Bit-string physics
Bit-string physics is an emerging body of theory which considers the universe to be a process of operations on strings of bits. Bit-string physics is often associated with A.F. Parker-Rhodes' combinatorial hierarchy, which is notable for its relationship with the electromagnetic and gravitational coupling constants of quantum theory.[1] Other leading contributors in the field include H. Pierre Noyes, Ted Bastin, C.W. Kilmister, John Amson, and David McGoveran.[1][2]
Critics of bit-string physics challenge that the theory has yet to present experimentally testable predictions.[citation needed] In a 2001 paper by Noyes, evidence was presented for predictions made by the theory that were later confirmed.[3]
References
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- ↑ 1.0 1.1 Ted Bastin and C.W. Kilmister, Combinatorial Physics, World Scientific 1995, ISBN 981-02-2212-2
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