Howard Lutnick

But that, again, is motion. All of these things happen as a result of their motion.

But that, again, is motion. All of these things happen as a result of their motion.

Which, like I said, is an effect of electricity.

Which, like I said, is an effect of electricity.

And the magnetic systems are trying to do one thing, rotate around each other. They're not trying to bump and stay like this. They come and they begin to rotate. Everything is about orbiting another system. And ultimately, it will leave that orbit. But it's just a moment of orbiting.

And the magnetic systems are trying to do one thing, rotate around each other. They're not trying to bump and stay like this. They come and they begin to rotate. Everything is about orbiting another system. And ultimately, it will leave that orbit. But it's just a moment of orbiting.

Your take? Well, to multiply electrical potential, like with wires, you wrap them around each other. So by wrapping those more on top of each other, we're multiplying its potential. So the electrical potential to pull things up or to attract should be greater now.

Your take? Well, to multiply electrical potential, like with wires, you wrap them around each other. So by wrapping those more on top of each other, we're multiplying its potential. So the electrical potential to pull things up or to attract should be greater now.

You both agree and teal.

You both agree and teal.

But when talking about gravity, Gravity, in speaking about how gravity behaves.

But when talking about gravity, Gravity, in speaking about how gravity behaves.

Even less.

Even less.

That's why I was saying gravity in the Planck model, when they use it in... in describing Planck or the speed of light, it disqualifies Planck from being a constant because gravity isn't a constant. Depending on where you are on the Earth, the gravity is different. If you place something at the equator in comparison to something at the pole, it weighs more. Is gravity the same as weight?

That's why I was saying gravity in the Planck model, when they use it in... in describing Planck or the speed of light, it disqualifies Planck from being a constant because gravity isn't a constant. Depending on where you are on the Earth, the gravity is different. If you place something at the equator in comparison to something at the pole, it weighs more. Is gravity the same as weight?

You put something at 100,000 feet up in the air, it's going to weigh different than it does on the land. So gravity is now a conditional fact that changes depending on where something is. Or like I said, if you take a balloon and you rub it on your leg.

You put something at 100,000 feet up in the air, it's going to weigh different than it does on the land. So gravity is now a conditional fact that changes depending on where something is. Or like I said, if you take a balloon and you rub it on your leg.

and you put it on the ground, now here the Earth is attracting through gravity, so-called, attracting everything to it, but you put that balloon with the static electricity over the ground, and the same dust particles that the Earth is pulling to it, now this balloon, being so much smaller, is able to pull those particles up to it. Why?

and you put it on the ground, now here the Earth is attracting through gravity, so-called, attracting everything to it, but you put that balloon with the static electricity over the ground, and the same dust particles that the Earth is pulling to it, now this balloon, being so much smaller, is able to pull those particles up to it. Why?