Many scientists are puzzled over this question: How did matter come into existence? The answer might be surprising to you, depending on your scientific training. There is much debate over whether or not the laws of science are capable of predicting the outcome of the matter. After all, no one knows exactly how the big bang happened, and there are several theories that explain the exact processes that happened at the birth of the universe.
In some ways, the universe can be thought of as a very black hole, turned inside out. A black hole is nothing more than an unconfined region of space, where matter can only exist at very high temperatures. In terms of a black hole’s interior, matter consists mainly of a void of radiation and very low density gas, with very little matter of high temperature or space. The other part of this question is: Did the matter in the past actually collapse to black holes? If matter can collapse to such extreme temperatures, does it have a chance to return to its original form via the power of high-energy light waves?
The answer to this question is, as you may already know, incredibly complicated, involving not just quantum mechanics, but also string theory, weak energy, and grand unified field theories. In fact, there are many different schools of thought regarding this question, with each group having completely different solutions to it. Fortunately, we live in a modern day that has invented various technologies that allow scientists to study these theories and test them in labs. As a result, we now know for a fact that matter can indeed collapse to extremely high temperatures, without any chance of escape.
In order to understand why this actually happens, let’s examine why special relativity and quantum mechanics don’t describe what happens on a day-to-day basis. Standard first-grade physics describes how gravity works on the earth and explains why people on the ground feel what they sense on the surface of the planet. Quantum mechanics describes what happens when particles get excited and go from a state of zero to a state of an extremely high level of energy. On the other hand, gps satellites work exactly the same way, except that they use a different measurement process to measure things on the ground. Now, if both processes can be used to describe how light behaves on the earth, how can one argue that there might be a difference?
Well, one argument is that both general relativity and quantum mechanics are incomplete. They don’t describe the entire range of possibilities, and so they don’t account for all the possible outcomes. Therefore, they fail to account for the collapses of matter. As mentioned above, there are some who claim that the entire range of solutions to the equations governing this collapse exists. However, these people are met with strong resistance, especially from those who are followers of quantum mechanics.
In addition to the arguments concerning incomplete solutions in general relativity and quantum mechanics, there are also others regarding the nature of light wave interference. This is, essentially, where two different waves or frequencies come into contact with each other, thereby canceling out the original wave and giving way to the other one. Now, some people believe that the modern physics introduced by Albert Einstein does not provide the adequate solutions for this problem.
It is also said that Albert Einstein’s theory of relativity does not have the adequate understanding of light. They argue that, because only light can travel faster than the speed of light, it cannot be interfered with. However, people who subscribe to this school of thought say that, even if light cannot be interfered with, matter cannot be. This is the reason why people feel that they cannot create a wormhole in outer space, as the light that makes up such a hole would pass through and interfere with the matter in our solar system, which is why the moon and the stars are in alignment with the earth.
In conclusion, both of these theories have their own merits and demerits. It is for you, the reader, to decide which of them to follow based on your own beliefs and values. What is important is for you to understand that you will never know for sure what really is going on in the world unless you go there yourself and see for yourself through scientific GPS technology. You have only begun to understand what this means and you should continue to do so as your horizons broaden. Indeed, I hope you will please consider all this.