That would be the hydrogen bomb. If we created a sizeable MIRV of cobalt bombs and pointed them at Jerusalem on an automated system that tracked the rate of violent death, suddenly all the religious types would get really polite.
(Obviously this is a supervillain example. we're considering alternative vectors towards peace and humanitarian aid in the holy land before holding it hostage. We're also running out of saner ideas.)
(Also, the Soviet Union did consider a doomsday device a la Dr. Strangelove as a cold war nuclear deterrent before the politburo decided it would never authorize a retalitory strike for sake of the species and moved on to Мирное сосуществование. Nearly eighty years without a nuclear war shows us even religious fanatics and madmen don't want to extinct the human species. Their heart's not in it.)
The problem is, smaller interests can't get the bomb yet. It takes too much complex industry to make. As a result, we still have huge swaths of powerless population to be bullied, enslaved and exploited.
Once the superweapon made from fir wood, Indian ocean tuna, granite and parafin becomes public we'll have to negotiate with even the smallest faction and arrange for the welfare and contentment of everyone... that is if we survive the intermediary tensions. Our plutocrats may choose extinction over giving up their power.
Once the superweapon made from fir wood, Indian ocean tuna, granite and parafin becomes public we'll have to negotiate with even the smallest faction and arrange for the welfare and contentment of everyone...
Don't worry, biological weapons get easier to make every day!
Misleading name, on the same level as calling water "non-explosive hydrogen". That said the material looks promising, as a glass replacement for some applications (the text mentions a few of them, like armoured windows).
(It is not a metal; it's a ceramic, mostly oxygen with bits and bobs of aluminium and nitrogen. Interesting nonetheless, even if I'm picking on the name.)
3 times as tough as steel and they're making bulletproof glass out of it...
There's a low budget pc game about colonizing Mars and this was one of the things in the tech tree
Crazy to see it as a real thing now.
Like OG aluminum, this is going to be crazy expensive at first, but in a century it'll likely be cheap and we'll see it replacing glass in the most mundane uses.
We'll see it replace phone screens pretty quickly tho. A few mm's of this and we'll have legitimately unbreakable screens, and even if a scratch happens, you should be able to just buff it out. They're probably wrap entire phones it honestly. One solid piece that makes repair impossible on your own.
Might be hard to assemble the functional part of a phone inside of a crystal, and you can't bake the whole thing because silicon isn't surviving 2000oC for 2 days.
Good question. This new material is technically a ceramic, not a metal, so I'd be inclined to say no. But we'd need more information on its electrical properties to say for sure.
Like OG aluminum, this is going to be crazy expensive at first, but in a century it'll likely be cheap and we'll see it replacing glass in the most mundane uses.
I doubt that it's ever going to be super affordable, or be used in something as common as a phone. The price constraints on aluminum were due to the amount of energy it takes to produce. The transparent aluminum is a bit more complicated.
From the article it appears the fabrication is mold dependent, which always increases production cost. So you have to fabricate a mold for any new component. You then have to then pressurize the powder at 15k pounds per square inch, and then heat aluminum powders at 2000 degrees Celsius for 2 days.
Transparent aluminum is so weird, a piece of it was once passed around our office. It felt heavier and colder than I expected, which I guess is probably because it's much denser than most types of glass (I think it's only comparable to optical glass so it would be close to holding a high quality glass lens) and it looks like the thermal conductivity is way higher.
No, Glass has an amorph atomic structure, its tecnically an ultra dense liquid, metal always has a cristaline structure, way different, even in it's transparent form, Saphires and Rubies are also tecnically transparent Aluminium.
What do you mean no? Everything I said is true - I'm just describing my firsthand impression. Nowhere did I say transparent aluminum is a type of glass? I was just describing why it feels heavier and colder than you would expect since it looks like glass, of which most are less dense and less thermally conductive compared to transparent aluminum, which is not glass but makes sense to compare to in order to convey what handling a piece feels like.
