Once every 50 years or so

Sure, throw people in jail who haven't committed a crime, that'll fix all kinds of systemic issues

Stokes' theorem. Almost the same thing as the high school one. It generalizes the fundamental theorem of calculus to arbitrary smooth manifolds. In the case that M is the interval [a, x] and ω is the differential 1-form f(t)dt on M, one has dω = f'(t)dt and ∂M is the oriented tuple {+x, -a}. Integrating f(t)dt over a finite set of oriented points is the same as evaluating at each point and summing, with negatively-oriented points getting a negative sign. Then Stokes' theorem as written says that f(x) - f(a) = integral from a to x of f'(t) dt.

Not really a substantial opinion, but I have little hope that replacing a fairly well established Rust codebase with a brand new Java one will do much in terms of increasing contribution.

They've already touched it. It has a new UI, new features, and has crashed on me multiple times. They're about to add AI shit to it too.

Per the prime number theorem, for large enough N the proportion of primes less than or equal to N is approximately 1/log(N). For N = 2^(31) that's ~0.0465. To get under 1% you'd need N ~ 2^(145).

Literally just install GNOME

That Z is doing a lot of work.

Obviously it helps that it's a great game. But I had fun with the bugs. I had one guy who, when pickpocketed, would instantly bolt out the door and down the street at the speed of sound.

Yeah, man. Thank God someone is finally thinking about the family of 4 simultaneously watching 8K 120Hz 360 degree streams.

Also,

• bandwidth isn't the same as latency. This would not let you remote control "with minimal latency," it would be exactly the same as it is with say 20Mbps download.

• lossless and visually lossless compression dramatically reduces the amount of bandwidth required to stream video. Nobody will ever stream uncompressed video, it makes no sense.

• If you want to know what an uncompressed 2K stream looks like, look at a 2K monitor.

You misread the comment

The ratio of consecutive terms of the Fibonacci sequence is approximately the golden ratio phi = ~1.618. This approximation gets more accurate as the sequence advances. One mile is ~1.609km. So technically for large enough numbers of miles, you will be off by about half a percent.