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Large Scale Wind Structures
Earth’s landscape provides rock-solid evidence it is the result of electric circuitry, stimulated by some outside force that caused massive discharges. The discharges, however, did not occur as giant sparks jumping from one planet to another, as many EU theorists would lead you to believe. The Earth is, itself a circuit, and the discharges were modulated by capacitance in its layers of crust and atmosphere.
Earth is a transformer, in one aspect, and a capacitor in another. The internal transformer inducts current and raises voltage in the Earth’s electric field; and outer layers of exosphere, thermosphere, mesosphere, stratosphere, troposphere, lithosphere and asthenosphere provide capacitance, which stores and releases energy.
If the ambient voltage around Earth is changed, the internal voltage of Earth must also change in mirror fashion, because it is all one with the circuit of the Sun. As Above, So Below .
When change takes place in the Solar System, from say a large CME, or a planet out of place, the Earth must also enter a transient phase of adjustment to balance it’s internal circuits.
In a transient phase, Earth either has to store energy, or release it from its capacitor plates. In either case, it ramps up the currents in Earth’s circuits. When Earth’s crust releases energy, we call it a volcano . And when the atmosphere releases energy, we call it weather .
In primordial times, the environment Earth was in went through dramatic transient phases. When this happened, both land and atmosphere went into upheaval, creating an atmosphere best represented today by Jupiter’s. Fractal patterns of motion, heat and diffusion on Earth’s landscape match the cloud patterns on Jupiter in a fashion that can leave no doubt. It’s because the same actions of induced current flow and capacitance is taking place on Jupiter now, in the manner Earth experienced in it’s creation.
We can view these patterns at every scale and find they add up to a coherent picture of the physics behind them. Let’s now examine some of the best examples, starting large and then focusing down.
Mountain Arcs
Look at the following patterns of mountain ranges in Siberia, Europe and sand dunes in Saudi Arabia. Then look at the cloud formation on Jupiter and you will see a similar pattern. This pattern repeats everywhere in the clouds of Jupiter. In both cases, the pattern is formed by an up-welling flow of winds in a shear zone of turbulence.
These are the interface zones between circulating winds – dust laden, ionized winds flowing at near, or above Mach speed. The mountains were swept into these sinuous strands, hardened and fused by ionized matter recombining, and the radiation and pressure from an intense fire in the sky, as lightning carpet bombed the rising piles of charged earth.
They all follow the shape of a dragon, as do Jupiter’s clouds which display the sinuous shape of the shear zones, where a towering cloud top forms the anvil of a thunderstorm along the up-welling electric winds. The primary motion of Jupiter’s most turbulent winds are up and down, so the cloud tops of the most prominent updrafts display the motion throughout the column, all the way to the planet surface.
What the “surface” of Jupiter is, I don’t know, but it isn’t what we have here on Earth. Maybe it is a super-fluid of hydrogen liquid, or maybe it’s not. Planetary scientists are pretty much always wrong in their predictions. The chemistry and thermodynamics are completely different, that is certain. The fractal shapes and weather effects comes from internal circuitry and how charge diffuses radially away through spherical capacitance. It doesn’t much matter what it’s diffusing through, as long as there are layers with phase changes to cycle things up and down.
Repeating forms at different scales is proof of a fractal process. The only fractal process we know in this Universe, which effects every aspect of matter, whether organic or not, is the process of charge diffusion in an electromagnetic field. We can call it different things: chemistry, thermodynamics, biology, or quantum mechanics; but the closer we look, it always gets back to one thing – it’s electric.
Consensus science likes to call turbulence chaotic. It is anything but. It takes on fractal, repeating, scalable forms that have strange properties of symmetry. Symmetries can be translational and/or rotational about several axis without disrupting the energy balance. So they’re never exactly identical, but they are always the same in a psychedelic, upside-down, inside-out sort of way. They aren’t chaotic, they are just complex.
Boundary layers between shearing winds produce series effects like these…..
Parallel currents occur in repeating forms, too. So, there are parallel and series circuits. Gee, it’s just like electricity.
Let’s compare in detail. One spade-shaped feature is almost ubiquitous in Jupiter’s turbulence, and on Earth’s landscape: The ‘boot print’.
On Jupiter, the boot print is the down-drafting eye of a cyclone being pinched in the turbulent flow of competing winds. The cyclone is fed by a filament of high level winds raised by a billowing thunderstorm, which together forms a piece of a circuit – a ring current between the atmosphere and ground – or whatever serves for “ground” on Jupiter. In a sense, it works like an operating amplifier, or Op Amp within the larger circuitry of the planet.
Boot Prints!
Boot prints on Earth:
Boot prints on Earth are clear evidence of electric formation, because not only do they have the same fractal shapes as the clouds on Jupiter, they display exactly what is expected in fine detail. The boot print is the consequence of a down bursting wind – as produced by the boot-print cyclones on Jupiter – a hot, ionized, super-sonic, dust laden wind aimed at the ground like a blow-torch.
The mountain rim is the pattern of a standing shock wave. The repeating triangular layers on the inner flanks are impressed there by harmonic shock reflections, which channeled the wind at the boundary layer, and trapped dust in the low pressure zone of triangular wave-forms.
