Giant catapult sends satellites into space without rocket fuel
Giant catapult sends satellites into space without rocket fuel
Instead of using traditional rocket fuel, SpinLaunch uses a massive rotating arm to propel satellites into Earth orbit solely by electricity
Lotta coulds, ifs and mights in this breathless koolaid-drinker's puff piece (actually he's probably just a shill). Lotta rendered images and animations. Lotta lack of anything tangible. Lotta totally irrelevant misdirection in the bottom half of the puff piece.
This isn't a news piece. Nothing new has been done with this idea. It's basically an ad (for vaporware). The headline is technically misleading, as no such thing has been done yet.
Thunderf00t busted this three years ago: https://youtu.be/9ziGI0i9VbE
Vaporware then, vaporware now
Thunderfoot is a dumbass and shouldn't be referenced for anything. If he gets something right it's only by luck.
Lmao don't be so dramatic.
It just takes building enough energy to launch the object of whatever mass.
It's a mathmatical equation that will be solved by someone someday.
Edit: lmao do you babies bitch about all new tech?
A bunch of old men shaking their fists at clouds
"sends" in a headline means one thing to most people. They should have said "may one day send" if they wanted to be accurate.
In mice.
It would work fine in a vacuum, e.g. on the moon. Unfortunately, on earth we have a thick atmosphere to deal with. Orbits are about going sideways VERY fast. If you try and plough through the atmosphere at 7km/second it creates a LOT of heat, and uses a LOT of energy. You also can't just lob a satellite up. It will need to circularise its orbit, so you need to log an engine and fuel too.
Basically, it's viable as a technological idea, but not on earth.
Do you struggle with reading comprehension?
I didn't say anything about whether this concept was viable from a physics standpoint.
I said that the article is a puff piece (which it is) and probably a paid advertisement, and that the headline claims that a thing has happened which has not actually happened.
Technically, the Alcubierre drive is also just a mathematical equation that will be solved by someone someday if we figure out how to acquire and concentrate enough negative energy. That doesn't mean it's happening anytime within the next 1000 years though.
It's mathematically impossible to send an object into orbit just from energy imparted on the ground. Depending on the speed you launch it, either it falls back down or it flies off into space.
To achieve orbit you need a circularization burn at the highest point of your trajectory.Or as Scott Manley put it:
"Getting into space is easy. Getting into orbit is hard."
Engineers who spent their whole childhood watching Loony Toons: “My time has come!”
I haven't see any kind of news or update from them in over a year
Yeah looks like they ran out of money.
Actually, I stand corrected. It looks like they raised $11.5 million a few months ago and are working on a ruggedized little satellite that would survive their centrifuge.
Also, "founder and CEO Jonathan Yaney left the company" ?
https://payloadspace.com/spinlaunch-raises-11-5m-to-hurl-more-spacecraft-into-the-sky/
No wonder no one trusts the news when they make clickbait headliens like this
Has it ever launched anything into orbital altitudes yet? So it's like AI, then? Let's pour money into it asap!
They'd have more luck just using a real big cannon , at least that was attempted in the 60's with Project HARP, with moderate success (180km altitude , prototype orbit circularisation system) before the project was cancelled.
Gauss cannon might work a lot better.
I remember watching debunking video of this years ago. If I remember right, the problem was how to stop a projectile (a rocket in this case) from spining once it's released. I need to find that video ...
I did watch that and there are problems but the debunking video itself was really bad and acted like there were problems that had already been addressed in the video it was a direct response too. It still seems like a crazy idea but they have had test launches and there didn't seem to be a spinning issue.
There are many more problems... Creating that vacuum takes time and the centripetal forces involved limit what you can launch. Mammals and complex machinery are a no-go.
OK, but couldn't the item have some small thrusters with a control system to cancel out any tumbling/spinning once it's launched? That would require some fuel, but a lot less than required for a traditional launch...
And wouldn't fins like on an arrow take care of stabilizing spin around the major(?) axis?
Pls don't flame me, I'm not a physicist or rocket-scientist :)
Thunderf00t made a good one.
