You're proving my point. That's a big list of all the ways the car wastes energy that have nothing to do with the thermodynamic minimum to move the mass from point A to B. Those factors absolutely dominate the energy use.
Maybe an analogy is useful? There's a claim that you can cook 20 pounds of food in one type of bonfire setup with less fuel use than if you cooked 1 pound of food in a different type of bonfire. The amount of energy needed to actually perform the chemical changes on a pound of food, even multiplied by 20, is negligible compared to the vast quantities of energy that are going to other things.
Oh, you're right, I didn't understand your point before. You're saying that the thermodynamic minimum is a theoretical limit not approached in practice, right? It's not related to regenerative braking. The connecting "so" made me think you were saying that regenerative braking is the reason the thermodynamic minimum is much smaller.
It's more of "With thermodynamics we care only about the thrust to get up to speed. If we add regeneration then we can even factor most of that out, getting us to energy expenditures so very tiny that they're irrelevant to the total."
Got it, and likewise I could have not made assumptions and jumped to the conclusion that I understood your comment. I got lost between theory and practice. I think I agree with all of what you said when we're talking about theoretical limits and theoretical near 100% efficient regeneration. It's just that in practice, regenerative braking on a Tesla is not that efficient, and it isn't something that recovers most of your energy spent accelerating, it only recovers a minority share normally, and often only a very small minority.
Maybe an analogy is useful? There's a claim that you can cook 20 pounds of food in one type of bonfire setup with less fuel use than if you cooked 1 pound of food in a different type of bonfire. The amount of energy needed to actually perform the chemical changes on a pound of food, even multiplied by 20, is negligible compared to the vast quantities of energy that are going to other things.