EU Mountains

[LK: Are Prism Formations like Flatirons?]
What about this mountain? Isn't it like the others in Andy's collection?
Image #1 (See below)
i.imgur.com/XreDbSy.png

What about these statements?
_"The attached image [above] is taken from the home page of a New Zealand geologist, Dr. Steven A.F. Smith. His example is from a desert in Azerbaijan, and he describes it as heavy erosion of tilted sedimentary sequences.
_"Mountains are not sand dunes blown by wind. Most strata, especially bedrock, are dense, consolidated material. Supersonic atmospheric shockwaves would pass over the surface. Compression and uplift require enormous force reaching deep below the surface to move the mass.

Is image #1 above basically similar to #2 and #3 below? Number 1 seems to be too distant for a good comparison, but the strata indicated by different colors there appear to be parallel with the main ridge of the mountain, which is similar to the buttresses below. The valleys in #1 between the side-ridges and the side-ridges themselves seem too straight for normal erosion and erosion tends to follow the loosest packed strata, instead of crossing all of the strata. Let's see if anyone has done any field investigations of mountains like these.

Image #2


Image #3


[LK: Q's for BL re Triangles]
On Thu, Nov 16, 2017 at 11:04 PM, lloyd kinder <lkindr@yahoo.com> wrote:
Hi Bruce. Have you done any field studies yourself of any of the mountains that Andy Hall considers to be electrically formed with triangular buttresses? Do you consider the Flatirons to be similarly formed? Do you consider Andy's model good or not? Do you have time to cover some of this in enough detail to help clinch the case for or against his idea? I'd like to get to the bottom of this issue asap. Do you know how to contact Andy?
- Good Day. Lloyd

[BL: Flatirons Upthrust]
Re: Field Studies of Hall's Mountains?
Friday, November 17, 2017 12:02 AM
From: "Bruce Leybourne" <leybourneb@iascc.org>
To: "lloyd kinder" <lkindr@yahoo.com>
Cc: "Andrew Hall" <hallad1257@gmail.com> "Dong Choi" <dchoi@ievpc.org> "Mick Davis" <mick@iascc.org>
1 Files 417KB PDF
LeybourneLetterProof.pdf
On Thu, Nov 16, 2017 at 11:02 PM, Bruce Leybourne <leybourneb@iascc.org> wrote:
_Hi Lloyd, Yes, have done 4 field studies in the southwest, since the EU2015 when I first started looking at the Arc Blast phenomena on a field trip after the conference, the most recent and detailed look was in the San Rafael's, in Utah, google them up and you will see the flatirons. Andy was there on the first trip. I agree in principle that Arc Blast was the likely cause of the flatirons, although the formation of the flatirons I think is more from a pulled upthrust from electromagnetic effects, much like a blister is created on a piece of steel by an electric filament during a normal welding process. This is the process we think is occurring at Upheaval Dome, Utah and on a much larger scale I think it creates the flatirons. What Andy discusses seems highly likely is also part of the process, and some of the material could be laid down through plasma winds as he states. I think this process is also related to the welded tuffs that occur in many places. The flatirons at San Rafael exhibited fairly clear signs of depositional environments within many of the strata, so I don't believe they could all be laid down by plasma winds and still retain the depositional structures I saw. There may be places that they are, possibly strata that are on the front leading edges of the process could be laid in that way, some of these could have been eroded out, some may still be in place, I haven't personally documented this yet. Andy may have additional evidence. We were not able to analyze every area or dig down into or core any sections as of yet, eventually we'd like to get this together, possibly a field trip can be organized after the EU2018 for some group investigations, we know some good places to look already. There is no way I would make sweeping grand conclusions at this point on the overall process, based on the limited amount of field work we done to date, but several lines of evidence suggest a very large electrical process was at work in the area. I can go that far at present, and will document this from our field work soon.
_[BL: EU, IEVPC.org, IASCC.org, NCGT.org]
We are working on some papers that will be coming out for next years Electric Universe 2018 conference, don't want to steal the thunder, or Arc Blast in this case from these presentations. I will document some preliminary evidences summarized in our upcoming IASCC (www.iascc.org) newsletter available for our members, it's free to join on our website by leaving an email address. I'll make sure you get a copy. I'll leave it up to Andy to expound on his ideas a bit more, and I'll help him align it with the bit of field evidence we currently have. We've both been very busy lately, and probably won't get our rough drafts out till next spring. I'm copying Andy and a few others on this so you can get in touch. I also was recently appointed/enlisted as Vice-President of the International Earthquake and Prediction Center, see IEVPC.org, and have published quite a bit in their New Concepts In Global Tectonics (NCGT) Journal. They have an editorial review panel and we will be submitting our papers for review there. Possibly some of your group would like to help with the reviewers? Could use some professional input from geologist/geophysicist, electrical engineering types, that have the right backgrounds, tectonic theorist etc. We'd like to generate more interest in the NCGT Journal anyway, get our subscriptions up etc. You can forward this message to the larger group we've been having a lively debate with, most of them should have a high interest level in the ongoing research in earthquake forecasting and climate change prediction we are also working on, see attached paper on how I called the turn of hurricane Irma 2 days before even the European model, based strictly on lightning activity the previous year. This was published for us in Letters to the editor of the NCGT Journal, by Dr. Dong Choi. If any of your guys have been having trouble getting unconventional ideas published this is a good venue, needs to be a plausible and well written paper. The back issues are worth looking at if anyone is doing in depth research on these subjects, I've got many papers, some going back to 1998 published there.  
_All the Best, Bruce Leybourne (IASCC)

