| ▲ | nycdweller349 2 hours ago | ||||||||||||||||
Someone tell me the industries that are going to benefit the most from this in the short and long term and what I can expect to see in the next 30 years as a result of this discovery. | |||||||||||||||||
| ▲ | JumpCrisscross 24 minutes ago | parent | next [-] | ||||||||||||||||
It’s a new, generalizable material-science property at STP. Those almost always find practical uses. (Off the top of my head, a material that dissipates tension below a certain rate but fails when it is applied faster than that rate seems to resemble a mechanical breaker. As in not an electrical breaker that works mechanically. But one that decouples when you pull on it super hard. Being able to do that in fluids means one can potentially do that at very tiny scales. More broadly, if simple fluids have a quasi-elastic mode, that has fundamental implications for hydrodynamics. I'd be super curious to know, for example, if anything similar to this occurs in air or water.) | |||||||||||||||||
| ▲ | helpfulclippy 2 hours ago | parent | prev | next [-] | ||||||||||||||||
That sounds like a lot of work for someone to go do for a quanta article about something neat a researcher noticed. | |||||||||||||||||
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| ▲ | gmueckl 2 hours ago | parent | prev | next [-] | ||||||||||||||||
Maybe it will not have any mmediate application. But guess what? It's still cool! And that can be its very own reward if you let it. Oh, btw: electricity was a novelty toy for several long decades with no major practical applications. But that eventually changed because people kept researching it. And it changed the world. | |||||||||||||||||
| ▲ | lostlogin 2 hours ago | parent | prev | next [-] | ||||||||||||||||
You made an account to say that? | |||||||||||||||||
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| ▲ | 2 hours ago | parent | prev [-] | ||||||||||||||||
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