity will shift, and the forces exerted by the centrifuge on the ship will change. How much reinforcing material will you need just to keep the centrifuge locked in place without ripping anything open? It's too late (and it's been too long since I was in school) for me to figure out how to ballpark those forces, but I recall reading that shifting CG was a possibly-fatal flaw for ring space stations. (Although there, it was more a problem of tearing apart ships that tried to dock at the central axis...)

Don't worry, small scale centerfuges will probably be used when we come to our senses and stop letting business narssists run everything and actually let the engineers who do the real work, yk, DO THE REAL WORK

I just uploaded a follow up video on Thrust based gravity, check it out! Q: How much time do astronauts need to spend in artificial gravity? A: Short exposures seem to be adequate to counteract zero-g, the 2nd paper on the right around 0:22 demonstrated that 30 minutes a day was enough to offset the muscle losses we usually see during bed rest studies. "Aerobic exercise capacity" was not maintained but this is probably because they were not moving while in AG, 30-60 minutes on a bike is pretty reasonable given current astronaut schedules and would likely do a better job maintaining "cardio.” I think the best implementation is for use during exercise similar to the MIT concepts around 15:16. This would take the form of an exercise bike or something similar that is on an arm within the starship's 9m diameter. This would further limit balance and motion sickness issues as you'd be on a bike seat and not moving your head side to side.

@anjhindul

Жыл бұрын

I won't return to veritasium ever. Dude lies half the time and the other half the time only barely understands what he is talking about. the problem with conducting things like small centrifuge on earth is that earths gravity fucks with your equilibrium where in space you don't have that problem. Bring a small centrifuge up to space, test the effect IN SPACE to know how it will effect people IN SPACE... FFS, is it really that hard after we put space stations that support astronauts for months at a time, landed on the moon and mars and asteroids?!? (only problem with small centrifuges, they WILL cause a small counter rotation in the space ship when turned on, and attempting to correct that spin in the space ship will cause the small centrifuge to STOP. This is known as conservation of angular velocity for the nerds out there. If the centrifuge can be perfectly centered and turns along the maximum axis of inertia we have no problems, just correct the ships spin by turning off the centrifuge and the next person turns the opposite direction...)

@bow-tiedengineer4453

Жыл бұрын

@@anjhindul or just have two counterrotating centrifuges. If you have a large crew of colonists, you'd probably want two anyways.

@bow-tiedengineer4453

Жыл бұрын

I agree that, from a pure logic and numbers game, small radius centrifuges are probably the best, but the tethering two starships has one added benefit: it'd probably be nice to be able to walk around during your months long journey to Mars.

@nickkorkodylas5005

Жыл бұрын

If you are smarter than Elon then why are you not the richest man on this planet?

@bow-tiedengineer4453

Жыл бұрын

@@nickkorkodylas5005 Firstly, because I didn't have the monetary head start he did, and secondly, because I suck a publicity and charisma. Elon may not be an engineering genius, or a public transit genius, and a lot of his ideas are duds, but he is a skilled businessman and a publicity genius. He has grand flashy ideas and he knows how to get the public hyped over them, then he outsources the actual implementation to people better at engineering and logistics than he is. Also, I think most of these artificial gravity concepts were designed by amateurs, not by Musk's team of engineers. When it comes to Elon, he seems to know when to step back and let the people he pays to be smarter than him step up and do the math for him, he's not going to be trying to implement anything like this without his scientists and engineers verifying that it's at minimum an adequate solution..

You've sold me on short radius centrigugi.

Would it be possible to add weights to the sides of the ship, extended outwards by a flexible strings. Causing the ship to remain rotating through the pervious minimum moment of inertia. Idk, im not really a scientist, if anyone gets what I mean and has thoughts about this, please share!

