A Theoretical Framework for Electromagnetically-Driven Warp Drives Using Morgan's Law

This condensed, but comprehensive paper, proposes a physically plausible framework for warp drive propulsion based on Morgan’s law:

m = q² / (4π ε₀ c² r)

By controlling a craft’s mass through electromagnetic parameters, inertial barriers are eliminated and spacetime can be dynamically engineered, enabling rapid interstellar travel. The engineering approach focuses on mass modulation, spacetime contraction/expansion, scalable energy use, and achievable technology milestones.

Method Summary:

Modulate inertial mass via charge and field control, using advanced EM arrays

Structure electromagnetic environments spatially to form "warp bubbles" around spacecraft

Reduce propulsion energy requirements by bypassing rocket equation limitations

Scale from laboratory test masses to spacecraft systems.

Potential Applications:

Warp drive spacecraft for interstellar missions

Large-scale inertial dampening for human safety

Miniaturization of satellites and space probes

High-efficiency logistics and global transit

Advanced energy generation/storage systems

Medical nano-carrier deployment and imaging

Requirements:

Ultra-high field stability and charge control

Advanced superconducting and insulating materials

Precision feedback instrumentation for mass and gravity

Laboratory demonstration of mass modulation per Morgan’s law

Safe protocols for artificial spacetime curvature

Impact Statement:

If implemented, Morgan’s law would enable rapid transit across space, protecting human crews from acceleration forces and opening the cosmos for sustainable exploration and development.

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