If a down burst wind strikes at an angle, rotates, or its mass flow is biased to one side, it will affect the shape of the crater it forms. Boot prints are accompanied by a feature called a Prandtl-Meyer expansion fan, as shown in this image. It is a series of standing shock waves that form a linear pattern of compression and rarefaction, which implies the boot print is the result of an obliquely striking wind that rotated.
The image above is proof, by the way, of my theory. Anyone with a supersonic wind tunnel can produce a Prandtl-Meyer expansion fan – it’s been done countless times – but find a way to produce it by tectonic uplift, seismic vibration, slip faulting, erosion, meteor strike, or any other conventional geophysical means. Can’t be done. It is uniquely the result of supersonic shock. Nature provides all of my proof.
If you remain a skeptic, at least agree it is not just me saying so – you can see for yourself. The correlation is not only visual similarity, but also the same causation – vertical high speed winds, electrically charged and shaped by electromagnetic fields. Proof of Jupiter’s complex wind flow is in NASA’s data (and I predict it will verify what I say 100%); proof of the effects on Earth is under our feet, and in decades of applied science in supersonic shock-wave behavior (and again, I predict it will agree with me 100%). I’m not even an “expert” and I can figure it out. Proper interpretation of data and some wind tunnel testing would put the issue to bed.
But maybe I can do that with this next example.
California
California’s most prominent feature is the San Joaquin Valley and it’s surrounding mountains, including the imposing Sierra Nevada mountain arc. The floor of the valley is a long, flat plain, the elevation only changing from about five hundred to one thousand feet above sea level. It is ringed by mountains, which rise as high as fourteen thousand feet. Essentially, it forms a bathtub, and the floor of the valley is ancient sea bed.
It was created by a storm like this one on Jupiter. So, let’s look at some amazing details.
In this image, I indicate four specific areas we’ll discuss.
Area 1 – Mojave Desert
This almost perfect triangular plain of high desert is demarcated by the line of the Tehachapi mountains to the north which meet the southern ‘butt’ of the Sierras, and the ruler straight line of San Gabriel mountains to the south, which also aligns with the San Andreas Fault (more about that later).
It correlates to the region of low level winds, tinted blue, at the cusp of the oval storm rotation on Jupiter. These winds are sinking winds – that is they are pressing against the ground in a Venturi effect as they speed around the cusp of the storm. You can see the Venturi in the deepest blue triangle below the cusp. The yellow-brown ring of the storm is a rising wind, forming what is essentially a continuous ring of thunderstorms. The sharp triangular demarcation between desert and mountain is the shear zone where shock waves formed between the low level horizontal winds and the rising winds of the rotating storm.
Brown denotes high level rotating winds, blue are ground level winds. Red indicates the San Andreas Fault.
As these winds rounded the corner into the Venturi, (headed toward Ventura, California, coincidentally – or not) they accelerated, gouging the deep Owens, Saline, Amorgosa and Death Valleys. Separating these valleys rise eleven thousand foot ridge lines of the Panamint, Darwin and Amorgosa ranges. They formed as sastrugi, parallel to the jet streams in low pressure interference zones, and their patterns of deposition reflect the conflicting winds that formed them.
Lightning in this region had to be imposing. A plasma intensifies in a shear zone, meaning it generates ion content due to the shearing and extreme temperature and pressure differentials. Shearing supersonic winds bounce shock waves between them, generating the highest current density in jet-streams that extended for thousands of miles. Lightning discharged from these plasma streams focused on the piling mountains below with the capacity of a thousand-mile-long thunderstorm being continually fed new energy.
Jupiter Lightning – credit NASA
The current dumped in the strike zone didn’t simply flash a split second, here and there, but arced continuously, diffusing through the land welding granite from dust and sand. That is why the Sierras, in this southern portion of the range, have the most impressive granite structures: Yosemite, Mt. Whitney, it’s neighboring peaks, and the Domes. The granite of the Sierras lies atop sediments, which implies the storm(s), by either wind or tsunami, brought layers of dust before lightning began to strike.
Area 2 – Coalinga
Coaling Station “A” was it’s original name. Coalinga, as it’s called today, is an old California ‘oil patch’ town. The foothills that surround it are oil-fields – anticlines of shallow sandstone saturated in heavy oil. Similar anticlines flank the western side of the San Joaquin Valley, from Coalinga all the way to the southern end of the bath-tub at Bakersfield. These anticlines compose some of the largest oilfields in North America.
What created them was like this turbulent region in Jupiter’s clouds. The colorized image from NASA shows high level clouds in yellow, and low level clouds in blue, to black. There are several tornado rotations along the boundaries of opposing flows. There are also deep, dark, linear filaments.
Now correlate the dark filaments with the deep cut, linear valleys near Coalinga. The dark filaments are ground level jet streams, which are what formed these valleys by preventing dust from depositing. Follow the filaments on Jupiter and they end in a tornado. Follow valleys through the mountains and they end in hills with spiral features. In other words, the filaments are jet streams hugging the ground, cutting beneath the storm clouds to feed giant tornadoes. Fascinating isn’t it?
I think so.