This one goes the other way. It was first patented in the 80s before the movie came out. It just wasn't a big thing yet. I assume it's had improved properties since then, but the process already existed.
Unfortunately this is a time travel paradox. It wouldn't have even been patented if the crew hadn't gone back in time and needed it to transport a whale back to the future. I fully support the claim that Star Trek did it first in the future.
The StarTrek episode with the transparent Aluminium was from 1986, transparent Aluminium was invented in 1985, but at this time they don't have the tecnologic measures to produce significant ammounts. Even today it's relative expensive to produce, ~$15 per Square inch.
I wonder if anyone will ever tell him about the “rose gold” trend that he kept calling purple gold. He really put a lot of effort in that one and it makes him seem isolated, in that there was no point in the creation of the video where the search for ‘purple gold’ could be revised to ‘rose gold’ and garner less clickbait attention like patents that have been circumvented.
Edit: I would’ve suggested blue gold to clarify the intermetallic nature over being strictly an alloy.
Except it's not clickbait - I'll cite Wikipedia so you can look yourself, but they're not the same thing.
Rose Gold is a proper alloy of Gold, made with Copper.
Purple Gold is an "intermetalic" (which have a different molecular structure to normal alloys and thus are more brittle), and is made with Aluminium.
Due to it's brittleness even amongst intermetalics, it is considered hard to work with, much more so than a proper alloy like Rose Gold. The only similarity they share is their colour ranges can overlap dependent on how they're made.
You could have said nothing and we would think better of you. But now that this is out here, we know you don't know what you're talking about and it stains your image.
The video shows the recipe for purple gold and details the problems with it as an alloy. It is also distinctly different from Rose Gold in process, recipe, and outcome. Why are you so oblivious to the obvious?
The original discoverer of the element spelled it "aluminum". The British publisher that published his work changed the spelling. The rest of the world got the right version of the man's work. The Brits are wrong.
It's only the US and Canada that use "aluminum" though isn't it? The rest of the world and most languages have it as "-ium".
Humphrey Davey actually changed his mind and changed it to "-ium" shortly after discovering it.
Also, IUPAC has "Aluminium" as the primary spelling, though both are acceptable.
Aluminum oxynitride is transparent aluminum, but alpha aluminum oxide, which is also transparent, is called Corundum, Ruby, or Sapphire. That name is dumb.
Very expensive as it needs a custom mold and 2 days at 2000C and specialized grinding as it's not a flat surface. As for safety, it's probably just as safe as regular glass
It isn¡t but not so strange, even in Nature exist Transparent Aluminium, called Saphires and Rubies. It's called transparent Metal, because of it's atomic structure cristaline, not amorph like normal cristal of an Window. Metal, also Aluminium has a cristaline structure.
"Wealth beyond the dreams of avarice!" I love how my guys stood at each of the factory owner's shoulders. A southerner and a Scotsman, applying charm, unstoppable combo. Super good news IRL, thanks for feeding the craving for good news crossed over with nerd news.
Tests show that a laminated pane of ALON 1.6″ thick can stop a 50 caliber rifle round, something even 3.7″ of traditional “bullet-proof” glass can’t do.
It's very, very difficult to make a transparent, thin material both scratch resistant and shock resistant. So yeah this probably won't be some game changer for phones.
Laser for sure, but does not conduct electricity, even used as insulator because of it's ceramiclike atomic structure. Apart from the transmission by light is different from that of electrons in a conductor, while the photons pass at, well, the speed of light, in the electric current only the impulse travels at the speed of light, while an electron only moves at a speed of about 30m/s.
It can be understood as a simile with a tube full of peas, if you put one more pea in one side, at the same time another one falls out the other side, although the peas themselves do not move as fast, their momentum travels "at the speed of light". Becaus of this, it will not make much sense to combine both things to increase the bandwidth, quite the contrary, it will only cause interference that decreases it. Fotones are the optimum measure to transmit data. The speed only depends on the contract with your ISP and the capacity of their servers, not on the tecnology of the Fibercable.