Higgsy wrote:Again, that doesn't answer my question - but, I see that it isn't a question for you.
https://en.wikipedia.org/wiki/Nucleosynthesis
The short answer is that if they used a different percentage of baryonic matter, they would not get a match in terms of their claims about the nucleosynthesis of elements. Ordinary matter produces different results, results that don't jive with observation.
Sure, but isn't that a molecular or atomic cloud, quite localised in interstellar space, and not at all representative of the IGM?
Where do you believe that the current comes from to create that filament in the first place?
The question was whether there is empirical evidence that there are dense threads in the hot halo. The answer seems to be no.
The answer is overwhelmingly *yes* unless you simply *ignore* all the "predictions" of EU/PC theory that have shown to match observation! Those current carrying "jets"/magnetic slinkies at the core of various galaxies were originally a direct "prediction" of EU/PC theory in the early 1950's by Hannes Alfven, not LCDM. Why doesn't that successful prediction count as "evidence" to you? I've shown you evidence of Birkeland currents in interetellar space, and from the cores of galaxies too. Why doesn't that count as evidence to support the existence of current in the galaxy? Why doesn't the million degree temperature count of "evidence" of
continuous current to you?
I'm a little mystified as to why you simply ignored my question about spontaneous emissions. What makes you think that plasma in space is not going to emit photons "normally", through typical QM processes?
https://en.wikipedia.org/wiki/Spontaneous_emission
Care to address this issue this time rather than ignore my question entirely?
I can demonstrate that the galaxy contains Birkeland currents, and "magnetic ropes" galore.
Brilliant - that's just why I'm here. Could you do that?
I already did, but let's recap:
We see magnetic ropes in the solar atmosphere, and we observe them connecting our electric sun to the planets, including our own planet:
https://wattsupwiththat.com/2011/06/15/ ... ar-storms/
https://www.ucl.ac.uk/mathematical-phys ... netic-rope
http://www.dailygalaxy.com/my_weblog/20 ... gneti.html
These are all current carrying devices which demonstrate the existence of such features inside our own solar system.
We see them *outside* of our solar system in interstellar space too:
http://www.space.com/1940-space-slinky- ... twist.html
http://www.spitzer.caltech.edu/images/2 ... ic-Tornado
We see the same features in other galaxies too:
https://www.newscientist.com/article/dn ... ble-movie/
Every single one of these observations is consistent with EU/PC theory, and consistent with current carrying plasma in space.
Sorry - it doesn't point me in that direction, as whatever the high temperature was initially caused by I know that it doesn't need a current to sustain it, owing to to the very low number density and low cooling rate.
https://en.wikipedia.org/wiki/Spontaneous_emission
How do you know that? You're simply *assuming* that to be true. All you can give me is an *average* at best case. You can't know if it's filmanetary or not.
The movement of the plasma round the galactic centre has been measured, as you pointed out, and there is no evidence in that for any substantial difference between ionic or electron velocities which woukd be required for a substantial current.
And yet Peratt's models of galaxies just happened to produce the same shapes, and rotation processes *without* exotic matter. You're just going to ignore that?
Really! You don't need quantification? Aren't we discussing physics?
You're correct that we are discussing *physics*, not *just* math. I personally prefer a *working* physical model over a math formula:
https://www.youtube.com/watch?v=m58-CfVrsN4
Look at all the mathematical models of 'dark matter" that got falsified at LHC, LUX, etc. Math alone doesn't *necessarily* describe reality, but reality does have rules to which it adheres.
I have to say I am very disappointed. I came here hoping to learn something about EU/PC theory, and I understood you are one of the most knowledgeable and vocal proponents of the theory, and that you have very strong ideas about physics.
I never claimed to be *the* most knowledgeable person on this topic (or any topic), but I have cited people and works that can and have answered your questions if you wish to read them. I can't force you to do that of course. If you're truly interested in learning about EU/PC theory, wouldn't you want to learn it from the folks that wrote it? What's wrong with Alfven's work, or Peratt's work? Why wouldn't you be excited to find the answers you're looking for?
And now you say that you don't care about quantification - frankly, that shocks me. If you don't care about quantification, it really isn't physics - it's just pretty stories, but unless you run the numbers, you can never know whether the pretty stories have any relationship to reality.
Pretty stories can come with math or not with math. You saw some pretty stories (with math) about 'dark matter", but not one of those pretty stories jived with reality at LHC. Now what? What good is the math if you won't use it to falsify your own beliefs?
I didn't tell you that no math exists in EU/PC theory, or that math doesn't matter within the EU/PC community. I simply said it doesn't matter as much to *me personally* as much as *working physical models*. I'd rather see a working lab demonstration than to hear you claim that you have "evidence" for dark matter based on a math formula that is later falsified. I was told in 2006 for instance that the "math" used in that lensing study somehow demonstrated the existence of exotic forms of matter. I later found out that they botched the baryonic mass estimates by a whopping amount, and they never fixed it! So much for your "math proof". Mathematics alone doesn't tell us what's physically real or not real. Typically one lab test is worth a thousand expert opinions, maybe 10,000 as it related to dark matter claims.