By tracing the wind flows perpendicular to shock fronts, easily identified by the tetrahedron shapes left by shock separation bubbles, a map of ground level winds is produced. High level wind patterns are informed by the cloud structures on Jupiter, which viewed as an energized plasma turbulence makes perfect sense.
Blue lines represent ground level winds, combing across the San Joaquin Valley, and rising into thunderstorms. Yellow represents the higher level meso-cyclone winds which rained dust and rock. The blue winds approach the thunderstorms orthoganally, then rise in the updraft of the storm. Dark blue lines are the tornadoes and ground hugging jet streams.
It seems chaotic – winds criss-crossing in every direction. But it’s not. The overall structure of wind pattern is called a Kelvin-Helmholtz instability. It happens all the time if there is wind shear. We aren’t informed of the three dimensional electro-magnetic patterns because scientists haven’t …. well, you can judge for yourself who is giving this deep thought; who is stupid and who is smart. I’m just here to show some pictures and suggest maybe someone has failed to ask the right questions.
Area 3 – San Joaquin Valley
Look inside the yellow ring of thunderstorms, and it looks like a pin-cushion, pricked with dozens of tiny vortexes. They are tornadoes, or perhaps in the primordial Earth storms, water spouts, because the San Joaquin Valley was likely a sea at the time.
The waterspouts ranged over the Central Valley ocean, each one as large as an entire thunderhead. One large, yellow rotation occupies the center of the storm. We’ll look at that closer in the next section. Interestingly, though, there are hills full of fossils in the San Joaquin Valley – as if spun into place by such tornadoes. Hills full of sharks teeth that came from ancient, giant megoladon, which provides some indicia for timing the latest storm.
There is other evidence in the region, like the rich gold deposits in the Sierra foothills – but explanations for that won’t be free. Sorry.
Area 4 – San Fransisco Bay
Here, you are literally seeing the drain in the bath tub….Like I said, the San Joaquin Valley is like a bathtub. It’s mountains provide no outlet for air, and the valley is always filled with particulates. I can attest, as my children all suffer respiratory problems from growing up in Bakersfield. We lived there almost two decades.
I also lived in the Bay Area, on the Marin Peninsula. And I lived in Folsom, near the confluence of the American, Sacramento, San Joaquin, Merced and dozens of streams and rivers that co-mingle to create the Sacramento Delta, which feeds the San Fransisco Bay.
As said, this is the drain of the bath tub. Only it sucks up, instead of down. That is what you see on Jupiter as well, in the central vortex, which is yellow, like the surrounding thunderstorms – because they are sucking up whatever that yellow stuff is from below.
On Earth, a similar tornado left dust piled beneath it’s rotation which it drew from the Delta. A drive from Sacramento to Lake Tahoe, on Highway 50 will take you through its footprint.
The vortex sucked out the Delta. It is the lowest point in San Joaquin Valley. Everything slopes down to it, and then it empties into the Bay. The Bay at that time would have been an inflow. The central tornado’s suction pulled wind through the big yellow ring wall of the storm at San Fransisco Bay, creating a complex vortex of high and low level winds.
The physical map of the Delta shows an electrical response on the landscape to what was occurring in the sky. However, ground-to-ground discharges will be a subject for future articles. This essay looks at the wind.
Mountain footprints, valleys and ridge alignments precisely display the motion of the wind. You can look in much finer detail than the broad perspective I annotated here to see correlations in filaments and cloud structures with actual land features in California, as far as possible until pixilation makes the image undecipherable.
NASA Image.
What you are seeing is proof. Far more proof than anything presented for plate tectonics, or meteor strikes, or any of the rest of consensus nonsense. I can, and will continue to show examples from around the world that will display reality to you. But go back and look at the images of California. Expand them. Look at them on Google Earth for yourself, and compare to that beautiful image from Jupiter. It’s like seeing a reflection in the mirror.
I’ll just say this to the twit PhD.s. who think they are planetary scientists… Do you really believe what you just saw is a fucking coincidence? Come on…. I can’t wait for some idiot to say so. I have seen, over and over again, this hubris… what is the cause?
Thank you.
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Electric Earth, Electric Universe May 5, 2019
[
Eye of the Storm – Part 6
](https://thedailyplasma.blog/2019/05/05/eye-of-the-storm-part-6/)
Large Scale Ground Features
Telluric currents, or simply ground currents , are electric currents that diffuse through the Earth’s crust, influencing what happens on the surface and in the atmosphere. They control where storms brew, the direction of jet streams and flood waters, even where mountains form.
It’s cause is capacitance, and the resultant effect of charge and magnetic fields in motion: inductance. Where current flows in conductive paths beneath Earth’s crust, the atmosphere ‘mirrors’ the pathways with currents of ionized wind – although, because of electromagnetic influence, it is a ‘fun house’ mirror effect. Just as we’ve traced the effects of winds on the landscape and mapped their turbulent route, we can also map major ground currents.
We can only speculate on the nature of subsurface currents, because we can’t see them, other than to say they are hot and electric. We don’t know the conductor they travel in, but we can say they are “surface conductive”, meaning the currents flow in a particular layer, or regime of layers under the crust.
Current flows in surface conductive layers where ionization occurs most readily. Capacitance induces charge to collect at the boundary between layers of different material, because each material has different properties. Surface tension has to form at the interface of layers, which places higher charge density at the interfaces to form a double layer of capacitance induced, opposing charge, and a voltage drop.
