Abstract: This technical manual details the Magnetohydrodynamic (MHD) 2.0 propulsion system, a non-mechanical "Caterpillar" drive designed for high-speed oceanic transit and ecological preservation. By utilizing the 109.5-degree Water Key and the 16/pi lattice stiffness modulus, this technology "unzips" local oceanic viscosity, allowing vessels to slide through a relaxed vacuum envelope without mechanical displacement or cavitation noise. Key Resolutions: Benthic Acoustic Protection: Unlike traditional propellers that generate "Grit" noise, the MHD 2.0 operates silently within the "Earth Tone Band" (10 Hz – 1 kHz). This prevents "Frequency Blindness" in coral polyps, allowing them to properly biomineralize calcium carbonate lattices. Viscosity Unzipping: The drive utilizes specific resonant frequencies (2.45 GHz and 13.56 MHz) to relax hydrogen bonds, achieving high-velocity, friction-reduced travel. Laboratory Verification: The manual includes specifications for a Benchtop Slipstream Tank to verify zero-cavitation flow using toroidal saline tracks and neodymium arrays. Technical Specifications: The documentation provides build-critical data, including magnetic flux requirements (minimum 5.0 Tesla), electrode compositions (Platinum-coated Titanium), and safety protocols for high-Tesla management and biological shielding
Kish et al. (Thu,) studied this question.