Theory of everything (TOE), theory of gravity and Quantum Gravity (QG)

[ReinyDays]

Perhaps the cosmos is a hologram arising from a plane.

If your math is correct ... somebody should be listening ...

 

[Unkotare]

Perhaps the cosmos is a hologram arising from a plane.

First class or coach?

 

[Wise47]

Fact that maybe cosmos is arising from a plane would be consistent with the holographic principle.

 

[Unkotare]

Fact that maybe cosmos is arising from a plane would be consistent with the holographic principle.

Yeah, you said that already.

 

[ReinyDays]

Fact that maybe cosmos is arising from a plane would be consistent with the holographic principle.

Which plane? ... there are an infinite amount of them after all ...

Please explain how a two-dimensional hologram projector can produce a three-dimensional image ... feel free to check with your past lives ... generally only gods can do that and I don't think you're a god ... no offense ...

 

[Wise47]

feel free to check with your past lives ... generally only gods can do that and I don't think you're a god ... no offense ...

I only know my past incarnations, but I'm not able to peer into them. Of course, I'm not God either, but you don't have to be God to know your past incarnations.

 

[ReinyDays]

I only know my past incarnations, but I'm not able to peer into them. Of course, I'm not God either, but you don't have to be God to know your past incarnations.

Hindus don't capitalize the word /god/ ... Christians do, but Christians don't believe in reincarnation ... that's strictly on the Indian Subcontinent ... humans do not remember past lives ... only gods do ... or so we're told ... we're human, so we don't remember ... why do you claim otherwise? ...

I guess in none of your past lives you studied mathematics ... because this is no better than middle school ... do you know any algebra at all? ...

 

[Wise47]

why do you claim otherwise? ...

I know my incarnations from historical reconstruction, not literally.

 

[irosie91]

I know my incarnations from historical reconstruction, not literally.

It's all waves and not circles

 

[ReinyDays]

I know my incarnations from historical reconstruction, not literally.

"Interesting ... I would like to subscribe to your newsletter" --- Homer Simpson ...

 

[Wise47]

Holographic principle which was invented by Gerardus t'Hooft and Leonard Susskind.

 

[Unkotare]

...Christians don't believe in reincarnation ... that's strictly on the Indian Subcontinent ...

No it's not.

 

[ReinyDays]

No it's not.

My that's edifying ... do you endorse the OP's claim he remembers his past lives? ... the voices in his head tell him where to go? ... that's not Hindu theology ... this is 'something else' entirely ...

 

[Unkotare]

My that's edifying ... do you endorse the OP's claim he remembers his past lives? ... the voices in his head tell him where to go? ... that's not Hindu theology ... this is 'something else' entirely ...

I didn't read all that nonsense. Just another headcase trying to convince himself he's brilliant. Best ignored.

 

[ReinyDays]

I didn't read all that nonsense. Just another headcase trying to convince himself he's brilliant. Best ignored.

He has me on ignore ... too funny ...

 

[scruffy]

It's all waves and not circles

You can derive a Hilbert space in all kinds of interesting ways. Simple polynomials will work, subject to some convergence constraints. Hadamard transforms, Legendre transforms, basically anything that lets you reconstruct the original function.

One of the really interesting ones is symmetries. You can build a Hilbert space by "tiling" with integer valued polyhedra. In the same way you can use FFT's to solve polynomials, you can also use Cayley graphs, or Lie groups in the continuous case.

Another interesting one is stochasticity, which is the basis of information geometry. You can represent any arbitrary function with a combination of Gaussians.

One of the more useful methods is "dimensional reduction", which is a favorite method in machine learning. You represent functions with combinations of "primitives", kind of like stick figures with increasing resolution. There's a theorem that states how far you have to go before you encounter intractable uncertainty.

In some cases but not all, you can show exactly how much information is preserved and how much is lost. So for example if you think about entropy and the Second Law, you can arrive at a "unidirectional" process whereby information is dissipated. It would be very clever to get from there to a concept of growth.

 

[Wise47]

Gravitons are closest to the nature of space.

 

[Wise47]

The sizes of the squares of the microgrid of space are much smaller than the smallest particles.

 

[Nobody911]

Human beings cannot be like an omniscient God. No matter how hard they try, they always fail.

Regarding the universe's composition. Here's a breakdown of the implications:

1. Unknown Components (Dark Energy and Dark Matter):
- Dark energy (about 68%) and dark matter (about 27%) together account for approximately 95% of the universe's total energy density. Their exact nature remains largely unknown, and they are not directly observable. This means that a significant portion of the universe is still a mystery, and our understanding of these components is based on indirect evidence and theoretical models.

2. Known Components (Baryonic Matter):
- The remaining 5% of the universe is made up of baryonic matter, which includes all the atoms that form stars, planets, and living organisms. This is the matter we can observe and study directly through telescopes and other instruments.

3. Theory of Everything:
- The "theory of everything" (ToE) aims to unify the fundamental forces of nature and explain all physical phenomena in the universe. Currently, most of our physical theories, including the Standard Model of particle physics and general relativity, are based on the known baryonic matter and the interactions we can observe. However, these theories do not fully account for dark matter and dark energy, which complicates the quest for a complete understanding of the universe.

In summary, while the known 5% provides a foundation for our current physical theories, the unknown 95% poses significant challenges and opportunities for future research in cosmology and fundamental physics. Understanding dark matter and dark energy is crucial for developing a more comprehensive theory of the universe.

 

[Wise47]

The smallest particles are probably associated with the microgrid, although not to the same extent as the gravitons which are its bulges.