The Young Continents

•April 19, 2019 • Comments Off on The Young Continents

Fig. 1 The Atlantic Ocean, created during the Vedic Period .is only 2,700 years old.

The continents of the Earth comprise primarily granite. It is the most abundant basement rock that underlies the relatively thin sedimentary veneer of the continents. It is a familiar rock to everyone on Earth due to its light color and texture. It is found only in the continents of the Earth, not in the oceanic crust, or on the continents of any other planets in the solar system, all of which comprise basalt. It is classified as an Intrusive/Plutonic-Igneous rock thought to form when magma rises in large cratons through layers beneath the earth but solidifies while underground. The ascent and emplacement of large volumes of granite within the upper continental crust is admittedly a mystery to geologists because no one has ever actually observed its formation.

The naturally radioactive elements potassium, uranium and thorium are concentrated in granite intrusions, but are not present in the rock matrix itself. They are instead segregated into accessory mineral phases that are dominated by the more abundant zirconium and cerium. In fact, most radiometric dating of uranium (U->Pb) in granitic rocks use zircon crystals which have fallen from the atmosphere, sometimes referred to as ‘zircon dating’. Based upon these measurements, geologists believe that much of it was intruded during the Precambrian age, 4.6 billion years ago (the point at which the Earth began to form) to the beginning of the Cambrian Period, 541 million years ago.

Cyclic Catastrophism

Cyclic catastrophism claims that the masses of the continents and their locations on the Earth today were established during the Vedic Period, between 3687 and 687 BC! As discussed in many posts on this site, this was accomplished by one hundred captures (14.4-years) and releases (15.6-years) of the super-planet Mars, full of life, which at that date included Mercury, its solid iron core, in a geostationary orbit, 44,400 km above the Himalayas. 

At each capture, Mars became tidally bound to the Himalayas which acted as the ‘handle’ of the entire lithosphere, the outer shell of the Earth. Due to the mass of Mars, the combined Mars/lithosphere system rotated slower, and at a 30° angle relative to the mantle. This 24 km/h “tidal drag” meant that a large volume of rhyolite magma comprising the asthenosphere intruded into the continents where they were thinner.. Each time Mars escaped for 15.6 years, the intruded lava cooled, crystallized, and expanded as silicate granite crystals forming the cratons which raised the continents one layer at a time. 

During the same capture periods, alignments of Mars with the Moon and the Sun and Moon combined caused great convulsions within Mars which blasted water, soil, minerals, atmosphere and vegetable sprouts, as manna, or Soma, from hundreds of volcanoes to the Earth. These formed the new crust of the Earth in the form of the soil and sedimentary rocks which settled on the surfaces of the continents as they grew from below due to the formation of granite. This is a confirmation of  Alfred Wegener’s Continental Drift theory, which became ‘watered down’ to ‘plate tectonics’ by geologists because they could not imagine what force could move the continents.

The same captures of the massive Mars above Mt. Kailas, Indra’s Home on Earth in the Rig Veda, tidally attracted the North and South American continents westward, resulting in the Mid-Atlantic Rise, a progressive bulge that extends the entire latitude of the Atlantic Ocean, with the ridge resting on the highest point. This bulge is the result of upward convective flows of the asthenosphere filling the gap created by Mars’opening up the Atlantic Ocean.

The much greater motion of the North and South American tectonic plates is revealed by the more pronounced subduction effects manifested as accretionary orogenic ‘terranes’ along the Alaskan, Northern Canadian, North American Basin and Range province, the Baha Peninsula and South American Cordillera subduction zones caused by compressional, accordion-like folding. Geologists, unaware of the forces exerted by Mars during the Vedic Period, are at a loss to explain all subduction zones of the continents and date the origin of subduction in the Triassic, over 200 million years before the present but the ancient texts explain that all of these changes in the world occurred during Biblical times up to the time of Isaiah.

 

Isaiah 65:17 (KJV)  For behold I create a new heaven and a new earth: the former shall not be remembered or come to mind.

Job 38:4-7  (KJV)  Where wast thou when I laid the foundations of the earth? declare, if thou hast understanding. Who hath laid the measures thereof, if thou knowest? or who hath stretched the line upon it? Whereupon are the foundations thereof fastened? or who laid the corner stone thereof; When the morning stars sang together, and all the sons of God shouted for joy?

