Jason Jorjani
๐ค SpeakerAppearances Over Time
Podcast Appearances
Why would it be the case that only when you turn on the detector or you make an observation do you get a particle with a distinct location? And before that, it's a waveform, meaning it's a probability distribution of something that could be a particle. Mm-hmm. In computer science, they call that rendering optimization. It's used in video games all the time.
Why would it be the case that only when you turn on the detector or you make an observation do you get a particle with a distinct location? And before that, it's a waveform, meaning it's a probability distribution of something that could be a particle. Mm-hmm. In computer science, they call that rendering optimization. It's used in video games all the time.
Why would it be the case that only when you turn on the detector or you make an observation do you get a particle with a distinct location? And before that, it's a waveform, meaning it's a probability distribution of something that could be a particle. Mm-hmm. In computer science, they call that rendering optimization. It's used in video games all the time.
Things that aren't being looked at aren't rendered. It conserves processing power. Right.
Things that aren't being looked at aren't rendered. It conserves processing power. Right.
Things that aren't being looked at aren't rendered. It conserves processing power. Right.
Totally.
Totally.
Totally.
And so what is dark matter?
And so what is dark matter?
And so what is dark matter?
Yeah, but the dark matter around the galaxy is the one that we have physically observed through all these different observational mechanisms, telescopes and so forth. It's a computational cloud. It's a computational cloud around the galaxy. And it's probably projecting what we see and experience.
Yeah, but the dark matter around the galaxy is the one that we have physically observed through all these different observational mechanisms, telescopes and so forth. It's a computational cloud. It's a computational cloud around the galaxy. And it's probably projecting what we see and experience.
Yeah, but the dark matter around the galaxy is the one that we have physically observed through all these different observational mechanisms, telescopes and so forth. It's a computational cloud. It's a computational cloud around the galaxy. And it's probably projecting what we see and experience.
We're detecting the computational system when we detect dark matter, which nobody seems to know what the fuck it is.
We're detecting the computational system when we detect dark matter, which nobody seems to know what the fuck it is.
We're detecting the computational system when we detect dark matter, which nobody seems to know what the fuck it is.
So, yeah, this is in my book, Satanion, and the chapter is called Catastrophic Information because there's a physicist recently who's looked at all of this, and he conceptualizes this as an information catastrophe. Melvin Vopson is working at a university in Britain, I believe. He's, I think, Romanian originally, but he's working in UK.
So, yeah, this is in my book, Satanion, and the chapter is called Catastrophic Information because there's a physicist recently who's looked at all of this, and he conceptualizes this as an information catastrophe. Melvin Vopson is working at a university in Britain, I believe. He's, I think, Romanian originally, but he's working in UK.