I know there must be more than this,
I've told you where to find it too.
https://www.amazon.com/Physics-Plasma-U ... 8/ref=oosr
That is by *far* the best book in terms of mathematical models if you're interested in reading it.
There's also Alfven's book on this topic:
https://www.amazon.com/Cosmic-Plasma-As ... g=UTF8&me=
Why wouldn't you go to the best sources available if you're interested in this topic, and your interest in primarily quantification in nature? Peratt's book and his published papers are definitely your best resources.
but at the moment all I'm getting from you and others on the forum is that space is filled with current and magnetism and that explains everything.
It explains features that gravity alone struggles to explain:
http://www.mnn.com/earth-matters/space/ ... t-possible
As soon as you start to acknowledge the role of electricity in space, some things that are believed to be "impossible" are quite possible.
You object to my use of a mean density for the hot halo, although my figure is factually correct,
Nobody doubted that your number was factually correct, but it only gives us an *average*, it doesn't tells us how it's distributed.
because you say that the plasma will be threaded, but you don't have any idea what the dimensions and density of the thread are, so we have no idea whether it would substantially affect my conclusions and, if so, by how much.
I don't even have to know that number to shoot holes in your claim about particles remaining at million degree temperatures indefinitely. You don't even seem responsive to my questions about spontaneous emissions and you seem intent on *not* looking at the layout issue from the perspective of EU/PC theory.
You say current heats the plasma, but you won't say how much current
Did you bother to read the materials that I suggested, or did you expect me to personally answer every question you can think of?
or what is driving the current,
I handed you *billions* of Birkeland's solar model generators to explain what's driving the current. Did you miss that explanation?
and if the source is a magnetic field, what is the cause of that magnetic field. These are questions that any physicist would immediately ask, but you are not interested in them, and I am dsappointed.
Your disappointment doesn't seem to be related to a lack of quantification in EU, it seems to be related to your false assumption that I'm somehow beholden to answer every single question that you might pose to me *personally* rather than just citing the appropriated materials for you. If you're interested in learning about this topic *in earnest*, you're going to have to do some reading beyond what I can hand you between tech calls at work on a random message board.
What's your aversion to Peratt's work anyway, particularly if you're mostly interested in *quantification* not just qualification?
What environment?
Every environment in space. You've yet to demonstrate that any plasma will never experience spontaneous emissions.
What current?
The current in all those "magnetic ropes"!
What creates the current?
That would be those several billion solar generators per galaxy according to Alfven, Peratt and Birkeland.
What creates the thing that creates the current?
Ultimately it's fusion I suppose.
Given a current, what is the heating mechanism?
Resistance. Plasma is an excellent conductor, but it's not "perfect". That's why we see million degree coronal loops in the solar atmosphere too.
How much heating does that provide?
All of it.
Is that in equilibrium with the cooling rate?
Presumably so.
What is the cooling rate?
How can I know for sure when you refuse to address the spontaneous emission problem in your own model?
If it's threaded and the cooling/heating is greater in the denser regions than the average for the plasma, isn't the cooling rate less than the average outside the threads. What does that mean for the overall rates?
It probably means you're going to have to look at *averages*, and talk about *averages*.
Sure, if I get anything that indicates that EU/PC makes claims that are ignored by the mainstream that also have legs. But I'm not getting that at the moment.
You got that in many forms, but you don't seem to really want to work at anything. You seem to expect me to be your personal math mommy rather than take it upon yourself to avail yourself to the materials that answer your questions.
Resistance of what?
Huh? Really?
Since temperature is, as we have agreed, determined by the kinetic energy of the ions and electrons,
Yet you're *assuming* they are necessarily the same thing when in fact in real life plasma the ion and electron temperatures can vary by an whole order of magnitude or more.
When did you show me that the "temperature" (in kinetic energy) matches the rotation speeds again?
how would a large flow of electrons and ions in opposite directions (the definition of current here) cause an increase in mean kinetic energy?
I feel like a broken record referring you to Peratt's work on galaxy formations processes. He even created computer models Higsy.
Just give me some numbers to work with
Because you can't be bothered to read the information for yourself?
I'll get back to the rest of your post at some point, but for now I'm dispirited and off to do something else.
You're coming across as rather whiny IMO. If you can't be bothered to study the appropriate materials, why should I be responsible for your personal happiness?
A complete brain fart. I should have written "a lab plasma will be millions of times denser than an IGM plasma. And that is absolutely not an assumption. It is deduced from facts - the volume of the hot halo, its mass, and the density of lab plasma experiments. It's specifically and definitely not an assumption.