Hal Puthoff

And he actually came up with solutions from out of the equations. Okay, what would it take to drive that? Oh, it would be... hundreds of times more than the energy of the sun. I mean, just out of sight energy. So, you know, until we have a new energy source or until there's some back door that we haven't, you know, steered in on, it's just really outside of our expertise to think of engineering.

And one of the things that I've looked into myself is, well, what about vacuum energy, so-called? As a quantum physicist, we all know that, you know, you push a kid in a swing and it comes down and stops. But at the quantum level, you get something going. It doesn't stop. It always comes down to a certain level, and it's still there.

And one of the things that I've looked into myself is, well, what about vacuum energy, so-called? As a quantum physicist, we all know that, you know, you push a kid in a swing and it comes down and stops. But at the quantum level, you get something going. It doesn't stop. It always comes down to a certain level, and it's still there.

And one of the things that I've looked into myself is, well, what about vacuum energy, so-called? As a quantum physicist, we all know that, you know, you push a kid in a swing and it comes down and stops. But at the quantum level, you get something going. It doesn't stop. It always comes down to a certain level, and it's still there.

So it turns out that what we call empty space is not really empty. It's full of quantum fluctuations. And, in fact, one of the difficulties of modern physics theory is that when we go – by using our standard quantum theory to calculate, well, what's the energy density, like right here, or way out in empty space? What's the energy density of those quantum fluctuations?

So it turns out that what we call empty space is not really empty. It's full of quantum fluctuations. And, in fact, one of the difficulties of modern physics theory is that when we go – by using our standard quantum theory to calculate, well, what's the energy density, like right here, or way out in empty space? What's the energy density of those quantum fluctuations?

So it turns out that what we call empty space is not really empty. It's full of quantum fluctuations. And, in fact, one of the difficulties of modern physics theory is that when we go – by using our standard quantum theory to calculate, well, what's the energy density, like right here, or way out in empty space? What's the energy density of those quantum fluctuations?

It's 120 orders of magnitude greater than could possibly be according to all of our other theories. I mean, it would collapse gravity and everything else, so... So we have this conundrum that that energy that is everywhere somehow all is random and cancels out. So, you know, it's just not having an effect.

It's 120 orders of magnitude greater than could possibly be according to all of our other theories. I mean, it would collapse gravity and everything else, so... So we have this conundrum that that energy that is everywhere somehow all is random and cancels out. So, you know, it's just not having an effect.

It's 120 orders of magnitude greater than could possibly be according to all of our other theories. I mean, it would collapse gravity and everything else, so... So we have this conundrum that that energy that is everywhere somehow all is random and cancels out. So, you know, it's just not having an effect.

So the idea is if you could somehow access that energy and cohere it, so to speak, maybe you could get to the energy. What would that look like? Well, if I go off on a weird tangent, I could tell you what it might look like. Along the way in the remote viewing program where we're kind of looking at physical effects, I decided to take a look at so-called levitating saints.

So the idea is if you could somehow access that energy and cohere it, so to speak, maybe you could get to the energy. What would that look like? Well, if I go off on a weird tangent, I could tell you what it might look like. Along the way in the remote viewing program where we're kind of looking at physical effects, I decided to take a look at so-called levitating saints.

So the idea is if you could somehow access that energy and cohere it, so to speak, maybe you could get to the energy. What would that look like? Well, if I go off on a weird tangent, I could tell you what it might look like. Along the way in the remote viewing program where we're kind of looking at physical effects, I decided to take a look at so-called levitating saints.

And so, you know, you think, okay, well, that's just, that's a Catholic church trying to pretend that's got these magical people and whatever, whatever. But when you dig into the data, you find that that isn't it. It's that the church hated the idea that some individuals were levitating because they might be in the middle of giving mass and suddenly they, you know, float up or whatever.

And so, you know, you think, okay, well, that's just, that's a Catholic church trying to pretend that's got these magical people and whatever, whatever. But when you dig into the data, you find that that isn't it. It's that the church hated the idea that some individuals were levitating because they might be in the middle of giving mass and suddenly they, you know, float up or whatever.

And so, you know, you think, okay, well, that's just, that's a Catholic church trying to pretend that's got these magical people and whatever, whatever. But when you dig into the data, you find that that isn't it. It's that the church hated the idea that some individuals were levitating because they might be in the middle of giving mass and suddenly they, you know, float up or whatever.

So it turns out that even looking in the deep literature of the Inquisition and so on, the evidence is really solid that there have been levitating saints. And what the Catholic Church usually did is they squirreled them off into some monastery where nobody would see them.

So it turns out that even looking in the deep literature of the Inquisition and so on, the evidence is really solid that there have been levitating saints. And what the Catholic Church usually did is they squirreled them off into some monastery where nobody would see them.

So it turns out that even looking in the deep literature of the Inquisition and so on, the evidence is really solid that there have been levitating saints. And what the Catholic Church usually did is they squirreled them off into some monastery where nobody would see them.

1628. 1628. So there are enough stories like that with lots of observers and the reporting under really excellent conditions. Okay. Now that guy didn't have a nuclear power pack on his back. So how did that happen?