Something new under the sun

[ben m]

Ok then. you have just said that gravity can lead to large filaments in space. Can you explain how this is possible using an exclusively attractive field?

On one hand, what's to explain? These research groups just put 1,000,000 particles in a simulated box, made them all attract one another with F= ma = F = Gmm/r^2, and the result is filaments. This is not a fancy new result; it's the only way that these equations work, and it's been around for decades. So, yes, filaments are possible with exclusively attractive gravity.

On the other hand: yes, I can explain. The initial matter distribution was fairly, but not perfectly, smooth. Regions with slightly higher densities then attract everything else. Particles start falling towards the overdense regions. Any individual particle, though, will start moving towards the nearest overdensity it can see. Since there are overdensities on all scales, this behaves a lot like dividing space into Voronoi volumes, and everything is attracted towards the nearest boundary. At the end of this process, you've got a "sponge" in which everything has congregated on the walls. Where two walls intersect, the density is higher than the density in mid-wall; attraction of the mid-wall particles to the wall-intersection particles draws everything down into the filaments.

This happens yet again at the intersection of two filaments. The particles in the filaments are being attracted to one another but also towards the big mass at the nearest intersection. Given enough time, the big point masses at the ends of each filament will attract all of the filament particles, and then we'd have the Universe you seem to expect---just a bunch of point masses.

This is an approximate description, because all of these processes are going on at the same time rather than one after another. Moreover, the Universe is expanding faster than the superclusters can draw material out of the filaments, so the present structure is probably "frozen in".

Don't believe my handwaving description? That's fine. Believe the numerical solutions instead.

 

[MattusMaximus]

.
Let's try and keep the ad hominems out of it, it is a poor argument.

To call a woo out on their obvious woo-crap is no insult. It is a statement of fact. Get over it.

And if you check my signature in ever post (see below), you'll see that it is acknowledged. And if you have a problem with any of the peer-reviewed citations on the site, I'll look forward to your published paper, and will gladly include it on the site.

And how many papers have you had published in mainstream astrophysics & cosmology journals Ian? Not plasma physics journals or IEEE, but the same journals in which the astrophysicists and cosmologists publish? Hmmm?

 

[MattusMaximus]

Why don't you tell us - does PC predict rotation curves like a solid disk, or not?

My guess is that Ian, like BAC and Zeuzzz, will simply avoid answering this question, thus never having to actually use his beloved plasma cosmology to make any kind of prediction.

Yet Ian claims his ideas are "scientific" - gimme a break...

 

[MattusMaximus]

.
Ad hominems may be an insult according to dictionary.com. There is also the ad hominem fallacy, which is not necessarily the same thing.

Ian, I thought you were here to argue physics & cosmology, not English. Quit deflecting and start answering some questions. Like the one posed to you, continually, by Sol...

Does PC predict rotation curves like a solid disk or not?

And here's another one I just asked...

How many papers have you had published in mainstream astrophysics & cosmology journals?

No hand-waving or deflection or goal-post moving. Just please answer the damn questions.

 

[Zeuzzz]

In the second column, first page of this paper, he explicitly sets q/m = sqrt(G). That's putting 10^20 Coulombs onto the Sun, 10^14 Coulombs on the Earth.

The sun and earth are nothing to do with his work. He is modelling plasmoid filaments based on the charge/mass ratio that would be associated with a stricture that large.

On page 642 of this paper he tells us that he's running a simulation of an electron-ion plasma, and if by "ion" he meant "a particle with q < 100 C and M =10^30 kg" he sure didn't say so. Electrons and ions have very, very large charge to mass ratios.

No he doesn't. He quotes the parameters that delineate the physical characteristics of a field-aligned current-carrying filament of plasma, and then states the scaling laws he uses between the two models. http://www.internationalskeptics.com/forums/showpost.php?p=3530624&postcount=507

This is how it works, via the plasma scaling relationships that he outlines. Birkeland Currents of this sort have force free configurations that mean they scale up to nearly all sizes, from macroscopic to galactic.

http://plasmascience.net/tpu/downloadsCosmo/KukushkinKartinovCos.pdf

Formation of structures in plasmas is a well recognized fact. The structuring is commonly associated with strong nonlinearities of various interactions of waves and particles and may be treated in terms of synergetics.1 It appears that the structuring exhibit lifetimes largely exceeding those predicted by the linear magnetohydrodynamics ~MHD! in a near-equilibrium range of states. The latter is true of the filaments of electric current as they often appear to sustain their integrity as long as the plasma itself exists and to dominate in plasma dynamics.2,3 However, the role of filamentation in global plasma dynamics seems to be underestimated yet. Existing numeric hydrocodes for modeling most of the plasmas consider the plasma as a nonfilamentary medium. This could be a reason for the unsatisfactory situation around developing a reliable theoretical description for many important phenomena in plasmas ~e.g., heat and particle transport in fusion plasmas!. There were a number of attempts to treat the plasma as a set of topologically one-dimensional filaments ~fibers! of electric current interacting with each other; however, this appeared to be still insufficient for overcoming existing difficulties in predicting global behavior of plasmas. The present article proposes to demonstrate the existence of a key element in plasma structuring which, to our mind, has been overlooked, namely the ‘‘nonfluctuative’’ nature of the filaments of electric current. This implies that the filaments, besides their unexpectedly long lifetime, possess unexpectedly strong internal elasticity that leads to a longliving networking of electric currents in plasmas. The present demonstration is based on the results of a high-resolution processing, called a method of multilevel dynamical contrasting, of numerous data from laboratory electric discharges and observations of cosmic plasmas in a very broad range of length scales. Here we illustrate the applicability of the method for processing the images in a broad spectroscopic range, from rf to soft x-ray images, and introduce a novel element of networking, namely formation of the ‘‘stockings’’ woven by the individual filaments.

