Sorry, I’m still not seeing the merit in this article/paper.

This finding is just that in special circumstances those electromagnetic fuzzy things can be a lot further apart when they interfere with each other.

I don’t see what’s new? Bulk magnetic forces vs atomic magnetic forces have been known to have different strengths for a very long time now.

Interesting, but I don’t see it as practical anytime soon. It’s going to be expensive/hard seperating out the salt from the solvent, and even the paper’s author recognises as such.

I wonder how Elastocaloric refrigeration compares, because that’s looking like a far more viable alternative.

This is old news.

Are they going to force 3rd party android Devs to use a google account or not?

Until full body VR comes along

Hyphen seems to have broken the link, at least for me.

Outside of get-popular-quick schemes:

Volunteer your time and expertise to make Lemmy better. Whether it’s sharing secret recipes for free, or helping out newer users, all users need to contribute to make it a better place that people want to use.

I’m guessing with 2. I don’t need to do anything?

You’re not wrong in this context.

If ambient temperature was say…21 C, then it’d take no energy to keep things that cold.

So in space, once you do cool something down enough, and place it far from any stars, it’ll stay cold for free.

Well, would you trust the company that’s actually gone through the audits, or the one that skips them to save money & be cheaper?

Steven Bradbury.