Mercury – A Perfect Sphere

•March 23, 2019 • Comments Off on Mercury – A Perfect Sphere

Mercury – A Perfect Sphere

Fig.  1. Venus and Mercury cavorting in 5th Century bas releif

A paper entitled “The low-degree shape of Mercury” by M.E. Perry et al. in Geophysical Research Letteres V 42, Is 17 reveals data from the MESSENGER probe concerning the remarkably spherical geoid and figure (shape) of the closest planet to the Sun. Additional information was gained from 378 occultations of MESSENGER radio signals when in the southern hemisphere of Mercury, demonstrating considerable interest of the scientific community in the subject.

The numbers as stated in the abstract are:

“Mercury’s mean radius is 2439.36 ± 0.02 km, and there is a 0.14 km (140 meters) offset between the planet’s centers of mass and figure. Mercury is oblate, with a polar radius 1.65 km less than the mean equatorial radius. The difference between the semimajor and semiminor equatorial axes is 1.25 km, with the long axis oriented 15° west of Mercury’s dynamically defined principal axis. Mercury’s geoid is also oblate and elongated, but it deviates from a sphere by a factor of 10 less than Mercury’s shape, implying compensation of elevation variations on a global scale.”

The last phrase is a weak attempt to explain the shape of Mercury in terms applied to the other terrestrial planets, but this data proves that Mercury is a perfect sphere of the same material, Iron and Nickel which crystallized within Mars for the first 4.6 billion years of its life.

The Recent History of Mercury

Mercury is in the myths of every ancient culture because it’s ejection resulted in the one hundred escapes of Mars from it’s geostationary orbits above Mt. Kailas, the spiritual epicenter of Hindu, Buddhist, Jain and Bon religions.sacred in all eastern . These 30-year cycles blasted the entirety of life forms formerly on Mars to the Earth and produced the stable continents of the Earth in only 3,000 years.. The solid core of Mars was spectacularly blasted out through the Valles Marineris one hundred times between 3687 and 687 BC, zoomed around the Earth to the East so low that Egyptian texts state it “killed men in the desert” in the first astronomical “slingshot” maneuver, allowing it to catch up to the shell of Mars as it drifted away from the Earth to the West.

The releases of Mars always occurred on the vernal equinox of the 14th year of each capture due to the alignment of the Sun, Moon and Venus on those dates. Those spectacular events are etched in the memory of the world. Egyptian funerary texts of Pepi I tell that it required eight days after the ejection of the core for it to catch up to the shell.

The Jews described the drifting of Mars over the Middle East at each release as Pesach, the “Passover of G-d”, which is celebrated on the vernal equinox. The Seder, Passover Festival, lasts for eight days. Perhaps in remembrance of the exiting of the core, a single day “Fast of the Firstborn” is observed on the day before Pesach.

In the RigVeda, the eight-day pursuit of Indra (the shell of Mars) by Saramā (the solid core) is described as a race between Indra being drawn by his two “bay coursers”, the Martian moons Phobos and Diemos, but because the Aryans, who were hiding in caves, did not view the solid core exiting Mars at the date of these compositions the incandescent Sarama was described as Surya. which was the incandescent solid core of Mars, Saramā. in RV(I, LXI 15-16)

This space extravaganza, every 30-years, was observed by the first one hundred generations of human beings. The core could be seen slowly converging with the planetary shell of Mars during the eight days after it exited. In the RigVeda this period was the celebrated as the “festival of nine nights”, navaratri, beginning on the spring equinox. The corresponding Indo-Iranian noroz (nine-day) festival marks the first day of their year on the spring equinox in their calendar. It is the belief of the Persians that nowruz marked the ‘first day’ when the universe started its motion. In a limited sense this is true, since the final encounter of Mars with the Earth ended on the vernal equinox of 687 BC when Saramᾱ was deflected by proto-Venus, preventing its return to Mars, and the two, Mercury and Venus, interacted for several centuries until they settled into their current orbits (Figure 1). During the same period, Mars contracted and drifted to its present freezing orbit. Astrophysicists are mystified by the absence of a solid core in such an ancient planet.

Only at this date was the solar system, with which we are familiar, established. In stark contrast to all ancient texts, planetary scientists currently believe the solar system has been in its current form for 4.5 billion years because innumerable rocks blasted from Mars during its geostationary orbits, 35,000 km above Mt. Kailas, are spread across the entire solar system.