The troposphere is example of such a regime above our heads, where atmosphere ionizes, brewing thunderstorms and cyclones. Ground currents flow under the crust, deep in strata we can only imagine and decipher through sonic echo. But we can also infer their paths from surface expressions.
They express themselves where magnetic fields pierce the crustal layer, creating a path for current to discharge. These are volcanoes. So, briefly let’s look at how volcanoes form as a result of ground currents.
Static field of a magnet.
To understand the Electric Earth, one must understand that everything is in constant flux. Nothing in the electrical circuit is static.
Moving current in Nature generates magnetic fields that are dynamic, pulsing and undulating; contracting and expanding in feedback to charge density and momentum in the current that creates it.
Nature’s invisible magnetic fields are mobile, responding to waves of current.
The magnetic flux of a moving current rings around the current according to the “right hand rule”. It also filaments, like electric current, forming tubes of magnetic flux.
Eddy current is induced to flow in a helical path along these tubes. Where these filaments penetrate the crust, a channel forms as heat builds from resistance to the induced current, melting and drawing up magma. A blister forms on Earth’s surface where current, heat and trapped gases push through and escape.
Study volcanic cinder cones, and you’ll find they often – not always – display a perceptible counter-clockwise twist to their form which is a result of the upward spiraling current induced along the magnetic line of flux.
So let’s define two types of ground currents:
Primary Ground Currents – primary currents are large snaking veins of subsurface current flowing pole-to-pole, creating what is perceived as plate boundaries. Indeed, they form the continental plate boundaries, mid-ocean ridges and deep rift zones. But it’s not because the plates are broken and rolling over each other in the consensus theory of “subduction”. Ridges and rift zones, volcanic chains and islands are the magnetic signature of the primary subsurface currents, where the crust is broken, softened and hot.
Then there are secondary current filaments that form ring currents that loop away, perpendicular from the primary current. One obvious secondary ring is on display in the deep ocean trenches and island chains in the Caribbean. This image shows the ring current that loops through the Caribbean from the Eastern Pacific Rise portion of the Ring of Fire.
Surface evidence of a ring current beneath the Caribbean Sea.
Where the secondary current connects to primary, the juncture is called a “triple junction”. Triple junctions occur at the plate boundaries. For instance, the Rivera Triple Junction is where the Rivera Plate meets the Eastern Pacific Rise (EPR). The Rivera Triple Junction is also where the Caribbean secondary loop connects to the primary. Triple junctions are known hot spots for volcanic and seismic activity, and magnetic anomalies.
The point is that there is correlation between secondary loops and fractures in the crust. Fractures are electro-mechanical signatures of the ground currents, and triple junctions indicate the juncture of secondary loops.
Another reason we can infer this ground current loop is the string of volcanoes along it. From Jamaica to where it hooks south to the coast of Venezuela, volcanic island chains are magnetic expressions of the Caribbean current loop. Islands appear to the inside of the loop, and deep trenches appear to the outside. The “right hand rule” tells us current direction is north in this loop, inducing hot current to well-up left of it’s path, and pulling down the sea-floor to it’s right.
There is also evidence the current moved, snaking south to form the Cuban island chain before locking it’s position in a straight line. Where the current dives beneath Central America to the Rivera Plate in the Pacific, a volcanic lineament shows its path.
Volcanic Lineament in Southern Mexico displays current loop.
Lateral current movements of this type can be found all over the world, making ground current mapping fun. The momentum change in the current produces distinctive arcs of deep depressions, lakes, mountains and volcanic island chains, as the current first bends into sinuous paths before snapping straight. The sinuous curves show the resistance to compression, like a steel spring being squeezed.
The arrows in these images point the apparent direction of the lateral movement. Note there are a few arrows pointing both ways, meaning I’m not sure which way it went.
One of the reasons currents make these lateral moves is because each side of the loop flows in opposite directions, creating dipolar attraction that narrows the loop. Volcanic activity and faulting is greatest at the curvatures in the loop, because it is where charge density and change in momentum is greatest, producing the strongest electric fields.
If we apply this same basic morphology – that triple junctions are connections between primary and secondary currents, that secondary currents raise volcanoes and create depressions, and that lateral current movement occurs where these features are most prevalent, we can use this to infer a secondary current beneath North America.
The Great Attractors
Now let’s examine North America, and the epicenter of the storm over the Colorado Plateau. Thanks to Jupiter, we understand it’s wind patterns, how they correlate to the plateau, and we can now correlate those with the significant volcanic lineaments in North America, adding another layer of information to analyze.
The Ring of Fire is the most obvious path of a primary polar current. Along North America, this portion of the ‘Ring” defines the plate boundary and a lineament of strato-volcanoes from Alaska to Central America.
If you connect the volcanoes like dots, this portion of the Ring of Fire forms two lineaments, or straight line features down the west coast of North America.
The volcanic chains are the expression of induced current rising through the crust, and faulting is from electro-mechanical down force. The volcano lineaments are east of the faulting, implying a south directed current according to the “right hand rule”.
