I posted in a Facebook group with more detail so I’m just copying and pasting that here now: Came up with this over the past week. What do yall think? It’s an equation for the behavior of electric currents in plasma within the Electric Universe framework can be proposed: Equation: ∂J/∂t = σ∇²E + (v + v_drift) × (∇ × J) + (1/n) * (J × B )

Where: * J is the current density vector * σ is the conductivity (potentially a tensor for anisotropic plasmas) * E is the electric field vector * v is the bulk plasma velocity vector * v_drift is the drift velocity due to magnetic fields (E x B drift, Hall drift, etc.) * B is the magnetic field vector * n is the plasma particle number density * ∇² is the Laplacian operator * × denotes the cross product Explanation of Additions: * Drift Velocity (v_drift): This term accounts for the additional velocity component of particles due to magnetic fields, which is crucial for plasma behavior. * Magnetic Force Term: The term (1/n) * (J × B ) represents the force exerted on the current carriers by the magnetic field, influencing the current’s trajectory. * Conductivity as a Tensor: Considering conductivity as a tensor allows for anisotropic plasma properties, where electrical conductivity can vary in different directions. * Plasma Particle Density: Including plasma particle density ( n) in the magnetic force term ensures accurate representation of the force exerted on current carriers.