Light Eye
08-05-2005, 01:51 PM
Dear Friends,
I haven't read everything at this site, but it looks interesting. Click the
link to access the other links in the article.
http://www.scieng.flinders.edu.au/cpes/people/cahill_r/processphysics.html
Be Well, Be Love.
David
Process Physics
Associate Professor Reg Cahill
Christopher Klinger
Dr Susan Gunner
Kirsty Kitto
Dr Lance McCarthy
Anton Dickmann
A new paradigm for the modelling of reality is currently being developed called
Process Physics. In Process Physics we start from the premise that the limits to
logic, which are implied by GÃÂà ƒÂƒÃ‚‚ƒÃƒÂ‚àƒÃ‚ƒÃ‚‚¶del's incompleteness theorems, mean that any
attempt to model reality via a formal system is doomed to failure. Instead of
formal systems we use a process system, which uses the notions of
self-referential information with self-referential noise and self-organised
criticality to create a new type of information-theoretic system that is
realising both the current formal physical modelling of reality but is also
exhibiting features such as the direction of time, the present moment effect and
quantum state entanglement (including EPR effects, nonlocality and
contextuality), as well as the more familiar formalisms of Relativity and
Quantum Mechanics. In particular a theory of Gravity has already emerged.
In short, rather than the static 4-dimensional modelling of present day
(non-process) physics, Process Physics is providing a dynamic model where space
and matter are seen to emerge from a fundamentally random but self-organising
system. The key insight is that to adequately model reality we must move on from
the traditional non-process syntactical information modelling to a process
semantic information modelling; such information is `internally meaningful'.
The new theory of gravity which has emerged from Process Physics is in agreement
with all experiments and observations. This theory has two gravitational
constants: G, the Newtonian gravitational constant, and a second dimensionless
constant which experiment has revealed to be the fine structure constant. This
theory explains the so-called `dark matter' effect in spiral galaxies, the bore
hole gravitational anomalies, the masses of the observed black holes at the
centres of globular clusters, and the anomalies in Cavendish laboratory
measurements of G.
The experimental and theoretical research program to study and develop this
theory of gravity is supported by an Australian Research Council Discovery
Grant. Process Physics Related Experiments:The Process Physics group and
collaborators are conducting various experiments including new designs for
absolute motion detectors; these include novel interferometer experiments and
coaxial cable propagation-time experiments. The main aim of these experiments is
the systematic study of the gravitational waves of the new theory of gravity.
These have already been detected in the experiments by Miller, Torr and Kolen,
and DeWitte.
See a brief report of our recent Allais paraconical pendulum experiment.
[Non-text portions of this message have been removed]
I haven't read everything at this site, but it looks interesting. Click the
link to access the other links in the article.
http://www.scieng.flinders.edu.au/cpes/people/cahill_r/processphysics.html
Be Well, Be Love.
David
Process Physics
Associate Professor Reg Cahill
Christopher Klinger
Dr Susan Gunner
Kirsty Kitto
Dr Lance McCarthy
Anton Dickmann
A new paradigm for the modelling of reality is currently being developed called
Process Physics. In Process Physics we start from the premise that the limits to
logic, which are implied by GÃÂà ƒÂƒÃ‚‚ƒÃƒÂ‚àƒÃ‚ƒÃ‚‚¶del's incompleteness theorems, mean that any
attempt to model reality via a formal system is doomed to failure. Instead of
formal systems we use a process system, which uses the notions of
self-referential information with self-referential noise and self-organised
criticality to create a new type of information-theoretic system that is
realising both the current formal physical modelling of reality but is also
exhibiting features such as the direction of time, the present moment effect and
quantum state entanglement (including EPR effects, nonlocality and
contextuality), as well as the more familiar formalisms of Relativity and
Quantum Mechanics. In particular a theory of Gravity has already emerged.
In short, rather than the static 4-dimensional modelling of present day
(non-process) physics, Process Physics is providing a dynamic model where space
and matter are seen to emerge from a fundamentally random but self-organising
system. The key insight is that to adequately model reality we must move on from
the traditional non-process syntactical information modelling to a process
semantic information modelling; such information is `internally meaningful'.
The new theory of gravity which has emerged from Process Physics is in agreement
with all experiments and observations. This theory has two gravitational
constants: G, the Newtonian gravitational constant, and a second dimensionless
constant which experiment has revealed to be the fine structure constant. This
theory explains the so-called `dark matter' effect in spiral galaxies, the bore
hole gravitational anomalies, the masses of the observed black holes at the
centres of globular clusters, and the anomalies in Cavendish laboratory
measurements of G.
The experimental and theoretical research program to study and develop this
theory of gravity is supported by an Australian Research Council Discovery
Grant. Process Physics Related Experiments:The Process Physics group and
collaborators are conducting various experiments including new designs for
absolute motion detectors; these include novel interferometer experiments and
coaxial cable propagation-time experiments. The main aim of these experiments is
the systematic study of the gravitational waves of the new theory of gravity.
These have already been detected in the experiments by Miller, Torr and Kolen,
and DeWitte.
See a brief report of our recent Allais paraconical pendulum experiment.
[Non-text portions of this message have been removed]