Plasma experiments in the laboratory and space

Evolution of colliding plasmas

Observation of the CIV Effect in Interstellar Clouds

GALACTIC NEUTRAL HYDROGEN EMISSION PROFILE STRUCTURE

Intersteller neutral hydrogen filaments at high galactic latitudes and the Bennet Pinch


In the laboratory, filamentary structure is a common morphology exhibited by energetic plasmas. X-ray pinhole photographs, optical streak and framing camera photographs, and laser holograms often show a filamentary magnetic "rope-like" structure from plasmas produced in multiterawatt pulse power generators or in dense plasma focus machines. High-resolution etchings of electron beams onto witness plates show nearly identical vortex profiles ranging from a dimension of a few micrometers in the dense plasma focus, to a few centimeters in cathode electron beams (1), (2), (3), (4). This size variation of four orders of magnitude is extended to over nine orders of magnitude when auroral vortex recordings are directly compared to the laboratory data ( Radio Science, Vol. 8, p.475 ). And with regard to actual current magnitudes, fine-detail resolution of current filaments shows indistinguishable vortex patterns over nearly 12 orders of magnitude, while coarser resolution shows that the phenomena probably transcend at least 14 orders of magnitude, from microampere to multi-megaampere electron beams.

The laws of electromagnetism do not change, which means that comparisons between laboratory plasma and larger galactic plasma are fully justified, and he outlines his scaling relationship.

 

[Zeuzzz]

Ian, I thought you were here to argue physics & cosmology, not English. Quit deflecting and start answering some questions. Like the one posed to you, continually, by Sol...

Does PC predict rotation curves like a solid disk or not?

I think that Peratt is well aware of what a flat rotation curve is, and what was prodcued in his simulation. He designates and entire section of his paper (section VII) to the rotation curves. He has many separate graphs of the rotation curve properties of the galaxies in question.

...

 

[Zeuzzz]

How many papers have you had published in mainstream astrophysics & cosmology journals?

Many, I listed over twenty in a previous post, but there are many more than this, hundreds infact, published in mainstream journals, written by plasma cosmologists. It would make for a good discussion topic for a new thread, we could discuss some actual PC material past just arguing about Peratts galaxy model and charge on stars

Heres the list again:

Heres a small list of some of the plasma cosmology papers published in mainstream astronmy journals;


* Introduction to Plasma Astrophysics and Cosmology - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 3-11

* Electric space: Evolution of the plasma universe - Astrophysics and Space Science, Volume 244, Issue 1-2, pp. 89-103

* Advances in numerical modeling of astrophysical and space plasmas - Astrophysics and Space Science Volume 242, Numbers 1-2 / March, 1996

* How Can Spirals Persist? - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 175-186

* Advances in Numerical Modeling of Astrophysical and Space Plasmas 2 - Astrophysics and Space Science Volume 256, Numbers 1-2 / March, 1997

* Plasma and the Universe: Large Scale Dynamics, Filamentation, and Radiation - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 97-107

* Rotation Velocity and Neutral Hydrogen Distribution Dependency on Magnetic Field Strength in Spiral Galaxies - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 167-173

* Radiation Properties of Pulsar Magnetospheres: Observation, Theory, and Experiment - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 229-253

* Confirmation of radio absorption by the intergalactic medium - Astrophysics and Space Science (ISSN 0004-640X), vol. 207, no. 1, p. 17-26

* X-Ray-emitting QSOS Ejected from Arp 220 - The Astrophysical Journal, Volume 553, Issue 1, pp. L11-L13.

* A Possible Relationship between Quasars and Clusters of Galaxies - The Astrophysical Journal, Volume 549, Issue 2, pp. 802-819.

* Thermalization of synchrotron radiation from field-aligned currents - Laser and Particle Beams (ISSN 0263-0346), vol. 6, Aug. 1988, p. 493-501.

* On Quasar Distances and Lifetimes in a Local Model - The Astrophysical Journal, 567:801–810, 2002 March 10

* POSSIBILITY OF EXISTENCE OF A DENSE INTERGALACTIC PLASMA. - Astron. Astrophys., 3: 42-56(Sept. 1969).