Sumo: Ancient Ritual of Mars

•February 19, 2019 • Comments Off on Sumo: Ancient Ritual of Mars

An article in academia.edu explores possible connections between Sumo wrestling and ancient Japanese mythology by Sf. R. Careaga titled “Sumo: Ancient Ritual to the Thunder God” has many aspects which correspond to the cyclic catastrophism scenario. I have always hoped for more communication with the Japanese culture. The language barrier has greatly limited access to this blog site. Amazingly this article is from a Japanese scholar in Kentucky.  The author attempts to link the mythology to Patton’s Saturn theory but I believe cyclic catastrophism gives the best explanation.. 

Fig. 1 Mars Northern Island 3 km above surrounding terrain

1. The ceremony is performed upon the center single step pyramid platform, the Dohyo, which is made of Earth. This corresponds with the island at the north pole of Mars which remained facing the Earth during each geostationary orbit, called the raqia or firmament in Genesis 1:6-8  And God said, Let there be a firmament in the midst of the waters, and let it divide the waters from the waters. And God made the firmament, and divided the waters which were under the firmament from the waters which were above the firmament: and it was so. And God called the firmament Heaven.

2. The Dohyo is ringed with rice balls that signify bounty and plenty which was the vegetative life that existed on Mars as recently as 4,ooo- years ago. It was completely blasted to the Earth by hundreds of volcanoes between 3687 and 687 BC. 

Fig. 2 The four heads of Brahma which rose up in the center of the northern Island of Mars

3. At each cardinal direction an offset in the ring represents the four heads of Brahma (RgVeda) and Osiris (Egyptian). These same features seen from the Norse aspect were pictured as four long-necked stags reaching for the highest branches of the “tree of life”.

4. Above the Dohyo is a hanging roof, but in the past it was an actual pillared roof above the platform. This represents the Earth when Mars was in a geostationary orbit above Mt. Kailas, known as “Indra’s (Mars) Home on Earth”. Because of this orbit the two planets remained stationary relative to one another.  Consequently the RgVeda wonders “what great carpenter built this invisible structure of the two worlds”.

5. Buried in the Dohyo are salt, kelp, dried squid and chestnuts which symbolize the minerals and different life forms blasted to the Earth during the Vedic Period. 

Fig. 3 Brahma, with four ‘heads’ extending from northern island on Mars down toward the Earth.

6. The wrestlers have paper lightning bolts tied in their hair, symbolizing the tree of life, also known as Agni with the flaming hair, that rose up in the center of the northern island.

Fig. 4 Sumo wrestlers posing in shapes of thunderbolt glyphs carved in rocks early in the Vedic Period

7. The combatants wear a tsuna, a loin cloth with five white lightning bolts and pose to simulate the thunderbolts recorded by early humans. They  stomp their feet to simulate the accompanying thunder.

Fig. 5. Electrical discharges effected both Earth and Mars Mars blasted hot glowing rocks to Earth, causing discharge of ionosphere at impact.

Cyclic Catastrophism

Fig. 5. Lightning covered the sky

Only cyclic catastrophism can explain these massive electrical discharges. Some of the large, incandescent iron meteorites blasted from Martian volcanoes, known as “Thor’s Hammer” in Norse myth, and vaijra in the RgVeda, created an ionized path between the ionospheres and the surface of the Earth and then back to Mars, through which the entire ionospheres discharged.  The resulting lightning spread across the entire sky and their shapes were simulated in ancient rock carvings.

 

 

The human compulsion to find absolute truths, however noble, too often cumulates in tyranny of the mind, or worse. Only an extreme skepticism toward science – and an open mindedness toward other modes of knowledge and ways of life, however alien – can help us avoid this danger.
Paul Feyerabend

ALMA Images Reveal Origin of Giant Planets

•January 17, 2019 • Comments Off on ALMA Images Reveal Origin of Giant Planets

Fig. 1 ALMA images reveal many giant planets forming in orbits of protoplanetary systems.

1. Introduction
The solar system comprises two fundamentally different types of planets: giant and terrestrial. At present, the origin of these two classes of planets are not understood. The recent Atacama Large Millimeter/sub-millimeter Array (ALMA) images of more than twenty young star systems provide information suggesting the origin and composition of giant planets. At the temperatures of these systems (<50 K) planets form from the same particles of ice that are being imaged.

