• or solid-state enthalpy (SSE) on dry and airless bodies.
Ignoring this universal mechanism drives false climate narratives and failed policies.
Before promoting social contracts, leaders must first understand the Enthalpy Engine that governs all body climates, not CO₂ abstractions.
Black Holes > Anti-Matters > GCRs > SEPs > Collisions [E=MC²] > H₂O (LPET) > SSE > O₂ > N₂ > Ar > CO₂ > O₃ > H₂ > CH₄ > N₂O, etc
a. Local scale — Building concrete jungles reduces plant coverage, limiting latent heat release, water cycling, and natural cooling. This amplifies urban heat and disrupts local enthalpy balance.
b. Regional scale — Mismanagement of energy flows (HAARP, Cloud seeding) and water enthalpy (thermohaline currents, jet streams, reservoirs, dams) alters regional climate patterns; rainfall, droughts, floods, and storm intensity.
c. Cosmic and Planetary scale — Ignoring cosmic, BH, AM, GCRs, SEPs, impacts [E=MC²] and geophysical inputs [Deep-Earth Heat] prevents proper climate regulation, leaving systems vulnerable to cataclysmic resets and phase-change feedbacks.
🌌 What Are Galactic Cosmic Rays [GCRs]?
Galactic Cosmic Rays (GCRs), originating from supernovae and other high-energy cosmic events, carry energy magnitudes far beyond anything found within our solar system. These rays consist of a diverse array of high-energy particles, including Protons (Hydrogen nuclei), Alpha Particles (Helium nuclei), Heavy Ions (such as Iron nuclei), Electrons, Positrons, Gamma Rays, and Neutrons. Upon penetrating Earth’s atmosphere, GCRs ionize atmospheric molecules with far greater intensity than any terrestrial gases such as CO₂, O₂, or H₂. Unlike these gases, which have limited ionizing potential, GCRs play a pivotal role in cloud nucleation and climate modulation, influencing atmospheric processes in ways that terrestrial gases cannot,
totrade.co/g
☁️ The CLOUD Experiment at CERN Confirmation
• The CLOUD experiment uses a controlled chamber to simulate Earth's atmosphere and study how cosmic rays affect aerosol nucleation—the first step in cloud formation.
• It has shown that cosmic rays can enhance aerosol formation, especially in the mid-troposphere, where cooler temperatures prevail.
• The experiment uses both natural cosmic rays and artificial beams from CERN’s Proton Synchrotron to simulate different ionization levels. Ref: CERN:
bit.ly/cerngcrs, NASA:
bit.ly/nasagcrs
🌍 Link to Climate and Cataclysmic Events
• The CLOUD experiment has demonstrated that GCRs can influence cloud formation, there is direct evidence that it causes or predicts cataclysmic events on Earth:
totrade,co/s• These concludes that further increase of GCR flux from a nearby supernova will significantly alter Earth's climate by increasing cloud cover, intense rainfall, loosen tectonic plate, and triggering atmospheric changes. This is confirmed by CIA classified research:
totrade.co/h.
🌌 How GCRs Trigger Cataclysmic Events
While the shockingly primitive masses are easily indoctrinated into the CO₂, methane (CH₄ by
The World Bank here), or gas-driven Anthropogenic Global Warming narrative—now rebranded as 'Climate Change'—far more consequential studies on Galactic Cosmic Rays (GCRs) and their role in triggering planetary cataclysms remain buried in obscurity. Here, we dare to explore this forbidden knowledge. Article:
bit.ly/ll_cataclysm
Galactic Cosmic Rays (GCRs) carry energy levels that dwarf anything produced within Earth (surpassing the combined effects of CO₂ N₂ O₂ H₂ or all sum of Earth elements potential energy combined), our solar system, during this period of low Solar activity, and the Milky Way at its Magnetic Null Zone. When these high-energy particles penetrate Earth’s atmosphere — and more critically, its interior —GCRs ionize matter with extraordinary intensity.