* GALACTIC NEUTRAL HYDROGEN EMISSION PROFILE STRUCTURE - The Astronomical Journal, 118:1252È1267, 1999 September

* Filamentation of volcanic plumes on the Jovian satellite I0 - Astrophysics and Space Science (ISSN 0004-640X), vol. 144, no. 1-2,

* On the evolution of interacting, magnetized, galactic plasmas - Astrophysics and Space Science (ISSN 0004-640X), vol. 91, no. 1, March 1983

* Magnetosphere-ionosphere interactions —near-Earth manifestations of the plasma Universe - Astrophysics and Space Science, Volume 144, Issue 1-2, pp. 105-133

* Distances of Quasars and Quasar‐like Galaxies: Further Evidence That Quasi‐stellar Objects May Be Ejected from Active Galaxies - The Astrophysical Journal, 616:738–744, 2004

* High-Velocity Neutral Hydrogen - Annual Review of Astronomy and Astrophysics

* Galactic and extragalactic radio astronomy (2nd edition) - Berlin and New York, Springer-Verlag, 1988, 715 p. For individual items see A89-40410 to A89-40424.

* Magnetic Fields in Interstellar Neutral-Hydrogen Clouds - Astrophysical Journal, vol. 155, p.L155

* Physics of the Plasma Universe - Physics of the Plasma Universe, XII, 372 pp. 208 figs.. Springer-Verlag Berlin Heidelberg New York

*




I really can't be bothered to post any more, you can see about seventy or so other papers published in mainstream astronomy journals here; http://www.soundintent.com/

And to see about fifty more tull texts of plasma universe/cosmology material, I suggest the papers that have been assembled at Los Alamos National Laboratories (LANL) here; http://plasmascience.net/tpu/papers.html

Some more peer reviewed plasma cosmology papers in mainstream journals here too; http://plasmascience.net/tpu/papers-cosmology.html (more about the cosmology side than the plasma physics side)

Is there something wrong with journals like The Astrophysical Journal, the Journal of Astrophysics and Space Science, The IEEE Journal of Plasma Physics MattusMaximus?


(Sorry about the bolding and the size, its just that i have posted this over four times now, and no-one seems capable of commenting on it so i figured a bit of bolding may help)

 

[ben m]

I think I can sum up.

PC advocates:

• Claimed that there is a large charge on the stars. (Note: varies from poster to poster and day to day)
• Claimed that, whether or not there is a charge, stars are pushed around by plasma effects.
• Claimed that stars are not pushed around by plasma effects.
• Continued claiming that all sorts of large star-filled structures are formed, held together, etc., by "Birkeland currents", having forgotten the above.
• Claimed that stars got their initial angular momentum from plasma effects, then follow their current paths according to Newton's Mislearned Laws of Erroneous Mechanics.
• Claimed that gravity can't form filaments---citing, as evidence, filaments formed by a numerical gravity simulation
• Claimed that the ISM should be blowing past Earth from Vega due to different star/plasma rotation curves
• Claimed that the ISM might just as well be blowing in from anywhere due to currents.
• Claimed that the HI rotation curves are evidence of plasma effects.
• Claimed that HI and stellar rotation curves would look different.
• Claimed that the HI and stellar rotation curves might look the same, but the HI observations are probably wrong.
• Claimed that every Hubble picture that bears a vague visual resemblance to a plasma simulation is evidence of plasma effects.

I'm sure I'm forgetting some. Well, that was slightly more rational and educational than the reincarnation thread, but a few steps below Creekfreak's Bigfoot photos. Bye bye.

 

[Zeuzzz]

I think I can sum up.

PC advocates:

• Claimed that there is a large charge on the stars. (Note: varies from poster to poster and day to day)
• Claimed that, whether or not there is a charge, stars are pushed around by plasma effects.
• Claimed that stars are not pushed around by plasma effects.
• Continued claiming that all sorts of large star-filled structures are formed, held together, etc., by "Birkeland currents", having forgotten the above.
• Claimed that stars got their initial angular momentum from plasma effects, then follow their current paths according to Newton's Mislearned Laws of Erroneous Mechanics.
• Claimed that gravity can't form filaments---citing, as evidence, filaments formed by a numerical gravity simulation
• Claimed that the ISM should be blowing past Earth from Vega due to different star/plasma rotation curves
• Claimed that the ISM might just as well be blowing in from anywhere due to currents.
• Claimed that the HI rotation curves are evidence of plasma effects.
• Claimed that HI and stellar rotation curves would look different.
• Claimed that the HI and stellar rotation curves might look the same, but the HI observations are probably wrong.
• Claimed that every Hubble picture that bears a vague visual resemblance to a plasma simulation is evidence of plasma effects.

I'm sure I'm forgetting some. Well, that was slightly more rational and educational than the reincarnation thread, but a few steps below Creekfreak's Bigfoot photos. Bye bye.

WOW, the breathtaking ignorance of the subject you are arguing against is unbelieveable. Find me one plasma cosmology paper in the ones I just listed above that says one single thing from this list. You wont beable to, as everything you just said is a demonstrable lie.

Since when did three peoples personal opinions on a thread about alternative galaxy models have anything to do with the opinions of established plasma cosmologists?

 

[Zeuzzz]

And someone please quote my above post so mattus can see all the plasma cosmology publications in mainstream journals, because at the moment he is trying to argue with someone he has on ignore

 

[iantresman]

I say that you have misinterpreted what Alfven said, it is up to you to show that you have quoted him accurately.