There are three other major lineaments in central North America’s interior. Yellowstone super-volcano is one end of a curving lineament of volcanoes in a trend that forms a part of the Snake River Valley across southern Idaho.
To the south, is a string of volcanic fields called the Jemez Lineament. The Jemez Lineament extends diagonally from the Pinacate Volcanic field in Sonora, Mexico, northeast across Arizona, to the border between Colorado and New Mexico.
It’s bisected by a northwest-to-southeast lineament of volcanoes that include the San Francisco Peaks and the Uinkaret volcanoes on the North Rim of Grand Canyon.
With all of these plotted together on one map, a pattern begins to emerge that implies a secondary current loop beneath North America.
Consider volcanoes an electrode poking through the surface of the crust. Plotted, the Jemez and San Francisco Peak volcanic lineaments produce an almost perpendicular cross pattern, juxtaposed symmetrically across the Colorado Plateau from the volcanoes of the Yellowstone complex, and aligned with the Ring of Fire.
The Jemez lineament aims directly to the Guadalupe micro-plate to the southwest, and to the arc of the Great Lakes to the Northeast
The loop appears to circle the Great Lakes and points back to the Black Hills in South Dakota, which appears to be an inflection point. From there it points to the Juan de Fuca plate in a direct line through Yellowstone.
It has a similar shape and size to the Caribbean current loop, with the base of the loop wider than the tip.
Similar to the Caribbean Loop, there is a significant depression at the tip. In this case the Great Lakes, but they reside on the inside of the loop, whereas ocean trenches are outside the Caribbean Loop.
And where the Caribbean Loop has volcanic islands inside the curve of the loop, the North American Loop has maar craters (see “ The Maars of Pinacate “), forming a series of circular lakes surrounding the arc of the Great Lakes. Only a few circular, or circular lake formations are highlighted here to show the trend.
Maars are volcanoes created by steam and other gases exploding from heat instead of spewing ash and lava. Smaller such expressions are known as karsts and breccia pipes. They are all forms of diatremes, and are often mined for uranium and precious metals, which the eruption leaves behind in the throat of the tube. The surface result is a crater instead of a cinder cone.
Further east there are long linear lakes, forming striations in the land normally attributed to glaciation. They may well be from glaciation, but the direction and orientation also suggest they could be from a contracting current loop passing below.
There is a large body of evidence for glaciation, and Electric Earth theories do not dispute, or conflict with the evidence. However several landscape features attributed to glaciation may be misinterpreted. These cuts are a possibility.
The implication is that the loop current lies below aquifers that erupted in steam, creating the maars. And that the volcanic expression is to the outside of the loop, depressions to the inside, so current circulates north-to-south in this loop – opposite to the Caribbean Loop.
The shape of the Great Lakes, especially Lake Superior, show the sinuous shape of ground current movement. It appears the loop narrowed, or swung to the south, until the southern leg aligned to the Jemez Lineament.
The Yellowstone volcano lineament is a half circle, and also appears to be from ground current movement. In this case, the movement is north from the Monterrey Micro-plate, to the Juan de Fuca triple junction. This widened the base of the loop, with the pivot point of the shift at the Black Hills of South Dakota.
Tertiary Ground Currents and Surface Dipoles
Two like charge electrodes – either cathode or anode, have electric fields in opposition.
Since we regard volcanoes as electrodes poking through the crust, they should also be considered anodic, as they expel ionic matter. This charged matter is current in a circuit, and electric field lines between two anodes don’t connect – they repel each other. A circuit has to go somewhere, so there also must be cathodes to provide a sink for the currents.
The volcanic anodes spit ions into the atmosphere, so the circuit has to complete through the atmosphere, back to ground. We know how this happens. It’s called lightning. Specifically, “negative lightning”, which you may wish to review in “ Nature’s Electrode “.
Where negative lightning strikes, it burns and blasts the land, initially causing a crater. But the return stroke draws positive ionic matter to it, leaving a mound. So a volcano is an anode spitting matter into the atmosphere, necessarily connected to a cathode, which is a lightning spitting thunderstorm drawing in-flow winds and matter to it.
Negative lightning gathers positive surface ions to it, piling-up a mountain. It often produces winds in excess of Mach speed, producing tetrahedral shock features on the flanks. They come in a variety of forms, depending on the severity of the discharge and the material on the ground it affects.
Two prominent lightning fulgamites are juxtaposed, either side of Yellowstone, creating dipolar alignments. The Black Hills to the east, and Sacajawea Peak, in Eastern Oregon. The ground current runs straight through this alignment to the Juan de Fuca plate.
Black Hills, S. Dakota
Sacajawea Mountain Complex, Oregon
Note that both are very large mountain complexes, with multiple peaks. They form roughly circular mountain lobes surrounded by river valleys, like a moat around a castle.
Two opposite charge electrodes form a dipole, and the electric field is strongest in a straight line between them.
There are several more of these large fulgamites throughout the Colorado Plateau. Actually, there are millions of them, but most are small and are in proximity to the largest. Mapping the most prominent, along with the most prominent volcanoes, yields a picture of where tertiary ground currents flow.
Remember we have Primary and Secondary ground currents. Now there is a Tertiary current flowing close beneath the ground between anode and cathode spots.