Thought this was an sfs video💀

@Doggus87

2 ай бұрын

Same

@Ilikeengineering

2 ай бұрын

Same here

@Objectshowfan190

2 ай бұрын

Same

@coconut_song

2 ай бұрын

same

@Doggus87

2 ай бұрын

It's weird seeing you guys here, glad the community is still somewhat alive. Sfs might not be the most detailed game or the most fun game to replay, but it sure is amazing and impressive how a small independent creator made an entire solar system in his PC (And He Didn't Even Put Ads!). Stef and SFS deserve way more recognition. But again it's glad seeing you all here together again.

Man you put a ton of effort into this 👏

how about a single "Starship" with a re-attachable crew module and a tether; detach the crew module, point it back at the Starship body, attach the tether and start rotating, extend the tether to the desired length; at destination, stop the rotation, remove tether, reattach the crew module and proceed? Or, you could have two halves of part of the cylinder extend out (halved in-line to the long axis) and rotate, but this might destabilise and tumble.

There's no need for the central point thruster to be a whole starship. If you made it solely a propulsion system then you could tailor the mass distribution in your favor and you would no longer have the intermediate axis problem. Alternatively you could have a starship variant with a door on it's side that opens up to reveal a thruster for course correction. You could also tether 3 or more starships together in a symmetric pattern around the center (this would add large masses to the outside and change the intermediate axis to coincide with the thrust axis. If I were doing it I would have a small donut-shaped hub in the center with a thruster (or several thrusters) inside that. For distances like Mars you would get great performance from some hall effect thrusters, so you don't even have to worry that much about sheer on the scaffolding. There are tons of other ways to go about solving this issue too. I wouldn't call it a massive problem. I would call it a minor engineering challenge at worst.

Nice video! While I agree that short-radius centrifuges may be more practical to build, I don't see them more practical to use. Living in gravity is far more than organic health and our bodies function better in ergonomic terms when something is pulling us "down". From eating (with your digestive system benefiting from gravity as a bonus) to writing, walking, playing basketball (with very large radii, this would be possible without significantly twisted throws), using untethered tools, drinking water... the list goes on. Adding to it, I definitely hope no one builds a ring station, though... if they do, we can throw the old trope at them: "Well done, FLIPPER!" :D

@jamessatler5461

Жыл бұрын

However you are right living in gravity is better. We are still talking about first steps towards interplanetary travel. And it must be as compact as possible. We simply can't afford to haul hundreds or thousands of tons of material from Earth into orbit to build most luxurious spaceship we can think of. It must be minimalist and functioning. And SRC beds are answer for this. Sure once we establish our presence on places like moon from where we will be able to haul material into space for cost of putting it on marine container ship then yes, we can build huge spinning vessels to provide home like conditions for crew.

@julioalves3051

Жыл бұрын

​@@jamessatler5461 Hi! Thanks for answering! Well, I partially agree with you and the part that I don't refers to the fact that we are aiming at making a manned flight to (or even a colony on) Mars before being extra capable in mining regolith from the Moon and building with it directly in space. I would never try to jump steps in this case, as I believe the time when human lives were as expendable as to be OK to place them in caravels and send them to their almost certain death is long gone (is it?...). When you have space mining and space building capabilities (it doesn't even have to be a full economy, but only the capabilities to use in a project, which is far faster to achieve), then we can truly build Mars-capable spaceships with proper artificial gravity (among other necessary capabilities - such as hydroponic bays, large CO2 scrubbers, proper space for people to walk, etc. - that don't fit all too well in a "caravel" like Starship).

Nice discussion and it changed my mind about tethered artificial g. Now I see how unworkable it is. I can only imagine the negative long term effects of short radius artificial g though. Permeant ear changes at the least. Fast transport is the only solution to Mars travel.

What about the constant heating and cooling from the sun? Or would the ship be oriented to spin with the sun always on the same side?

Lets take a moment to appreciate the quick remote camera work at arecibo tht gave us some once in a lifetime footage!