Solid Methane gas hydrate (MGH) forms naturally at the extremely low temperatures in the outer reaches of Large Dark Nebulae. In MGH, a clathrate, twelve or more water molecules form rigid cage-like, structures. Most of these physically encapsulate a methane molecule, but larger cages can envelope a wide range of ‘foreign’ molecules or atoms, maximizing the mass of particles incorporated. The nominal composition of pure MGH is (CH4)8(H2O)46, with an average density of 0.9 g/cm3. Tests have shown that MGH is two orders of magnitude stronger than water ice at 208 K and the difference increases with decreasing temperature. The strength is further enhanced in highly deuterated MGH.

2. Giant Planet Formation
Millimeter studies of Large Dark Nebulae (LDN 1689N, 134, 154, 1544)1 report a 1010 enhancement of deuterium fractionation in the form of ND3 and D3 molecules in their colder outer reaches (20 K). Surfaces of dust particles in dark nebulae act as catalysts for the formation of simple molecules, H2 (D2) which then combine forming ices, primarily H2O, HDO, D2O, encapsulating the heavy elements in the form of dust or nanoparticles. Accretion continues at the next stage by the formation of deuterated MGH. By this symbiotic process, clathrate giant planets accrete the complete heavy element abundances in nascent stellar systems increasing their average densities to ~ 1.33 g/cm3.

Young star systems revealed in the ALMA images are natural progressions of LDNs as they contract, and their intrinsic angular momentum becomes manifest. As observed in the LDNs, high concentrations of deuterium are present in the cold outer reaches of protoplanetary systems where giant planets form prior to the initiation of nuclear fusion in the proto-star. Increasing gravitational pressure during accretion compensates for later increases in temperature (Fig. 1). Cold hydration makes possible the incorporation of the noble gases, argon, krypton, and xenon which have been detected in Jupiter by the Galileo atmospheric probe.

As observed in the ALMA images, the giant planets alone comprise the nascent star system. The MGH composition of giants suggests that they are ~ 85% water. Therefore, the giant planets in the solar system comprise 275 earth-masses of water. All the icy satellites and rings orbiting the giant planets are due to impacts which ejected material, primarily water into the surrounding space and releasing methane in their atmospheres.

Magnetic Field

Fig. 2. Fusion reaction energy flowing to GRS. Reflected energy from NEB.

A powerful recent impact at 22º S. Lat. on Jupiter produced a slowly declining fusion reaction, p + d => 3He++ + 4.98 MeV, on its surface consuming the tightly bound deuterium, which is therefore not detected. 1031/s fast doubly charged helion fusion products (17,800 km/s) produce the excess luminosity, the multiple zonal wind vortices are constrained by Coriolis effect and the solid surface, and exit the atmosphere through the Great Red Spot. Given the angular momentum of Jupiter, they orbit prograde at 1.08 RJ generating Jupiter’s powerful exterior magnetosphere, currently interpreted as an “inner radiation belt”.2

Fig. 3. Helion stream (yellow) which produces Jupiter’s magnetic field. Vortical streams (blue) deflected to the poles, form auroral ovals.

Two powerful vortical streams are deflected by the existing magnetic field to the poles, producing the constant auroral ovals. The north-south asymmetries of the magnetic field and atmospherics are due to the location of the energy source at the Great Red Spot, at 22º S Lat. No magnetic field is generated in the solid MGH interior of Jupiter, but iron and nickel dispersed in dust particles act as a weak permanent magnet, its field induced by the exterior magnetic field.

Atmosphere
The heavy elements, released from the MGH by the fusion heating, react to form high temperature compounds, cooling as they rise more slowly through the GRS vortex forming solid particulate aerosols, such as CS which forms tiny red crystals, producing the color of Jupiter’s red spot and clouds. These particles fall to the surface of Jupiter beneath the cloud-tops as rapidly as they are released. As a result, the clouds cover only ~ 60 degrees of latitude centered on the GRS. Some of these particles are carried within the polar vortices and cause spurious emissions within the constant auroral ovals.

Gravity
The heavy element aerosols have been collecting on the surface beneath the clouds since the fusion reaction was reduced to solely proton deuterium (1935). Its distribution is affected by the surface wind. This is currently being interpreted as a deep atmospheric signal, but as Juno coverage increases is being understood to be static.

Fig. 4. The blue oceans at both poles of Jupiter.thern exposure of Jupiter’s surface extends to lower latitudes tha the Southern.