Since we know an electric field between an anode and a cathode – a dipole – produces a field pattern with the maximum voltage gradient directly between them, we can connect volcanoes and their most proximate fulgamites with straight lines and get an approximation of the electric field at ground level.
Volcanoes (red), Fulgamites (blue), Dipolar Alignments (violet).
Major dipole alignments (violet), primary and secondary ground currents (green).
If you’re having trouble picturing this, think of the electric field as a blanket held in the hands of firemen. The anodes and cathodes are where their hands hold the blanket. Presumably, they are going to catch a victim of a fire jumping from a high window, so they hold the blanket very tight. All the tension in the blanket is between their hands – single lines of tension, like ropes. The rest of the blanket is slack. So, just by knowing where the “hands are” – the anodes and cathodes – you know the basic topology of the blanket.
Now, consider that each of these lines of tension in the ground is just the bottom half of a loop that arches through the atmosphere. One leg of the loop is a volcano spewing, and the other is a raging thunderstorm of biblical proportion, it’s lightning and inflow winds building a mountain beneath.
Through the center of the loops flow jet-streams of induced current plasma. It is simple electromagnetic induction for a current loop to draw a plasma wind through it. So ground-level, horizontal jet streams pour through at ninety degrees to the loop. Consequently, we can draw ground winds perpendicular to the violet lines denoting major dipoles and create a wind map.
Wind map from electric field lines on the ground inducing current paths in the atmosphere.
And this wind map is eerily similar to the wind map generated from the pattern of tetrahedrons on wind-blown mountains and up-draft dome/down-draft crater pairs mapped in “ Eye of the Storm – Part 4 “.
Wind map from physical features on landscape indicating wind direction.
In fact, they produce virtually identical wind maps, except for the fact the electric field model cannot show high level winds. It only shows ground hugging jet-streams.
Mapping up-draft domes and down-draft craters with a true understanding of thunderstorms and cyclones is the only way to find vertical winds and understand the full, three dimensional current path.
So what does this mean? It means the firmament was formed by volcano, wind, lightning and electric fields due to Earth’s capacitance.
The wind is displayed by physical features, such as shock wave patterns that cannot have been formed seismically, or by erosion.
The Laboratory
The wind is displayed by ground current paths that produce dipolar nodes of volcanoes and fulgamites.
The wind is displayed by the footprints of up-draft domes and down-draft craters that portray the vertical dimension.
And we have an ongoing, observable laboratory experiment to compare with right here in this Solar system.
Thank you. Please hit the “like” button, if you liked it. Leave a comment, if you dare. Leave some money, regardless.
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Electric Earth, Electric Universe March 17, 2019
[
Eye of the Storm – Part 5
](https://thedailyplasma.blog/2019/03/17/eye-of-the-storm-part-5/)
Large Scale Wind Structures
The appearance of the landscape makes obvious it is the result of Earth’s electric circuitry, stimulated by some outside force that caused massive discharges. Discharges occurred between Earth’s interior and whatever charged body in space the Earth was responding to.
The discharges, however, did not occur as giant sparks and plasma filaments simply jumping from one charged body to another. The discharges were modulated by the active, intervening layers of capacitance in the Earth’s crust and atmosphere. Layers of exosphere, thermosphere, mesosphere, stratosphere, troposphere, lithosphere and asthenosphere (what lies below that is subject to debate).
Magnetic fields respond to current and shape filaments and plasma cells beginning in the thermosphere, from fifty to six-hundred miles above us, where we see the polar aurora. Atmosphere is segregated by layers of pressure, humidity and temperature. The crust is layered with igneous rock, shale, limestone and sandstone; aquifers, oil sands, mountains and oceans. Every layer presents a different dielectric medium to the flow of current. Motion of mobile species results, as charge diffuses unevenly through the layers.
When change takes place in the Solar System, the Earth enters a transient phase of adjustment to balance it’s internal circuits. When this happens, both land and atmosphere go into upheaval, creating an atmosphere best represented by Jupiter’s. Fractal patterns of motion, heat and diffusion on Earth’s landscape match the cloud patterns of Jupiter to a tee. It’s because the same actions of current flow and capacitance is taking place on Jupiter now, in the manner Earth experienced in it’s creation.
We can view these patterns at every scale and find they add up to a coherent picture of the physics behind them. Let’s now examine some of the best examples, starting large and then focusing down.
Mountain Arcs
Look at the following patterns of mountain ranges in Siberia, Europe and North America. Then look at the cloud formations on Jupiter and you will see similar patterns. In both cases, the pattern is formed by an up-welling flow of winds in a shear zone of turbulence. These are the interface zones between circulating winds – dust laden, ionized winds flowing at near, or above Mach speed. The mountains were swept into these sinuous strands, hardened and fused by ionized matter recombining, and the radiation and pressure from an intense fire in the sky, as lightning carpet bombed the rising piles of charged earth.
Jupiter’s clouds display the sinuous shape of the shear zones, where a towering cloud top forms like the anvil of a thunderstorm along the up-welling electric winds, flanked by circulations and downdrafts (if you don’t believe me, ask NASA). The primary motion of Jupiter’s most turbulent winds are up and down, so the cloud tops of the most prominent updrafts display the motion throughout the column, all the way to the planet surface. The correlation of shapes isn’t proof, but is it coincidence?
