On Thu, Aug 16, 2012 at 2:02 PM, Chemical Engineer <cheme...@gmail.com> wrote: > OK, you are right, it did wake me up at night.
Did you start having these dreams before or after you first read about quantum singularities? harry > On Thu, Aug 16, 2012 at 2:00 PM, Harry Veeder <hveeder...@gmail.com> wrote: >> >> On Wed, Aug 15, 2012 at 1:38 PM, Chemical Engineer <cheme...@gmail.com> >> wrote: >> > No, I am not making it up and it was not a dream >> >> Physics is ultimately a work of the imagination. Over time some of >> those imaginings are retained and studied while others are >> dismissed or forgotten for lack of evidence and other times for >> reasons of fashion or politics and religion. >> >> Physics is not out there, it lives in you. >> >> Harry >> >> >> > A charged black hole is a black hole that possesses electric charge. >> > Since >> > the electromagnetic repulsion in compressing an electrically charged >> > mass is >> > dramatically greater than the gravitational attraction (by about 40 >> > orders >> > of magnitude), it is not expected that black holes with a significant >> > electric charge will be formed in nature. >> > >> > A charged black hole is one of three possible types of black holes that >> > could exist in the theory of gravitation called general relativity. >> > Black >> > holes can be characterized by three (and only three) quantities, its >> > >> > mass M (called a Schwarzschild black hole if it has no angular momentum >> > and >> > no electric charge), >> > angular momentum J (called a Kerr black hole if it has no charge), and >> > electric charge Q (charged black hole or Reissner-Nordström black hole >> > if >> > the angular momentum is zero or a Kerr-Newman black hole if it has both >> > angular momentum and electric charge). >> > >> > A special, mathematically-oriented article describes the >> > Reissner-Nordström >> > metric for a charged, non-rotating black hole. >> > >> > The solutions of Einstein's field equation for the gravitational field >> > of an >> > electrically charged point mass (with zero angular momentum) in empty >> > space >> > was obtained in 1918 by Hans Reissner andGunnar Nordström, not long >> > after >> > Karl Schwarzschild found the Schwarzschild metric as a solution for a >> > point >> > mass without electric charge and angular momentum. >> > >> > >> > On Wed, Aug 15, 2012 at 1:16 PM, Harry Veeder <hveeder...@gmail.com> >> > wrote: >> >> >> >> On Wed, Aug 15, 2012 at 6:02 AM, Chemical Engineer <cheme...@gmail.com> >> >> wrote: >> >> >> >> > >> >> > Conductivity inversion effects in a metal wire/lattice. It is well >> >> > understood that a singularity carries charge, angular momentum and >> >> > radius >> >> > like any other particle. It is also understood that when they >> >> > evaporate >> >> > they >> >> > emit charged particles. This can have a direct effect on the >> >> > conductivity of >> >> > a metal. >> >> >> >> ah... so you are hypothesizing a particle with a set of special >> >> properties. >> >> Sometimes you refer to this particle by the name 'singularity' and >> >> other times you refer to it by the name 'gremlin'. >> >> >> >> Harry >> >> >> >> >> >> >> >> >> >> harry >> >> >> > >> >
