what they call dark matter is faint light emitted from ordinary low density plasma moving in enormous filaments of currents. those filements are the power source for the galaxies. the galaxies act like a fuel pump conduit for energy and matter to form new high density networks of filamentary currents that again form new conduits that we call stars. the stars grow in size until there is enough conserved energy to fuel a new network and new stars. thats whats the particle beam jets are for.
@mikaelnilsson75 I know you probably don't care too much anymore (your post is 9 months old) but I figured I'd quickly answer:
A supermassive black hole (herein named SMBH) can also bend and distort light, but not to the effect of a galaxy cluster. Remember, most if not all galaxies have SMBHs at their centers. So in a galaxy cluster...many many SMBHs are present, thereby increasing the effect of gravity exponentially
Gravitational lensiing makes more sense in explaining this. See this video (partial link below), especially the ring images in the arrangement shown setup at 1:48where there is a cluster of massive objects.
FWIW the idea that most ring galaxies are collision-induced is, to me anyway, ludicrous at best. There are far too many ring galaxies and too many young galaxies have a ring while other similar galaxies appear to have a shell condensing to a ring.
Another thing, it's not unusual to see ring galaxies mislabelled as being Einstein rings and vice-versa. The galaxy seen inside of Hoag's ring is usually described as being a second ring galaxy, but I'm not so sure about that.
Maybe it's a compound gravitational lens effect. Supposedly there are five images of the same galaxy in the image and the multiplied galaxy looks very ringlike to me.
The scale of this circular wave of "dark matter" appears to be hundreds of times larger than I'm used to considering, as they indicate it is millions of LY across, not tens of thousands. I'm not sure what to make of that. It could have a scale related to a more fundamental, weaker particle, maybe there is a spectrum of graviton wavelengths and this is a fundamental low-end cutoff for that spectrum. It's puzzling me now.
This so-called "dark matter" ring would essentially be expanding at the speed of gravity if it is simply the residual of an combined antigravitational phase of low-energy galactic-scale-frequency quantum gravity from the now-decohered (i.e. non-compactiified, exploded) massive sources before the collision.
My mistake, it won't expand at gravity speed, it will disappear at gravity speed, it's only transitory, the negative-phase gravitons will not be replenished coherently, so they will not be apparent after a while.
Evidently this is what happens when two anti-gravitational (i.e. negative-phased cosined classical gravity) spherical expanding fields join and do not have their compact sources coherently maintained (i.e compaction of both is lost) which essentially eliminates an interfence to the combined compact-source wave propagation, post-collision. The cosine effect is always very source-distant in existence so it's only obvious with a compact source, otherwise it is smeared away.
I think there's a link between dark matter and a quantum-corrected gravity force that involves superimposing a galaxy-scale wave function onto Newtonian gravity, meaning the graviton's g-force vector is very weak and rotates much slower than the E and M force vectors in a photon, and does so in a plane of the graviton's path such that it rotates to an anti-gravity. Multiplication of classical gravity by a galaxy-scaled cosine averages this out for all such planes, making ring galaxies possible.
so is dark matter fact now?
Grahamf52 6 months ago
This is sooooo groovy!!!!
mushroomagical 8 months ago
1:24 i wanna call that number and whisper 'seven days...'
juggleknot 11 months ago
what they call dark matter is faint light emitted from ordinary low density plasma moving in enormous filaments of currents. those filements are the power source for the galaxies. the galaxies act like a fuel pump conduit for energy and matter to form new high density networks of filamentary currents that again form new conduits that we call stars. the stars grow in size until there is enough conserved energy to fuel a new network and new stars. thats whats the particle beam jets are for.
coldarc 1 year ago
lol i missheard him @ 4:30 "this is dr J signing off. for the holocaust!" couple this with his slight german accent...
m4c13k86 1 year ago
@m4c13k86 dr. tarkin signing off
makutateridax200 1 year ago
He sounds good to me you lot must be used to george bush too much.