[MF: Explain Flatirons]
RE: Details?
Saturday, November 18, 2017 7:30 PM
From: mike@newgeology.us
To: "lloyd kinder" <lkindr@yahoo.com>
2 Files 98KB JPG 9KB JPG 89KB
_Lloyd, Two pictures are attached that may clarify my description. The first is a cross-section of tilted strata that erode at different rates; the second is a larger view of the Azerbaijan picture used by the New Zealand geologist. Erosion in arid regions is often angular because rain is rare but when it falls it is often heavy, while erosion in non-arid regions is more even because of regular rain that is often light or moderate.
_Cheers, Mike

Image #1


[AH: ED from Interior & Literature]
Re: Field Studies of Hall's Mountains?
From: Andrew Hall <hallad1257@gmail.com>
Sent: Tuesday, November 21, 2017 5:51 PM
Tuesday, November 21, 2017 11:51 AM
To: Bruce Leybourne
Cc: lloyd kinder; Dong Choi; Mick Davis
Subject: Re: Field Studies of Hall's Mountains?
_Hello Loyd, Bruce copied me, so I wanted to jump into the discussion and introduce myself. You are asking some great questions. I have a different view on some things. Most features I see on the landscape, except volcanoes, appear to be caused by wind, lightning arcs and surface conductive arcs from earth's interior. It can be explained electrically. I'm happy to discuss. You might want to check my website. I have additional articles there.
Cheers, Andy
_Andrew Hall
andrewdhall.wordpress.com/
Author of "Lapse of Reason"
My Smashwords profile: www.smashwords.com/profile/view/sopwith
Sample or purchase Lapse of Reason at: www.smashwords.com/books/view/545922

PUZZLE FOR ANDY'S MODEL
_I tried to gather some important parts of Andy Hall's ED Mountain Formation model at cnps.boards.net/thread/23/eu-mountains?page=1&scrollTo=65 .
_In most of the images in the thread there his model seems very plausible.
_But in these two images, not from Andy's material, the [triangular] mountain formation process seems different.
Azerbaijan:
Argentina:
_In each of these images it looks like over a dozen long, triangular prisms are set side-by-side against a ridge, all with about the same slope.
_The first case is described as "heavy erosion of tilted sedimentary sequences", but I don't know how normal water or wind erosion could produce perfectly parallel ridges and valleys like that. Does anyone else know?
_Nor do I know how Andy's model could produce the bands of different colors across the prisms. If dirt and rocks were blown against the initial ridge by electric winds, the colors would be more mixed up and wouldn't form neat parallel bands across the prisms.
_The bands are sedimentary sequences, are they not? But does anyone know how the sequences were formed into the parallel prisms laying at the same angle against a ridge?
_This is one of Andy's images: andrewdhall.files.wordpress.com/2016/03/astroiranharm6.jpg .
_As usual there's a ridge in the background and laid up against the ridge are rows of triangular "flat irons" (instead of prisms), with the largest in the back and progressively smaller toward the front.
_This time, like the prisms, there are different colors of flat irons from back to front. The row of the biggest ones in back are light purple. The several layers of flat irons in the middle are light blue-gray. The small ones in front are light redviolet.
_Again, I don't know how Andy's model could accommodate the perfectly parallel bands of different colors. Does anyone know how they could? In his model the colors should be more mixed, not in parallel bands that conform to the strata of flat irons.
P.S., QUESTION RE SYMMETRY FOR ANDY'S MODEL
Shouldn't the flat irons exist on both sides of each ED-formed ridge, instead of just on one side?

[BL: Flatirons & Upheaval Dome]
Re: Puzzle for Andy's Model
Thursday, December 14, 2017 3:26 AM
From: "Bruce Leybourne" <leybourneb@iascc.org>
To: "lloyd kinder" <lkindr@yahoo.com>
Cc: "Doug Ettinger" <dougettinger@verizon.net> rfarrar.lpool@virgin.net louis.hissink@bigpond.com mike@newgeology.us "Andrew Hall" <hallad1257@gmail.com>
1 Files 285KB JPG
_Hi All, I think the Flatiron formation process is similar to the chevron/delta/triangular formations seen in the upheaval dome, see attached photo. The triangle geometry is likely related to the platonic solid of the fire element that is at work in the electrical plasma formation process. I went over some these details in my EU2016 presentation...
_We've discussed this as an electrical filament formation (among field arc blast investigators), that blisters the surface, same as an off shooting electrical filament blistering metal during normal arc welding process. In upheaval dome you can see the double layer co-rotating features form the filament contact, (use google earth), thus the chevrons or flatirons are uplifted by a blistering process, I think this also happens on a much larger scale in the examples you have shown. This is likely a global process of arc blast and has various scales. The plasma winds pull in around the filament, but the preexisting strata are broken off and uplifted in this manner (much of the material seems fused or petrified containing it's original depositional structure), not necessarily accreted in this manner, although there possibly could be some deposition associated with this inflow. I have not seen this documented yet.... possibly it is eroded away or doesn't really exist? I think Andy is working on showing how some deposition may occur this way....
_All the Best, Bruce Leybourne (IASCC)