This intense ionization disrupts the electromagnetic equilibrium of Earth’s interior, particularly the 60-mile-thick molten layer beneath the crust. As this layer destabilizes, it transitions from a semi-solid buffer into a fully liquefied lubricant. The consequence: the crust loses its anchoring and can slip at supersonic speeds over the mantle — a violent mechanism capable of triggering sudden tectonic displacement, climate collapse, and planetary-scale destruction.
🔁 The Earth Mechanism
A sixty mile molten layer lies beneath the crust. Normally it behaves near solid because a magnetohydrodynamic energy lattice locks flow. Earth's magnetic and electrical fields sustain this lattice. When the lattice breaks down the molten layer returns to fluid. The crust becomes free to shift.
Enthalpy effect
Ionizing flux injects enthalpy into the interior. Enthalpy raises internal energy and shifts phase boundaries. Local heating lowers viscosity and reduces friction between shell and interior. That loss of mechanical resistance speeds crustal motion.
Weight imbalance
Mass moves inside and on the surface. Large-scale mass shifts produce weight imbalance across the shell. Imbalance creates net torque and stress on faulted zones. Combined with reduced MHD locking and higher enthalpy, the shell not may but will undergo abrupt translation or rotation.
💥 The Trigger
The Solar System crosses a galactic magnetic null zone. Solar activity drops. The heliosphere weakens. Galactic Cosmic Rays surge and penetrate deep. Increased ionization disrupts climate and the MHD lattice that stabilizes the molten layer.
What you should monitor
. Galactic Cosmic Ray flux records.
. Geomagnetic intensity and secular variation.
. Seismic attenuation and low frequency noise as enthalpy proxies.
. Gravity and mass redistribution signals from satellite gravimetry.
. Deep electromagnetic anomalies and conductivity changes.
Implication
Concurrent enthalpy rise and weight imbalance produce the highest risk for rapid shell movement. We must link multi-disciplinary observations to detect precursor patterns.
🌊 The Consequences
The atmosphere and oceans do not shift with the crust — they continue rotating at 1,037 mph (1,669 km/h) at the equator.
This results in supersonic winds, mega-tsunamis, and global flooding, burying continents under miles of water.
Volcanic eruptions, earthquakes, and molten earth-fire follow, reshaping the planet and erasing civilizations.
🧠 Summary
Galactic Cosmic Rays (GCRs) themselves are not the direct cause, but their increased flux during periods of low solar activity contributes to the weakening of the heliosphere and Earth’s magnetic fields. This weakening, when combined with the passage through a galactic magnetic null zone, is what triggers the cataclysm.
🌌 Galactic Magnetic Null Zone and Earth’s Vulnerability
“The trigger, then, is our planet's passage (along with the entire Solar System) through a galactic-scale magnetic null zone,
totrade.co/gn, diminishing solar activity,
totrade.co/sm, increasing GCRs reaching Earth that diminish the Earth's inner magnetohydrodynamic (MHD) energy to so low a level that the shallow molten layer, starting at 60 miles deep and extending to 120 miles deep, is allowed to act as a free liquid lubricating layer…”
This passage explains that the galactic magnetic null zone disrupts the magnetohydrodynamic (MHD) structure of Earth’s interior, allowing the crust to slip over the molten layer — a process that can lead to pole shifts, mega-tsunamis, and global cataclysms.
🔬 CERN and Supernova-Driven Galactic Cosmic Rays (GCRs)
• CERN’s Role Clarified: CERN does not create or amplify Galactic Cosmic Rays (GCRs) from supernovae. Instead, it simulates high-energy particle interactions in controlled experiments to understand cosmic phenomena, including how GCRs may affect Earth’s atmosphere and climate.
• GCRs and Supernovae: True Galactic Cosmic Rays originate from supernova explosions and travel vast distances over thousands to tens of thousands of years. According to CIA classified, The Adam and Eve Story-The History of Cataclysms, these GCRs may follow cycles with wavelengths ranging from 500 to 36,000 years, with the longer cycles delivering more potent energy surges.