It’s not coincidence if it keeps happening.
Repeating forms at different scales is proof of a fractal process. The only fractal process we know in this Universe, which effects every aspect of matter, whether organic or not, is the process of charge diffusion in an electromagnetic field. We can call it different things, chemistry, thermodynamics or quantum mechanics, but the closer we look, it always gets back to one thing – it’s electric.
Let’s compare in detail. One spade-shaped feature is almost ubiquitous in Jupiter’s turbulence, and on Earth’s landscape: the ‘boot print’.
Boot prints on Earth:
So, it should be obvious there are direct correlations between the clouds and winds on Jupiter and land forms on Earth. If you remain a skeptic at this point, at least agree it is not just me saying so – you can see for yourself. The correlation is not only visual similarity, but also the same causation – vertical high speed winds, electrically charged and shaped by electromagnetic fields. Proof of the winds of Jupiter are in NASA’s data, and proof of the ground effects on Earth are under our feet, and in decades of applied science in supersonic shock wave behavior. Proper interpretation of the data is all that’s lacking.
Let’s return to the Colorado Plateau and surroundings for a big picture look now that large scale wind features are understood.
Pacific Northwest’s Snaking Inflows
A correlation between the Colorado Plateau and the Great Red Spot has similarities of such complexity and detail, it seems absolutely surreal. Inflow to the GRS appears in two sinuous lanes of rolling winds that correlate with the mountain ranges in the Pacific Northeast.
Kinky Mexico
From the south, hot dry winds scorched across Mexico and the American southwest with counter-flowing winds. Along the turbulent shear zone between, kinks appear in the Sierra Madre Oriental, where north flowing jet streams mixed with a south flowing stream that formed the Sierra Occidental and the alto-Plano in between.
The Great Basin Vortex
Inside the multiple cyclone vortex, the Great Basin is formed by rippling waves roaring across the land in a broad thunderstorm, which brought torrents of rain. Jupiter’s analogy is the great white shelf of cloud, which is the anvil of the storm that occupies nearly one half of the ‘eye’.
This one is quite simple to trace, since it is a single large thunderhead that formed the basin and range dunes transverse to the wind. In the annotated image, they are denoted by the dark blue lines. There is an “S” shaped range at the inflection point where the in-flow winds bent to the rotating updraft.
The blue and violet lines denote the wind direction, exiting right (east) at high altitude over Provo, Utah where it made no mark on the land – until it water-fell on the other side of the shear zone that formed the Wasatch Range, spilling a violent downdraft into the Uinta Basin.
Another, larger downdraft, which I believe would be the “forward flank downdraft” in a ‘conventional’ thunderstorm, flows south over the Wasatch shear zone, and down to form the Mogollon Rim, the southern extension of the Colorado Plateau arcing south-east from, roughly, the Kiabab rim of the Grand Canyon to the Gila River in New Mexico. The wind formed rim is intermixed with volcanoes.
Curiously, Nevada’s mountains display wind-formed tetrahedrons in the opposite direction than expected, given the counter-clockwise rotation of the GRS. I drove through Nevada (twice) to confirm what Google Earth showed, because this was the first case where land forms disputed my predictions. The best explanation for this, given everything in context, is that ground level eddy winds rolled beneath the meso-cyclone rotation like roller-bearings under a spindle.
This was a wet, rotating meso-cyclone, carrying considerable moisture which precipitated out and evaporated forming salt basins behind ranges, and culminating in the Great Salt Lake and Bonneville Salt Flats.
The long, linear mountain ranges of the Great Basin are in many cases windswept dirt. The triangular faces of shock wave reflections earmark the wind direction.
As the rotating jet-stream winds turned east, the shear zone expanded into a turbulent zone, where shear winds slipped past the rotation and sped south in an expanding fan that gouged Amorgosa, Owens and Death Valleys before mixing with other winds over the Mojave desert. Between these deep desert valleys rise narrow mountain chains with a majestic vertical relief of eleven thousand feet – the Panamint, Darwin and Amorgosa ranges. These are sastrugi. The valleys were gouged and mountains raised by folds in the wind that laid like curtains across the land.
The Sierra arc was formed by westerly winds that pressed down against this shear zone while being sucked into the giant vortex. The Sierras formed as the westerlies piled airborne dust, and sand dredged from the ocean, along the edge of the Great Basin storm rotation. Volcanoes helped anchor the formation. Intense electrical discharge from the shearing winds fused monolithic granite structures.
Lightning in this environment was imposing. A plasma intensifies in a shear zone, meaning it both attracts and generates ion content due to the shearing and extreme pressure differentials. Shearing supersonic winds bounced shock waves between them. Shear regions carried the highest current, in jet-streams that extended for thousands of miles. Lightning discharge from these plasma streams focused on the piling mountains below with the capacity of a thousand mile long thunderstorm being continually fed new energy. The current dumped in the strike zone didn’t simply flash a split second, here and there, but arced continuously, diffusing through the land welding granite from the dust and sand.
Here is a different image that displays the windblown pattern of the topography.
To the west is another shear zone that formed like a wall between this storm and the one that formed the Wind River and Uinta ranges to the northeast, and the one that formed the Colorado Plateau to the southeast. This is the Wasatch Range – massive windswept dunes pinched between the giant rotating storm systems.