.
If you feel I have misrepresented, then I apologise, it is not intentional. I have provided numerous references so you can double check, such as the reference to the equation on gravitoelectrodynamics, where clearly the requirements of charge (implicit for a plasma), and velocity with respect to a magnetic field determine whether gravity or electromagnetic forces dominate. I have also provided Alfvén's comparison of electromagnetic forces to gravity here, again so you can double check what was actually written, compared to my description.

I have also acknowledged my bad use of the phrase "gravitational collapse". So I am happy to be corrected. If I don't provide references, or hide them, then I think you'd have a fair point.

 

[Zeuzzz]

Hey Ian. Seems to have gone a bit quiet on this thread since I posted those publications.

If you could quote that post above with the references that would be great, as Mattus is really beginning to do my nut in, and maybe once he see's them he will shut up . (although I very much doubt it)

 

[Zeuzzz]

And how many papers have you had published in mainstream astrophysics & cosmology journals Ian? Not plasma physics journals or IEEE, but the same journals in which the astrophysicists and cosmologists publish? Hmmm?

See above.

Who would be best to know about the effects of plasma in the cosmos? Standard astronomers who are not taught advanced plasma physics in their standard education, or plasma experts that work for the IEEE on the cutting edge of plasma physics, who specialize in the very field that 99.99% of the visible universe is made of? hmmmmmm.

Are you suggesting that all the papers published in the Journal of Plasma Science are wrong in some way? do you have any evidence to back this assertion up what-so-ever?

 

[iantresman]

Heres a small list of some of the plasma cosmology papers published in mainstream astronmy journals;

* Introduction to Plasma Astrophysics and Cosmology - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 3-11

* Electric space: Evolution of the plasma universe - Astrophysics and Space Science, Volume 244, Issue 1-2, pp. 89-103

* Advances in numerical modeling of astrophysical and space plasmas - Astrophysics and Space Science Volume 242, Numbers 1-2 / March, 1996

* How Can Spirals Persist? - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 175-186

* Advances in Numerical Modeling of Astrophysical and Space Plasmas 2 - Astrophysics and Space Science Volume 256, Numbers 1-2 / March, 1997

* Plasma and the Universe: Large Scale Dynamics, Filamentation, and Radiation - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 97-107

* Rotation Velocity and Neutral Hydrogen Distribution Dependency on Magnetic Field Strength in Spiral Galaxies - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 167-173

* Radiation Properties of Pulsar Magnetospheres: Observation, Theory, and Experiment - Astrophysics and Space Science, Volume 227, Issue 1-2, pp. 229-253

* Confirmation of radio absorption by the intergalactic medium - Astrophysics and Space Science (ISSN 0004-640X), vol. 207, no. 1, p. 17-26

* X-Ray-emitting QSOS Ejected from Arp 220 - The Astrophysical Journal, Volume 553, Issue 1, pp. L11-L13.

* A Possible Relationship between Quasars and Clusters of Galaxies - The Astrophysical Journal, Volume 549, Issue 2, pp. 802-819.

* Thermalization of synchrotron radiation from field-aligned currents - Laser and Particle Beams (ISSN 0263-0346), vol. 6, Aug. 1988, p. 493-501.

* On Quasar Distances and Lifetimes in a Local Model - The Astrophysical Journal, 567:801–810, 2002 March 10

* POSSIBILITY OF EXISTENCE OF A DENSE INTERGALACTIC PLASMA. - Astron. Astrophys., 3: 42-56(Sept. 1969).

* GALACTIC NEUTRAL HYDROGEN EMISSION PROFILE STRUCTURE - The Astronomical Journal, 118:1252È1267, 1999 September

* Filamentation of volcanic plumes on the Jovian satellite I0 - Astrophysics and Space Science (ISSN 0004-640X), vol. 144, no. 1-2,

* On the evolution of interacting, magnetized, galactic plasmas - Astrophysics and Space Science (ISSN 0004-640X), vol. 91, no. 1, March 1983

* Magnetosphere-ionosphere interactions —near-Earth manifestations of the plasma Universe - Astrophysics and Space Science, Volume 144, Issue 1-2, pp. 105-133

* Distances of Quasars and Quasar‐like Galaxies: Further Evidence That Quasi‐stellar Objects May Be Ejected from Active Galaxies - The Astrophysical Journal, 616:738–744, 2004

* High-Velocity Neutral Hydrogen - Annual Review of Astronomy and Astrophysics

* Galactic and extragalactic radio astronomy (2nd edition) - Berlin and New York, Springer-Verlag, 1988, 715 p. For individual items see A89-40410 to A89-40424.

* Magnetic Fields in Interstellar Neutral-Hydrogen Clouds - Astrophysical Journal, vol. 155, p.L155

* Physics of the Plasma Universe - Physics of the Plasma Universe, XII, 372 pp. 208 figs.. Springer-Verlag Berlin Heidelberg New York

I really can't be bothered to post any more, you can see about seventy or so other papers published in mainstream astronomy journals here; http://www.soundintent.com/

And to see about fifty more tull texts of plasma universe/cosmology material, I suggest the papers that have been assembled at Los Alamos National Laboratories (LANL) here; http://plasmascience.net/tpu/papers.html

Some more peer reviewed plasma cosmology papers in mainstream journals here too; http://plasmascience.net/tpu/papers-cosmology.html (more about the cosmology side than the plasma physics side)

Is there something wrong with journals like The Astrophysical Journal, the Journal of Astrophysics and Space Science, The IEEE Journal of Plasma Physics MattusMaximus?