Did it tumble during it's test launch?
Looks like they've conducted 10 test launches, but nothing since 2022.
This project will not succeed. Dont waste time on it.
No reason engineering wise it wouldn't work. But the economics probably don't work compared to falcon 9 or starship. But theoretically it'd work great for launching mined material from the moon or astroids back towards Earth.
The moon is a harsh mistress.
Launcher may handle 10,000 g's, but satellites tend to be kind of fragile
How many oceangates is that? Can we send CEOs in it?
euthanasiacoaster without the extra steps
Satellites have to go through shock and vibe testing based on the vehicle bringing them up, satellites using spinlaunch will need to be built around it.
You’d be surprised how well modern cubesats are already designed implicitly with high-G components. There was a video about them testing an “off-the-shelf” sat from a professor and it held up with only some minor modifications.
10000 g's of centigrugal acceleration for half an hour. I think that alone makes this project a dead end.
Haven't heard from these guys in a very long time. Good to see they're still going and actually making successful test launches.
Let's all go reread "The Moon is a Harsh Mistress."
Why not use a magnetic launch and put rockets on a rail gun? You could put it on an inclination and accelerate that sucker over multiple kilometers if you wanted to in order to build up the velocity you need. The g-forces would be concentrated in one direction Wouldn't that reduce the number of problems?
The spin launch thing is easier to do than what you're proposing.
A straight rail gun would require INCREDIBLY LARGE amounts of energy to be outputted in minimal time.
The spin launch contraption inputs energy into the spinning hand or whatever slowly over time. The spinning hand stores this energy as rotational energy. This way, while the payload has to go through high g forces for a longer time, you don't need fancy apparatus to input energy.
When it's time to launch, the hand suddenly lets go of the payload, instantaneously converting all that energy to kinetic energy.
The challenge here ofc is to make the hand VERY strong. That's why it's literally a block of carbon fiber.
I really want this thing to work, but uk... They haven't demonstrated any significant breakthroughs yet. I just hope they don't run out of funding before showcasing something substantial.
Why would it cost more energy to accelerate the same load on a linear path than on a circular path? Where does the additional energy requirement come from?
And why do you assume the time has to be minimal? You can make the rail quite long, kilometers long in fact.
Spin Launch releases at 2.1km/s or 2100m/s . Say you want to reach that with 9.8 m/s² (earth's gravity) that's 2100/9.8 ~= 214 s so about 3.5 minutes . The distance traveled is
s = 0.5 * a * t * t-->s = 0.5 * 9.8 m/s² * 214s * 214s = 224,400m = 224 km.That however is at a relatively lower acceleration. Rail guns have barrel lengths of a few meters e.g Japan 6 m and release their projectiles at 2km/s or 2000m/s. If my math isn't wrong, that's 333,333 m/s². The projectile of 320 g is nowhere near the 10,000kg that Spin Launch aims to release, but let's see how much energy that requires. I'm out of time to calculate that, so if you want to, please do.
According to the transcript of this video interviewing Spinlaunch, claims to require 100MWh with a spinup time of 2 hours.
But we don't want to accelerate 10 tonnes to 2.1km/s in 6 meters. That's insane. The rocket is probably longer than the entire rail. 10km maybe even 50km would be more realistic.
Wouldn't the changing magnetic fields damage whichever electronics are housed in the payload?
I don't believe so. The electromagnetic energy is being used for acceleration, no other type of energy. The inside could easily made into a Farady Cage to block some of the electro-magnetic fields.
You'd have to make it in a hyper tube or it'll just vaporize, which is damn near impossible to keep depressurized even without the rail gun. Or you could put it in a giant sabot, but those are expensive and their own technical challenge. Not to mention, good luck adjusting it for a different orbit... The power requirements are going to be insane too, which means a ton of huge capacitors
This way, they depressurize a nice pancake shape, spin it up over the course of hours, and let the projectile pierce out through a brake away cap. If they can make it work, it's a better design in every way
I'm disappointed it's not a trebuchet
I saw a documentary years ago about this, really cool technology, and it saved a lot of money.