From Osher Doctorow
In the last few Sections, I've pointed out similarities between
electromagnetism and dark energy in both forms of solutions and
equations as well as rather deep fundamentals. Dark energy is clearly
a gravitational topic.
E. I. Guendelman and A. Kaganovich of Ben-Gurion University of the
Negev Israel and Emil Nissiov and Svetlana Pacheva of the Bulgarian
Academy of Science in "Generalized gauge field approach to lightlike
branes," hep-th/0703114 v1 12 Mar 2007, 14 pages, point out that
lightlike branes (LL) are p-branes in any odd (p + 1) world-volume
dimensions serve as a source of material and charge for gravitation
and electromagnetism as well as producing a dynamical cosmological
constant that varies in space.
In earlier threads and even earlier parts of this thread, I've
emphasized QCD's relationship to gravitation, but there are quite a
few indications that EW or even just Electromagnetism has a closer
relationship to gravitation. Even at the level of electrostatics and
so on:
1) F = kq1q2/r^2
2) F = Gm1m2/r^2
respectively for constants k and G in respectively electrostatics and
gravitation have a similarity which arguably indicates a deeper
relationship. These are of course well-known Coulomb-type laws of
classical type.
Neither the strong force nor the weak force appears to have such close
analogs as (1) and (2).
Osher Doctorow
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