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Harry Palmer & Avatar
The official Avatar website is the best source for material related to the Avatar Materials (and the Course that goes with them) or other writings and activities of Harry Palmer.
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Hyperphysics
A good general resource for information about standard physics. This site is done in hypercard format by C. R. Nave of Georgia State University. It is quite accessible, easy to navigate, and has lots of good charts and examples. He also has HYPERMATH, which is accessible from the same site but seems not as richly elaborated.
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Dirac Equation
This is the Wikipedia article on the Dirac Equation and the Dirac Current that led to Dirac’s successful prediction of the positron and the general notion of antimatter.
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Neutrino Oscillation
The ultimate nutrino page.
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History of Unitary Theory
Roger Anderton's website with discussions of Boscovich, Whyte, and Baranski as unrecognized precursors and associates with Einstein in the work on a Unitary Field.
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"The Transcendental Interpretation of Quantum Mechanics"
by Professor John G. Cramer.
Cramer also has many interesting articles on various aspects of modern physics. -
The Alternative View
This is Cramer's column "The Alternate View" that speculates on advanced subjects in physics for Analog SF magazine.
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Quantum Field Theory
This is Dr. Robert Klauber's site for easing into quantum field theory.
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Laws of Form
This is Dr. Randall Whitaker's website about the works of George Spencer Brown and his Laws of Form. GSB designed a formal logic based on the notion of boundaries structuring forms. He called it Laws of Form. It is equivalent to Propositional Calculus, but has some neat features. His primitives "call" and "cross" give a sense of Avatar's create and discreate procedures.
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Lancelot Law Whyte Diaries
These are the private diaries of Lancelot Law Whyte.
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Quantum Cosmos
Check out this site if you are interested in exploring consciousness, reality, time, or good literature. Also if you find yourself high and dry in Vedaland with no place to go, well. . . . maybe it's time to turn on the creativity.
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The Reciprocal System
Here is a link to articles on the reciprocal system by Dewy Larson and others.
Physics in Unconventional Ways
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Soulinvation
This is a wild site full of fascinating ideas and fun computer graphics by Dan Winter. Winter writes in a style that sounds like a Bucky Fuller talk done by James Joyce after reading Howl. You can skip the politics and focus on the geometry and mathematics. You can ponder the philosophy or explore the wonderful computer graphics, particularly on the subject of the geometry of the Golden Ratio PHI. Study the spiral graphics for deeper intuitive understanding of the fractal scaling and tunneling processes in physics. See my papers on (%) and its relation to PHI in the deep structure of physics.
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Fractal Geometry & Physics
This is Dan Winter's latest update to his research on Golden Ratio fractal geometry and physics. He shares information from a wide ranging group of scientists in various disciplines who have been working various aspects of this key component of what I call Observer Physics. This work leads to an elegant theory of gravity, applications in developing clean energy resources, and many other exciting directions. Check it out.
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Topological Geometrodynamics
A website on topologival geometrodynamics by Matti Pitkanen
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Tom Bearden
Here is a small sampling of Tom Bearden’s work. His original website contained a wealth of thought provoking discussions of important issues in physics as well as his research and development projects, but unfortunately is no longer active.
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"Solomon's Treasure"
by Tracy R. Twyman
Here is an unusual novel about the origins of terrorism that takes off from a creative exploration of the Tarot and some principles of quantum physics.
David Hestenes and Geometric Algebra
Physicists work with mathematics, and the mathematical tools they use have become increasingly sophisticated and varied. As early as 1983 David Hestenes noted that his interpretation of the Dirac Equation suggested that there might be two positrons and an electron lurking inside each proton, thus balancing the matter and antimatter in the universe. Hestenes has spent about 40 years developing Geometric Algebra (GA) and Geometric Calculus (GC) (based on Clifford Algebra) as a comprehensive mathematical tool with geometric interpretations for exploring and communicating in the field of physics. GA combines many different branches of mathematics that are used in physics into a single elegant system that leads to geometric interpretations. Easy access to geometric interpretation is important because much of physics has become so abstract that it is difficult to visualize. What Hestenes calls a “vector” can serve as a component of the observer’s attention. Thus GA also seems particularly suited to the viewpoint of Observer Physics. Hestenes has studied the Dirac Equation, Dirac Current, Zitterbewegung (zbw), and ways to model the electron using GA/GC. This is also relevant to OP, as is his work on gravity. For example, OP views electron zbw and spin as related to the way photons unwind from electron vortices.
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Geometric Calculus R&D
Hestenes has posted many of his writings on the Internet but a good place to start learning about GA/GC is the Geometric Calculus R&D Home Page.
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Dirac Equation, Zitterbewegung, ect...
In this section of Hestene’s website you can find and download his numerous other explorations of the Dirac Equation, Zitterbewegung, and various aspects of the electron.
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"Quantum Mechanics from Self-Interaction"
An essay by David Hestenes
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Cambridge GA Research Group
Chris Doran of the Astrophysics Group, Cavendish Lab, Cambridge, UK, did his Ph.D. thesis on Geometric Algebra and its Application to Mathematical Physics. He and some other colleagues have formed the Cambridge University GA Research Group to study, apply, and write books and articles on GA and GC. You can check out their activities on this website.
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"Imaginary Numbers are not Real – the Geometric Algebra of Spacetime"
Here is a long article by Chris Doran, Stephen Gull and Anthony Lasenby that contains an introduction to GA.
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"Geometric Algebra for Physicists"
A book by Chris Doran and Anthony Lasenby