[DE: re BL Explained Flatirons]
RE: Puzzle for Andy's Model
Thursday, December 14, 2017 10:54 AM
From: "Doug Ettinger" <dougettinger@verizon.net>
To: "'Bruce Leybourne'" <leybourneb@iascc.org> "'lloyd kinder'" <lkindr@yahoo.com>
Cc: rfarrar.lpool@virgin.net louis.hissink@bigpond.com mike@newgeology.us "'Andrew Hall'" <hallad1257@gmail.com>
_Hi Bruce, I like your explanation. Especially, that pre-existing strata are broken off and uplifted. The Flatiron formation are definitely electromagnetic.
_Thank you, Doug Ettinger

[AH: Flatirons ED]
Re: Puzzle for Andy's Model
Thursday, December 14, 2017 4:45 PM
From: "Andrew Hall" <hallad1257@gmail.com>
To: "Doug Ettinger" <dougettinger@verizon.net>
Cc: "Bruce Leybourne" <leybourneb@iascc.org> "lloyd kinder" <lkindr@yahoo.com> rfarrar.lpool@virgin.net louis.hissink@bigpond.com mike@newgeology.us
_Hi Lloyd, The stratigraphic bands are windblown and remain coherent because the ionic winds sort material by dielectric property. The rock and dust doesn't mix-up - it segregates. The banding can be found in both hard rock formations of triangular buttresses, as well as unconsolidated soils and sands. Plasma organizes into layered cells, streamers and columns based on the electric field potential gradient. Think of the Safire Project, and how under high voltage, the plasma sheath forms into layers that stack radially around the model sun. The gradient forms in step voltages because it creates an interface between dielectric layers, so dust of a particular dielectric is isolated from another. Double layers form at the interfaces - this is why plasma got it's name. In an ionic storm, these layers move at different speeds and form shear zones. You can see what I mean by looking at Jupiter, where unipolar winds flow in bands in opposite directions, carrying different atmospheric gases. It's because the ions in the gases carry different polarities and different charge densities - different dielectric properties. Where they mix is in the storm cells. But they mix in smaller and smaller cells, filaments and layers of dielectric property, organized by the electric field, not as a diffuse homogenization.
_Bruce said, "The triangle geometry is likely related to the platonic solid of the fire element ..." Sorry, but what does that mean? Are you saying the electric field forms these triangles by bending the land into that shape? What is the electrical model for cause and effect? If uplift had anything to do with creating triangles, how come the darn things didn't crumble? Rock has very little shear strength and is not ductile unless molten. Some of these formations are made of sandstone you can break apart with your fingers. Under the kinds of forces in an uplift - by any cause, tectonic or otherwise - the rock would fall apart, not remain in perfect harmonic formation that resembles a waveform. Of course, I'm open to your interpretations. I'm just hearing a lot of old geologic theories like uplift being recast as an electrical event, without an electrical model to support it. I'm not saying it isn't plausible, but a plausible electric model is needed.
_The sharp edged triangular buttresses are, IMHO, formed by shock waves. Shock waves form standing waves when they reflect from an object. All of those sharp triangular forms that repeat consistent angles with sharply defined edges and flat-iron faces, and repeat themselves in fractal, harmonic evolution of smaller and smaller layers, are wave forms. Each successive wave is created when it impinges and reflects from the one before. Each layer is singular in it's composition, because each layer carries it's own makeup of charge density, percentage of ionization, voltage, current, dielectric dust, moisture, temperature, pressure, velocity, etc. The arc blast comes from discharges, which pulse like a lightning bolt, providing surges of energy to different pressure/density regimes in the wind. It often results in loosely consolidated layers sandwiched between hard rock. In many places, the interface between layers is ionically and thermally altered, forming a sheet of hard, brittle rock and rows of pits created by off-gassing as the two layers thermally and ionically (chemically) interacted after being deposited.
_Ionic winds obey the electric field that causes them. The electric field the ionic wind responds to takes the same form as the shock wave, because charge density follows the density profile in the atmosphere - more density of matter = more density of ions = more density of charge = higher voltage to drive current. This isn't just me saying it. There are whole ASME journals where mechanical engineers write papers about the electromagnetic pulses in shock waves. It's been witnessed and studied since nuclear explosions were discovered to create lightning discharge in shock waves. The explosion isn't electric - the supersonic pressure wave forms it's own EMP.
_Shock waves form regions of compression and rarefaction, hence regions of high and low charge density which define the potential gradient and hence, the shape of the electric and magnetic fields. So, standing shock waves form an interference pattern of triangular regions of compression and rarefaction, and the compression zones are where matter accumulates and recombines with neutral matter dragged by the ionic wind into the stratigraphic layers in the triangular buttresses. The space between triangles is the rarefaction zone, where charge density is low, or even of opposite polarity, so no dust accumulates.
_The stratigraphy in the triangular buttresses should match the stratigraphy in the surrounding land, more or less, because the same winds are layering matter down horizontally at the same time they are plastering up against the shock wave. It should create the same sequence of layering, but I would expect to find anomalies in the layer thicknesses and composition due to different electrical parameters at the buttresses and due to post formation effects such as cooling and exposure.
_It's easier to see if you look at the big picture. You can find where winds created pressure ridges at sub-sonic speeds and no triangles formed, and you can find transition winds where triangles formed at a specific place where velocity reached mach speeds, but didn't in the ridge next to it. You can find interference patterns, where a pressure ridge, or monocline has sudden breaks because rarefaction zones superpositioned, or where a new mountain formed blocking the wind to the ridge behind. You can trace the orientation of triangular buttresses on mountains over thousands of miles and see the wind direction, shear zones and vortexes. The patterns are all there. I've only written a fraction of what needs to be said about this.
_The layering is strong evidence of my theory, and forensic study of these layers is likely to yield proofs. I'm glad you brought this up so I could address it.
_Cheers, Andy

