Post by Admin on Nov 14, 2017 20:41:56 GMT
References:
andrewdhall.wordpress.com/2016/06/05/arc-blast/
thedailyplasma.blog/2016/09/16/arc-blast-part-one/
thedailyplasma.blog/2016/09/16/arc-blast-part-two/
thedailyplasma.blog/2016/09/16/arc-blast-part-three/
thedailyplasma.blog/category/electric-universe/electric-earth/
Following are excerpts from Andy Hall's material online that I hope our Geology group can discuss soon, either here or on live discussions or both. My questions will be in RED.
Four Steps to Build a Mountain thedailyplasma.blog/2016/09/16/arc-blast-part-one/
The following image [I'm not showing it here, because it seems too unclear. Is there a better diagram somewhere?] from Los Alamos Laboratories shows a shock wave being created by a supersonic projectile passing over water. ... It provides a very good analogy for the way a mountain is built. The result of the arcs passing is embossed on the land by shock waves that act almost precisely as those made by the projectile. The difference being the shock wave is plowing land, not water, and it has the hyper-sonic velocity, heat and power of an arcing current – much more energy than a simple projectile. The bow shock is an anvil of many thousands of psi, at a temperature many times that of the sun, carrying charged electric fields. In a dense, viscous environment, fluid mechanics, shock effects and electromagnetism align in phase and frequency with the arc that creates them.
In Region 1 the bow shock vaporizes and melts the ground, plowing an oblong crater. Region 2 is a reflected shock wave blasting into the atmosphere, pushing an exploding cloud of vaporized debris into a Richtmeyer-Meshkov instability, more commonly known as a mushroom cloud. ... The mushroom cloud rises behind the shock wave with a supersonic vacuum at its core. The updraft of expanding gases generates in-flowing ground winds that scream like banshees across the ablated surface of the blast zone, attaining supersonic speeds as they funnel to the core of the updraft, dragging clouds of molten rock and dust.
The ground winds are directed perpendicular to the primary shock wave. Keep this in mind, because it is very important evidence in the geometry of mountains. In Region 3, a low pressure updraft forms, like the rooster tail behind a speedboat. The rooster tail pulls ablated melt from the crater. It forms the core of the mountain. In Region 4, multiple shock reflections form triangular wave-forms. Note, the reflected wave bounces from the surface. The base of the triangle forms on the surface that reflects it. The multiple shock reflections in Region 4 are standing waves. Standing waves don’t travel. The wave-form stays in place with the energy coursing though it. Reflected waves multiply, like in a hall of mirrors, repeating harmonic wave-forms to the nth degree, until the energy of the shock dissipates.
The reflected shock waves are rigid and stable when the energy is high, creating a shock ‘envelope’ over the ablated land. The energy does not dissipate quickly, because the vacuum of the mushroom cloud above is punching a hole through the atmosphere, drawing supersonic winds through the shock envelope like a cosmic vacuum. This is a source of free energy to the shock wave that keeps it alive.
Shock waves are highly energetic. They are razor thin sheets of pure energy, entire tsunamis in a sheet of glass. Like steel plates animated with resonate energy that derives from the original bow shock. The incoming ground winds funnel through triangular plenums formed by reflected shock waves. The entire envelope of reflected waves acts as a coherent entity, with structural stiffness, resonating with the vibrations of the parent shock and the supersonic winds screaming through it. It rides on the surface of the land, spread across the entire impact zone of the bow shock, like a multi-manifold vacuum cleaner, hosed to a hole in the sky above. The winds plaster the mountain core with layered triangular buttresses.
When a shock wave dissipates, the inflow of winds doesn’t necessarily stop, but they slow down and are no longer constrained to the path formed by the shock fronts. The final layers of material deposited often lose coherence and exhibit sub-sonic flow patterns.
The layered material on buttresses is deposited in a hot, molten state. Patterns of deposition display evidence of molten fluidity at the time they were made.
Triangles In Nature – Why?
andrewdhall.files.wordpress.com/2016/04/annotatedrm3.jpg?w=457&h=365
Close-up you can see the triangles are mostly soft dirt sediments laying on hard sandstone rock. They should have eroded away millions of years ago. Yet here they sit in a neat, tidy row along the base of jagged, rocky slopes. The triangles are evenly layered and cut straight, yet the rock underneath is uneven and convoluted. There doesn’t appear to be evidence of water flow at all.
