Wrong--it's a cube!
bitcrafter
joined 11 months ago
I disagree; I think that we do care about it being popular enough that it incentivizes software and hardware vendors to support it rather than ignoring it.
Sometimes this can help, but lately I've been running into the opposite problem where people have been following this advice to such a degree that one cannot ever figure out what is going on without having to constantly jump around to find the actual code involved in doing something.
Because some of us are bitter at the trees for generating so much pollen at this time of year and want revenge.
Because it looks like that functionality uses special compiler functionality only available on GCC and clang?
"This isn't us encouraging you to gamble-it is us asking you to think about how bad you would feel years from now if you learned that you could have made a ton of money if you had only placed a bet right now! It's completely different!"
I see a lot of enthusiasm here, and there is nothing wrong with that, but... am I the only one who actually found the movie to be kind of disappointing?
No, it will be too busy making paperclips to even notice us, except as a nuisance getting in the way of it making paperclips that needs to be eliminated.
Yeah, I miss living in Australia where you didn't have your own waiter but on the other hand that meant that it wasn't rude to flag down any of the wait staff if you need anything rather than being restricted to having to go through a single person.
Ah, yes, the good old git off --my lawn command.
It helps to realize that mass is just a bookkeeping label that we assign to the "internal" energy of a system, where the choice of what counts as being "internal" is somewhat arbitrary and depends on the level we are studying.
For example, if you measure the mass of the nucleus of some atom, and then compare your measurement to the sums of the masses of the protons and neutrons inside of it, then you will see that the numbers do not agree. The reason for this is that much of the mass of a nucleus is actually the energy of the strong force bonds holding the nucleons together.
But you can actually drop down another level. It turns out that the vast (~ 99%) majority of the mass in the proton in turn does not come from the quarks but from the energy of the gluon field holding them together.
And if you drop down yet another level, the quarks get their mass through their interactions with the Highs field.
So in short, it is energy all the way down.