Gregg Braden

Yeah. Yeah. Well, I mean, this is so all of that. I said this earlier and I knew we'd refer back to it. I have yet, Danny, to see any technology built in the world around us that doesn't mimic what we already do in our bodies. So gated circuits, transistors, resistors, capacitors, photon emitters, photon receivers. The DNA literally is a fractal antenna.

Yeah. Yeah. Well, I mean, this is so all of that. I said this earlier and I knew we'd refer back to it. I have yet, Danny, to see any technology built in the world around us that doesn't mimic what we already do in our bodies. So gated circuits, transistors, resistors, capacitors, photon emitters, photon receivers. The DNA literally is a fractal antenna.

And we can go on with this, but here's what I learned from being in the- What is a fractal antenna?

And we can go on with this, but here's what I learned from being in the- What is a fractal antenna?

And we can go on with this, but here's what I learned from being in the- What is a fractal antenna?

A fractal antenna means that you're receiving information not from one isolated station that's fractal. So you're receiving many signals across a broad, many bandwidths across a broad spectrum of information. It's coming in all the time. So one of the things I learned, it's fascinating to me, is the more complex a system is behind the scenes, the simpler the user interface.

A fractal antenna means that you're receiving information not from one isolated station that's fractal. So you're receiving many signals across a broad, many bandwidths across a broad spectrum of information. It's coming in all the time. So one of the things I learned, it's fascinating to me, is the more complex a system is behind the scenes, the simpler the user interface.

A fractal antenna means that you're receiving information not from one isolated station that's fractal. So you're receiving many signals across a broad, many bandwidths across a broad spectrum of information. It's coming in all the time. So one of the things I learned, it's fascinating to me, is the more complex a system is behind the scenes, the simpler the user interface.

I mean, look, you just picked up your phone or your iPad. You touch one place and you set into motion a whole cascade of events. You can pay your bills, talk to your friends, and all you did was touch it, touch a picture with your finger. That's a very simple user interface. Yeah. for a complex system, we're the same way. We are literally what is called soft technology.

I mean, look, you just picked up your phone or your iPad. You touch one place and you set into motion a whole cascade of events. You can pay your bills, talk to your friends, and all you did was touch it, touch a picture with your finger. That's a very simple user interface. Yeah. for a complex system, we're the same way. We are literally what is called soft technology.

I mean, look, you just picked up your phone or your iPad. You touch one place and you set into motion a whole cascade of events. You can pay your bills, talk to your friends, and all you did was touch it, touch a picture with your finger. That's a very simple user interface. Yeah. for a complex system, we're the same way. We are literally what is called soft technology.

We're not the primitive hard technology of computer chips and wires and chemicals. We're more than that, we're human. We are cell membranes and neurons and ion potentials moving across cell walls. And here's the beauty, you don't have to know any of it because our user interface is the bottom line of our most ancient and cherished spiritual traditions.

We're not the primitive hard technology of computer chips and wires and chemicals. We're more than that, we're human. We are cell membranes and neurons and ion potentials moving across cell walls. And here's the beauty, you don't have to know any of it because our user interface is the bottom line of our most ancient and cherished spiritual traditions.

We're not the primitive hard technology of computer chips and wires and chemicals. We're more than that, we're human. We are cell membranes and neurons and ion potentials moving across cell walls. And here's the beauty, you don't have to know any of it because our user interface is the bottom line of our most ancient and cherished spiritual traditions.

Thought, feeling, emotion, breath, focus, movement, nutrition. That's our user interface. And as we learn, also called epigenetic factors, as we learn to use this user interface, we awaken this soft, highly advanced, technologically sophisticated soft technology. And this is why there's a concerted effort to veil us from this extraordinary potential.

Thought, feeling, emotion, breath, focus, movement, nutrition. That's our user interface. And as we learn, also called epigenetic factors, as we learn to use this user interface, we awaken this soft, highly advanced, technologically sophisticated soft technology. And this is why there's a concerted effort to veil us from this extraordinary potential.

Thought, feeling, emotion, breath, focus, movement, nutrition. That's our user interface. And as we learn, also called epigenetic factors, as we learn to use this user interface, we awaken this soft, highly advanced, technologically sophisticated soft technology. And this is why there's a concerted effort to veil us from this extraordinary potential.

And one of the ways of doing that is by replacing our biology with machines when we lose our

And one of the ways of doing that is by replacing our biology with machines when we lose our

And one of the ways of doing that is by replacing our biology with machines when we lose our