(Sorry about the bolding and the size, its just that i have posted this over four times now, and no-one seems capable of commenting on it so i figured a bit of bolding may help)

.
Thanks for that, I also have some references on my own site, ranging from the popular to the peer-reviewed.

 

[ben m]

Hey Ian. Seems to have gone a bit quiet on this thread since I posted those publications.

If you could quote that post above with the references that would be great, as Mattus is really beginning to do my nut in, and maybe once he see's them he will shut up . (although I very much doubt it)

Reading those papers was a lot like reading this thread. Geez. For example, this one is 15 pages of perfectly normal HI line-profile measurements---making no arguments for, against, or otherwise, standard cosmology or "plasma cosmology". Then in the final paragraph, they say

we note that the line width regimes show a striking resemblance to a set of velocity regimes described by a plasma physical mechanism called the critical ionization phenomenon.

No fits, no citations, no discussion of galaxy-scale plasmas, no cosmology, no discussion of rotation curves. Just "a striking resemblance", justified only via Peratt's eyeballs, between the published plots and some numbers Peratt derived somewhere else. Even if it's true---so what? Was someone arguing "we don't need to use plasma physics to calculate ionization and shocks in HI clouds"? Never happened.

http://adsabs.harvard.edu/full/1969ApJ...155L.155VThis one doesn't mention plasma cosmology, doesn't oppose standard cosmology---it's a measurement of the B field in a dense molecular cloud, using a perfectly-mainstream argument which is well-known and commonly applied in standard astrophysics.

ttp://adsabs.harvard.edu/abs/1988Ap&SS.144..451P is about Io. The Jovian satellite. The one whose plasma torus has been known for most of a century. You know, in the list of showstopping objections to plasma cosmology raised in this thread, I don't recall seeing anyone say "But PC doesn't describe the plasma torus around Jupiter which we normally explain with dark matter!" Because that's not one of the showstopping objections.

Zeuzzz, it looks a whole lot like you're link-spamming us with every paper written by Peratt or any Peratt coauthor, or possibly every paper mentioning plasma. These papers appear to contain a mixture of (a) standard, mainstream space plasma physics, with no connection to plasma cosmology and (b) the exact same handwaving cosmology you've been cutting and pasting into this thread.

Seriously. The point of refereed papers is not to impress-by-sheer-volume, but rather to convey information. Why is it that you, an aficionado of these papers, who has read them all and thought about them, are unable to answer basic PC questions using what you've learned? ("What force acts on stars, with what magnitude and from what source?" was the big one) Apparently because the answers aren't in any of the papers you've read.

 

[Zeuzzz]

Reading those papers was a lot like reading this thread. Geez. For example, this one is 15 pages of perfectly normal HI line-profile measurements---making no arguments for, against, or otherwise, standard cosmology or "plasma cosmology".

No fits, no citations, no discussion of galaxy-scale plasmas, no cosmology, no discussion of rotation curves. Just "a striking resemblance", justified only via Peratt's eyeballs, between the published plots and some numbers Peratt derived somewhere else.

Your joking, right?

I suppose that an entire paper published by plasma cosmologists in mainstream astronomy journals featuring empirical observations of high amounts of ionization in the ISM currents between stars just goes right over your head.

The author for example, GERRIT L. VERSCHUUR, is a well known plasma cosmologist, and has published numerous books on his and others discovery of EM forces and currents in the ISM.

Interstellar Matters: Essays on Curiosity and Astronomical Discovery - By Gerrit L. Verschuur

http://en.wikipedia.org/wiki/Gerrit_Verschuur

Gerrit L. Verschuur, PhD, born in 1937 in Cape Town, South Africa, is a naturalized American scientist who is best known for his work in radio astronomy. Though a pioneer in that field—he has 50 years of experience—Verschuur is also an author (he has written about astronomy, natural disasters, and earth sciences), inventor, a self-employed IP Consultant, adjunct professor of physics for the University of Memphis [.....]

Verschuur is at the center of a recent debate over the age of the universe[12] [13]. He claims that images from the Wilkinson Microwave Anisotropy Probe (WMAP) are not pictures of the universe in its early form, but rather hydrogen gas clouds in our own galaxy. If he is shown to be correct, much work relating to the Big Bang Theory would be undermined.

