Bit-string physics

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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 Pierre Noyes, Ted Bastin, C.W. Kilmister, and David McGoveran.^[2]

Critics of bit-string physics challenge that the theory has yet to present experimentally testable predictions. (Citation needed.) Proponents respond that the paucity of falsifiable predictions is only because the field is nascent and still undeveloped, and not intrinsic. (Citation needed.)

See also

Journal of the Western Regional Chapter of the Alternative Natural Philosophy Association

References

1. ^ Ted Bastin and C.W. Kilmister, Combinatorial Physics, World Scientific 1995, ISBN 981-02-2212-2
2. ^ id.