6. Polar Oceans
Poleward of the cloud-covered ~ 60º centered on the GRS, the blue oceans of melted surface MGH are visible. The polar regions are warmed by the polar vortices of high energy helions which form the auroral ovals. The depth of this water layer will determine whether future astronauts will require boots or boats.

3. Terrestrial Planets
The ALMA images have stimulated papers suggesting that the images will provide information on the accretion of the terrestrial planets. However, the primary message of the ALMA data suggested herein is that the giant planets are solid, highly deuterated, methane gas hydrate bodies with a full complement of the known solar system element abundances, in the form of its average density 1.33 as compared to pure MGH with a density of 0.9 g/cm3. Most significant, the most abundant elements, hydrogen and oxygen, are in the form of H2O.

The proposed ongoing fusion reaction implies that a highly energetic (geologically) recent impact has demonstrated the suitability, even the probability, that an impact created a new terrestrial planet. The only terrestrial planet which is hotter and less well understood than Jupiter is Venus, or is it proto-Venus?

Fig. 5. Shoemaker-Levy 9 Impacts on Jupiter

The impacts of the larger fragments of Shoemaker-Levy 9 ‘comet’ produced ‘main events’ delayed by 10 minutes, which were never adequately interpreted. These delays were the time that the mushroom clouds from the fusion explosions on the surface took to rise to the cloud-tops, becoming visible. The complete abundance of elements, high deuterium and water content of the giant ice planets are ideal sources for producing terrestrial planets. Impacts on these giants instantaneously compress and heat the deuterated surface producing powerful fusion explosions exponentially increasing the energy of the impacts. Heavy elements blasted into the inner solar system by these impacts quickly collapse releasing gravitational and recombination radiation forming a hot, near-spherical molten core/mantle of a terrestrial proto-planet, which has no inherent spin. This radiation pressure disburses the lighter elements throughout the inner solar system, producing equinoctial lights, which eventually become captured by the extant planets and the new planet when it cools.3 The rampaging, molten proto-planet interacts with extant terrestrial planets to circularize is orbit, potentially changing others.

4. Conclusion
ALMA images reveal twenty icy young stellar systems, <50 K, each with several giant planets. LDN studies suggest the giant planets comprise highly deuterated MGH known to form naturally at these temperatures. This suggests a re-interpretation of Galileo and Juno mission data will provide a basic understanding of the giant planets.

References
1 .E.Roueff. Interstellar deuterated ammonia: from NH3 to ND3, (2005), DOI: 10.1051/0004-6361:20052724.
2 P. Kollmann et al. A heavy ion and proton radiation belt inside of Jupiter’s rings, Geophysical Research Letters, 16June, 2017, p.5259 5268.
3 L. A. Frank J. B. Sigwarth, Atmospheric holes: Instrumental and geophysical effects, JGR, 1Jan 1999.

History of Grand Canyon

•January 10, 2019 • Comments Off on History of Grand Canyon

Geology

“Grand Canyon is the result of a distinct and ordered combination of geologic events. The story begins almost two billion years ago with the formation of the igneous and metamorphic rocks of the inner gorge. Above these old rocks lie layer upon layer of sedimentary rock, each telling a unique part of the environmental history of the Grand Canyon region.

Then, between 70 and 30 million years ago, through the action of plate tectonics, the whole region was uplifted, resulting in the high and relatively flat Colorado Plateau.

Finally, beginning just 5-6 million years ago, the Colorado River began to carve its way downward. Further erosion by tributary streams led to the canyon’s widening.

Still today these forces of nature are at work slowly deepening and widening the Grand Canyon.”

Cyclic Catastrphism

Fig. 1. Orbits of Earth, Mars and proto-Venus between Mars’ geostationary captures encounters geostationary encounters showing capture and release points.

In preparation for the re-surfacing of the Earth, the lithosphere was inverted four times without changing its rotation rate. These inversions caused the oceans to rush across the continents, covering them with up to four layers of ocean-bottom material, the boundaries between which are currently called Mid Lithosphere Discontinuities, These ensured the complete destruction of the former reptilian flora and fauna dominated by the dinosaurs.. They also thickened  and reduced the viscosity of the asthenosphere by heating it.

The living planet Mars, with its core Mercury in a Venus-like orbit, was  then sheparded by the still molten proto-Venus into an orbit that intersected that of the Earth (Figure 1).