The triangles aren’t piles of dirt fallen from the slopes above, either. They are clearly layered at the same angle throughout, with hard layers sandwiched between layers of soil. The soil is not even the same color. A rock slide couldn’t do that.
Look at something even stranger. On this mountain in Iran, triangles repeat in harmonics. The triangles are layered on one another, with the outer ones repeating the form in harmony – where two, three or more triangles repeat inside the form of the previous triangle. I circled where seven tiny ones formed across the base of a larger one.
Harmonics displays itself often on the flanks of mountains of every type of rock, from sandstone to granite, everywhere in the world. They appear in rows, spaced precisely like wavelengths, their amplitudes rising and falling in geometric progression in nested, harmonic triangular forms.
thedailyplasma.blog/category/electric-universe/electric-earth/
I’m talking about a primordial wind of super-sonic velocity, that generated shock waves and carried electricity. That is why these features appear with patterned perfection. Shock waves create triangular patterns. The mountains didn’t erode into these shapes, they were built into these shapes, like sand dunes in the wind. In fact, except for volcanoes, sand dunes are the only mountain we see made – by the wind. (Bullet impact creates triangular shock wave reflections. Supersonic wind produces triangles in standing, reflected waves.)
[Does anyone have geologic cross-sections of any of these mountains that appear to have been formed by these ground-hugging supeersonic {ED?} shockwaves?]
_BL PDF: EARTH AS A STELLAR TRANSFORMER
Ref: andrewdhall.wordpress.com/2016/06/05/arc-blast/
_Vectors…
_Let’s be very clear on this, the wave-forms have no physical explanation in mainstream geology. The wave-form shapes, reflections, harmonics, expansions and contractions dictate a shock event that came from above.
_A large comet, or asteroid that atomizes in an air burst could produce a plasma that sears the land, creating a crater, or astrobleme. But such an event would produce a linear, oval, or circular blast zone. Several fragmented bolides from a comet would produce a grouping of astroblemes, but they would necessarily be aligned to the comet’s trajectory.
_Only an electrical arc has the ability to make turns in it’s path. The following images demonstrate what I am showing is not the result of any type of rock from space. Future articles will discuss more on the nature of an arc flash. (This one is 100 miles long – Syria)
Are there more images of long sinuous mountain chains with the shockwave-formed buttresses? What percent of the world's mountains show these same signs of shockwave formation?
andrewdhall.wordpress.com/2016/06/05/arc-blast/
thedailyplasma.blog/2016/09/16/arc-blast-part-one/
thedailyplasma.blog/2016/09/16/arc-blast-part-two/
thedailyplasma.blog/2016/09/16/arc-blast-part-three/
thedailyplasma.blog/category/electric-universe/electric-earth/
Following are excerpts from Andy Hall's material online that I hope our Geology group can discuss soon, either here or on live discussions or both. My questions will be in RED.
Four Steps to Build a Mountain thedailyplasma.blog/2016/09/16/arc-blast-part-one/
The following image [I'm not showing it here, because it seems too unclear. Is there a better diagram somewhere?] from Los Alamos Laboratories shows a shock wave being created by a supersonic projectile passing over water. ... It provides a very good analogy for the way a mountain is built. The result of the arcs passing is embossed on the land by shock waves that act almost precisely as those made by the projectile. The difference being the shock wave is plowing land, not water, and it has the hyper-sonic velocity, heat and power of an arcing current – much more energy than a simple projectile. The bow shock is an anvil of many thousands of psi, at a temperature many times that of the sun, carrying charged electric fields. In a dense, viscous environment, fluid mechanics, shock effects and electromagnetism align in phase and frequency with the arc that creates them.
In Region 1 the bow shock vaporizes and melts the ground, plowing an oblong crater. Region 2 is a reflected shock wave blasting into the atmosphere, pushing an exploding cloud of vaporized debris into a Richtmeyer-Meshkov instability, more commonly known as a mushroom cloud. ... The mushroom cloud rises behind the shock wave with a supersonic vacuum at its core. The updraft of expanding gases generates in-flowing ground winds that scream like banshees across the ablated surface of the blast zone, attaining supersonic speeds as they funnel to the core of the updraft, dragging clouds of molten rock and dust.
