Posted on 05/10/2016 1:00:09 AM PDT by LibWhacker
Stephanie Mitchell/Harvard Staff Photographer
"If determinism the predictability of the universe breaks down in black holes, it could break down in other situations. Even worse, if determinism breaks down, we cant be sure of our past history either. The history books and our memories could just be illusions. It is the past that tells us who we are. Without it, we lose our identity," said Stephen Hawking.
Black holes have long been painted as eternal prisons, regions of space so dense that nothing not even light can escape them. But the truth, Stephen Hawking told a packed Sanders Theatre this afternoon, is that the holes arent as black as you might think.
In a session that was the hottest ticket on campus in some time, the renowned Cambridge theoretical physicist and cosmologist spoke to more than 1,000 faculty, students, and staff at Sanders, with dozens more watching at simulcast sites in the Science Center and at Jefferson Lab.
Hawkings lecture focused on his research into black holes and the information paradox, which suggests that physical information is permanently lost in such holes, a controversial notion that violates the scientific tenet that information about a system from one time can be used to understand its state at any other time.
It is said that fact is sometimes stranger than fiction, and nowhere is that more true than in the case of black holes, Hawking said. Black holes are stranger than anything dreamed up by science fiction writers, but they are clearly matters of science fact.
Over the years, Hawking said, the murky nature of black holes has forced scientists to grapple with theories that can contradict each other and in some cases our basic understanding of the universe. Early theories argued that black holes retain virtually no information about the stars from which they formed, he said. Instead, only their mass, angular momentum, and electrical charge were preserved.
Apart from these three properties, the black hole preserves no other details of the object that collapsed, he said, describing the theory. For example, the final black hole state is independent of whether the body that collapsed was composed of matter or antimatter, or whether it was spherical or highly irregular.
Based on that theory, he explained, it appeared that identical black holes could be formed by an infinite number of different configurations of matter. Quantum mechanics, however, suggested the exact opposite by showing that black holes could only be formed by particles with particular wavelengths.
This created a paradox about the nature of black holes. One theory suggested that black holes with identical qualities could be formed from an infinite number of different types of stars; another suggested that the number could be finite, Hawking said. This is a problem of information.
If the information about the bodies that form black holes is not lost, Hawking said, then black holes contain a lot of information that is hidden from the outside world.
If the amount of hidden information inside a black hole depends on the size of the hole, one would expect, on general principles, that a black hole would have a temperature and would glow like a piece of hot metal, he continued. But that was impossible because, as everyone knew, nothing could get out of a black hole or so it was thought.
In early 1974, Hawking began to challenge that axiom when he discovered particles emitting from a black hole at a steady rate.
Like everyone else at that time, I accepted the dictum that a black hole could not emit anything, he said. What finally convinced me that it was a real physical process was that the outgoing particles had a spectrum that was precisely thermal.
That outflow, later dubbed Hawking radiation, was among the key ideas that revolutionized sciences understanding of black holes by suggesting that at least some energy could be emitted by the mysterious phenomena.
Currently the Dennis Stanton Avery and Sally Tsui Wong-Avery Director of Research at the Department of Applied Mathematics and Theoretical Physics and founder of the Centre for Theoretical Cosmology at Cambridge, Hawking is arguably best known as the author of the best-selling book on cosmology A Brief History of Time.
In 1963, Hawking was diagnosed with a rare, slow-progressing form of Amyotrophic Lateral Sclerosis, and was given two years to live. Despite that diagnosis, he went to Cambridge University, where he would serve as the Lucasian Professor at Cambridge a post once held by Isaac Newton for three decades.
Hawkings contributions to understanding the universe have been called the most significant since Einstein. Hawking theorized correctly that black holes emit radiation. He was also the first to describe a theory of cosmology that united general relativity and quantum mechanics, and is an ardent supporter of the many worlds interpretation of quantum mechanics.
As black holes emit particles, they will eventually lose mass, shrink, and disappear, but the question of what happens to the information they held remains.
What happens to all the particles that fell into the black hole? he asked. They cant just emerge when the black hole disappears. The particles that come out of a black hole seem to be completely random and bear no relation to what fell in. It appears that the information about what fell in is lost, apart from the total amount of mass and the amount of rotation.
If that information is truly lost, Hawking said, that strikes at the heart of our understanding of science.
For more than 200 years, we have believed in the science of determinism, that is that the laws of science determine the evolution of the universe, he said. If information were lost in black holes, we wouldnt be able to predict the future because the black hole could emit any collection of particles.
