Why the universe seems to expand faster than light?
The age of the universe is 13,8 billion years and the radius of the universe is about 46 billion light-years, so why the universe seems to expand faster than light? For making the solution for this problem more easy to understand, we must understand that the universe is like a ball, and the galaxies and the most of the material is at the outer layer of that ball.
So breaking the lightspeed is the thing, what happens only virtually. When the object, what is at another side of this ball is traveling to another direction than Earth is traveling, the distance of these two objects, Earth and that object, what locates in another side is growing by the speed what is the speed of those objects calculating together.
And if the speed of those particles is the speed of light, the receding speed is two times the speed of light. Those particles are actually moving with the speed of light, and they would not break the cosmic speed limit.
Why the universe seems to be a little bit too large? The material started to form when the temperature of the universe decreased enough. And the material started to form at the outer layer of the proto-universe, where it still locates in tomorrow.
But then we can start to think the form of the big bang, and that would give answer why the size of the universe is not 27,6 light years. The thing is that the big bang was not actually the point when the material would start to form. That means that at the beginning the universe was actually the mush of very high-temperature quarks and electrons.
The temperature must decrease before the protons and neutrons could start to form, and that means that the universe was the ball of the mush of the quarks, and the material started to form at the outer layer of that quark ball. When we are thinking about the size of this proto-universe, it must be quite big, before the temperature was low enough, that the quarks were started to form by those free quarks.
The explanation is quite easy to answer, and that thing is visible only in the extremely long distances. That vision is that when the particle sends the photons to another side, it would travel the opposite side, and then that means that the object seems to travel faster than light.
And the extremely long distance causes that effect because the object has moved very very much during the time, what the light travels to our direction. The lightspeed is stable, and the object would travel to the opposite side from our direction, and that means that the object would be at the opposite side of our universe.
The age of the universe is 13,8 billion years and the radius of the universe is about 46 billion light-years, so why the universe seems to expand faster than light? For making the solution for this problem more easy to understand, we must understand that the universe is like a ball, and the galaxies and the most of the material is at the outer layer of that ball.
So breaking the lightspeed is the thing, what happens only virtually. When the object, what is at another side of this ball is traveling to another direction than Earth is traveling, the distance of these two objects, Earth and that object, what locates in another side is growing by the speed what is the speed of those objects calculating together.
And if the speed of those particles is the speed of light, the receding speed is two times the speed of light. Those particles are actually moving with the speed of light, and they would not break the cosmic speed limit.
Why the universe seems to be a little bit too large? The material started to form when the temperature of the universe decreased enough. And the material started to form at the outer layer of the proto-universe, where it still locates in tomorrow.
But then we can start to think the form of the big bang, and that would give answer why the size of the universe is not 27,6 light years. The thing is that the big bang was not actually the point when the material would start to form. That means that at the beginning the universe was actually the mush of very high-temperature quarks and electrons.
The temperature must decrease before the protons and neutrons could start to form, and that means that the universe was the ball of the mush of the quarks, and the material started to form at the outer layer of that quark ball. When we are thinking about the size of this proto-universe, it must be quite big, before the temperature was low enough, that the quarks were started to form by those free quarks.
The explanation is quite easy to answer, and that thing is visible only in the extremely long distances. That vision is that when the particle sends the photons to another side, it would travel the opposite side, and then that means that the object seems to travel faster than light.
And the extremely long distance causes that effect because the object has moved very very much during the time, what the light travels to our direction. The lightspeed is stable, and the object would travel to the opposite side from our direction, and that means that the object would be at the opposite side of our universe.
Comments
Post a Comment