NielsShoe 1 year ago
shouldnt a massive black hole do the same distorsen whith the light
mikaelnilsson75 1 year ago
@mikaelnilsson75 I know you probably don't care too much anymore (your post is 9 months old) but I figured I'd quickly answer:
A supermassive black hole (herein named SMBH) can also bend and distort light, but not to the effect of a galaxy cluster. Remember, most if not all galaxies have SMBHs at their centers. So in a galaxy cluster...many many SMBHs are present, thereby increasing the effect of gravity exponentially
ChronicallyConfused 1 year ago
This comment has received too many negative votes show
Man, what is up with this guys voice? Annoying....., he from another planet?
mikeweijers 2 years ago
@mikeweijers There's nothing wrong with his voice.
vebbto 2 years ago
ya really could have done better with a host ..he seemed abit dense
SuperMacktruck 2 years ago
science is amazing...
zebraface12 2 years ago 12
seriously could they have hired a better host? fuckin sounds like a robot or alien of some sort...
generallee0012 2 years ago
Gravitational lensiing makes more sense in explaining this. See this video (partial link below), especially the ring images in the arrangement shown setup at 1:48where there is a cluster of massive objects.
watch?v=yamVbK-J69M
CACBCCCU 2 years ago
FWIW the idea that most ring galaxies are collision-induced is, to me anyway, ludicrous at best. There are far too many ring galaxies and too many young galaxies have a ring while other similar galaxies appear to have a shell condensing to a ring.
Another thing, it's not unusual to see ring galaxies mislabelled as being Einstein rings and vice-versa. The galaxy seen inside of Hoag's ring is usually described as being a second ring galaxy, but I'm not so sure about that.
CACBCCCU 2 years ago
Maybe it's a compound gravitational lens effect. Supposedly there are five images of the same galaxy in the image and the multiplied galaxy looks very ringlike to me.
CACBCCCU 2 years ago
The scale of this circular wave of "dark matter" appears to be hundreds of times larger than I'm used to considering, as they indicate it is millions of LY across, not tens of thousands. I'm not sure what to make of that. It could have a scale related to a more fundamental, weaker particle, maybe there is a spectrum of graviton wavelengths and this is a fundamental low-end cutoff for that spectrum. It's puzzling me now.
CACBCCCU 2 years ago
This so-called "dark matter" ring would essentially be expanding at the speed of gravity if it is simply the residual of an combined antigravitational phase of low-energy galactic-scale-frequency quantum gravity from the now-decohered (i.e. non-compactiified, exploded) massive sources before the collision.
CACBCCCU 2 years ago
My mistake, it won't expand at gravity speed, it will disappear at gravity speed, it's only transitory, the negative-phase gravitons will not be replenished coherently, so they will not be apparent after a while.
CACBCCCU 2 years ago
Evidently this is what happens when two anti-gravitational (i.e. negative-phased cosined classical gravity) spherical expanding fields join and do not have their compact sources coherently maintained (i.e compaction of both is lost) which essentially eliminates an interfence to the combined compact-source wave propagation, post-collision. The cosine effect is always very source-distant in existence so it's only obvious with a compact source, otherwise it is smeared away.
CACBCCCU 2 years ago
I think there's a link between dark matter and a quantum-corrected gravity force that involves superimposing a galaxy-scale wave function onto Newtonian gravity, meaning the graviton's g-force vector is very weak and rotates much slower than the E and M force vectors in a photon, and does so in a plane of the graviton's path such that it rotates to an anti-gravity. Multiplication of classical gravity by a galaxy-scaled cosine averages this out for all such planes, making ring galaxies possible.
CACBCCCU 2 years ago
Fuck the host of this show has a fucking annoying voice.
SpiderShaman3323 3 years ago
in all his chattering, he have just said
use the force.
donpatch913 3 years ago
the opposite of light matter
bakuya99 3 years ago
You didn't wipe?
tgrigsby7 4 years ago 5
Is the ring of dark matter exist?
And what is it mean?
toine03keemi 4 years ago
There pictures from hubble
And he just answered those questions.
Kujo3133 2 years ago