Edward and the Electric Dipole: The Quantum Mechanics of Perception
What happens at the neural level when consciousness accesses information beyond conventional time and space? This session breaks down the theoretical framework behind remote viewing, focusing on the role of pyramidal neurons, microtubule networks, and the cascading effect of tubulin dipoles during information acquisition.
Rather than treating remote viewing as mystical, this analysis approaches it as a measurable phenomenon with identifiable neural signatures. You'll see how quantum state collapse within microtubules might generate the dimensional sensations that characterize accurate remote viewing sessions—complete with a live demonstration that walks through the entire process from initial impressions to target verification.
Whether you're interested in consciousness research, the practical applications of non-local perception, or simply understanding how these protocols generate verifiable results, this session offers a unique perspective on the mechanics of awareness itself.
This session was recorded on February 3, 2026.
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