SunnyD 🇨🇦

“Uniphics’ broader view that many material properties emerge from the interplay between spin configurations and energy density gradients rather than from the material’s chemical composition alone.” And all of the material properties you want are engineerable. And once you understand WHY certain characteristics are important you begin to see how it can be done in other things like plasma where it’s much easier to control (has other cons, but controllability is nice when you’re exploring) .. just say’n.

Wait.. he didn’t have any university degree!? And then @ he solved one of the hardest engineering problems in human history” !? Heaviside always annoyed me because he so severely curtailed maxwells equations but I let him off the hook because he published the “Heaviside component” which sorta compensated for destroying Maxwell’s 20 open dissipative equations. Now he’s leaning more into my good books. 📚

But picture your target candidate from original post. This person is already employed , doesn’t really care about the credentials because already employed. Heck, themes s pretty good chance their employer is paying the tuition and will find their project. What they’re after is the knowledge, what matters most is the faculty advisor’s willingness to let this student explore, with minimal interference.

I made only one assumption for the entire thing. As a compressible fluid, Nabla.D = p (energy density of vacuum). How this gets used depends if you’re working on stress vacuum either a fast gradient of potential (not voltage) Or.. connecting to the very wheel work of nature. The equation shows up in both