[LK: Flatirons ED, Cross Sections; Labwork]
Re: Puzzle for Andy's Triangles
Friday, December 15, 2017 12:16 AM
From: "lloyd kinder" <lkindr@yahoo.com>
To: "Doug Ettinger" <dougettinger@verizon.net> "Andrew Hall" <hallad1257@gmail.com>
Cc: "Bruce Leybourne" <leybourneb@iascc.org> "lloyd kinder" <lkindr@yahoo.com> rfarrar.lpool@virgin.net louis.hissink@bigpond.com mike@newgeology.us
_Very interesting, Andy & others. I'm referring to both of your replies, but I'll just address the Triangles issue here, in case I want to have 2 different threads.
_Bruce's suggestion of uplift seemed to make sense (like photo.agiweb.org/utils/showimage.php?ID=ieji5i&SIZE=1024 ), except that uplift seems unlikely to produce a series of very similar triangular shapes in a line. So Andy's reply seems even better. Andy, do you think the prism-shaped buttresses I mentioned that are in Azerbaijan and Argentina are produced in the same way that the flatirons are produced? If so, why are the prisms not all about the same size?
_Do you know of any cross sections that tend to confirm your model? You said the horizontal strata under or near the triangular buttresses should be very nearly the same as the strata in the triangles. Right? So it seems that cross sections should show this clearly somewhere. I guess you would suppose that the rounded flatirons in the Big Bend area of Texas are also similarly formed. If so, that provides another place to do field work, I suppose.
_Have you done any lab experiments to test your model? Or do you have plans to? Or do you have a list of things that would be needed to do the test?
_Mike Fischer, I'd be interested in whatever alternative theories you may have to explain the flatirons and prism-shaped buttresses. As I said earlier, it doesn't seem likely that the ridges and valleys of the prism buttresses would all be so straight and parallel from normal water erosion.
- Good Day. Lloyd

[DE: Flatirons ED]
RE: Puzzle for Andy's Model
Friday, December 15, 2017 9:15 AM
From: "Doug Ettinger" <dougettinger@verizon.net>
To: "'Andrew Hall'" <hallad1257@gmail.com>
Cc: "'Bruce Leybourne'" <leybourneb@iascc.org> "'lloyd kinder'" <lkindr@yahoo.com> rfarrar.lpool@virgin.net louis.hissink@bigpond.com mike@newgeology.us
_Hello Andy, I like your explanation. It is well written and understandable. You have convinced me about the stratification phenomenon. The triangular flatirons are harder to believe, but you provide a good model. I wonder if these triangular formations have ever or can be replicated in the laboratory?
_Thank you for this education, Doug Ettinger

