Hi lankytom nice links, I have a couple of points about them though.
The first is the link to the lanl website, Its a pretty good website, but with very little detail, none of it controversial to astronomers at all. I've looked all over it as as far as I can tell there is nothing in there at all about plasma physics discounting DM. If I have missed the page in there can you link to it please? Its important as that page is handled by proffessional physicists so I would tend to take it seriously.
The other link however is pretty much trash (sorry if it happens to be yours), it uses the same tired arguments of Arp to try and connect quasars and galaxies that have been thoroughly discounted by large Quasar surveys.
I think the problem most physicists have with electromagnetic fields having much to do with galaxy formation over cosmological scales is simply that on those scales the Universe is neutral electrically. I seriously doubt that electromagnetics is so poorly understood that it could allow forces appreciable to gravity over large scales.
I did the google for "gravitational bending+plasma" and found
http://www.plasmaphysics.org.uk/research/lensing.htm is that what I should be looking at. If after a quick glance I have it right this site says general relativity is wrong, because
it is unreasonable to assume that immaterial and massless objects like light can be in any way subject to a gravitational interaction.
this of course is quite a claim and flies in the face of many observations. If this is indeed the case then plasma physics also needs to explain how gravity works (hey you broke, you fix it
) and why all other general relativistic phenomena fit the theory so well.
I'm not sure what your point is about the magellanic clouds is, could you explain it please? I guess you mean that you don't see them greating gravitional arcs or something like that, but then you wouldnt expect them to as they are very small dwarf galaxies, with masses ~1/20 of the MW which itself isnt actually that big, and certainly wouldnt be chosen as a prime target to search for arcs. Gravitational arcs are generally only found aroun very large clusters of galaxies with masses 1000x the MW. Although a few have been found around very large galaxies.
In terms of BH accretion you are quite right, but electromagnetics has always been an integral part of dealing with the plasma accretion disc, its clearly not true that astronomers ignore this, it would be impossible to model accretion discs without it.
Hi lankytom nice links, I have a couple of points about them though.
The first is the link to the lanl website, Its a pretty good website, but with very little detail, none of it controversial to astronomers at all. I've looked all over it as as far as I can tell there is nothing in there at all about plasma physics discounting DM. If I have missed the page in there can you link to it please? Its important as that page is handled by proffessional physicists so I would tend to take it seriously.
The other link however is pretty much trash (sorry if it happens to be yours), it uses the same tired arguments of Arp to try and connect quasars and galaxies that have been thoroughly discounted by large Quasar surveys.
I think the problem most physicists have with electromagnetic fields having much to do with galaxy formation over cosmological scales is simply that on those scales the Universe is neutral electrically. I seriously doubt that electromagnetics is so poorly understood that it could allow forces appreciable to gravity over large scales.
I did the google for "gravitational bending+plasma" and found http://www.plasmaphysics.org.uk/research/lensing.htm is that what I should be looking at. If after a quick glance I have it right this site says general relativity is wrong, because
[quote]it is unreasonable to assume that immaterial and massless objects like light can be in any way subject to a gravitational interaction.[/quote]
this of course is quite a claim and flies in the face of many observations. If this is indeed the case then plasma physics also needs to explain how gravity works (hey you broke, you fix it :)) and why all other general relativistic phenomena fit the theory so well.
I'm not sure what your point is about the magellanic clouds is, could you explain it please? I guess you mean that you don't see them greating gravitional arcs or something like that, but then you wouldnt expect them to as they are very small dwarf galaxies, with masses ~1/20 of the MW which itself isnt actually that big, and certainly wouldnt be chosen as a prime target to search for arcs. Gravitational arcs are generally only found aroun very large clusters of galaxies with masses 1000x the MW. Although a few have been found around very large galaxies.
In terms of BH accretion you are quite right, but electromagnetics has always been an integral part of dealing with the plasma accretion disc, its clearly not true that astronomers ignore this, it would be impossible to model accretion discs without it.