It’s the same in terms of your maximum optimized speed. Power is power. An ice engine needs to rev high to get high power and an electric motor doesn’t (depending on how it’s wired). But if you optimize the drive train perfectly in either case, there is a maximum speed you can lift a given weight based on the power output of the engine system. v=P/(mg) this is irrelevant of whether your power is coming out of an electric, ice or other type of motor. A typical electric setup would probably get closer to that ideal than a typical ice in terms of achieving their maximum quoted power output. But the electric set up will never exceed it. That’s just physics no matter how much you might like EV cars.
It’s the same in terms of your maximum optimized speed. Power is power. An ice engine needs to rev high to get high power and an electric motor doesn’t (depending on how it’s wired). But if you optimize the drive train perfectly in either case, there is a maximum speed you can lift a given weight based on the power output of the engine system. v=P/(mg) this is irrelevant of whether your power is coming out of an electric, ice or other type of motor. A typical electric setup would probably get closer to that ideal than a typical ice in terms of achieving their maximum quoted power output. But the electric set up will never exceed it. That’s just physics no matter how much you might like EV cars.
Stop talking and load the car.