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This is actually a bit of a continuation from my earlier post on the multiverse and additional dimensions theory, and is basically supporting evidence for the multiverse (which is itself evidence for additional dimensions).

To avoid things getting messy, I’m going to break this into three subheadings.

**Stephen Hawking:**

You can easily do a quick wikipedia on him if you want to find out the more mundane details of his life. I’m just going to quickly mention some relevant things about him.

Hawking has a motor neurone disease related to amyotrophic lateral sclerosis (ALS) which has confined him to a wheelchair. As he is almost fully paralyzed, he communicates with facial twitches and a speech device where he enters types the words he wants to say by scrolling across a virtual keyboard with his eyes. This condition alone is proof of his genius as he rationalises complex theoretical physics in his mind without the benefit of being able to write things down. Honestly, I can’t stress enough how amazing that is. I hated 4 unit maths in high school and I had textbooks, the internet and calculators to rely on. His peers have said that Hawking works on intuition that is freakishly accurate, as if he is in tune with the universe in the same way that Einstein and Newton were.

Hawking’s black hole equation combined separate major fields of physics into one elegant formula, the first time (and only time to my knowledge) that separate fields of physics have been unified. Those of you who know a bit about physics will know why this is a big deal – there are many types of physics and they have never been unified under one single model before (which would be known as the theory of everything). The Hawking-Bekenstein entropy equation is:

Where S is entropy from thermodynamics, c is the constant for the speed of light from Einstein’s work, k is the Boltzmann constant, G is Newton’s constant for gravity, h is the Planck constant from quantum physics, and A is the area of the black hole.

Not only is this a combination of different fields of physics, it is a simple equation (which is considered mathematically beautiful, like Einstein’s e=mc^2).

The last thing I want to mention are a few of his theories that are relevant to this post. First, he provided mathematical proof for the beginning of the universe (the big bang), he not only described the mechanism of black holes mathematically, but defined many of the laws governing them (such as the event horizon, which is the region around the black hole which if you enter, there is no escape), and he also predicted that black holes would evaporate over time.

**The Information Paradox:**

The Information Paradox was something Hawking came to based on his work on black holes. Black holes break everything down into subatomic particles and suck them into the core of its gravity – a singularity (defined as a point that is infinitely small, infinitely dense, with an infinite gravity). The gravitational force of a black hole is so strong that not even light can escape. The implication of this is that whatever is sucked into a black hole is lost forever (or rather, it is stuck in the black hole forever).

However, Hawking later proved that black holes would evaporate over time. This is related to two facts: first, black holes emit radiation (a form of energy) and second, E=mc^2. Einstein’s equation means that energy and mass are essentially the same thing, just in different forms (you can mathematically represent energy/mass as a function of the other). What this means is that if black holes emit energy, they need to burn mass to do so; thus if a black hole runs out of mass (given that it runs out of stuff to suck in and burns out its core), it will evaporate.

Why was this huge news to the science world? Because the laws of physics (conservation of mass and energy) state that you cannot destroy mass/energy, only change its form. Information is “coded” into particles, and can never be lost. A visual representation of this would be if I tear a piece of paper to shreds. If I have all the pieces still, and a knowledge of how they fit together, I could theoretically recreate the original paper. The same applies to everything in the universe – if I burn a tree inside a containment unit, I would have everything that tree (and the fire) was made out of inside that containment unit. Theoretically, I could use those ingredients to remake the tree. However, Hawking’s proof of black hole evaporation violated this most fundamental law. **If a black hole disappeared, what happened to all the information it absorbed? **It would disappear with the black hole, a clear violation of the conservation of mass/energy. In essence, Hawking described black holes as huge cosmic machines that went around **erasing ****parts of the universe **and proclaimed that parts of the universe were missing as a result. Physicists were mind boggled and needed to disprove this theory. Why? Because the implications were that if black holes could violate this law, then the law was no longer a law of the universe. If it was no longer a law, that means that information anywhere in the universe could potentially be erased, and not just inside black holes. Further, at this time more black holes were discovered – there were supermassive black holes and micro black holes. There could even be micro black holes existing in your room as you read this. If black holes have the power to erase information, how can you say anything you know or see or feel or believe is real? Nothing is certain if everything is impermanent. This caused a huge fuss and was known as the Information Paradox.

Later, a theoretical physicist, Leonard Susskind came up with an alternative theory to solve the Information Paradox. The science world breathed a sigh of relief, but Hawking was determined to prove Susskind was wrong.

