Dr. Theresa Bullard

They actually want to take these tools into application and live it and embody it and really come to understand it versus just know about it.

They actually want to take these tools into application and live it and embody it and really come to understand it versus just know about it.

They actually want to take these tools into application and live it and embody it and really come to understand it versus just know about it.

OK, so one example that I hear is, you know, when people say it's all energy, therefore it's all quantum. Have you heard that before?

OK, so one example that I hear is, you know, when people say it's all energy, therefore it's all quantum. Have you heard that before?

OK, so one example that I hear is, you know, when people say it's all energy, therefore it's all quantum. Have you heard that before?

Okay. So when we say it's all energy, that's actually not a quantum view. That goes back to Einstein, right? E equals MC squared. Everything is energy, matter, you know, it's all energy, but that's actually a classical paradigm. In the quantum view, energy is an epiphenomenon that emerges out of the quantum. So is time, so is space, so is matter, right?

Okay. So when we say it's all energy, that's actually not a quantum view. That goes back to Einstein, right? E equals MC squared. Everything is energy, matter, you know, it's all energy, but that's actually a classical paradigm. In the quantum view, energy is an epiphenomenon that emerges out of the quantum. So is time, so is space, so is matter, right?

Okay. So when we say it's all energy, that's actually not a quantum view. That goes back to Einstein, right? E equals MC squared. Everything is energy, matter, you know, it's all energy, but that's actually a classical paradigm. In the quantum view, energy is an epiphenomenon that emerges out of the quantum. So is time, so is space, so is matter, right?

So time, space, matter, energy, all these things that are in the phenomenological world, they're Newtonian, if you will, they're classical. But in the quantum, it's all information, possibilities, potentialities. but nothing actualized. And energy is an actualized form.

So time, space, matter, energy, all these things that are in the phenomenological world, they're Newtonian, if you will, they're classical. But in the quantum, it's all information, possibilities, potentialities. but nothing actualized. And energy is an actualized form.

So time, space, matter, energy, all these things that are in the phenomenological world, they're Newtonian, if you will, they're classical. But in the quantum, it's all information, possibilities, potentialities. but nothing actualized. And energy is an actualized form.

So that's one sort of, so we can, in quantum physics, we talk a lot about information and we talk about wave functions, but wave functions are about possibilities and probabilities. They're not about actuality or energy even. And there is this like bubbling sea of, you know, it's constantly in movement. Like there is like a vibration to it, but it's not a physical vibration.

So that's one sort of, so we can, in quantum physics, we talk a lot about information and we talk about wave functions, but wave functions are about possibilities and probabilities. They're not about actuality or energy even. And there is this like bubbling sea of, you know, it's constantly in movement. Like there is like a vibration to it, but it's not a physical vibration.

So that's one sort of, so we can, in quantum physics, we talk a lot about information and we talk about wave functions, but wave functions are about possibilities and probabilities. They're not about actuality or energy even. And there is this like bubbling sea of, you know, it's constantly in movement. Like there is like a vibration to it, but it's not a physical vibration.

It's a potentiality vibration. So there's a subtle shift there that can happen. Another example, you know, I heard somebody saying recently, like, you know, if we're really grounded, could you say that we've collapsed our waveform into presence? It's like... that sounds really cool, but I don't know what that means. As a physicist, it's like, what do you mean?

It's a potentiality vibration. So there's a subtle shift there that can happen. Another example, you know, I heard somebody saying recently, like, you know, if we're really grounded, could you say that we've collapsed our waveform into presence? It's like... that sounds really cool, but I don't know what that means. As a physicist, it's like, what do you mean?

It's a potentiality vibration. So there's a subtle shift there that can happen. Another example, you know, I heard somebody saying recently, like, you know, if we're really grounded, could you say that we've collapsed our waveform into presence? It's like... that sounds really cool, but I don't know what that means. As a physicist, it's like, what do you mean?

So it's like taking these fancy words and putting them together in something that sounds cool and it makes you look good, but it doesn't really mean anything. Um, and so this is about really understanding more of the true definitions of things. You know, I think that it starts by really digging in to, to understand what does that really mean?

So it's like taking these fancy words and putting them together in something that sounds cool and it makes you look good, but it doesn't really mean anything. Um, and so this is about really understanding more of the true definitions of things. You know, I think that it starts by really digging in to, to understand what does that really mean?