Skip to comments.“Deep Space of the Cosmos” –There’s a Mysterious Energy Latent In It Which Can Tell Us About Our...
Posted on 08/16/2018 3:02:08 AM PDT by LibWhacker
Deep Space of the Cosmos Theres a Mysterious Energy Latent In It Which Can Tell Us About Our Fate
Empty space seems to be nothing to us. By analogy, water may seem to be nothing to a fish its whats left when you take away all the other things floating in the sea. Likewise, empty space is conjectured to be quite complicated, Martin Rees, Astronomer Royal and Emeritus Professor of Cosmology and Astrophysics at the University of Cambridge.
Philosophers have debated the nature of nothing for thousands of years, but what has modern science got to say about it? In an interview with The Conversation, Rees, explains that when physicists talk about nothing, they mean empty space (vacuum). This may sound straightforward, but experiments show that empty space isnt really empty theres a mysterious energy latent in it which can tell us something about the fate of the universe.
Q: Is empty space really the same as nothing?
A: We know that the universe is very empty. The average density of space is about one atom in every ten cubic metres far more rarefied than any vacuum we can achieve on Earth. But even if you take all the matter away, space has a kind of elasticity which (as was recently confirmed) allows gravitational waves ripples in space itself to propagate through it. Moreover, weve learned that there is an exotic kind of energy in empty space itself.
Q: We first learned about this vacuum energy in the 20th century with the rise of quantum mechanics, which governs the tiny world of atoms and particles. It suggests that empty space is made up of a field of fluctuating background energy giving rise to waves and virtual particles that pop into and out of existence. They can even create a tiny force. But what about empty space on large scales?
A: The fact that empty space exerts a large-scale force was discovered 20 years ago. Astronomers found that the expansion of the universe was accelerating. This was a surprise. The expansion had been known for more than 50 years, but everyone expected that it would be slowing down because of the gravitational pull that galaxies and other structures exert on each other. It was therefore a big surprise to find that this deceleration due to gravity was overwhelmed by something pushing the expansion. There is, as it were, energy latent in empty space itself, which causes a sort of repulsion which outweighs the attraction of gravity on these large scales. This phenomenon dubbed dark energy is the most dramatic manifestation of the fact that empty space is not featureless and irrelevant. Indeed it determines our universes long term fate.
Q: But is there a limit to what we can know? At a scale of a trillion trillion times smaller than an atom, quantum fluctuations in spacetime can give rise to not just virtual particles, but to virtual black holes. This is a range that we cannot observe, and where we have to combine theories of gravity with quantum mechanics to probe what happens theoretically something thats notoriously difficult to do.
A: There are several theories that aim to understand this, the most famous being string theory. But none of these theories have yet engaged with the real world so they are still untested speculation. But I think nearly everyone accepts that space itself could have a complicated structure on this tiny, tiny scale where gravitational and quantum effects meet.
We know that our universe has three dimensions in space: you can go left and right, backwards and forwards, up and down. Time is like a fourth dimension. But its a strong suspicion that if you were to magnify a little point in space so that you were probing this tiny, tiny scale you would find that it is a tightly wound origami in about five extra dimensions that we dont see. Its rather as when you look at a hosepipe from a long way away, you think it is just a line. But when you look closer, you see that one dimension was in fact three dimensions. String theory involves complex mathematics so do the rival theories. But thats the kind of theory were going to need if we are to understand at the deepest level the nearest to nothingness that we can imagine: namely empty space.
Q: Within our current understanding, how can we explain our entire universe expanding from nothing? Could it really just start off from a bit of fluctuating vacuum energy?
A: Some mysterious transition or fluctuation could have suddenly triggered a part of space to expand at least thats what some theorists think. The fluctuations intrinsic to quantum theory would be able to shake the entire universe if it were squeezed to a sufficiently tiny scale. That would happen at a time of about 10-44 seconds whats called the Planck time. Thats a scale when time and space are intertwined so that the idea of a clock ticking away makes no sense. We can extrapolate our universe with high confidence back to a nanosecond, and with some confidence right back much closer to the Planck time. But thereafter, all bets are off because physics on this scale has to be superseded by some grand, more complicated theory.
Q: If it is possible that a fluctuation of some random part of empty space gave rise to the universe, why couldnt exactly the same thing happen in another part of empty space giving birth to parallel universes in an infinite multiverse?
A: The idea that our Big Bang is not the only one and that what we see with our telescopes is a tiny fraction of physical reality is popular among many physicists. And there are many versions of a cyclic universe. It was only 50 years ago that strong evidence for a Big Bang first emerged. But there have ever since been speculations about whether this is just an episode in a cyclic universe. And theres been growing traction for the concept that theres far more to physical reality than the volume of space and time that we can probe even with the most powerful telescopes.
So weve no idea whether there was one Big Bang or many there are scenarios which predict many Big Bangs and some which predict one. I think we should explore them all.