We dont need artificial gravity at all. We just need magnet shoes and a metal walkway. I've been thinking about this for years and i feel like NASA should hire me.

@ConHathy

Жыл бұрын

Doesn’t really do much for your eyes or heart

Apart from worrying about gravity, radiation shielding is more important. Cosmic radiation goes through everything and destroys DNA. This is a very destructive radiation that exists in all space. The earth's atmosphere protects us and it cannot be replicated easily.

@MapMonkeyTube

2 жыл бұрын

The atmosphere does not protect earth from "cosmic radiation", and is really just a loose collection of molecules at extremely low density. "Cosmic radiation" or gamma waves have no problem going through that very minor clutter (in it's low amplitude frame of reference) and has a ballpark of one light year of lead to have enough matter density to stop a gamma wave. An entire solar system cannot replicate that. A magnetic field, which just happens to have a known effect on electromagnetic radiation such as gamma waves, is far more effective at redirecting gamma radiation.

@cube2fox

2 жыл бұрын

JAGI, you misunderstood what he meant. His claim was not that the atmosphere rather than the magnetic field of the Earth protects from radiation. His claim was that on a trip to Mars the radiation is the main problem, not the missing gravity.

I thought the advantage to whole ship artificial gravity was that it is on 100% of the time. Do you still get the adverse health effects of prolonged 0g if you spend some time in a small centrifuge each day, or does that little bit of centrifuge time keep everything good?

In this video, at 14:23 I thought... Before the ships are released from the tether, could you rotate both ships 90 degrees to make the assembly begin spinning in a different direction? Which might make the original spin direction slow down naturally?

If Lord God Philosopher King Musk says we can spin around like gerbils in a cage then it is written.

@m23swwager1

2 жыл бұрын

May his words spread through the ages and let it be known and true that the Lord God Philosopher King Musk Gave us a Gravity wheel that not only gave us gravity and experience space and gravity in a new way be heth gave us the experience of being a gerbil hazzzaasa

The first challenge to overcome is Elon Musk.

@mikedubovs1574

Ай бұрын

I see you are racist against African Americans.. and against free speech

@jeebusk

Ай бұрын

the first challenge to overcome is you

@coaldoubt2879

Ай бұрын

@@jeebusk I'm not trying to send people to die on, or on the way to, Mars

@justliving7970

Ай бұрын

@@jeebuskYour statement is not clever, try again.😊

@kidpog3d101

Ай бұрын

Firstly, the challenge needs to overcome Elon Musk

I think a nice design would be to have a long thin station that two starships can hook onto and then spin. It can remain in orbit as a space station, possibly with crew or supplies on board. Because it can be brought into leo separately it could dramatically increase the cargo capacity of the system.

Thanks for telling us about the short radius centrifuge research - i really believed that would never work

IMO easiest route would just be to spin the sleeper cabin. That way you can sleep away your gravity time. Make sure the cabin is fully balanced including a variable balancing system for when people enter and exit. Said sleeper cabin should be full contained within the body of the ship. Could also contain some exercise equipment. Storage of all fluids and supplies would be in non rotating sections. Additionally there should be two rotating cabins that are very close to the same mass and moment of inertia. Balancing could be done gyroscopically by variation in* rotational applied force. Ideally no fuel would be spent maintaining space craft bearing and orientation. This would allow all cabins and structures to be any orientation aside from the gravity simulation areas.

I wonder how dense of a core you would need to achieve gravity on a space station or if it's even possible to have one without the ship just collapsing. Also what would happen to the spinny ship if the core ran throughout the entire center of the ship (Like a long cylinder that runs the entire center) rather than being like a ball concentrated in the direct center?

If you need the cargo capacity of three starships for the journey - then what happens to the stability of the system if you connect them with three individual tethers to a central "knot"?

One question I haven't seen addressed that much; is 1g necessary, or would it be sufficient with 0.5g artificial gravity or so to avoid the perils of weightlessness? It would reduce the require spin rate.