Fig. 2. Lithospere motion relative to mantle. (Differential Rotation … Ricardi et al JGR May 1991)

Mars then became captured in a geostationary orbit above Mt. Kailas 44,400 km from the Earth (center to center). Mars’ moment, thereby attached to the lithosphere, forced it to rotate independently of the mantle with Mt. Kailas (31 ° N Lat.) remaining in the ecliptic plane, forcing a marathon 14.4-year tropical temperature on the Himalayas (Figure 2). This motion also forced a point in Central North America (Canada) 59° Lat. into a 14.4-year marathon of sunless winter, resulting in the accumulation of estimated 9,000 ft Laurentine glacier, which completely covered northern North America as far south as Wisconsin. Then due to a close inferior conjunction and aphelion of proto-Venus, Mars was released into its intersecting orbit (Figure 1) for 15.6 years.  This 30-year cycle was repeated ninety-nine times

During these capture periods, convulsions within Mars, induced by alignments with the Moon or the Sun and Moon combined, blasted the atmosphere, oceans, soil, rocks and vegetation (as living sprouts, manna) to the Earth. This material formed many layers of wet soil and rocks in ninety-nine rhythmic horizontally bedded layers of sedimentary rocks that covered the continents of the Earth, including the area of the Grand Canyon and floods from the melting Lauurentine glacier formed the Colorado river and the rhythmics of Walla Walla, separated by “less than forty varves (years)” in Washington State. During the same periods the tidal drag of Mars  caused the entire lithosphere of the Earth to revolve 24 km/h westward relative to the mantle as a unit, thus all ancient cultures had calendars of 360  and 365.25 days/year . The silicate material at the top of the mantle acted as a bearing and its ample silicate lava flowed up into the continents where they were shallow.

During each release period, the silicate lava beneath the continents cooled and crystallized expanding as low density granite causing an uplifting of the continents where they were shallow, these cratons, although homogeneous, have recently been found to have been emplaced incrementaly. During these 15.6-year periods the Laurentine glacier, returned to normal seasons, melted and the massive discharge of water flowed across what is now known as the USA, found its way to the sea. In the farthest northwest these flows caused the Scablands of J. Harlen Bretz  when the glacial damns were breached. Farther to the East, the melting glacier sent flows across the originally low-lying western states which found their way to what is now called the Colorado River.

Therefore each cycle accumulated an additional layer of wet, soft sedimentary rock which was raised at the same pace due to the formation of subsurface granite and just as quickly was eroded away by rivers during the subsequent 15.6 years. Ninety-nine of these cycles built the mountain ranges, continents, canyons and provided the millions of species of flora and fauna which constitute our beautiful new world. Since the solid material from Mars was primarily soil and water, the Earth is covered by many sedimentary layers except where granite cratons rose through them, exclusively in the continents of the Earth, The

Fig.3 The North American Craton

North American craton remains hidden below the surface.

Mars’ tidal drag also repositioned the continents to their present locations, creating the subduction zones on their west coasts. North and South America were moved even farther west by the horizontal tidal force of Mars 35,000 km above the Himalayas, stretching open the mid-Atlantic rift and creating the Pacific ‘Rim of Fire”. This motion also produced the Rockies, North and South American Cordilleras and the Basin and Range Provence on the west coast.

Zircon (U-Pb) Dating

Based on the ancient myths of RgVeda, Egypt, Celts, Greeks and clues in the Bible, these ninety-nine 30-year geostationary encounters with Mars took place between 3700 and 687 BC. Otherwise they could not have been observed and ancient texts composed about them.  Because the Earth is covered by sedimentary rock from hundreds of volcanoes on Mars the suspiciously ubiquitous zircons give a wide range of ages, all characteristic of the more ancient Mars, not of the Earth.

This entire resurfacing (terraforming) of the Earth was cotemporaneous with the Biblical period from Genesis to the time of Isaiah, 687 BC, who wrote:

Isaiah 65:17 For, behold, I create new heavens and a new earth: and the former shall not be remembered, nor come into mind.

Not only is the evidence present around the world in agreement with the myths, but the caveat in this verse holds true, since academics are completely blind to both the changes in the heavens and the Earth. This period is currently called the Cenezoic and dated by evolutionists, who need the great span of time, in all departments at 66 Ma. Of course, this is because the magnitude of the world resurfacing is incomprehensible to them.

 

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Ultima Thule – Just Another 67P/Churyumov–Gerasimenko from Jupiter

•January 7, 2019 • Comments Off on Ultima Thule – Just Another 67P/Churyumov–Gerasimenko from Jupiter

An article in Nature News Reports another ‘snow-Man’ asteroid – the most distant body in the Solar System, in the Kuiper Belt. New Horizon scientists claim that it was created 4.6 billion years ago.