• Deep-Earth abrupt enthalpy release triggered by GCRs (
from Chan Thomas): Over long intervals, cosmic ray-induced energy accumulations may disrupt Earth’s internal electromagnetic order, particularly in the 60-mile-thick molten layer beneath the crust. This disruption could act as a trigger for crustal displacement—unleashing catastrophic events such as:
o Earthquakes and tectonic shifts
o Super volcanic eruptions
o Global floods and mega-tsunamis
o Sudden climate collapse and magnetic field disturbances
• Historical Patterns: These cosmic cycles appear to correlate with past Deep-Earth abrupt enthalpy release—like Noah's flood (~6,500 years ago) or the great crustal shift ~11,500 years ago—which are believed to reset civilizations and transform the Earth’s geography within hours.
“As interval increases, there is a corresponding build-up of potential energy, leading to a more powerful, abrupt release—triggering a planetary reset.”
— Adapted from The Adam and Eve Story, The History of Cataclysm.
🌌 Cosmic Rays, Clouds, and Climate: Insights from CLOUD at CERN
The CLOUD experiment investigates how Galactic Cosmic Rays (GCRs)—high-energy particles from supernovae—affect aerosol nucleation, which is the first step in cloud formation. Key findings include:
• GCRs enhance aerosol formation (cloud seeding), especially in the mid-troposphere, where cooler temperatures prevail.
• These aerosols act as cloud condensation nuclei (CCN), increasing cloud cover and potentially rainfall.
• GCRs follow long-term cycles (500 to 36,000 years), with stronger surges linked to climatic and geological upheavals.
Increased lightning activity contributes to:
• Nitrogen fixation: Lightning converts atmospheric nitrogen into nitrates, enriching soil.
• Rainfall: Lightning often accompanies storms, increasing soil moisture and humidity.
🌩️ The Early Warning: Lightnings surge as Nature’s Signal
As Galactic Cosmic Rays (GCRs) intensify, they contribute to a surge in lightning activity, which plays a critical role in shaping Earth’s ecosystems and signaling systemic change:
⚡
Nitrogen Fixation: Lightning converts atmospheric nitrogen (N₂) into nitrate ions (NO₃⁻) — a form plants can absorb. This natural fertilization enriches the soil, boosting plant growth and fruiting,
totrade.co/fr.
🌧️ Enhanced Rainfall: Lightning often accompanies storms, increasing atmospheric moisture, soil hydration, and humidity levels — all essential for thriving vegetation.
Together, these effects create a synergistic boost in fruit production, especially in tropical regions, and may serve as an early indicator of planetary-scale shifts.
Here are some credible sources that confirm a surge in lightning activity and its link to Galactic Cosmic Rays (GCRs) and climate change.
⚡ Key Scientific Findings on Lightning and GCRs
1. NASA Earthdata – “Cosmic Charges”
o Researchers found that Galactic Cosmic Rays (GCRs) may play a significant role in triggering lightning by ionizing the atmosphere.
o Using data from the National Lightning Detection Network, a positive correlation was observed between cosmic ray intensity and lightning frequency. 🔗
Read the full article,
totrade.co/gcr12. Frontiers in Physics – “Short-Term Lightning Response to Ground Level Enhancements”
o This peer-reviewed study analyzed three major cosmic ray events (GLEs) and found a statistically significant increase in global lightning activity within 20 minutes of each event. 🔗
Read the study PDF,
totrade.co/gcr2
3. The Weather Network – “Mystery of Lightning’s Initial Spark”
o High-energy cosmic rays are now believed to help initiate lightning discharges by overcoming the insulating properties of air. 🔗
Read the article,
totrade.co/gcr3
4. Yale Environment 360 – “Lightning Strikes the Arctic”
o Reports a dramatic increase in lightning in the Arctic, from ~100 strikes/year in the early 2010s to over 7,000 in 2021 — a region that historically had almost none. 🔗
Read the article,
totrade.co/gcr4
