Swtor is like that. And it’s great.

The point was that increasing voltage allows more carrying capacity with a square root of the increase in dissipation as increasing current directly.

If there’s literally one place in America we need to throw money at, it’s the electrical grid.

We have a decades out of date power infrastructure, Europe especially has us beat.

Just like electrification originally, and later the internet, increasing power delivery will have benefits for everyone that pay off for centuries .

Mostly we need to make the grid far smarter.

Evs should be allowed to load coordinate with the grid, so they switch on at the optimum times for grid stability in exchange for major discounts on power.

A superload like this one should have to request clearance, then the grid compensates by reducing ‘cheap ev power’ in the area, while also requesting evs configured for v2g to be ready to possibly supply.

The supercharger has a slightly higher cost per kwh to make up for this, but that is the cost of convenience.

Fairly unlikely, we engineer things to fail safe.

Even if so we have ways to calculate the power going in and coming out, and if there’s an imbalance kill everything, that’s how gfci and arc fault breakers work.

P=i x v

But also

P=i^2 x r

Power goes up with linearly with voltage but to thw square or I.

Because with normal algorithms you have someone to blame.

AI is a trick to hide when you steer the results the way you want.