Functioning Hoverboard Unveiled (cnn.com) 55
An anonymous reader writes: Last year, a company called Arx Pax set up a Kickstarter campaign to develop a functioning hoverboard. Now, the company has demonstrated an updated version of the device, which is fully capable of hovering over a surface made out of conductive metal (video on YouTube). CEO Greg Henderson said, "The hover engine creates a primary magnetic field which is then put over a candidate surface like aluminum or copper. The hover engine then creates swirls of electricity and those create a secondary magnetic field, which propels the firsts." The device is expensive; Arx Pax is delivering a handful of units to Kickstarter backers who contributed $10,000. It's out of the reach of typical consumers, but it does seem to work. Plus, the company is sharing their magnetic field technology with teams taking part in the competition to build pods for a prototype of Elon Musk's Hyperloop vacuum tube transportation system.
It's just maglev. (Score:5, Insightful)
Re:It's just maglev. (Score:4, Interesting)
Re:It's just maglev. (Score:4, Informative)
All other problems aside, that hovercraft would spew out enormous amounts of poisonous gas.
The ionized oxygen atoms would recombine into O2 and O3 and various NOx molecules. NOx isn't good for you, but ozone (O3) is directly poisonous. It's as bad as (or even worse than) HCN - hydrogen cyanide. LD50 is about 22 ppm (for mice).
I wouldn't want one.
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indeed it seems to me, it is just modified maglev technology.
It is not hoverboard, even close. May be it would be usable if we had sidewalks from iron...
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Doesn't even seem that well designed. If you want something that even approaches the dexterity a person gets on a skateboard you can't just drift like a hovercraft. If a person leans to the side it should resist drifting to the opposite side (as if wheels were gripping in). Otherwise it's like trying to balance on a tightrope. Also, the hovering elements should be independently pivoted - otherwise, with such a low clearance, it's going to be stuck to perfectly flat surfaces, limiting the potential fun (ove
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Hmm, now that got me wondering... I almost wonder if it would be possible to design a system to hover off of the rebar embedded in concrete - sidewalks, streets, interior spaces, etc.
Sidewalks and streets don't contain rebar. They use something called "concrete underlayment" which is 10-12 gauge galvanized steel wire mesh with a 6" square pattern... if anything.
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Okay, so what's the name of the grid (square or rectangular) of steel bar-like things that I continually see whenever they're redoing the roads and sidewalks downtown if not "rebar"? Do you call that "mesh"?
Regardless, conductive and ferromagnetic. Just a much smaller target than a continuous plate.
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Okay, so what's the name of the grid (square or rectangular) of steel bar-like things that I continually see whenever they're redoing the roads and sidewalks downtown if not "rebar"? Do you call that "mesh"?
Tunnel roofs have rebar, do you live someplace with subways? Or accessways for pipes and conduit?
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Nope, Reykjavík.
Here's what it looks like [wikimedia.org]. Or this [lindsborgcity.org] or this [empireconstructionny.com]. Roads like this [google.com].
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Here's what it looks like. Or this or this. Roads like this.
Wow, I guess now I know why that stuff crumbles in the USA.
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Re: It's just maglev. (Score:2)
The problem is that Asphalt, and Concrete are made of materials that currently have no known mathematics
Clearly all the resources were spent testing, not teaching...
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From the country that wouldn't submit to the Banksters and threw them all in jail for fraud.
Cheers, mate!
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The problem is that you would need an order of magnitude or more power to get enough force at that distance.
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I have heard it called 're-mesh' [homedepot.com].
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Not entirely correct. Some highways, made of concrete, use rebar. See Google for more information, I'm sure they mention it. Heavily trafficked highways will get fairly large rebar - think 3/4" to 1 1/4" diameters.
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We've been doing maglev for quite a while now
We've been doing THIS for quite a while now. This thing was first announced and a demo video released months ago. It's old news.
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I'm not aware of any practical maglev system which levitates by using magnetic repulsion against a simple sheet of metal (copper).
Depending on how much power they're using and whether they can make it work with a cheaper metal than copper, this can be an interesting technology.
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well, hendo is one.
just look for one of the hendo explanation videos or some older science experiment video that uses the same trick. basically,tape some magnets on some dremels, attach said dremels to a board, turn on and put on a conductive sheet. it's not a very practical phenomena which is why you rarely see it - in essence for 99% uses just attaching 4 wheels to said board is more practical.
though these guys have some way of actually moving it forward? that would be somewhat interesting.
Diamagnetism (Score:2)
Now when they don't need a special surface to function, then they can call it a hoverboard.