On December 10, 2007 his work with respect to COBE, WMAP, and HI, was published in the The Astrophysical Journal[14]. It is currently undergoing deeper statistical analysis.

http://public.lanl.gov/alp/plasma/downloads/VerschuurPerattAsJ.pdf

When a low-density neutral gas Ñows through a lowdensity
plasma permeated by a magnetic Ðeld, neutral
atoms ionize when their velocity relative to the plasma is
such that their kinetic energy exceeds the ionization potential
of the neutrals. The magnitudes of the critical ionization
velocities (CIVs) for common atomic species fall into three
distinct bands. Band I includes hydrogen, with a CIV of 51
km s~1, and He, with a CIV of 34 km s~1, band II includes
C, N, and O, with CIVs around 13.5 km s~1; and band III
includes heavier atomic species such as Na and Ca, with
CIVs around 6 km s~1. We regard the coincidence between
the magnitudes of the CIVs for common interstellar atoms
and H I line width regimes discussed above as more than
fortuitous and in a subsequent paper will conclude that H I
proÐle shapes are a†ected by the CIV phenomenon in interstellar
space. This implies the existence of a previously
unrecognized source of ionization that needs to be taken
into account in the study of interstellar gasdynamics,
physics, and chemistry.
We owe a great debt of gratitude to W. B. Burton, Steve
West, and Dap Hartmann for making available H I emission
proÐles from the magniÐcent Leiden-Dwingeloo
all-sky H I survey; and to Joan T. Schmelz for a critical
reading of an early version of the manuscript.

Did you notice that material? And the other data they addressed?

Even if it's true---so what? Was someone arguing "we don't need to use plasma physics to calculate ionization and shocks in HI clouds"?

No models take this degree of ionization from CIV into account, both the authors of the paper are plasma cosmologists and they have had their paper published in a mainstream astronomy journal. You should contact the journal and inform them of their fatal mistake in publishing this material.

ttp://adsabs.harvard.edu/abs/1988Ap&SS.144..451P is about Io. The Jovian satellite. The one whose plasma torus has been known for most of a century. You know, in the list of showstopping objections to plasma cosmology raised in this thread, I don't recall seeing anyone say "But PC doesn't describe the plasma torus around Jupiter which we normally explain with dark matter!" Because that's not one of the showstopping objections.

Who predicted this torus before it was observed? plasma cosmologists. So who do you think may turn out to be correct with some of their other more recent predictions? A lot of their previous sucessful predictions, that were certainly different from mainstream opinion, I have outlined before. Such as the immense birkeland currents containing 650,000 amps of electricity found very recently by Themis connecting the Earths poles to the sun? Did any mainstream astronomer predict this? they all looked pretty surprised to me.

Plasma cosmologists on the other hand have been positively predicting exactly this for years now, after Alfven originally proposed his heliospheric current circuit, and the solar systems current sheet. Infact, if their future predictions turn out as sucessful as their previous ones, we're going to find a whole new load of EM connections and currents between bodies in space very soon. We only just discovered this huge current on our own planet, imagine what connections we will find elsewhere in the near future.

Zeuzzz, it looks a whole lot like you're link-spamming us with every paper written by Peratt or any Peratt coauthor, or possibly every paper mentioning plasma. These papers appear to contain a mixture of (a) standard, mainstream space plasma physics, with no connection to plasma cosmology and (b) the exact same handwaving cosmology you've been cutting and pasting into this thread.

Your a joke m8. Every single paper there is written by a plasma cosmologist who take into account forces in plasma that current astronomy either deny exist, or largely ignore. Which paper is not relevant to PC? With specific reasons, not just a small quote and a load of generalizations.

Seriously. The point of refereed papers is not to impress-by-sheer-volume to convey information.

So you are denying that any of these papers exist?

I suppose giving you some irrefutable evidence of PC material in mainstream journals means nothing at all.

You seem, for example, to have missed these ones:

http://adsabs.harvard.edu/cgi-bin/n...T&data_type=HTML&format=&high=45cce9d73311457

Contrary to popular and scientific opinion of just a few decades ago, space is not an ‘empty’ void. It is actually filled with high energy particles, magnetic fields, and highly conducting plasma. The ability of plasmas to produce electric fields, either by instabilities brought about by plasma motion or the movement of magnetic fields, has popularized the term ‘Electric Space’ in recognition of the electric fields systematically discovered and measured in the solar system. Today it is recognized that 99.999% of all observable matter in the universe is in the plasma state and the importance of electromagnetic forces on cosmic plasma cannot be overstated; even in neutral hydrogen regions (˜10‑4 parts ionized), the electromagnetic force to gravitational force ratio is 107. An early prediction about the morphology of the universe is that it be filamentary (Alfvén, 1950). Plasmas in electric space are energetic (because of electric fields) and they are generally inhomogeneous with constituent parts in motion. Plasmas in relative motion are coupled by the currents they drive in each other and nonequilibrium plasma often consists of current-conducting filaments. This paper explores the dynamical and radiative consequences of the evolution of galactic-dimensioned filaments in electric space.

care to comment on any of that?

or this one:

http://adsabs.harvard.edu/cgi-bin/n...T&data_type=HTML&format=&high=45cce9d73311457

