Conventional meteorology and climate science have focused heavily on thermodynamic and radiative principles treating Earth’s atmosphere as a system governed by heat, pressure, and fluid motion.
But growing experimental and theoretical evidence supports an expanded view that electric and magnetic fields play active, directional roles in shaping atmospheric circulation, turbulence, and even long-term climate cycles.
The following discussion I had is a thought-provoking interaction with ChatGPT exploring how Earth’s magnetic field influences electric field behavior—especially lateral electric field gradients and how this, in turn, may drive weather and climate effects.None of these were leading questions just intuition.
You might be surprised at how deeply core, mantle, and lithospheric processes are connected to fluid dynamics and atmospheric behavior once electromagnetic interactions are taken seriously. Source papers within
https://chatgpt.com/share/68501249-d154-8009-b87f-ed9cc61b59f4
