@Seamless I appreciate the discount, although perhaps talk to marketing about your misleading advertising.
Footnote reads: "Up to $10"
... for orders $20+.
That means $10 off orders of $20+, not 50% off.
@radde10@Connor_J_Hughes Per over the cap, we would have cleared ~$14M of cap if traded after June 1, double the ~$7M being traded now.
So more curious of the timing and any additional details of the deal.
https://t.co/rzFFzDvDRl
@BrunsonFC@JetsFuckingSuck@Connor_J_Hughes Need to get full details on this trade first.
Aside from potentially this trade, JD has probably been our best GM in decades. Look at team strength ratings and that we've won multiple rookie of the year.
Older gentleman in my building:
"Oh, it turned up." (Referencing the rain.)
Me: "Uh oh."
Gentleman: "Meh. It's just wawta."
_Walks slowly out of the elevator with a cane and no umbrella_
@Ally@AllyCare
generally, I've loved your service. Unfortunately, I had my
@Zelle
account disabled for over a year for fraud reported on an _incoming transaction_ and your team is saying there is nothing I can do to restore it. This seems like a DOS attack on me. Please help.
@AeroportidiRoma my fiance left a jean jacket & sweater in Terminal 1 at security. I tried calling the lost items & baggage numbers, but no one picked up. I tried the form on the site, but it errored out. Can you please let me know how best to find these really special items? 🙏
National Lab (LBNL) results support LK-99 as a room-temperature ambient-pressure superconductor.
Simulations published 1 hour ago on arxiv support LK-99 as the holy grail of modern material science and applied physics.
(https://t.co/UOOtDlx3eE)
Here's the plain-english explanation:
- The simulations modeled what the original Korean authors proposed was happening to their material - where copper atoms were percolating into a crystal structure and replacing lead atoms, causing the crystal to strain slightly and contract by 0.5%. This unique structure was proposed to allow this amazing property.
- @sineatrix from Lawrence Berkeley National Lab simulated this using heavy-duty compute power from the Department of Energy, and looked to see what would happen to the 'electronic structure' of this material, meaning, what are the available conduction pathways in the material.
- It turns out that there are conduction pathways for electrons that are in just the right conditions and places that would enable them to 'superconduct'. More specifically, they were close to the 'Fermi Surface' which is like the sea-level of electrical energy, as in '0 ft above sea-level.' It's believed currently that the more conduction pathways close to the Fermi surface, the higher the temperature you can superconduct at (An analogy might be how its easier for planes to fly close to the surface of the ocean due to the 'ground effect' that gives them more lift.)
This plot in particular shows the 'bands', or electron pathways, crossing above and below the Fermi surface.
- Lastly, these interesting conduction pathways only form when the copper atom percolates into the less likely location in the crystal lattice, or the 'higher energy' binding site. This means the material would be difficult to synthesize since only a small fraction of crystal gets its copper in just the right location.
This is insanely bullish for humanity.
@Delta just got told Canada is not an international destination from the US. I think Canadians may disagree. 🙂
(Also, your competitors do, for the sake of lounge access.)
Apparently we can create cellular triggers now. It's biological IFTTT.
https://t.co/98wOfSIblk
Latest studies are using them to trigger immune responses _inside_ cancer cells.
https://t.co/xOn0CvwrAA
Incredible.
What's the difference between "encouraged" and "strongly encouraged"?
Do you just get more passive aggressive expressions if you don't take the action?
Today I had to go to Waze to see what was happening in an area. Nothing on the news. Nothing on Twitter.
That's a first. Does that make Waze social media now? 🤔