The great thunderstorm that rotated above Salt Lake spread an anvil cloud which fed the cyclonic storms over the Colorado Plateau and a region we’ll call the Wyoming Vortex. It dropped in a vast downdraft that formed the Uinta Valley. It also spilled into the cyclone over the Colorado Plateau, joining the general rotation of winds sweeping up the Mogollon Rim.
The Wyoming Vortex
A simple example of wind mapping uses the Wind River and Uinta mountain ranges. In the following sequence of Google Earth images, the first shows the Wind River and Uinta ranges without annotation. The second is a close-up on Wind River. Next is the same image, annotated to display the triangular buttresses. Last is the image annotated with wind direction showing the jet-stream path of ground level winds that created these pressure ridges.
The mountain ranges formed as lightning (red circles) arced to ground and charge diffused across the land in channeled currents, which formed dikes. Dikes are walls of rock formed from the country rock fused together, and often display troughs alongside where material sucked to the current.
An example is the Teton’s, where grand Teton itself is a lightning generated fulgurite surrounded by smaller fulgurites blanketed with wind driven dunes. The Teton fulgurite extended a dike to the south which collected dust against it, creating a mountain lobe.
Dikes formed by channeled charge diffusing away from fulgurites provides anchor for wind blown dunes to form.
Wind piled material against them to build a mountain lobe, and leave the northern flanks patterned with the sonic shock of the wind. Winds that deflected from horizontal to vertical left ruler straight ridge lines of triangular buttresses where shock reflections patterned diamond shaped regions of expansion and compression.
You’ll notice the wind path points to unusual ovoid features on the land. This is a dome deposited by electric winds pulled into the updraft of a thunderstorm. Where the arrow points was an updraft where the jet-stream arrived at a coronal loop.
The jet-stream loops up into a thunderstorm, and back down through a cyclone next to it, which forms the odd looking, almost square feature next to the dome. It is a crater formed by the down-flow eye of a cyclonic storm. The thunderstorm and cyclone are opposite legs of a loop the jet stream flows through, before it exits to the east. The jet-stream wraps over and under itself in three dimensions like rope in a knot, alternately forming a dome on the land, and then a crater. It is a dome and crater pair created by a tight coronal loop.
The looping coronal currents spun the jet-stream across the land, creating the Wind River and Uinta ranges as pressure ridges, like giant sand dunes, and then up through a meso-cyclone and down through a downdraft cyclone, at near supersonic velocity. The rims of the dome have inward pointing, shock-wave generated triangular buttresses, and the down-burst crater has outward pointing buttresses that can only be the result of supersonic winds.
If you are curious why this dome and crater set in Wyoming forms almost polygonal shapes – and you should be. The reason is they are pressed against a shear zone between this storm rotation and the larger multi-vortex rotation over the Colorado Plateau. The Wyoming Vortex is the smallest of the three primary vortexes in the larger multi-vortex storm.
Colorado Plateau and the Eye of the Storm
We looked in the last chapter at the overall morphology of winds in the eye of the GRS and the Colorado Plateau. Let’s take an even closer look.
The ‘eye’ is a multiple vortex cyclone, which displays a complex system of coronal loops that twist the wind into a crocheted doily pattern. This cyclone is separated from the Wyoming Vortex by a shear zone. At this shear zone, like others, mountains formed beneath welling updrafts. In this case, nestled against the powerful updrafts of the San Rafael Swell and surrounding cyclones, it formed in the shape of an oxbow.
There are several updraft domes and downdraft craters centered on the Colorado Plateau and Rocky Mountains. The most distinctive is the San Rafael Swell in central Utah.
The Swell is ringed by the explosively charged, dense region of recombination and magnetic pinch known as the San Rafael Reef, where rows of dragon’s teeth – triangular patterns of rarefaction in hard, fused sandstone – provide evidence of a shock wave at the boundary of the updraft.
The Reef is the rim of an updraft dome formed beneath an intense coronal-loop that raged electrical havoc on the land at the sharp end of the storm. The dome behind is shaped like one lens of an eyeglass, the other lens an inverse copy made by the downdraft of the same loop.
San Rafael Dome is electrically etched, or sputtered by an intense electric field in the eye of the storm above it. Purple indicates wind-front of the San Rafael Reef. Green outlines shock front of updraft exhibited by triangular buttresses. Red indicates major lightning.
Google Earth – San Rafael Swell is northern lobe. Downdraft crater is mirror image outlined by a tributary of the Green River – all a consequence of electrical circuits.
The San Rafael Reef discontinues at the “bridge” between the ‘spectacle’s’ lenses. Capitol Reef forms a continuation of the sinuous wind-front on the backside of the downdraft crater.
Capitol Reef is the shock front of down-burst winds surrounding a crater.
Monstrous, multi-layered tetrahedral buttresses splay outward from the crater to form Capitol Reef.
Another example of an updraft dome is Monument Valley, Arizona. It’s shark’s teeth rim is formed by inflow winds, expressed in the triangular sandstone layers of Comb Ridge.
Comb Ridge
Complex super-sonic wave-forms – Comb Ridge, Arizona