The ground winds are directed perpendicular to the primary shock wave. Keep this in mind, because it is very important evidence in the geometry of mountains. In Region 3, a low pressure updraft forms, like the rooster tail behind a speedboat. The rooster tail pulls ablated melt from the crater. It forms the core of the mountain. In Region 4, multiple shock reflections form triangular wave-forms. Note, the reflected wave bounces from the surface. The base of the triangle forms on the surface that reflects it. The multiple shock reflections in Region 4 are standing waves. Standing waves don’t travel. The wave-form stays in place with the energy coursing though it. Reflected waves multiply, like in a hall of mirrors, repeating harmonic wave-forms to the nth degree, until the energy of the shock dissipates.
The reflected shock waves are rigid and stable when the energy is high, creating a shock ‘envelope’ over the ablated land. The energy does not dissipate quickly, because the vacuum of the mushroom cloud above is punching a hole through the atmosphere, drawing supersonic winds through the shock envelope like a cosmic vacuum. This is a source of free energy to the shock wave that keeps it alive.
Shock waves are highly energetic. They are razor thin sheets of pure energy, entire tsunamis in a sheet of glass. Like steel plates animated with resonate energy that derives from the original bow shock. The incoming ground winds funnel through triangular plenums formed by reflected shock waves. The entire envelope of reflected waves acts as a coherent entity, with structural stiffness, resonating with the vibrations of the parent shock and the supersonic winds screaming through it. It rides on the surface of the land, spread across the entire impact zone of the bow shock, like a multi-manifold vacuum cleaner, hosed to a hole in the sky above. The winds plaster the mountain core with layered triangular buttresses.
When a shock wave dissipates, the inflow of winds doesn’t necessarily stop, but they slow down and are no longer constrained to the path formed by the shock fronts. The final layers of material deposited often lose coherence and exhibit sub-sonic flow patterns.
The layered material on buttresses is deposited in a hot, molten state. Patterns of deposition display evidence of molten fluidity at the time they were made.
Triangles In Nature – Why?
andrewdhall.files.wordpress.com/2016/04/annotatedrm3.jpg?w=457&h=365
Close-up you can see the triangles are mostly soft dirt sediments laying on hard sandstone rock. They should have eroded away millions of years ago. Yet here they sit in a neat, tidy row along the base of jagged, rocky slopes. The triangles are evenly layered and cut straight, yet the rock underneath is uneven and convoluted. There doesn’t appear to be evidence of water flow at all.
The triangles aren’t piles of dirt fallen from the slopes above, either. They are clearly layered at the same angle throughout, with hard layers sandwiched between layers of soil. The soil is not even the same color. A rock slide couldn’t do that.
Look at something even stranger. On this mountain in Iran, triangles repeat in harmonics. The triangles are layered on one another, with the outer ones repeating the form in harmony – where two, three or more triangles repeat inside the form of the previous triangle. I circled where seven tiny ones formed across the base of a larger one.
Harmonics displays itself often on the flanks of mountains of every type of rock, from sandstone to granite, everywhere in the world. They appear in rows, spaced precisely like wavelengths, their amplitudes rising and falling in geometric progression in nested, harmonic triangular forms.
thedailyplasma.blog/category/electric-universe/electric-earth/
I’m talking about a primordial wind of super-sonic velocity, that generated shock waves and carried electricity. That is why these features appear with patterned perfection. Shock waves create triangular patterns. The mountains didn’t erode into these shapes, they were built into these shapes, like sand dunes in the wind. In fact, except for volcanoes, sand dunes are the only mountain we see made – by the wind. (Bullet impact creates triangular shock wave reflections. Supersonic wind produces triangles in standing, reflected waves.)
[Does anyone have geologic cross-sections of any of these mountains that appear to have been formed by these ground-hugging supeersonic {ED?} shockwaves?]
_BL PDF: EARTH AS A STELLAR TRANSFORMER
Ref: andrewdhall.wordpress.com/2016/06/05/arc-blast/
_Vectors…
_Let’s be very clear on this, the wave-forms have no physical explanation in mainstream geology. The wave-form shapes, reflections, harmonics, expansions and contractions dictate a shock event that came from above.
_A large comet, or asteroid that atomizes in an air burst could produce a plasma that sears the land, creating a crater, or astrobleme. But such an event would produce a linear, oval, or circular blast zone. Several fragmented bolides from a comet would produce a grouping of astroblemes, but they would necessarily be aligned to the comet’s trajectory.
_Only an electrical arc has the ability to make turns in it’s path. The following images demonstrate what I am showing is not the result of any type of rock from space. Future articles will discuss more on the nature of an arc flash. (This one is 100 miles long – Syria)
Are there more images of long sinuous mountain chains with the shockwave-formed buttresses? What percent of the world's mountains show these same signs of shockwave formation?