My answer is yes, black holes are a gravitational and electromagnetic flux carrier
On Sunday, January 20, 2013, wrote: > In reply to Giovanni Santostasi's message of Sun, 20 Jan 2013 14:07:00 > -0600: > Hi, > [snip] > >Proponents of plasma cosmology claim electrodynamics is as important as > gravity in explaining the structure of the universe, and speculate that it > provides an alternative explanation for the evolution of galaxies[8] and > the initial collapse of interstellar clouds.[19] In particular plasma > cosmology is claimed to provide an alternative explanation for the flat > rotation curves of spiral galaxies and to do away with the need for dark > matter in galaxies and with the need for supermassive black holes in galaxy > centres to power quasars and active galactic nuclei.[8][37] This is > controversial, as theoretical analysis shows that "many scenarios for the > generation of seed magnetic fields, which rely on the survival and > sustainability of currents at early times [of the universe are > disfavored]",[20] i.e. Birkeland currents of the magnitude needed (say 1018 > Amps) for galaxy formation are thought to not exist.[16] > > Two questions: > > 1) Can the massive black holes at the core of galaxies have magnetic > fields? > 2) All stars stream plasma into space continually, much of which simply > cools > down and becomes cold interstellar plasma (as well as gas). Wouldn't you > expect > electrical and magnetic fields to develop in this cold plasma, much as > they do > in the hot plasma of the stars? What I am trying to get at here is that > cold > plasma is largely invisible, hence there may be larger currents and fields > than > we are aware of. > > Regards, > > Robin van Spaandonk > > http://rvanspaa.freehostia.com/project.html > >