Unfortunately, at this point Hawking’s ALS got even worse. He was hospitalised but miraculously, he survived and went back to work. By now, he was so paralyzed that he had to get a student to help him work. Hawking would feed him ideas and the student would do the calculations and try to prove the concepts. As Hawking’s ALS got worse, his work became frustratingly slow. Now, his student tries to anticipate what Hawking wants to say (Hawking types the first few letters of a word and he guesses what word Hawking means).

Anyway, after getting out of hospital, Hawking went to a renown physics conference and made a public statement. He admitted that he had been wrong – information was not erased. However, he also declared Susskind wrong and claimed to have solved the paradox himself. I haven’t read this paper (it’s quite recent and he hasn’t provided mathematical proof yet), but from what I’ve gathered, his solution is as followed: information is not erased because it is transmitted to an alternate universe. The multiverse theory predicts an infinite number of universes, and inevitably, some of these universes will have no black holes. If there are no black holes, there is no way for information to be lost (this is a logic loop similar to time travel – if the cause of the problem doesn’t exist, you can’t have a problem in the first place). Basically, information will be transmitted through universes until it reaches a universe with no black hole, and since there is no black hole, the information can’t be lost.

Progress is ridiculously slow now – Hawking can only put out a few words a minute. Personally, I think it would be an astounding tragedy (especially in Hawking’s mind) if he becomes fully paralyzed and unable to spread his knowledge to the world. What would be more horrible was if he proved the existence of other universes but was unable to tell us. Imagine being trapped in your own mind with a universe shaking idea, fully proven, but unable to tell anybody around you.

**Implications and the Multiverse Theory:**

I really hope Hawking survives long enough to fully prove his new theory. It would be a tragedy for him to die with this work uncompleted as it would be definitive proof of a multiverse (because a multiverse would be necessary for the laws of physics to remain absolute).

How does this relate to my previous post? Well, as a quick refresher, I recently thought of the idea (which other scientists have also supported) that every singularity contains a universe. The reason for this is because our universe originated from a singularity that caused the big bang. Logically, all singularities have the potential to big bang and spew out its contents (a universe). There are singularities at the core of every black hole, meaning that there are hundreds of millions of universes inside our own universe, and that our own universe could just be the core of a black hole of an even greater universe (which would, by necessity, have more dimensions than us).

By the way, a quick note on the dimensions; further support for my suggestion that even more dimensions exist (and that our universe belongs to a universe with more dimensions) can be found in quantum mechanics and string theory. These two branches of physics study predict, by necessity, the existence of at least 11 dimensions. I think the fact that we’re working on string theory and alternate dimensions can be likened to the “fourth wall” in theatre – the characters of the play should not be aware of the audience’s existence but sometimes they “break the fourth wall” and hint that they do acknowledge an audience’s existence.

Back to the implications though: I believe in my previous post I suggested that the matter (or information) sucked in by a black hole is used to create a new (and smaller) universe. I made this post without thinking of Hawking’s multiverse, but the two concepts coincide well. Hawking states that by necessity, these other universes must exist to contain information that is taken from our universe. That is tantamount to what I said, that these alternate universes contain matter (information) from our current universe.

Essentially, I was beaten to goal again – this time Hawking came up with the idea before me. This stuff happens inevitably, and I admit, much of my knowledge is inspired by Hawking, but I can’t help but feel like I’m travelling in a rut because I’m arriving at the same conclusions as others. Breakthroughs need radical thinking that forges a whole new path or the thinker will inevitably run into the same dead-end as someone before them. This is way out of my depth already (I have long since lost any mathematical reasoning and have been relying on theoretical physics to rationalise my conclusions). I eagerly await Hawking’s work and am filled with admiration at the thought that even now, while I write this blog post, Hawking is painstakingly putting out a couple of words a minute to his student who is so close and yet so far from proving a multiverse.

So I was showering after watching a documentary on Stephen Hawking and came to two absolutely mind-boggling scientific epiphanies. I don’t know what you guys do when you shower but I think about stuff. Anyway, I was sure that I had discovered something ground-breaking but, as usual, somewhere some place somebody had thought of it before me. Nevertheless, I thought I’d take the liberty of naming this theory after myself to appease the disappointment of not being the first.

The Prophet’s Multiverse was a theory I came to after remembering Hawking’s comment that the universe is essentially a black hole working in reverse. Black holes crush matter into a singularity whereas our universe expanded from a singularity. The implication of this is that every singularity contains a universe in it. That means that every black hole has a universe at its core and that our universe is just the singularity at the core of an even larger universe. The size of things may feel mind boggling, especially when there are roughly 100 million stellar-mass black holes in the universe. However, keep in mind that we, as humans, have constantly been corrected in our assumption that we understand how big things are. We see more and more of the universe over time and realise more and more how small we are. This is just another step in that direction.