That's likely to be a while off. Technically a strong enough magnetic field will work but it needs to be a few orders of magnitude higher than what you need for a Lenz' law effect like this. In a high enough magnetic field you can turn any atom into a tiny magnet which will repel the field but the field strength needs to be several tens of Tesla. Still if you can achieve that you can have some fun [youtube.com].
I've seen it since at least the 1950s (Score:4, Interesting)
We've been doing maglev for quite a while now, though few people tried to ride them like a skateboard before.
No kidding.
The electrical demos in Chicago's Museum of Science and Industry had a demonstrator in the late '50s. It was a half-transformer-like device about the size of a small outside unit for a whole-house air conditioner - a cylinder about 3 feet across and three feet high.
It generated a large, repulsive, "elevator field" in the center - over the bulk of the upper surface, and a slightly inward-directed "fence field" around the perimiter, to keep whatever it was floating centered.
What they usually floated was a metal (copper?) disk about 3 feet across, which floated maybe 6 inches above the device. They could angle the fence field slightly and make the disk spin slowly. The guy demonstrating it also removed the device by holding a second, slightly larger, disk just below it and edging it into the field from the side. When this was moved into the fence field it disrupted it at that spot, so the remaining fields convenient spit the disk onto this "hot tray.
And hot tray it was. The disk got hot from the eddy currents. The demonstrator said they had considered using this as a stovetop (anticipating induction cooktops, but with levitation) but it hadn't worked out.
Came back a decade later and they were still using it - but the sides of the disk had gotten folded upward about 30 degrees and somewhat randomly, turning it into an artsy-looking bowl. Seems somebody had left it floating long enough for the metal to soften, and the fence fields had pushed it up.
Miniaturizing the elevator-field portion of this, probably raising the frequency, and turning it upside down, with field-shape tweaks to keep it level, would produce an over-a-conductive-plate hoverboard. Tweak the fence fields into a couple linear motors along the edge to provide propulsion and steering. (You might even be able to set up the fields so you accelerate, brake, and steer by tilting, making local effects stronger on particular regions of the edge by bringing the pole pieces closer to the conductive surface.)
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Wouldn't it work to use it in a skate park type environment though? It would be pretty cool to do that, though I can't imagine how it would work.
Swirls of electricity? (Score:5, Insightful)
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I'm not sure how to interpret "swirls of electricity", either in terms of particles or in terms of field theory...
I'm pretty sure they just attached a few arc welders to a novelty sized pinwheel on a stick, mounted to the front of the skateboard.
At least that's what I imagine I would have done just before uttering the phrase "swirls of electricity"
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Google "Mechanical Maglev" a guy named Bill Beaty has you covered.
How many times will this be news? (Score:1)
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http://science.slashdot.org/story/15/06/27/065219/the-physics-of-lexuss-hoverboard [slashdot.org]
http://tech.slashdot.org/story/15/06/24/2155236/lexus-creates-a-hoverboard [slashdot.org]
http://tech.slashdot.org/story/15/05/23/2157208/the-hoverboard-flies-closer-to-reality [slashdot.org]
Nope. (Score:2)
No sale.
Lexus Says (Score:1, Informative)
Lexus says; 'Your shit sucks!'
This is a hoverboard. [youtube.com] it might not have a very long run time, but it's decades ahead of your Kickstarter ripoff.
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The problem with the Lexus version (other than the need for liquid nitrogen) is that it only runs on 1D tracks rather than a 2D surface like this one. Lexus buried those tracks under a skate park, but it's more like a mini rollercoaster than a skateboard.
How much power? How much heat? (Score:2)
If it's generating enough magnetic force to lift a person, it seems like the induced currents must be pretty high. Wonder how hot it gets the substrate, especially if you hover in one place for a bit?
Perhaps you could flip it over and use it as a portable four-element induction stovetop...
The 1980's called - wants their news back (Score:2)
I was doing superconductor levitation back in the 1980's, as a kids's science fair project. Now, at the time, I shouldn't afford enough materials to stand on, but this is exactly the same thing.
Lots of techno-babble in TFS & TFA.
For those who haven't seen it in action, random youtube link:
https://www.youtube.com/watch?... [youtube.com]
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this isn't superconductive.. its basically just spinning magnets over copper.
So ... essentially ... (Score:2)
You invented maglev again?
Maybe you could try to patent it in Australia [newscientist.com]...
HoverTraxing hoverboard technologies (Score:1)
Re: HoverTraxing hoverboard technologies (Score:1)
Give me a shout (Score:1)
Magnets (Score:3)