Howard Lutnick
๐ค SpeakerAppearances Over Time
Podcast Appearances
Right now we have over 90-something separate patents. We have 30 different trademarks and copyrights, but most of the stuff are hard patents.
All in the states. Well, I've got them worldwide. You have to start at five of them here, but a lot of them are redundant patents in other countries. What is this, Rob?
All in the states. Well, I've got them worldwide. You have to start at five of them here, but a lot of them are redundant patents in other countries. What is this, Rob?
It's an end of America. What have you found? Well, we've been able to innovate. The first thing that everybody already knows about is the tangential flight with linchpin. We have provided tangential flight, the ability to fly around your own center of mass and unlimited midair bonding. I mean, it's the end of cranes.
It's an end of America. What have you found? Well, we've been able to innovate. The first thing that everybody already knows about is the tangential flight with linchpin. We have provided tangential flight, the ability to fly around your own center of mass and unlimited midair bonding. I mean, it's the end of cranes.
for the linchpin because no matter how large the project is or how small it is, linchpins can modulate and cover over air, over land, over sea. You have flight vehicles that are able to deal with the air or deal with space or deal with water. You have cars for the land, but you don't have anything that is ubiquitous to all of these mediums, and that's what linchpin is able to do.
for the linchpin because no matter how large the project is or how small it is, linchpins can modulate and cover over air, over land, over sea. You have flight vehicles that are able to deal with the air or deal with space or deal with water. You have cars for the land, but you don't have anything that is ubiquitous to all of these mediums, and that's what linchpin is able to do.
So when I say it's the end of cranes, it's the... So you have that. We've innovated flight. We've innovated geometry by having unlimited bonding. We've innovated lighting. We've innovated with our energy systems.
So when I say it's the end of cranes, it's the... So you have that. We've innovated flight. We've innovated geometry by having unlimited bonding. We've innovated lighting. We've innovated with our energy systems.
And what I wanted to share with you, one of the biggest things that I talked about with the Howard Comma, its ability to pull energy directly from the van der Waals or from the zero point. We've already provided a means to do that. to where you don't have to pay for any energy anymore.
And what I wanted to share with you, one of the biggest things that I talked about with the Howard Comma, its ability to pull energy directly from the van der Waals or from the zero point. We've already provided a means to do that. to where you don't have to pay for any energy anymore.
The same thing when I talked about beryllium, utilizing beryllium, even though there were some idiot chemists that came out and said that what I said concerning beryllium was wrong, but I dare them to compare beryllium to, or beryllium's reaction to oxygen the same way that magnesium behaves with sulfur, the same way that selenium behaves with...
The same thing when I talked about beryllium, utilizing beryllium, even though there were some idiot chemists that came out and said that what I said concerning beryllium was wrong, but I dare them to compare beryllium to, or beryllium's reaction to oxygen the same way that magnesium behaves with sulfur, the same way that selenium behaves with...
Magnesium, sulfur, selenium behaves with... God, I just lost my thought. Selenium? Yeah, no, no, because... Can you pull it up? Well, no, no, magnesium, you have... Can you pull up the charts, Rob? Yeah, really quick.
Magnesium, sulfur, selenium behaves with... God, I just lost my thought. Selenium? Yeah, no, no, because... Can you pull it up? Well, no, no, magnesium, you have... Can you pull up the charts, Rob? Yeah, really quick.
Selenium's relationship with calcium.
Selenium's relationship with calcium.
The same relationship that... The same way that selenium will mitigate what's taking place inside of calcium, the same way that sulfur will mitigate what's taking place with the magnesium, oxygen, being the equal and opposite made of beryllium, will mitigate what's taking place with beryllium. And they will always have a strong attraction to each other.
The same relationship that... The same way that selenium will mitigate what's taking place inside of calcium, the same way that sulfur will mitigate what's taking place with the magnesium, oxygen, being the equal and opposite made of beryllium, will mitigate what's taking place with beryllium. And they will always have a strong attraction to each other.
So whatever bullshit that was being spoken by those chemists, they do not know what they're talking about. And the problem with utilizing actual beryllium is it oxidates. So immediately the surface of it gets covered, and so the reaction stops. But if you use the frequency of beryllium,