Theory of Gravitons: Exploring the Origin of Time and Space

In summary, the theory of gravitons proposes that the beginning of the universe was an endless void with no bounds and no coordinates in space or time. The void started to quiver, creating the first dimension of time. As the quivers grew, they became gravitons, which had no mass or charge and moved freely through each other. Eventually, the gravitons carried electric charges and formed photons, which had a slower velocity and defined the dimensions of space and time. This theory also suggests that the speed of particles in the beginning may have been c^2, but as observed in the galaxy's atmosphere, the speed can vary depending
  • #1
Clement McCulloch
[SOLVED] Theory of Gravitons

I have tried to picture the beginning.

At first there was only an endless void with no bounds. There were no
coordinates in this void, no time.

Then the void started to quiver. The quivers were in every direction but there were no coordinates for direction or distance. The quivers were quivers in time. Time was the first dimension.

The quivers grew until they were parcels of space moving in the void. They moved in every direction. They did not interact but moved freely through each other. We will call them gravitons. They would have no mass, no charge. At this stage there would be three dimensions of space and one of time. The velocity of the gravitons would be C^2 .

From the velocity of the gravitons at some locations electric charges would be formed. They would be taken up and carried by the gravitons. The charges have weight, or mass. A graviton carrying a charge is a photon. The weight of the charge slows the velocity of the gravitons from C^2 to that of a photon, V = C. The weight of the charge carried is always the same, defining a single velocity for photons. The length of the graviton carrying the charge varies, defining the wavelength and frequency of the photon. The energy of a photon varies as the wavelength and the frequency, or as the frequency that a discharge can be released by a photon. At that stage there would be four dimensions, three of space and one of time. The dimensions of space and of time would be different from those with the gravitons because the velocity and therefore the time would be different for photons.


... Please read the PDF for the rest ...

-Clement McCulloch-
 
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  • #2
The PDF.

-Clement McCulloch-
 

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  • #3
There is a forum for this kind of thing and this ain't it.
 
  • #4
Originally posted by Clement McCulloch
I have tried to picture the beginning.

At first there was only an endless void with no bounds. There were no
coordinates in this void, no time.

Then the void started to quiver. The quivers were in every direction but there were no coordinates for direction or distance. The quivers were quivers in time. Time was the first dimension.

The quivers grew until they were parcels of space moving in the void. They moved in every direction. They did not interact but moved freely through each other. We will call them gravitons. They would have no mass, no charge. At this stage there would be three dimensions of space and one of time. The velocity of the gravitons would be C^2 (you would, in your theory, want to wright 2c
so that E = mv^2/2 = mc^2.)

From the velocity of the gravitons at some locations electric charges would be formed. They would be taken up and carried by the gravitons. The charges have weight, or mass. A graviton carrying a charge is a photon. The weight of the charge slows the velocity of the gravitons from C^2 to that of a photon, V = C. The weight of the charge carried is always the same, defining a single velocity for photons. The length of the graviton carrying the charge varies, defining the wavelength and frequency of the photon. The energy of a photon varies as the wavelength and the frequency, or as the frequency that (in) a discharge can be released by a photon (remember, photones are discharges and the e(lectro)m(agnetic) field's frequency times h is the energy of the photone). At that stage there would be four dimensions, three of space and one of time. The dimensions of space and of time would be different from those with the gravitons because the velocity and therefore the time would be different for photons.


... Please read the PDF for the rest ...

-Clement McCulloch-

Thinking is never enough. But never stop thinking!

i think that speed in the beginning was neverending, and not a certain constant. Ofcourse, seen from a referencesystem back then the speedlimit would've been the same as the one we observe that we have now cause passing in the referencesystem would have been also been faster then. The speed of particles in the beginning might very well have been c^2. As we observe it anyway. In the galaxie's atmosphere
 

FAQ: Theory of Gravitons: Exploring the Origin of Time and Space

What is the theory of gravitons?

The theory of gravitons is a proposed concept in physics that suggests gravity is caused by the exchange of particles called gravitons. This theory is an attempt to reconcile the theories of general relativity and quantum mechanics.

How does the theory of gravitons explain the origin of time and space?

According to this theory, the exchange of gravitons between objects is what creates the curvature of spacetime, which in turn causes the phenomenon of gravity. This means that time and space are not separate entities, but rather intertwined and dependent on each other.

Is the theory of gravitons widely accepted in the scientific community?

The theory of gravitons is still a highly debated and speculative concept in physics. While some scientists believe it has potential to explain the mysteries of gravity, others argue that it is not yet supported by enough evidence to be widely accepted.

How does the theory of gravitons relate to other theories in physics?

The theory of gravitons is an attempt to bridge the gap between the theories of general relativity and quantum mechanics, which are the two pillars of modern physics. It proposes that gravity, which is currently described by general relativity, can also be explained in terms of quantum mechanics.

Can the existence of gravitons be proven experimentally?

Currently, there is no experimental evidence for the existence of gravitons. However, scientists are actively conducting experiments and research to try and detect these particles. If gravitons are found, it would provide strong support for the theory and further our understanding of gravity.

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