From the post "Temperature Of An Atom, Shocking!",
\(T=\cfrac{1}{2}(qv^2_{rc}+mv^2_{rg})\)
where \(v_{rc}\) and \(v_{rg}\) are spins about the charge time axis and the gravity time axis respectively. Spinning in time NOT in space.
The presence of charge, \(q\) in this formulation of temperature, is consistent with the observation that good conductor of electricity are also good conductor of heat.
Which means more heat can be sent down a conductor when an electric current is passing in the same direction. That heat can be directed using electric current flow. And heat can be blocked by intercepting its path with an electric current perpendicular to its flow.
