Global Risks Assessment: Impending Cyclical Cataclysm

The world is on the verge of a cataclysmic event, a monumental upheaval rooted in the deep mechanics of the Earth’s interior and tectonic plates. Earth experiences periodic shifts in its tectonic plates, occurring at intervals ranging from ±5,000 to ±35,000 years. The longer the gap between these intervals, the more potent the eventual displacement. We are currently nearing the end of a ±12,000-year wave buildup, positioning us on the cusp of this colossal geological reset.

As tectonic plates prepare for their massive shift, subtle yet significant climate events have begun to manifest across the globe. These are the harbingers of impending doom: increasingly erratic weather patterns with more floods and droughts year-on-year, rising ocean temperatures, accelerated ice melt, and unprecedented seismic activity. Together, these phenomena hint at an unimaginable event looming—a sudden displacement that will reshape the very face of the Earth.

This cataclysm, predicted to last for six agonizing days, will unleash a destructive energy transfer on an unparalleled scale. The violent movement of Earth’s crust will cause entire continents to shift positions, uprooting ecosystems and civilizations, and altering the geographical makeup of the planet. As the tectonic plates displace, massive earthquakes, volcanic eruptions, and tsunamis will ravage the world, toppling mountains and sinking cities. Destruction will strike indiscriminately, leaving humanity to face the full force of nature’s wrath.

On the seventh day, the devastation halts, leaving behind a transformed Earth. The Bay of Bengal basin, currently situated just east of India, will now occupy the North Pole, while much of Southeast Asia is now in the North Temperate Zone with its coastal regions, including Singapore, Malaysia, Indonesia, Thailand, Cambodia, Myanmar, Indonesia, the Philippines, and Vietnam will be submerged under rising waters, with the remnants of the landmass devastated beyond recognition.

Human civilization, already fragile from the turmoil of the first six days, will face its greatest challenge: survival in a new Stone Age. With cities decimated and most of the population wiped out, survivors will grapple with a harsh, unforgiving world—facing extreme climates, dwindling resources, and a struggle to rebuild in unfamiliar terrain.

The cataclysm’s scale and ferocity suggest that it will reset much of the modern technological infrastructure, erasing centuries of human progress in less than a week. The event will mark the dawn of a new epoch on Earth, where humanity, if it survives, will need to adapt to the new environmental and geographic realities left in the wake of the displacement.

The cycle continues. What remains is the question: how prepared are we for the inevitable? As the Earth approaches the end of its ±12,000-year buildup, these climate anomalies and tectonic shifts are the ominous signs of an impending catastrophe that could redefine life on Earth forever.

Mitigating Cataclysm
We know inside out why this is happening and acknowledge the human contribution to it, i. e. ocean pollution with microplastics, deforestation, bad city planning, and hydrocarbon dependence are anthropogenic factors that raise land, water and air temperatures. However, contrary to media sensationalism focused solely on human-induced climate change, sunspot activity—a primary indicator of solar heat energy transfer according to the first law of thermodynamics—has been declining since 1957 Solar Maximum. Source: https://sidc.be/SILSO/monthlyssnplot.

During periods of lower solar activity (fewer sunspots), the heliosphere's magnetic field weakens, allowing more Galactic Cosmic Rays (GCRs) to penetrate our heliosphere, bombarding both the exterior and interior of our planet. This massive energy transfer adheres to the First Law of Thermodynamics (conservation of energy), as heat is transformed into a massive pressure increase, causing the Primary Water to warm up and rush to the surface. This pressure lifts the tectonic plates, displacing them at supersonic speed. The process follows the Second Law of Thermodynamics, where energy is converted into mechanical and gravitational forces, potentially triggering cataclysmic events such as massive floods, volcanic eruptions, supersonic winds, and tsunamis.

UNRAVELLING THE MYSTERIES

Cosmic Forces and Earth's Balance: The Impact of Galactic Cycles on Extreme Weather and Geological Events
The cyclical interplay between Galactic Cosmic Rays (GCRs), sunspots, and the heliosphere forms a dynamic dance of celestial forces that continuously shapes our cosmic environment. The heliosphere—the protective bubble created by the solar wind—shields the solar system from interstellar cosmic radiation. During the low solar activity, this protective bubble is weakened, allowing more Galactic Cosmic Rays to bombard Earth, which increases the energy potential of both its exterior and interior, perturbing the equilibrium state of various systems. As the consequence, the Earth energy tend to equilibrate characterized by Intense floods: totrade.co/flood, Snowstorms: totrade.co/snow, Extreme heat totrade.co/heat, fires: totrade.co/fires, Hailstorms: totrade.co/hail, Strong winds: totrade.co/winds, Intense Cyclones: totrade.co/cyclones, Tornadoes: totrade.co/tornado, Earthquakes: totrade.co/quakes, Volcanic eruptions: totrade.co/volcano, Tsunami: totrade.co/tsunami, Tectonic plates displacement: totrade.co/tecplates.

