Gravitons, Gravity and The Beginning

In summary, a new / revised theory, proposed by Clement McCulloch, discusses the concept of "nothing" and its evolution into quivers which can be identified as the first dimension of time. This theory is presented in a PDF split into three parts.
  • #1
Clement McCulloch
A new / revised theory

<snip>

At first there was ‘nothing’. It was empty and had no bounds. One could not identify coordinates of space, nor time.

Then the ‘nothing’ started to quiver. The quivers were in every direction but still there were no coordinates for direction or distance. The quivers were quivers in time and time could be called the first dimension.

</snip>

PDF split into three parts.

Clement McCulloch
 

Attachments

  • In the beginning.pg.1-3.pdf
    28.2 KB · Views: 280
  • In the beginning.pg.4-5.pdf
    41.7 KB · Views: 309
  • In the beginning.pg.6-8.pdf
    28.2 KB · Views: 276
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  • #2
Clement McCulloch said:
A new / revised theory

<snip>

At first there was ‘nothing’. It was empty and had no bounds. One could not identify coordinates of space, nor time.

Then the ‘nothing’ started to quiver. The quivers were in every direction but still there were no coordinates for direction or distance. The quivers were quivers in time and time could be called the first dimension.

</snip>

PDF split into three parts.

Clement McCulloch

How does nothing "quiver"? Sounds like a buzzword. In fact, how can you quiver in "every direction" when there are no directions yet?
 

FAQ: Gravitons, Gravity and The Beginning

1. What is a graviton?

A graviton is a hypothetical particle that is believed to be the carrier of the force of gravity in quantum theories of physics. It is thought to be a massless particle that travels at the speed of light.

2. How does gravity work?

Gravity is a fundamental force of nature that causes objects with mass to attract each other. This force is created by the curvature of spacetime, which is influenced by the mass and energy of objects. The more massive an object is, the stronger its gravitational pull.

3. What is the relationship between gravitons and gravity?

Gravitons are the theoretical particles that are thought to mediate the force of gravity. They are predicted by quantum theories of gravity, but have not yet been observed experimentally.

4. Can gravitons explain the beginning of the universe?

Currently, there is no conclusive evidence that gravitons can explain the beginning of the universe. However, some theories suggest that gravitons played a role in the early stages of the universe's expansion and the formation of galaxies.

5. Are gravitons the only explanation for gravity?

No, there are other theories that attempt to explain gravity without the need for gravitons. Some of these theories include string theory, loop quantum gravity, and modified Newtonian dynamics (MOND).

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