Mic_Check_One_Two

Main game on my center screen. RuneScape and/or Discord/web browser on my side screen.

Fine. Hop in a car, and get on the nearest highway. Every time you come to a fork, roll a die to see which direction you go. 24 hours is a long time to drive, but not impossible. And assuming a truly random path, he’d have no hope of predicting where you were going to try and head you off. Hell, stop over and rent a new car whenever you’re running low on gas, just to make things even more confusing; You’re about to win $3B, so what is a few hundred dollars in rental car fees?

Wasn’t one of his big things that he was supernaturally strong and resilient? It wasn’t just a doll; It was a doll that was possessed by the ghost of a serial killer. So there was some supernatural aspect to it that made it harder to destroy than most people would expect.

Professor Moriarty would also likely be disinterested in actually coming after you. He only targeted Holmes because Holmes kept uncovering his criminal plans. He began to see Holmes as a roadblock, and was continuously frustrated by Holmes’ investigative abilities. As long as you weren’t in Moriarty’s way and didn’t have anything to offer him, he likely wouldn’t care about you. After all, his public image was that of a respected scholar. You’d be a little fish in a very big pond, and Moriarty was smart enough to recognize that going after you would net him nothing in return.

So… Sealioning? That just sounds like Sealioning to me.

Yup, versioned files ALWAYS get a YYYY-MM-DD HHMM timestamp. So when you sort alphabetically, they sort chronologically.

To me it's much more unclear how sound is first encoded into a digital signal, transmitted as a digital signal through wires and radio waves, and then translated back into sound in a phone. I mean it's essentially the same physics as the analog electronics, just with a bunch of extra steps added.

Yeah, this is where sample rate and bit depth come into play. In case you’re curious, digital audio is possible due to the Nyquist-Shannon Sampling Theorem. The TL;DR is that you don’t record a continuous stream of audio data; You just sample the wave at regular intervals by recording the current amplitude. And then you can recreate it on the other end. The theorem states that an analog wave can be perfectly recorded and replicated, as long as you have a sufficiently high sample rate and bit depth. Since human hearing generally tops out at 20kHz, we need to sample the audio signal at least 40k times per second; Most consumer-grade audio equipment uses 44.1 or 48kHz. Phones actually use a much lower sample rate for calls, but more on that later.

Again, as long as your sample rate is at least 2x the rate of the highest frequency being recorded, you’re able to perfectly recreate the wave. For an example, here’s a gif:

The image on the left shows the wave being recorded, and the dots are samples. As you add more samples, the reproduced wave gets more accurate. By the time you have 2x the fastest frequency, there is only one possible wave that will fit every sample. Again, human hearing tops out around 20kHz, so we use a sample rate just above 40kHz.

Phone calls will often put a filter on the high and low ends, and only capture the mid-range. It gives that distinct “this is shitty phone call quality” sound, but means they can use a much lower sample rate; Since they’re lopping off most of the high end with that filter, they may only need a sample rate closer to 15 or 20kHz. Because fewer samples means less data. The intelligibility happens in the mid-range, so that’s what the phone makers (and telecom companies) focus on. This low sample rate is also why hold music sounds so fucking awful. It’s essentially being passed through a “make this sound as shitty as possible while still being intelligible” filter.

And then bit depth simply determines how detailed each sample is. If you use 8 bits per sample, that gives you 256 potential values per sample. 12 bits gives you 4096. The trade-off is that a higher bit depth means each sample takes exponentially more data; Audiophiles will generally push for higher bit depths, so each sample is more accurate. In contrast, phone calls often use lower bit depths, (again, to save data).

As for how it actually transmits the data, that’s just 1’s and 0’s. It’s a little more complicated than that, (packets, for example) but in the digital realm, as long as the 1’s and 0’s get to where they need to be, you’re good to go.

Ironically, mobile phones being digital makes them easier for many people to understand. The analog circuitry that goes into simply making an analog phone ring is surprisingly complex, let along how they actually function as phones.

Analog audio is a lot less “computer nerds programming things” and a lot more “scrapped together from some resistors that were ripped out of an old TV. We don’t even know how it turns on, let alone how it functions.” You can literally build a basic microphone with nothing but a balloon stretched across an embroidery hoop, some copper wire, a small magnet, and some glue. It wouldn’t sound good, but it would function as a microphone in some capacity, and at least be able to detect loud noises. And the same goes for a speaker; You could build one out of a red Solo cup, a magnet, some wire, and some glue. It wouldn’t sound good, but you could at least get a basic “sound is being emitted from this” level from it. But if you showed that scrapped-together device to someone, they’d have no idea that it was a phone.

It has a decent community, yes. It’s basically the go-to gaming distro for many people.

Because China supposedly used Nvidia cards to train DeepSeek, which blew all of the US AI out of the water. And apparently that raised some eyebrows, because Nvidia wasn’t supposed to be selling to China (free market, right?). Since China was eating big tech’s lunch, they cried to republicans (and gave them a bunch of reelection money) and now we have this bill. The point is to be able to remotely disable cards if they’re outside of their sale region.

If you’re looking for a desktop version of SteamOS and are used to using Windows, your best bet is likely Bazzite with the KDE desktop environment. There are mixed feelings among Linux users about immutable distros, (many of the more advanced users feel it is too limiting), but there’s no denying the Bazzite is the most straightforward way to get things like Nvidia drivers and HDR.

The best cutting boards use end-grain for this exact reason. It’s not just a decorative thing. The direction of the wood grain directly determines how quickly the board will dull your knife. Wood is made of two main parts: A hard fiber, and a soft filler in between each fiber. The hard fiber is what dulls your knife when you cut.

Imagine cutting on a tightly packed bundle of really tiny straws. If you cut across the bundle, your knife will be cutting into each straw, dulling in the process. But if you cut on the end of the bundle, the knife blade will slide between the straws instead of cutting them.

The straws will last longer when you’re cutting on the end (because you’re not cutting them) and your blade will last longer (because it isn’t cutting the straws). And an end grain cutting board is essentially cutting on the end of the straw bundle.