Galactic Cosmic Rays (GCRs)
Galactic cosmic rays (GCRs) are high-energy charged particles originating from astrophysical phenomena like supernova remnants. These energetic travelers, with cyclical wavelength, intensity, flux, and energy, journey through the vast expanse of our Galaxy, eventually reaching the heliosphere—the region dominated by plasma emanating from our Sun. However, during periods of low solar activity, this protective bubble is weakened, allowing more GCRs to bombard Earth.

Solar Modulation
Within the heliosphere, GCRs interact with the turbulent plasma environment. This interaction, known as “solar modulation,” affects GCR flux and energy. Interestingly, most of this modulation is independent of particle charge. However, charge-dependent effects arise due to large-scale gradients in the heliospheric magnetic field and the presence of the heliospheric current sheet—a delicate structure separating regions of opposite magnetic-field polarity.

Sunspots and Solar Activity
Now, let’s connect this to sunspots and solar activity. Sunspots are dark regions on the Sun’s surface associated with intense magnetic fields. The abundance of sunspots varies cyclically due to an ±11-year solar-activity cycle. During periods of higher solar activity (more sunspots), the heliosphere’s magnetic field becomes stronger, reducing the influx of GCRs and affecting their propagation. The variation of sunspots, along with other galactic events, are part of the cyclical wavelengths of energy transfer, ranging between ±5,000 years to ±35,000 years wave¹.

Unravelling the Mysteries
Recent measurements by the Alpha Magnetic Spectrometer (AMS) Collaboration have provided unprecedented accuracy in understanding how GCR electrons and protons propagate through the turbulent heliosphere. These observations allow scientists to probe the fundamental physics behind cosmic-ray transport.

Galactic Cosmic Rays and Climate Change
Interestingly, Galactic cosmic rays are also influence Earth’s climate. Factors related to cosmic rays affect cloud formation and northern high-latitude winter cyclones. The intricate dance of cosmic forces continues, shaping both our cosmic environment and our planet.

Primary Water Cycle (PWC)
Primary Hydrologic Cycle is created underneath the earth’s crust, the 2900km (1800 miles) thick mantle. Under tremendous pressure from Earth's internal heat, hydrogen and oxygen are fusing together, became hot steam and forced upward through rock fissures (weakest areas of Earth's crust) becoming liquid as it cools. Primary Water is forced upward. The Primary Water Cycle is about 5 times the Secondary Water Cycle.

Secondary Water Cycle (SWC)
The secondary Hydrologic Cycle is driven by Solar and cosmic Energy and is subject to gravitational energy and flows downward.

Every few thousand years, neutral matter appears to escape from Earth's inner core, which has a radius of 860 miles, into the 1,300-mile-thick molten outer core, triggering a literal atomic explosion. This explosion in the high-energy layer of the outer core disrupts the electrical and magnetic structure of both the molten outer core and the 60-mile-thick molten outer layer.

The explosion generates intense heat, raising the temperature of the Primary Water—deep water stored within Earth's 2900 km (1800 miles) thick mantle. As the water heats up, it expands, creating immense pressure that further amplifies the explosive force. This pressure causes large volumes of water to surge toward the Earth's surface.

During extended periods of low solar activity (fewer sunspots), the heliosphere's weakening magnetic field allows more Galactic Cosmic Rays (GCRs) to penetrate, bombarding both the surface and interior of the Earth. This energy transfer adheres to the First Law of Thermodynamics (conservation of energy), as heat transforms into increased pressure, causing the Primary Water to rise to the surface. The immense pressure also lifts tectonic plates, displacing them at supersonic speeds. According to the Second Law of Thermodynamics, energy is converted into mechanical and gravitational forces, potentially triggering catastrophic events such as massive floods, volcanic eruptions, supersonic winds, and tsunamis. Then comes the sudden, seemingly infinite supply of terrible, instantly paralyzing temperature drop of 180°F (about 80°C). Not man, beast, plant, muck, earth, nor water is left unfrozen in the entire eastern Asian continent, most of which remains below sea level.

The Ice Ages are not solely about the slow advance and retreat of ice. Instead, different regions of the Earth experience polar conditions at various times and for varying durations. These positional changes can occur rapidly, sometimes within a fraction of a day. As solar activity shifts to its Minimum phase, triggering the cascade of events described above, it is possible that Ice Age shifts could occur within just a few years following the recurrence of the Cataclysm.

(¹): A wave is a periodic motion where the equilibrium state of a system is perturbated, creating a characteristic oscillating behavior.

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Cataclysm Mitigation

The Hydroloop™ System, apart from mitigating both floods and droughts, has its primary purpose in mitigating Cataclysm. We understand in detail, through the principles of the laws of thermodynamics, the energy transfer from the galaxy to our Sun and into the internal structure of our planet. These complex and cyclical energy transformations are what cause cataclysmic events. The Hydroloop™ System main function is to release the Earth's internal pressure.