[AH: Flatirons ED Labwork Needs]
Re: Puzzle for Andy's Model
Friday, December 15, 2017 1:56 PM
From: "Andrew Hall" <hallad1257@gmail.com>
To: "Doug Ettinger" <dougettinger@verizon.net>
Cc: "Bruce Leybourne" <leybourneb@iascc.org> "lloyd kinder" <lkindr@yahoo.com> rfarrar.lpool@virgin.net louis.hissink@bigpond.com mike@newgeology.us
[Images not shown here]
_Thanks for asking Doug. A wind tunnel and some sand would be necessary, but that is about all. We can't reproduce the electric field, or plasma environment of course, but we can reproduce the winds. We can't produce welded rocky formations, but we can produce sand dunes that will bear evidence of triangular wave forms. After all, these triangular buttresses are dunes, with the shape molded by winds traveling Mach speed. You can find many wind tunnel videos that show sonic winds forming triangular and diamond shaped standing waves right now on YouTube. They don't throw any sand in there, though. Here are three examples. These are actual Schleiren photos from supersonic wind tunnels
_The first shows transient effects in an unstable supersonic wave form. The second shows actual buttresses at Comb Ridge in Arizona that has almost this exact form, which I included images of in my articles and EU 2016 presentation. It's my favorite example. You can see how the mountain is molded in almost the same shape as the pressure pattern in the shock wave. This is actually so incredibly unique that I don't know how anyone can call it coincidence. It should stand alone as proof of my theory. The third image is looking inside the hole created by the low pressure circular region in the top right-center of the frame. I couldn't help myself - I had to climb into it. You can see the concentric circular pattern within the hole. Try 'splainin' that with water erosion. The effect is caused by the pressure gradient as the hole was formed.
_​The fourth image shows the boundary effects of reflecting shock waves. This is just to show how complex they can be and how shock waves actually fold and form layered pressure regimes. I can sometimes find features around the edges of buttresses that I think record this effect, but it is hard to distinguish from natural erosion and foliation from wind and water.
_The final image shows the effect of changing velocity, which causes the reflected waves to break down into harmonics as the wind speed dies. This started at Mach 2 in the first frame, if I remember correctly. This shows why the triangles repeat in harmonics with smaller amplitude and increased frequency as the winds of the storm abated. In the video these images came from, there is a 'normal' wave that travels through the frame and I can find "normal" or vertical shock features in the mountains, as well.
_The biggest technical hurdle is getting a supersonic wind tunnel large enough in cross-section, and with an owner who will allow us to put sand into it. I think that last part is a real problem. If we had one though, the trick would be to find a media that adheres in a supersonic wind. The "sand" needs to be sticky so it piles up and takes the shape of the shock wave. As I sit here and think about it, the medium might need to be more like a paint, or powder coat. And we need a way to inject it into the wind stream. The wind tunnel needs to be flat-floored with a vertical block in the wind flow, so the shock wave hits it and reflects, producing a standing shock waves at the block, and causes the sand, or powder coat to adhere and pile up against it. If it works, the sand should pile-up with triangular wave impressions. We would want to experiment with different media, block shapes and orientations, multiple blocks to create interference patterns, and different wind speeds.
_Assuming there is no one willing to put sand in a supersonic wind tunnel, a simpler, but less thorough test would be to simply have the wind tunnel with the block, and take Schleiren images of the shock pattern it creates. It should produce a diamond pattern. But as I have said and shown in my articles, this has been done and the results can be witnessed. The only difference is all the photos and videos record the shock waves from the side perspective - looking transverse across the wind flow through a window. We would want to look into the wind flow to see the shock waves from the longitudinal, as opposed to transverse perspective. This would require a camera in the wind tunnel, taking images looking up-wind, and/or downwind looking at the block. It would be best to use a transparent block, so we can see through it.
_I would expect that a major aerospace entity, like Boeing, or NASA has programs to simulate shock waves that would also serve the purpose of demonstrating the shock wave pattern. The phenomena is well understood as far as the fluid dynamics. Someone like Anthony Peratt would need to be involved to look at the plasma/electrical effects. If we could simulate shock waves in a plasma in the presence of a strong electric field, I'm confident we would find current coursing through shock waves and that would, in turn, 'pattern' the electric field to reflect the charge density in the shock waves.
_Magnetic fields will be produced, too, since the charged plasma is moving. Another test I'm working on that doesn't require Boeing's help is to get magnetometer readings across triangular buttresses. My brother is working on a magnetometer for the purpose and it should be finished soon. Most of the buttresses near here are sandstone with considerable magnetite, which I'm afraid will produce a chaotic background magnetism that might obscure any remanent magnetism of the original event. Other buttresses are simply too big and inaccessible to perform transects without a helicopter, or drone equipped with magnetometers. I saw examples of small flatirons in Utah made of a hard rock that I could walk around. I need to find ones like them, or find those in Utah again. By the way, those flat irons in Utah had triangular harmonic impressions across their base that looked painted on. The layer was as thin as a coat of paint and was red against the rock. It was an obviously natural example of triangles produced by the effect I'm describing and absolutely refutes formation by erosion.
_[Images not shown here] These are the pictures I took. In the first it shows the reddish orange patina on the rock, but it's too close to capture the triangular patterns The second picture shows the top of a red triangle at the bottom, just right of center, and another triangle at the bottom of the frame further to the right. It's hard to make out from this angle, but it was the best perspective I could get given I was on the side of a mountain. The last picture looks up the flat face of the triangular buttress above the harmonic red triangles across the base.
_I'm sure mainstream geologists would explain the patina as a chemical, or biological reaction on the rock, but that won't explain why they appear in triangles that match the angles of the parent rock buttress they are 'painted' on. If an honest forensic study of these natural triangular features were made, this natural example provides strong evidence of my theory, because I can't think of another plausible explanation. Maybe you or someone can. I do appreciate the skepticism because it gives me chance to consider alternatives and challenges to my argument. I'm a mechanical engineer and have worked with wind tunnels and jet engines, so have familiarity with shock waves, but I'm no expert. I would really like an aerospace engineer, or physicist expert in shock effects to look at my ideas.

[AH: Flatirons ED Cross Sections]
Re: Puzzle for Andy's Triangles
Friday, December 15, 2017 4:16 PM
From: "Andrew Hall" <hallad1257@gmail.com>
To: "lloyd kinder" <lkindr@yahoo.com>
Cc: "Doug Ettinger" <dougettinger@verizon.net> "Bruce Leybourne" <leybourneb@iascc.org> rfarrar.lpool@virgin.net louis.hissink@bigpond.com mike@newgeology.us
_Lloyd, I typically look all around the entire mountain complex to interpret what was taking place. From one photo I can't say much. The amplitude of triangles will rise and fall, as a wave form, which could be due to a number of factors, such as wind being stronger in some regions due to a venturi, or some other effect. Usually the amplitudes follow a geometric progression, which I think the ones you showed do, which is pretty unlikely from water erosion. The fact they are prismatic is odd. It may be the wind direction was at an angle to the mountain it was blown against. A flat iron face should be, more or less, perpendicular to the wind direction. Standing all by itself, a buttress should look like a tetrahedron with one flat face at a dip, which is the face the wind hits. The angle of dip of the face should reflect the mach angle of the shock wave, which can be used to estimate wind speed. They are usually between 20 degrees to nearly 90 degrees, vertical.
_I have looked at cross sections of the Colorado Plateau near San Rafael Reef, but can't find a correlating cross section for the reef itself to compare. Plus, they are all very generalized cross sections like you find in a textbook, which really don't present the finer detail and anomalies and thicknesses in any particular location, but are generalized compilations of several cross sections. What really is needed is cross sections of the reef, with corresponding cross sections of the plain in front of, and behind the reef to correlate with in a direct transect line. If you know of any, please let me know where to access them.
_I discussed some experiment ideas in another email to Doug, which I think you are cc'd.
_Food for thought, Andy