Q: How will the universe end?
A: The most straightforward long range forecast predicts that the universe goes on expanding at an accelerating rate, becomes ever emptier and ever colder. The particles in it may decay, making the dilution proceed indefinitely. We would end up with, in a sense, a huge volume of space, but it would be even emptier than space is now. That is one scenario, but there are others that involve the direction of dark energy reversing from repulsion to attraction, so that there will be a collapse to a so-called Big Crunch, when the density heads towards infinity again.
Theres also an idea, due to physicist Roger Penrose, that the universe goes on expanding, becoming ever more dilute, but somehow when its got nothing in it apart from the photons, particles of light things can be re-scaled, so that after this huge dilution, space becomes in a sense the generator of some new Big Bang. So thats a rather exotic version of the old cyclic universe but please dont ask me to explain Penroses ideas.
Q: How confident are you that science can ultimately crack what nothing is? Even if we could prove that our universe started from some strange fluctuation of a vacuum field, dont we have to ask where that vacuum field came from?
A: Sciences try to answer questions, but every time we answer them, new ones come into focus well never have a complete picture. When I was starting research in the late 1960s, it was controversial whether there had been a Big Bang at all. Now thats no longer controversial, and we can say with about 2% precision what the universe was like all the way back from the present 13.8 billion years to a nanosecond. That is huge progress. So its not absurdly optimistic to believe that in the next 50 years, the challenging issues about what happens at the quantum or inflationary eras will be understood.
But of course this raises another question: how much of science is going to be accessible to the human brain? It could turn out, for instance, that the mathematics of string theory is in some sense a correct description of reality, but that we will never be able to understand it well enough to check it against any genuine observation. Then we may have to await the emergence of some kind of post-humans to get a fuller understanding.
But everyone who ponders these mysteries should realise that the physicists empty space vacuum is not the same as the philosophers nothing.
“Is empty space really the same as nothing?”
What a vacuous question.
My understanding is that the vacuum is the most massive and energetic object in the Universe.
Space is packed solid with photons. God is light.
No. He means within 2% precision, or 98%accuracy.
So, does this guy actually believe that he knows how the universe formed with 98% accuracy?
Lol, sorry, would’ve gotten my chuckle in earlier except for this maddening connection problem I’ve been having.
Yes, which proves they’re not guessing!
Did you read the article? Thats not at all what he said.
I haven’t heard that before, but I could believe it. I wonder if they’re talking about the virtual particles contained in the space, or the fabric of the space itself? Or both (i.e., Do they go hand in hand and one can’t exist without the other)?
The headline sounds line the name of a movie. Please tell me, is a dimension a place where you can go, or is it a measurement?
Not at all!
If you read the article, he’s basically saying “we don’t know”, we’re not sure”, “we may be to stupid to understand”, et cetera, etc.
Bleakly honest, really.
Neither. The dictionary says a dimension is a measurable extent of some kind, such as length, width, etc.
I did read the article, and saw what you were talking about; i.e. the we dont know, were not sure, etc. But then he adds the 2% statement which seemed to diametrically oppose everything he said before.
A simple magnet will exert force in a vacuum.
You dont need anything more exotic than electric fields to explain much of what we observe. String theory and dark matter are dead end ideas.
It’s not diametrically opposed. Think about what statisticians do... They’ll say, “We don’t know; we’re not sure, but here’s a 95% confidence interval for the quantity in question.”. Such language is the language of science.
This is about the science of empty ( vacuum) versus the ancient experience of mind/heart in its natural uncluttered state, traditionally called “Sunyata” by the Buddhist saints of India,”Mu” in Japan, and in the West” emptiness.”
The ancients saw emptiness of mind/heart , the nature of mind uncluttered by discursive thought , achievable only through the joyful discipline of Shamatha ( resting the mind in peace) meditation, as the gateway to both great compassion and ultimate perception.
The science of vacuum and what goes on within it, is about how we can perceive the physics of emptiness/vacuum, which is but one of many thousands of aspects of Sunyata itself, from which everything arises, its major characteristics are that Emptiness as a body of being (Dharmakaya) is actually unceasing, un-originated, unconditional. Absolute nature is the Dharmakaya, the empty, unconditioned truth, into which illusion and ignorance, and any kind of concept, have never entered.
The Science of Emptiness is full of concept, but has the possibility of great wisdom generated by the ultimate perception which can come from the cultivation of Sunyata through Shamataha meditation itself.
The two, science emptiness and the direct uncluttered perception of mind /heart can be joined.
I havent heard that before, but I could believe it. I wonder if theyre talking about the virtual particles contained in the space, or the fabric of the space itself? Or both (i.e., Do they go hand in hand and one cant exist without the other)?
I think it has to do with the energy of expansion, plus it’s so darn big.
I think I’ll look it up and report back.
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