Process Physics: Exploring Information Theoretic Models

In summary, the topic of Information Theoretic Process Physics is a philosophy rather than a scientifically substantiated concept. Reginald Cahill, a proponent of this theory, has derived a non-symmetric form of General Relativity which is similar to theories published by other physicists such as John Moffat and Jakob Bekenstein. There is a suggestion that the lack of measurements of Dark Matter for spherical clusters may be due to the limitations of current theories of gravity. However, the validity of Process Physics and its implications in cosmology is still a topic of debate among experts.
  • #1
Callisto
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Hi all,

I was wondering what some of you thought about 'Information Theoretic Process Physics'? The topic seems fascinating, however somewhat difficult to come to grips with. I attached a link for those who might be interested. There have been papers published which are surly worth a discussion. http://www.mountainman.com.au/process_physics/introduction.htm"

:smile: Callisto
 
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  • #2
Indeed, it is hard to grasp. That's because it's philosophy, not science. Cahill has been trotting this pony around the web for some time, but has not substantiated it.
 
  • #3
Reginald Cahill derived a non-symmetric form of General Relativity from Process Physics [see e.g., http://arxiv.org/abs/physics/0307003] similar to what John Moffat has been publishing for years [see e.g., http://arxiv.org/abs/astro-ph/0506370] and what Jakob Bekenstein recently published [ see e.g.,http://arxiv.org/abs/astro-ph/0412652]

I believe it was Cahill who first pointed out that the lack of measurements of Dark Matter for spherical clusters may just be because Newtonian Theory works for spherical galaxies but not spiral galaxies where the lack of the non-symmetric terms in the theories of gravity results in the supposition of Dark Matter.

Both Moffat and Cahill were considered somewhat crackpot until Bekenstein got similar results. Being a layman in cosmology, I cannot say what is correct. But it certainly seems like an unsettling issue that most cosmologists prefer to ignore. And if these three "fringe" physicists turn out to be correct, that does not necessarily mean that Process Physics is correct.
 
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1. What is Process Physics?

Process Physics is a theoretical framework that aims to explain the behavior of physical systems in terms of information processing. It proposes that the fundamental building blocks of the universe are not particles or fields, but processes that manipulate information.

2. How does Process Physics differ from traditional physics theories?

Unlike traditional physics theories, which focus on describing the properties and interactions of physical objects, Process Physics focuses on explaining how information is processed and transformed by these objects. It also takes a more holistic approach, considering the entire system of processes rather than just individual components.

3. What are some applications of Process Physics?

Process Physics has potential applications in various fields such as quantum computing, artificial intelligence, and cosmology. It can also provide insights into the emergence of complex systems and the origins of life.

4. How is information quantified in Process Physics?

In Process Physics, information is quantified using the concept of "information capacity", which measures the amount of information that can be stored, processed, and transmitted by a given system. This can be applied to both physical systems and abstract processes.

5. What are the main challenges in developing Process Physics?

One of the main challenges in Process Physics is developing a mathematical framework that can accurately describe and predict the behavior of complex systems. Another challenge is integrating this framework with existing theories in physics, such as quantum mechanics and general relativity. Additionally, experimental validation of Process Physics concepts and models is crucial for its development and acceptance within the scientific community.

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