Doug Ettinger
Guest
Dec 21, 2017 at 11:48am
_Andrew Hall's explanations are very convincing for the flat-iron being caused electromagnetically. However, we still differ about the source of the electrified winds and dust, but I will remain open minded. I believe the electrified dust laden winds came from an external electrical discharge (EED) that began the Great Deluge event 11,500 BP. A high energy arc discharge struck and created the Hudson/James Bay astrobleme and the electrical currents spread southward along the Earth's surface. Yes, it is possible that such an event that I describe could have caused currents due to a large potential difference between the Caribbean trenches and the uplifted Colorado plateau. Regardless, a trigger for these currents is required.
_Andrew, have you catalogued the locations of the flat-irons on the Colorado Plateau and also in what direction they face? This is likely very important information for your hypothesis.
_Keep in mind, that these flat-irons mountainous features have occurred globally. There had to be one heck of an energy source to create all these discharges. Do you predict that these internally created discharge events happen randomly and are spaced over large periods of times?
_Regards, Doug Ettinger
_Doug Ettinger

Dec 24, 2017 at 2:50pm
_I am thoroughly convinced that electromagnetic phenomena created the flatirons. There is no erosion mechanism that can produce these geometric shapes and separate the different minerals into distinctive layers. Tilted strata and existing raised ridges are all part of this phenomenon. The layers also have distinctive configurations as is seen at the various locations. You also obtain these same, but distinctive layering processes with electric arc welding.
_The questions are - What caused the severe tilting of strata? What caused the "ground hugging" ED to travel long distances separating different ionic electrified materials and then depositing them on the sides of mountain ridges? "Ground hugging snow" deposits itself on the weather side and top of mountain ridges all the time. I know first hand, since these are the only places to xc-ski in Western Pennsylvania. Due to gravity, the winds of electrical storms necessarily stay close to the Earth's surface.
_Please, please study these fine pictures of flatirons. There is no other conclusion.
_Regards, Doug Ettinger

Boulders on Cones
RE: Do I have your model right?
Friday, January 5, 2018 2:10 PM
From: "Robert Farrar" <rfarrar.lpool@virgin.net>
To: "'lloyd kinder'" <lkindr@yahoo.com> Cc: hallad1257@gmail.com leybourneb@iascc.org
_Post Script
I have viewed Andy’s very interesting presentations at thunderbolts.info- when a thought occurred to me- that’s not easy for the hard of thinking!
In the presentations Andy notes structures formed following lightning strikes in the ‘Four Corners’ region of the US. What caught my attention was his description of the resultant conical mound as being covered with pebbles of fused sand.
Now consider the island of Surtsey. Surtsey formed in a commotion of fire and electricity:
img.gawkerassets.com/img/18ist7ga037ujjpg/ku-xlarge.jpg
Now consider this from Louis Hissink:
lhcrazyworld.wordpress.com/2017/05/24/surtsey-island-sedimentology-conundrums/
Is it possible that the boulders, cobbles and pebbles of Surtsey are analogous to the fused pebbles observed by Andy? Can we conclude that volcanoes form where ‘internal’ and ‘external’ lightning meet?
Regards,
Robert

Re: Do I have your model right?
Saturday, January 6, 2018 2:02 PM
From: "Andrew Hall" <hallad1257@gmail.com>
To: "lloyd kinder" <lkindr@yahoo.com> Cc: "Bruce Leybourne" <leybourneb@iascc.org> rfarrar.lpool@virgin.net
_Robert, To address your post script... There are many examples of very large scale cone shaped mountains covered with rounded boulders - some as big as a house - that I think are lightning strike features, and the boulders are created the same way as the 'anthill' features I showed in that article. The rock was fused in the lightning channel and dropped back on top of the mound. They are round because they formed in suspension. The outside is generally blackened, like it's burned. I'll do a future article that will include these type of features.
_There are also features of small rock mounds which are lightning features. The rock wasn't dropped on top of a mound in this case, but was created where the lightning struck, embedded in the ground. They are small enough that I can climb over them and measure the magnetic dipole. There are also features of sheet rock, or breccia from a sheet of rock that forms a surface gravel over a shallow rounded mound, made, I think, from 'brief' lightning strikes that flashed over the ground, fusing the sheet of rock that later breaks up into a gravel.
_You said, "Can we conclude that volcanoes form where ‘internal’ and ‘external’ lightning meet?" I think the answer is yes. The lightning and other electromagnetic phenomena (earthquake lights, etc.) are evident. The ring of fire isn't a subduction zone, it's a current path. Many lightning features, like the pinnacles near four corners (Agaltha and Shiprock) are mistaken for volcanic diatremes.
_As to the rocks on the beach - the article indicated the beach was seen to be a sheet of lava, and then years later it was found to be round rocks. In that case I would consider off-gassing as a cause of erosion. The rocks in the picture all appear to have pits and holes from off-gas bubbles. Perhaps they 'eroded' into round cobbles as trapped gas alternately heated and cooled as the rocks were smashed by waves, causing the rock to break down over a relatively short period of time.