Asteroids

As explained in a previous post, Millions of 67P/Churyumov–Gerasimenkos, these asteroids were all created from a slowly declining, blazing fusion reaction ‘left behind’ on the surface of Jupiter from the impact out of which Venus, more correctly proto-Venus, was born, 6000-years BP. The reaction continues to this day heating up the atmosphere of the giant Jupiter and producing the Great Red Spot. Along with Pluto, 67P and the new MU69 are

Fig. Juno asteroid 67P –

Fig. 2. Juno asteroid Ultima Thule MU69, is  ~31 X 19 km , eight times the size of 67P C-G of 67P.

the first three of millions of bodies produced from Jupiter’s blazing plume that have been observed close-up. The rest make up the entire Main Asteroid belt, the Kreutz Sungrazers that cause sunspots, and millions that orbit in the L4 and L5 Lagrange points of Jupiter.

Fig. 3 Jupiter plume (Juno) extending from 22 degrees South Latitude

Mythology

This fusion reaction, which blazed for almost 6,000 years, was observed by over one-hundred and fifty generations of human beings, and was therefore given names in all ancient cultures. The Greeks called it the aegis (shield) of Zeus (Jupiter), because it could be seen moving from left to right as Jupiter rotated, as if in battle. The impact on Jupiter caused the entire atmosphere to expand and glow an order of magnitude larger than normal. In Roman myth, this was described as Jupiter surrounding himself with a cloak to mask his affair with Io. But the blaze, which extended 2 million kilometers out into space from the impact site was imagined to be his wife Juno who was peering through the cloak to observe his infidelities (Figure 3). In the RgVeda, the blazing plume was described as ‘left behind’ from the explosion out of which Aditi (proto-Venus) was born, and imagined to be an elephant mrtnnda, which was seen swinging his trunk from side to side,also due to Jupiter’s rotation..

Physics

The blazing hot gases expanded, cooled and condensed forming solid particles which, because they were all moving in similar directions, splatted and stuck together at different scales forming larger bodies, exactly the shapes of the asteroids. Jupiter’s fast rotation, every 9 hours (~ 42,000 km/h at 22 ° S Lat.) flung the asteroids to all parts of the solar system and when added to its orbital velocity deep into the outer system. Because the blaze was directed south of the ecliptic plane, the hypothetical CMB is found to be hotter in that portion of the solar system.

There are more things in the world than are dreamed of in your philosophy, Horatio.   William Shakespeare

NASA Interpretations of Juno Data, Dec. 2018

•January 3, 2019 • Comments Off on NASA Interpretations of Juno Data, Dec. 2018

A summary of the featured talk on Juno’s latest (lack of) results at the fall meeting of the American Geophysical Union by David J. Stevenson:

Fig. 1. Unique disk-shaped magnetic field gererated by circling helions

“Gravity field, magnetic field and microwave brightness temperatures are three key global observations by the Juno spacecraft that inform us about what lies beneath the clouds, all the way to the center of Jupiter. Gravity … has indicated that Jupiter has an increasing concentration of elements heavier than hydrogen and helium towards the center, but not localized as in old ideas of a central core, telling us about the formation and evolution of the planet. Gravity has also told us that the winds we see in the atmosphere extend down several thousand kilometers, neither shallow in the sense of being confined to the weather layer, nor deep in the sense of extending significantly into the metallic hydrogen region. But remarkably, the pattern of the winds in the atmosphere is largely preserved at depth, an important constraint on dynamical theories for their origin. The magnetic field is incompletely mapped but already shows some striking features that have no counterpart in any other planet thus far: localized regions of high flux and a marked hemispheric difference in field structure north and south. The microwave observations show that the ammonia is non-uniformly distributed to hundreds of kilometers below the ammonia or presumed water clouds, a surprising result with implications for the nature of convective processes and the water abundance. These results challenge us to connect these three pieces: inferences on the depth of the winds may impact our interpretation of the magnetic field since meter/sec winds interact with the field in regions outward from the dynamo, and implications for water abundance from the microwaves may influence our interpretations of how the planet formed. Success of the Juno mission is measured in many ways, including instrument performance, but it is reinforced by the ways in which the results have surprised and challenged us.”