It might seem that it wouldnt matter very much if we couldnt predict what comes out of black holes there arent any black holes near us, he continued. But its a matter of principle. If determinism the predictability of the universe breaks down in black holes, it could break down in other situations. Even worse, if determinism breaks down, we cant be sure of our past history either. The history books and our memories could just be illusions. It is the past that tells us who we are. Without it, we lose our identity.
To understand whether that information is in fact lost, or whether it can be recovered, Hawking and colleagues, including Andrew Strominger, the Gwill E. York Professor of Physics at Harvard, are currently working to understand supertranslations to explain the mechanism by which information is returned from a black hole and encoded on the holes event horizon.
Following the lecture, Hawking answered three questions from audience members, including one about his recently announced Breakthrough Starshot project, which aims to send probes to the nearest star system, Alpha Centauri.
The solar system contains nowhere that is as favorable to human life as the Earth, Hawking said. The moon is small and has no atmosphere. Mars is also smaller than the Earth. It has a thin atmosphere, but it is not enough to breathe or protect us from cosmic radiation, so astronauts will have to live underground. To find somewhere like the Earth, we have to boldly go to the stars.
IF you could use just one sheet of cosmic toilet paper to wipe the event horizon of a black hole, what would the collected matter look like underneath a powerful microscope?
Hmm, wouldn’t the t.p. freeze in place and stick to the event horizon like everything else that touches the e.h.?
The possibilities must be endless. If I ever, however unlikely, happen into a black hole, I’d want to be “pastafied” not simply “spaghettified”. For some reason, it seems a little more “high-end”.
What amuses me is the apparent lack of explanation of whether any saved “bits” of information can ever contain or be reconstituted to contain any useful information — as the bits appear to at least get badly scrambled. Consider a book — if all the letters get scrambled what useful information remains? It seems the physicists are satisfied with mere conservation of scrambled bits rather than any conservation of any actually useful recognizable informational
Content. Maybe just saving the individual letters suffices for their theories but at least to my limited way of thinking a big pile or stream of emitted scrambled letters is not genuinely informative ( and thus no longer really information). I don’t see this as mere semantical quibbling but rather as a serious distinction. ( ps: the physicists
just this last month proposed a complex new path for their conservation at black holes, albeit they don’t appear to say how it can actually happen)
“Consider a book if all the letters get scrambled what useful information remains?”
Maybe it would take a room full of monkeys sitting at computers to eventually come up with the correct configuration, but there just wouldn’t be enough time for that. However, as the monkeys evolved, the timeline could shrink if they were to stay on-task and without too much clowning around. You’d definitely want to keep them away from any windows.
I’m sure that renowned scientist, Algore, can come up with some meaningless “consensus” solution for which he can obtain the big bucks.
Bookmark.
"Barack knows that we are going to have to make sacrifices; we are going to have to change our conversation; we're going to have to change our traditions, our history; we're going to have to move into a different place as a nation." - Michelle Obama
I'd think massless particles would be immune to the massive (infinite?) gravitational forces that is the black hole. Is not a black hole the ultimate non-linear accelerator? Bosons and luxons and neutrinos ... oh my. But what do I know?
I saw a black hole once! I’m telling you it’s not a pretty sight!
Ah, but those scrambled letters would be information to an infinite number of monkeys sitting at typewriters. Just like the shredded documents at the US Embassy in Tehran became information when a large number of Iranian monkeys with glue sticks did their thing.
He should team up with Neil Tyson and compete for the title of the most overrated scientists ever.
Both are NOT scientists who are atheists but atheists who are scientists.
The real information is if the gibberish theory dry up so do the government grants.
“If determinism the predictability of the universe breaks down in black holes, it could break down in other situations. Even worse, if determinism breaks down, we cant be sure of our past history either. The history books and our memories could just be illusions. It is the past that tells us who we are. Without it, we lose our identity,” said Stephen Hawking.
But, please let’s not get carried away, Professor Hawking.
Obama won the election in 2008 and again in 2012. These are historical facts we can be sure of, every day. Unfortunately, there’s no illusion there (unless you are talking about the motivations of the people who voted for him, and the illusions inside what passes for their minds... but that’s a different story). The fact is, those two miserable elections are unalterably miserable historical facts and will remain so until the universe whispers away into nothingness.
To say “all history is illusion” just because things are weird around black holes... well, that’s just plain silly.
And I know I am no physicist, but I am sure there are plenty of physicists out there who will say (or are saying) that’s just plain silly.
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