Other
Scientific paper
Nov 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004aps..ses.ja001d&link_type=abstract
American Physical Society, 71st Annual Meeting of the Southeastern Section, 11-13 November, 2004, Oak Ridge, TN. MEETING ID: S
Other
Scientific paper
The fomula for the gravitation constant appropriate to a cylindrical universe of mass Mu and radius R_u, G = c^2 Ru / Mu is derived from the number N_12 of strings linking two bodies, whose mass is due mainly to nucleons nominally composed of pions in the form of electron-positron pairs with relativistically enhanced mass similar to the pion model of E. J. Sternglass, and the tension force along the (ict) axis of each string. Each massive body has some of its strings linked to all other bodies in the universe in proportion to the gravitational potential between two bodies. The number N_12 depends on the universe mass Mu which is postulated to be due to n^2 (mo / m_π) pions where n is Dirac's large number, mo is the rest mass of the electron and m_π is the pion mass. The strings are extended Wheeler or Visser wormholes providing a conduit in space-time for the return flow of a primordial fluid from an electron sink to a positron source but with throat cross-section of radius twice the classical radius of the electron rather than the Planck length. The primordial fluid diverges from each positron source to form the electrostatic field and converges on electron sinks. The fluid also sustains linear vortices which generate the magnetic fields and the electron spin. This hydrodynamic theory is an alternative to the Standard Model.
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