Authors: E Koorambas
The basic aim of the 4+D-dimensional Kaluza–Klein theory is the unification of gravity and electromagnetism. A feature of unification theories is the relation between electromagnetic coupling,e2, gravitational coupling, GN, and the radius of the fifth dimension, Rc. The radius of the fifth dimension, Rc, is fixed by the elementary electric charge. From the known value of the elementary charge, we find that Rc is of the order of the Planck length. At energies well below the Planck energy,massive Kaluza-Klein states are extreme black holes. This can describe stable elementary particles (M.J.Duf, 1994). Based on this interpretation, we show that, if the observed harmonic pattern of thelaboratory-measured values of GN is due to environmental or theoretical errors, these errors must alsoaffect the elementary electric charge, e. We calculate the fundamental electric charge (e) values predicted by a 4- and a 4+D-dimensional space-time model. We find that, in the case of 4+D dimensions, the fundamental electric charge (e) value oscillates with the 5.9-year LOD oscillation cycle. In the case of 4-space-time dimensions, the fundamental electric charge, e, is constant. Furthermore, we propose an automated Millikan oil drop experiment over 5.9 years, to discriminate between 4 and 4+D space-time dimensions. The comparison between the drop distribution predicted by the 4+D-dimensional space-time model and the Stanford Linear Accelerator results is briefly discussed.
Comments: 27 Pages. This work is licensed under the Creative Commons Attribution 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by/3.0/ or send a letter to Creative Commons, 444 Castro Street, Suite 900, Mountain View, Califor
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