On Mon, Jan 8, 2018 at 7:23 PM, lloyd kinder <lkindr@yahoo.com> wrote:
_3. BALLS ON CONES. __Andy & __Robert, I copied your recent emails to cnps.boards.net/post/ 102/thread . That's part of the EU Mountains thread, which everyone may like to review, & includes the Flatirons discussion. __Andy, do you have images of over-sized boulders on top of volcanoes? Or do you have measurements of the sizes of the largest boulder there and the size of the volcano it sets on? You may like to review this webpage: http://written-in-stone-seen- through-my-lens.blogspot.com/ 2012/08/ship-rock-at-sunset- partially-exhumed.html . He has good images of the Shiprock structure and a cross-section of it and some info about how it may have formed. The cross-section shows a volcanic vent under it. Do you consider that false? Charles Chandler has explained in his Volcanoes paper at qdl.scs-inc.us/?top= 10527 that volcanoes are caused by electric currents to the Moho. Peter James of SIS Review, I think, said some years ago that the Moho is plasma. If you read Charles' other papers on how the solar system formed etc, he explains how the stars and planets develop electric double layers, 3 layers for Earth +-+ and 5 for the Sun +-+-+. The Moho may be a boundary between the crust and the mantle.
__Andy, the dikes at Shiprock and the balls on top of cone-volcanoes etc sound like they could be electrical somehow, but there needs to be very good evidence before I can agree that it's probable. I imagine if the atmosphere were 2 or 3 times thicker, as __Mike suggests, storms could have been much more severe. I imagine also that megalightning from such storms might trigger volcanic eruptions at certain delicate locations. It appears most likely that a Great Flood laid down sediments under catastrophic conditions, that a volcano erupted at Shiprock (whether or not triggered by megalightning), & that flood sheet erosion washed away the exterior after the magma in the vent had hardened enough. If the dikes are lava, the sediments could have cracked a few feet wide from the pressure of the uprising lava/magma to form the dikes. That seems more likely, than that lightning in the air somehow formed the dikes. What do you think?
__Andy, I mentioned recently that the cross-section of the Flatirons in Colorado suggests they didn't form by Andy's model of E.D. Did anyone wish to discuss that? Is there any chance the cross-section is wrong? Do any of you (__Bruce, __Louis, __etc) know where to get good geologic cross-sections, especially on opposite shores of oceans? Are drill core repositories where geologists go to draw up cross-sections? Like this? oregonstate.edu/ua/ncs/ archives/2017/mar/osu-expand- sediment-core-collection-one- largest-world
__Andy, you said you think the Pacific ring of fire is an electric current, rather than a subduction zone. Then how do you think the Atlantic formed? Why can't it be both? If the entire Moho is plasma, electric current is available just 7 km below the surface of the ocean basins. Please check out __Mike's short video at youtu.be/_IIE8UnvPUg and his website at NewGeology.us . He explains that the American plates slid over the Pacific plate, only as deep as the Moho, after a major impact off east Africa split the supercontinent and pushed the pieces (i.e. continents) apart. So it's not like mainstream ideas of subduction, where the crust somehow sinks into the mantle. So that's when most of the volcanism occurred. At Yellowstone it occurred as the North American plate slid over the East Pacific Rise. Isn't that plausible?

RE: Do I have your model right?
Friday, January 5, 2018 2:10 PM
From: "Robert Farrar" <rfarrar.lpool@virgin.net>
To: "'lloyd kinder'" <lkindr@yahoo.com> Cc: hallad1257@gmail.com leybourneb@iascc.org
_How and when did mountains form?
_Mountains formed recently in Earth’s history (Pliocene, Pleistocene). As James Maxlow ... pointed out Ollier and Pain have done excellent research in this area. Mountains are due to in situ uplift and erosion, this process happened the world over during a well defined ‘recent’ period. My view is that this period was more recent than Ollier and Pain realise and involved electrical uplift and erosion.