To help visualise this, consider yourself in the room of an enormous building. Each level has many rooms, but there are no doors or windows, just four solid walls. To us, that room is the entire universe. There is nothing outside of it because we have no reasonable evidence to think that anything exists outside of the room (especially since there are no doors or windows). In reality, however, there are many more rooms in the building, all of which think that they are all that exist. Imagine if I put doors in the walls but they were all locked. That’s what this current stage is. We have reason to believe that other rooms (or universes) exist now, but we have no method to reach them. Now all we’re looking for is the key.

Honestly, it’s an amazing idea to think that we are just a black hole’s singularity in another universe. Likewise, imagine the universes inside one of our black holes. They probably think that they are the only universe without ever realising that they are contained within our own universe.

Before people get lost at this point, it’s probably worth pointing out that a singularity is an infinitely small point with infinite density, mass and gravity. This means that the singularity that contained our universe (released by the big bang) contained every ingredient necessary to make our universe. Likewise, black holes in our universe are sucking ingredients into their singularities, ingredients that may be used to create their universe. The big bang itself is open to further examination. Hawking predicts that black holes will dissipate, releasing Hawking radiation. It’s possible that this Hawking Radiation is just a big bang for a smaller universe. It only looks smaller to us because we’re infinitely larger. Similarly, our big bang could just be the dissipating radiation of a universe that is even larger than us.

Anyway, apparently a Polish cosmologist and some other physicists have already come up with this same theory as me (though we differ on the specifics). I just wanted to write it down because it feels like a waste of a shower-time epiphany.

My second theory is the Prophet’s Dimension, and is basically proof of more dimensions that exist. As far as I know, nobody has thought of this one yet. This is a bit hard to explain with just words and is impossible to draw so you’re going to have to use your imagination. As we know, the universe has no edge. There’s two possible explanations for this: nothing exists outside of the universe, thus there can be no edge, or the universe loops back on itself (the same way as Earth does, which is why we don’t fall off the edge of the Earth). I find the first explanation to be conceptually difficult because that would imply the possibility of standing at the “edge” of the universe and simply being unable to move any farther or see any farther, therefore I go with the second assumption.

For the universe to loop on itself, we have to conceptualise a three dimensional loop (ignoring time because time can be a linear infinite) – EDIT: When I say a linear infinite, I mean time is a curve with a minimum value of 14.6 billion years (beginning of universe) and a potential maximum value of infinity; remember that time can only travel in one direction – the positive. It’s impossible to draw a 3D loop so here’s where the imagination comes in. Let me just justify my last statement (for those who are thinking of spheres). A circle is a one dimensional loop because a line is one dimensional and it loops back on itself to form a circle (which is then 2D). A sphere is a two dimensional loop because it is a 3D object, and using the same logic of the circle, it becomes a 2D loop. The long version is, if you draw a circle, then rotate it along the diameter (to represent the new axis and hence dimension) you get a sphere.

Ok, back to the point at hand. Since it is impossible to draw a 3D loop, I’m going to represent the 3rd dimension with a 2D plane. So let’s think of a sheet of paper. The paper is 2D (or 3D if you consider the thickness). Imagine that the surface of the paper page is 3D. Now, the paper is rectangular so it has an edge. We know the universe has no edge, so the paper has to be folded into a sphere (don’t ask me how, just imagine a spherical page). Tada, we now have a universe with no edge, where the 3D universe is contained on the 2D surface of the page. If it helps you understand, imagine the page’s thickness to be a dimension, in which case the page is indeed 3D, but keeping in mind that the thickness has to be infinite (and thus loop back on itself) because the universe has no edge no matter which direction you travel. I have no trouble substituting the 3D universe with the 2D page so I’m going to continue with that description (you’re just simplifying an entity by making another entity represent it, such as x+y=z and x+y+a = 1, therefore z+a =1; it’s just substitution to help you think easier).

So, we have a spherical object but it’s hollow in the middle. What does that mean? It means there’s space contained within our universe’s boundaries that we cannot access no matter which direction we travel (remember, the page represents a 3D space, so no matter what direction you travel, you’re still travelling on that page). The implication of this is that there’s more dimensions in our universe than we can physically access, and that there could be so much more to the universe than we can physically see.

If we tie this theory to the one above, we can assume that larger universes than ours have more dimensions (because a singularity is one dimensional but it contains a three dimensional universe).

Anyway, those are the two things I came up with while I was showering. Pretty mind boggling stuff huh? Science is so cool.