Jason Jorjani

So putting these, and these observations were all made in the 70s. The first one in the early 70s, the second in the mid to late 70s. Putting all three of these together, they came to the conclusion that there's a ton of mass around these galaxies that we can't see. It's not electromagnetically detectable. And yet it has massive gravitational effects. Okay? What does that mean?

Well, look, the amount of mass that we can't see, that we can't electromagnetically observe, that ensconces galaxies, surrounds them, is such that it flattens the spin rate of a galaxy. The inside should be spinning much faster than the outside, and yet it's spinning at the same rate.

Well, look, the amount of mass that we can't see, that we can't electromagnetically observe, that ensconces galaxies, surrounds them, is such that it flattens the spin rate of a galaxy. The inside should be spinning much faster than the outside, and yet it's spinning at the same rate.

Well, look, the amount of mass that we can't see, that we can't electromagnetically observe, that ensconces galaxies, surrounds them, is such that it flattens the spin rate of a galaxy. The inside should be spinning much faster than the outside, and yet it's spinning at the same rate.

So that's a ton of mass that's not electromagnetically observable, but it's so gravitationally powerful that it's altering the spin rate of a whole galaxy.

So that's a ton of mass that's not electromagnetically observable, but it's so gravitationally powerful that it's altering the spin rate of a whole galaxy.

So that's a ton of mass that's not electromagnetically observable, but it's so gravitationally powerful that it's altering the spin rate of a whole galaxy.

Okay, well, so we have a form of mass that we can't detect electromagnetically, and yet it has massive gravitational effects.

Okay, well, so we have a form of mass that we can't detect electromagnetically, and yet it has massive gravitational effects.

Okay, well, so we have a form of mass that we can't detect electromagnetically, and yet it has massive gravitational effects.

That's what's inside your computer.

That's what's inside your computer.

That's what's inside your computer.

Information is dark matter. It's the same thing. It's the same thing. And once you realize that, of the first people who i think realized this was john archibald wheeler i think he worked at princeton american physicist john archibald wheeler he made this formulation um it from bit okay he said look if we want to say that information is a third state of matter and energy.

Information is dark matter. It's the same thing. It's the same thing. And once you realize that, of the first people who i think realized this was john archibald wheeler i think he worked at princeton american physicist john archibald wheeler he made this formulation um it from bit okay he said look if we want to say that information is a third state of matter and energy.

Information is dark matter. It's the same thing. It's the same thing. And once you realize that, of the first people who i think realized this was john archibald wheeler i think he worked at princeton american physicist john archibald wheeler he made this formulation um it from bit okay he said look if we want to say that information is a third state of matter and energy.

In other words, it's not only the case that, as Einstein realized, matter and energy are interconvertible. Matter and energy are both also interconvertible with information. So when you delete the data on the computer, it increases entropy by giving off energy. So you have three terms in this relation. It's not just matter and energy. It's matter, energy, and information.

In other words, it's not only the case that, as Einstein realized, matter and energy are interconvertible. Matter and energy are both also interconvertible with information. So when you delete the data on the computer, it increases entropy by giving off energy. So you have three terms in this relation. It's not just matter and energy. It's matter, energy, and information.

In other words, it's not only the case that, as Einstein realized, matter and energy are interconvertible. Matter and energy are both also interconvertible with information. So when you delete the data on the computer, it increases entropy by giving off energy. So you have three terms in this relation. It's not just matter and energy. It's matter, energy, and information.

And they're all interconvertible into each other. And the kind of matter that information is before you delete it is dark matter. You cannot electromagnetically detect it, but it has massive gravitational effects when it gets dense enough, when it reaches a critical mass.