Re: CNPS Questions for EU etc
Tuesday, January 9, 2018 7:26 PM
From: "Andrew Hall" <hallad1257@gmail.com>
To: "lloyd kinder" <lkindr@yahoo.com> Cc: rfarrar.lpool@virgin.net "Doug Ettinger" <dougettinger@verizon.net> mike@newgeology.us "Bruce Leybourne" <leybourneb@iascc.org> louis.hissink@bigpond.com
_I would expect Shiprock to have a penetration beneath it. Whether the 'lightning' that caused it is from the sky, or from the ground, either way it is an interaction between earth and sky due to capacitance across an electric field. I think Shiprock is a fulgarite created by an arc from the sky - not space - but from a vicious atmospheric, ionic storm. I have provided pictures and discussed how I think it formed in two articles in Thunderblogs this past month.
_I consider volcanic eruptions to be caused by heat from 'mantle currents'. I don't consider Shiprock volcanic, even though it did 'erupt' matter from below, but the matter was drawn out by lightning and left standing when the arc extinguished. I don't think the arc penetrated very deep, because for one, it built a pinnacle from material that appears to be from a shallow depth and two, because the star pattern of dykes indicates a significant side flash current which probably limited the arcs penetration.
_Whether the Moho is plasma, or there is structure beneath the crust that we simply don't understand, I'm not sure, but conceptually, I agree with the idea of plasma currents beneath the crust that provides the heat for the ring of fire and similar volcanic regions. I consider the basalt crust beneath the ocean floor to be the primordial crust formed during the planet's birth. All the continental plates were deposited by the action of these hot sub-crustal currents at what are now plate boundaries. The sequence of events as I see it:
_The mantle currents once flowed in a different pattern that led to where continental cratons have formed. The EPR once led to the Great Lakes. The currents heated and erupted, melting the basaltic crust and boiling it up to form the first continental cratons. The craton formation disrupted the mantle current flow, so it shifted to a new pattern and made more cratons. The EPR shifted westward, eventually forming Yellowstone, and then it continued west to the current coast line. This is why the North American plate has several cratons that evolved over time and why Yellowstone has a pattern of other eruptions to the west.
_Total Lithosphere Thickness peterbird.name/publications/2008_torque_balances/012_total_lithosphere-Earth5N.jpg
_The sedimentary layers that overlay the cratons, and particularly the orogenic belts, were deposited ionically by winds and floods, interspersed with sheets and flows of volcanic eruptions and lightning formed features like Shiprock. The fulgamites, fulgarites and volcanic cones provided features on otherwise flat, windswept plains for windblown dust to pile against. This is how most mountains formed, by dust forming dunes around points of capacitive discharge, whether either an arc from the sky, or a magma erupting from below. That piling up of matter would have been like a ferro fluid, sticking ionically and recombining to form rock in-situ. Storms that shaped the continents occurred many times, but I have no idea of age for any particular sequence. Any radiometric dating would be off because it doesn't consider the ionic formation of rock in-situ, and that the nuclear state of the matter is different from formation. The layering of cratons and then sediments, and the interspersing of volcanic flows, glaciation and other features provides a sequence of events, but dating needs to be reconsidered from scratch.
_As the North American plate formed by eruption and storm, another discharge occurred when mantle currents reached a voltage that caused it to break through the crust. In the latest major event that shaped the landscape as we see it, the mantle current could not break through the thicker layer of continental crust due to resistance, so broke out around the edges, and especially in the Carribean, and arced across the continents to the area of highest voltage differential, which is the volcanic eruptions at Yellowstone and elsewhere on the Colorado plateau. This event was the arc blast that also dragged tsunami and trillions of tons of sand and other material with it. The arc blast is a flash-over of current from the mantle that cut through the basaltic crust and left deep trenches and carved the land into Lichtenberg cuts that we know as rivers. Subsea canyons are the rilles left by the flash-over arcing.
_These are pictures from San Rafael Reef and Comb Ridge monoclines of triangular buttresses formed by winds and shock waves. The deposition is parallel to the dip of the triangle's face, as that is how it was deposited. Someone said like a hockey stick, and that is correct. Surrounding the monocline is a region of arc blast that left river channels surrounding the monocline. These were created by arc blast, which carved away some layers of sediments. The Comb Ridge monocline, for instance, appears that it was partially buried and then excavated by arc blast, or EDM, so there is deformation of the land after wind deposition that must be accounted for. Also, the land behind the monocline was shielded from deposition while the monocline formed, creating a dead zone that might be detectable in the stratigraphy if it hasn't been altered by subsequent events.
_As to Mike's concept, I think it could be plausible, but my own observation indicates that the continents didn't move - the mantle currents moved, finding new pathways as it burned it's way through the mantle, or Moho. The reason I think this is because there are repeating patterns across the globe that indicate a fractal repetition of similar forces that can be explained by capacitive discharge phenomena. The wrinkles and ridges that make the Earth look like it was squeezed and cracked were caused by these moving currents that shifted suddenly due to electro-mechanical forces. The continents didn't move, but the currents shifted as the Earth gimballed on its own geo-magnetic field - and the sun shifted in the sky whenever that happened. I think this is different than anyone else's idea, but comports with Velikovsky and my own observations, which I am still building on as a work in progress.
_Cheers, Andy

Tuesday, January 9, 2018 7:43 PM
From: "Andrew Hall" <hallad1257@gmail.com>
To: "lloyd kinder" <lkindr@yahoo.com> Cc: rfarrar.lpool@virgin.net "Doug Ettinger" <dougettinger@verizon.net> mike@newgeology.us "Bruce Leybourne" <leybourneb@iascc.org> louis.hissink@bigpond.com
_I should also add, lightning in an ionic storm would not only be an arc mode discharge. In a highly ionized atmosphere with energetic ground currents, vortex winds of Marklund convection and dark current unipolar winds would also play a role in shaping landscape, creating domes, craters and etching, and motivating supersonic winds and tsunami. Think of a tornado the size of the San Rafael Reef, or Monument Valley - fifty to a hundred miles across, stemming from a hurricane the size of the Colorado Plateau. The environment wasn't one where lightning was a couple times bigger than what we witness today, but orders of magnitude bigger creating an environment perhaps even more violent than Saturn, or Jupiter.

Tuesday, January 9, 2018 7:49 PM
From: "Andrew Hall" <hallad1257@gmail.com>
To: "lloyd kinder" <lkindr@yahoo.com> Cc: rfarrar.lpool@virgin.net "Doug Ettinger" <dougettinger@verizon.net> mike@newgeology.us "Bruce Leybourne" <leybourneb@iascc.org> louis.hissink@bigpond.com
_I should also add, this model is the only one that one can see taking place in the universe, since we can witness such storms on other planets. Occam's razor suggest we base theory on what is most simple, real and observable before inventing complex processes that have never been witnessed.

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