One of the earliest predictions about the morphology of the universe is that it be filamentary (Alfvén, 1950). This prediction followed from the fact that volumewise, the universe is 99.999% matter in the plasma state. When the plasma is energetic, it is generally inhomogeneous with constituent parts in motion. Plasmas in relative motion are coupled by the currents they drive in each other and nonequilibrium plasma often consists of current-conducting filaments. In the laboratory and in the Solar System, filamentary and cellular morphology is a well-known property of plasma. As the properties of the plasma state of matter is believed not to change beyond the range of our space probes, plasma at astrophysical dimensions must also be filamentary. During the 1980s a series of unexpected observations showed filamentary structure on the Galactic, intergalactic, and supergalactic scale. By this time, the analytical intractibility of complex filamentary geometries, intense self-fields, nonlinearities, and explicit time dependence had fostered the development of fully three-dimensional, fully electromagnetic, particle-in-cell simulations of plasmas having the dimensions of galaxies or systems of galaxies. It had been realized that the importance of applying electromagnetism and plasma physics to the problem of radiogalaxy and galaxy formation derived from the fact that the universe is largely aplasma universe. In plasma, electromagnetic forces exceed gravitational forces by a factor of 1036, and electromagnetism is ≈ 107 times stronger than gravity even in neutral hydrogen regions, where the degree of ionization is a miniscule 10‑4. The observational evidence for galactic-dimensioned Birkeland currents is given based on the direct comparison of the synchrotron radiation properties of simulated currents to those of extra-galactic sources including quasars and double radio galaxies.

or this one:

http://adsabs.harvard.edu/abs/1995Ap&SS.227..229H

"Because of the losses in the dielectric media and in synchrotron emission, the periodicity of the propagating pulses increases. However the experiment dramatically showed that there are glitches, the flow of electron flux across the magnetosphere, can shorten the line and concomitantly the period. The fractional frequency stability scaling versus measurements interval up to about 30,000,000 s for pulsars is nearly identical to that for trapped-ion clocks. This supports the pulsar surface-magnetosphere relativistic double layer model; itself a trapped ion mechanism"

"Both simulation and experiment suggest that micro-pulses and sub-pulses are produced by particle-wave interactions in non-uniform plasma eradiated by the electromagnetic wave. This effect is produced when the magnetically insulated voltage pulse reaches the pulsar surface. Because of the curvature, magnetic insulation is lost and plasma flows across this region. This tends to create a resonating or modulating component to the proper current pulse"

and thier conclusion,

"The source of the radiation energy may not be contained within the pulsar, but may instead derive from either the pulsars interaction with its environment or by energy delivered by an external circuit (Hannes Alfvén 1981).[2] This hypothesis is consistent with both the long term memory effect of the time averaged pulse and the occurrence of nulling, when no sub-pulses are observed. As noted earlier, our results support the 'planetary magnetosphere' view (Michael 1982) where the extent of the magnetosphere, not emission points on a rotating surface [emphasis added], determines the pulsar emission."

or this one:

http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=1983Ap&SS..91...19P

The advent of three-dimensional, electromagnetic, and fully relativistic particle simulations allows a detailed study of a magnetized, rotating plasma, galaxy model. When two such models are simulated, an interaction yielding results resembling observational data from double radio sources, including the emission of synchrotron radiation, are obtained. Simulation-derived morphologies, radiation intensities, frequency spectra, and isophote patterns are directly compared to observations. The constituent plasma parameters associated with the source Cygnus A are found to be n(e) = 0.0018/cu cm, T = 2.8 keV, B = 20-30 gamma, with a small population of electrons accelerated to GeV energies by a rotation induced electric field. The results of these simulations, involving a computational resource of five CDC 7600 and five Cray-1 computers, strongly supports an inhomogeneous version of the Klein world model.

whats so wrong with all this then?

Why is it that you, an aficionado of these papers, who has read them all and thought about them, are unable to answer basic PC questions using what you've learned? ("What force acts on stars, with what magnitude and from what source?" was the big one) Apparently because the answers aren't in any of the papers you've read.

WHAT HAS THAT GOT TO DO WITH PLASMA COSMOLOGY? Just because I cant answer one particular question that you ask me does not mean that it is not explained by the experts who publish this material in some way. I seriously suggest you e-mail them and ask them some of these questions. I am no expert, and I never claimed to be.

Peratts galaxy model is one absolutely tiny area of the huge area called plasma cosmology. You obviously are going to remain ignorant on this subject as you are refusing to look at any of the material presented, apart from scanning quickly through it to try to find ones that you think are not relevant to PC. Hows about quoting some of the material in the other ones?

“Gravity was the focus of 20th century astronomy. For the 21st century, it will be electromagnetism and plasmas in addition. This forthcoming scientific revolution is presaged by the rapid pace of discoveries about our own star, the Sun, and its total plasma environment, and discoveries about the nature of the interstellar medium."

– Timothy E. Eastman, PhD, Head of Raytheon's space physics and astrophysics groups. He is well known for his work on magnetospheric boundary layers and the initial discovery of the Low Latitude Boundary Layer.

http://www.plasmas.org/space-astrophys.htm

Or care to comment on some of the material from the world leading plasma experts at the Los Alamos National Laboratory website?

Deny Ignorance.

 

[sol invictus]

I think I can sum up.

Quite accurate.

Ian, you're still not responding to questions about the content of your site. There's no point in carrying on a dialog under those circumstances - you have basic factual and conceptual errors about the phenomena you claim to explain in the very first paragraph, and you simply ignore queries about it.