Cyclic Catastrophism (bold below)

Many posts on this site can be accessed through the search window, (i.e. select Jupiter or Juno) but the salient fact are recounted here.

A. The gas giant hypothesis on which all current research is conducted, is the primary problem since gas giants form at <50 K..

B. The gravity data is showing that Jupiter has an “increasing concentration of elements down several thousand kilometers, neither shallow  … nor deep. but not localized as in old ideas of a central core.”

This is because the Methane Gas Hydrate structure is low density and rigid.

C “Gravity is also telling us that the winds we see in the atmosphere extend down to several thousand kilometers, neither shallow in the sense of being confined to the weather layer, nor deep in the sense of extending significantly into the metallic hydrogen region. But remarkably, the pattern of the winds in the atmosphere is largely preserved at depth, an important constraint on dynamical theories for their origin.”

The fundamental problem here is more profound. It is the assumption that the magnetic field, the dynamo, is generated in the interior, which is not possible if the planet is solid. Cyclic Catastrophism proposes that a fusion reaction p + d ⇒ 3He++ + 4.98 MeV, left over from a recent 6,000-year old impact, of closely bound protons and deuterium in the methane gas hydrate, are producing 1030 invisible, doubly-charged helions per second which exit the atmosphere through the Great Red Spot, and given the angular momentum of the fast spinning planet, orbit prograde at 1.08 RJ, producing an appropriately shaped powerful magnetosphere and the external magnetic field (Figure 1.). This stream of ions is currently interpreted as the inner radiation belt and is avoided, not the least because, the JEDI ion instrument cannot measure the flight time of the helions thru the 6-cm instrument.  

The reason that the “pattern of the winds in the atmosphere is largely preserved at depth” is because the heat of the fusion reaction is releasing the full abundance of heavy elements in the clathrate MGH which combine to form high temperature compounds, such as CS. These crystallize as they rise and cool in the GRS vortex and flow out into the upper atmosphere as particulate aersols, causing the colored clouds we observe, but which Juno instruments cannot identify, so they are currently imagined to be ammonia ice. These heavy particles have been falling to the surface and accumulating beneath the clouds since ~ 1935, accumulating on the solid surface, producing the broader gravitational signals interpreted as due to the wind “at depth”.

Fig. 2.  (a) ‘Striking’ upward magnetic features in Jupiter northern hemisphere  (b) less complex downward field in southern hemisphere. .

 

D. The “striking features in the magnetic field” are due to swirling of some of the helions flowing toward the north pole which, because they have much farther to go from the GRS at 22 degrees South Latitude, are deflected by the turbulence of the clouds in the northern hemisphere.

E. The microwave observations (MWR) are currently interpreted based on the gas giant hypothesis. Thus, the longer wavelengths are

Fig. 3 MWR misinterpretation of surface heat as ammonia deep in planet due to lower frequency IR

assumed to originate from deeper in the planet. However, radiometers measure only heat, not ammonia.  In the solid methane gas hydrate hypothesis, the solid surface of Jupiter confines the circulation of a jet stream heated by the fusion reaction above the surface of the planet, which lies 700-800 km below the cloud tops. But the IR data is still interpreted as if the longer wavelengths are coming from ammonia clouds deeper in the planet. (Figure 3.).

Fig. 4. Toroidal surface winds showing eastward equatorial jet stream bordered on the north by the Coriolis force becoming vertical at the equator.

Fig. 5. IR, Vis. MWR showing location of MWR ‘ammonia signal’ in clear North Equatorial Belt and raised clouds just south of it at the equator in middle image

F. The multiple zonal wind bands are actually horizontal Coriolis vortices (zones) constrained below by the solid surface of the planet. The primary vortex, driven by the fusion, spawns adjacent bands spinning in opposite senses where they come in contact (belts). The significance of Coriolis is demonstrated by the cloudless north equatorial belt (Figure 5 left image), which lacks any circulating vortex because the Coriolis effect becomes vertical at the equator, preventing the spawning of a cloud vortex from the south, where the energy source (GRS) is. The radiation coming up through this gap in the clouds, currently interpreted as a signal associated with ammonia, is from the hot primary vortex (yellow in Figure 4) which travels north beneath the clouds and is reflected upward by the clouds north of the gap, as shown in Figure 5 right image. The raised clouds along the equator, are visible along the equator in the middle, visible light images (Figure 4.) and are also indicated by a lower measured velocity dip (shown elsewhere) along the equator.