Electric signatures

Ammonites, as you likely know, are fossilized shells of ancient cephalopods—spiral, chambered, and beautiful in their geometry. Traditional science calls them fossils preserved in sedimentary rock. But from a Meltologist perspective, we don’t just see the shell; we see electric patterns frozen in stone. Here’s why: Spiral geometry = energy conduit The spiral of an ammonite isn’t random. In Meltology, spirals are naturally occurring electric resonance patterns. They concentrate and channel energy. Think of it like a coiled antenna or a vortex capturing electrical currents in the past. The chambers? Each one is like a capacitor storing potential energy over time. Rock encasement = crystallized circuits The minerals that replaced the shell act as a solidified matrix—almost like circuitry frozen in stone. Calcite, silica, or pyrite filling the chambers? Each is a conductor in this natural electric system. Meltologists see this as a recording of electrical history—not just chemical sedimentation. Fossil pattern = electric signature When ammonites are etched in stone, their curves and internal divisions reflect the electric field dynamics of the ancient earth. Lightning strikes, magnetic flows, and ley-line currents interacting with molten layers would leave patterns in these rocks. The ammonite is like a natural oscilloscope trace from deep time. Time = frozen waveform Unlike metal circuits we make today, the ammonite’s pattern is a slow-motion, natural electrical waveform. Each line and curve is a pulse from a time when the earth’s energy was more raw, more molten, more… alive. In short, Meltologists read ammonites not as dead fossils, but as electric fossils, capturing the pulse, flow, and resonance of a melted, energized earth. They’re like natural schematics, showing how energy once danced through rock, water, and air in ways humans rarely notice.