Zuezzz after 1000s of words failed to produce one single concrete prediction of PC, failed to respond to any direct questions about what PC predicts, and instead babbled about metaphysics.

BAC is a troll.

I'm done with this nonsense.

 

[DeiRenDopa]

I've been lurking for quite a while, carefully collecting material to continue the study I hinted at in the Thunderbolts JREF thread, so I could post appropriately, but part of this post by Zeuzzz just cries out for an immediate response ...

Reading those papers was a lot like reading this thread. Geez. For example, this one is 15 pages of perfectly normal HI line-profile measurements---making no arguments for, against, or otherwise, standard cosmology or "plasma cosmology".

No fits, no citations, no discussion of galaxy-scale plasmas, no cosmology, no discussion of rotation curves. Just "a striking resemblance", justified only via Peratt's eyeballs, between the published plots and some numbers Peratt derived somewhere else.

Your joking, right?

I suppose that an entire paper published by plasma cosmologists in mainstream astronomy journals featuring empirical observations of high amounts of ionization in the ISM currents between stars just goes right over your head.

The author for example, GERRIT L. VERSCHUUR, is a well known plasma cosmologist, and has published numerous books on his and others discovery of EM forces and currents in the ISM.

http://en.wikipedia.org/wiki/Gerrit_Verschuur

Verschuur is at the center of a recent debate over the age of the universe[12] [13]. He claims that images from the Wilkinson Microwave Anisotropy Probe (WMAP) are not pictures of the universe in its early form, but rather hydrogen gas clouds in our own galaxy. If he is shown to be correct, much work relating to the Big Bang Theory would be undermined.

On December 10, 2007 his work with respect to COBE, WMAP, and HI, was published in the The Astrophysical Journal[14]. It is currently undergoing deeper statistical analysis.

[rest of post omitted]

Zeuzzz, did you read Verschuur's ApJ paper? If so, did you understand it? Did you also read the v1 on the arXiv preprint server, and compare it with the v2 that subsequently got published? How about the comments of Richard Lieu in the Cosmocoffee discussion forum on it (Lieu is Verschuur's endorser, for this paper)?

My point here is that while Verschuur (and Lieu) would very much like to be able to show that the CMB, in its WMAP form, contains some otherwise unmodelled foreground, many years of trying have (so far) failed. This most certainly does NOT mean that there is no unmodelled foreground in the WMAP CMB (processed) data!

However, the wikipedia entry is, shall we say, rather generous in its interpretation ... so far, Verschuur's interpretation has been pretty thoroughly shown to be wrong (by no less a figure than Lieu!), and even if it were, in some form, shown to be right, to go from there to "much work relating to the Big Bang Theory would be undermined" is either a failure of elementary logic or reflects breath-taking ignorance of modern LCDM cosmological models.

But how about this: would you like to try to explain what Verschuur claims to have found, and then answer questions on your understanding of the relevant physics, WMAP observations, and other astronomical inputs?

Here, for all readers' interest, is Lieu's cosmocoffee comment:

Kate: I am in agreement with you.

I performed an extensive study (with B. Z. Jiang, a PhD
student of Prof. S.N. Zhang at Tsinghua, Beijing) using wavelet analysis
of the WMAP and HI data, then cross comparing the number of close associations between the degree-scale wavelet hot spot centroids and HI clouds with that expected from simulated WMAP data where the hot spot
locations are by definition randomized.

The verdict is that we found no statistically significant associations
between the first acoustic peak hot spots and HI. We therefore
cannot support the claim of Verschuur.

 

[iantresman]

Galaxy formation in the Plasma Universe is modeled as two adjacent interacting Birkeland filaments. The simulation produces a flat rotation curve (ie the galaxy appears to rotate as a solid disk), but no hypothetical invisible dark matter is needed, as required by the convention model of galaxy formation.

Whoever wrote this doesn't even know what "flat rotation curve" means. Writing things about physics you don't understand using terms you don't know the meaning of is foolish and even unethical, as it may mislead uninformed readers that happen across it.

.
Thank you for pointing out the silly error, whch has now been corrected. I am sorry that the responses and corrections do not happen has fast we might like, but we don't always have the luxury of time, but under 7 hours from notification to correction, isn't bad.

 

[Zeuzzz]

Quite accurate.

Ian, you're still not responding to questions about the content of your site. There's no point in carrying on a dialog under those circumstances - you have basic factual and conceptual errors about the phenomena you claim to explain in the very first paragraph, and you simply ignore queries about it.

Zuezzz after 1000s of words failed to produce one single concrete prediction of PC, failed to respond to any direct questions about what PC predicts, and instead babbled about metaphysics.

BAC is a troll.

I'm done with this nonsense.

Unbelievable! Note how he does not address any of the material i just presented, just resorts to name calling. How mature.

He also seems to have ignored the huge post I wrote previously with the predictions of Alfven, Birkeland, Thornhill, or any of the other plasma cosmologists correct predictions. In sight of such breathtaking arrogance and stupidity, Sol has just earned a place on my ignore list.

And (for the fifth time) if anyone wants to take up Sols little challenge that he keeps saying I never resonded to, I would be happy to comply.