Steve
👤 PersonAppearances Over Time
Podcast Appearances
That's right. Well, you can, if you think about it, and I'll give Jack Sarfati some credit for thinking about quantum entanglement as a way. Because quantum entanglement does suggest that everything is interconnected. We're not separate from the most distant galaxies. Right.
That's right. Well, you can, if you think about it, and I'll give Jack Sarfati some credit for thinking about quantum entanglement as a way. Because quantum entanglement does suggest that everything is interconnected. We're not separate from the most distant galaxies. Right.
Well, there are all these different theories. The many-worlds theory, the block universe theory are all separate theories. I think, relatively unrelated methods to account for what you could call the great mystery.
Well, there are all these different theories. The many-worlds theory, the block universe theory are all separate theories. I think, relatively unrelated methods to account for what you could call the great mystery.
Well, there are all these different theories. The many-worlds theory, the block universe theory are all separate theories. I think, relatively unrelated methods to account for what you could call the great mystery.
Well, you know, I'm not a physicist, but the block universe came out of Einstein's theory of relativity. And the idea of quantum entanglement comes out of quantum theory.
Well, you know, I'm not a physicist, but the block universe came out of Einstein's theory of relativity. And the idea of quantum entanglement comes out of quantum theory.
Well, you know, I'm not a physicist, but the block universe came out of Einstein's theory of relativity. And the idea of quantum entanglement comes out of quantum theory.
Really good theories. They both make excellent predictions, uncannily excellent predictions, but they're incompatible with each other. And that's the big mystery of physics right now. How do you reconcile relativity with quantum physics? So far, nobody's been able to do it.
Really good theories. They both make excellent predictions, uncannily excellent predictions, but they're incompatible with each other. And that's the big mystery of physics right now. How do you reconcile relativity with quantum physics? So far, nobody's been able to do it.
Really good theories. They both make excellent predictions, uncannily excellent predictions, but they're incompatible with each other. And that's the big mystery of physics right now. How do you reconcile relativity with quantum physics? So far, nobody's been able to do it.
44 years something like that and uh on earth that would end up being like 40 million years or something 13.8 billion 13.8 billion years that across in fact probably more than that because that was the original hubble dynamic diameter of the universe but it's expanded since then uh but from the point of view of a traveler on on a spaceship at light speed at light speed to take no time at all
44 years something like that and uh on earth that would end up being like 40 million years or something 13.8 billion 13.8 billion years that across in fact probably more than that because that was the original hubble dynamic diameter of the universe but it's expanded since then uh but from the point of view of a traveler on on a spaceship at light speed at light speed to take no time at all
44 years something like that and uh on earth that would end up being like 40 million years or something 13.8 billion 13.8 billion years that across in fact probably more than that because that was the original hubble dynamic diameter of the universe but it's expanded since then uh but from the point of view of a traveler on on a spaceship at light speed at light speed to take no time at all
The Milky Way is approximately 120 light years across. 120 light years? Okay, so that would be 120 years. from the point of view of somebody on earth or a hundred, I'm sorry. It's a hundred thousand.
The Milky Way is approximately 120 light years across. 120 light years? Okay, so that would be 120 years. from the point of view of somebody on earth or a hundred, I'm sorry. It's a hundred thousand.
The Milky Way is approximately 120 light years across. 120 light years? Okay, so that would be 120 years. from the point of view of somebody on earth or a hundred, I'm sorry. It's a hundred thousand.
No, the Milky Way is 100,000 light years, so halfway across the 50,000... 100,000, okay, right. 50,000 years from the point of view of somebody on Earth watching it.
No, the Milky Way is 100,000 light years, so halfway across the 50,000... 100,000, okay, right. 50,000 years from the point of view of somebody on Earth watching it.
No, the Milky Way is 100,000 light years, so halfway across the 50,000... 100,000, okay, right. 50,000 years from the point of view of somebody on Earth watching it.