Most people don't drive 500km per day, the average is closer to 50 or so. So on average, you could easily top of your battery pack on 240V/10A circuit. That would be around 10kWh, which you'll do in 5 hours. Double the average and you'll still be topped up next morning.
Many people often travel regularly, like I do to visit family 150mi away. It would sure be nice to be able to charge while I'm at their house at a rate that would fill me back up. Range and charging speed matters, y'all shouldn't be just hand waving it away.
It's not being hand waved away. You're just constructing scenarios that most people owning an electric vehicle will agree is such a non-issue that it's not really worth debating. There are plenty of fast chargers to fill the gaps.
Many people travel regularly. Many people don't. That's how we ended up on the average being 50km.
> There are plenty of fast chargers to fill the gaps.
Definitely not on the route to where my family lives. I checked last year when I was looking at EV, there's like a single L2 charger at a hotel on the whole route. I expect it will be several more years before the millions of us with family in the country can reasonably buy an EV.
I don't think I've ever claimed that EVs are suitable for everyone right now or that the infrastructure is there to fully replace every single scenario. The point is still that most people can have most of their needs met by a simple wall plug for charging.
Chances are that you don't even need to charge on your 150 miles trip. Most modern BEVs will be able to take you anywhere from 300-350 miles on a single charge. In your scenario you could literally do a round trip and have a comfortable level of charge when you get home again.
As a new Model 3 owner, I've been looking into how to do this.
The solutions aren't particularly nice, there's the Quick220, a device which does all the safety checks of manually combining 2 circuits on opposite phases so you can actually get 12A at 240V. But it requires 2 circuits on opposite phases, neither with GFCI (which most outdoor outlets have).
Second option is a NEMA14-50 extension cable, which obviously carries it's own risks but if there's a dryer outlet on a 30A breaker, that gets you 24A at 240V.
But yes, either solution requires a bunch of bulky cords running out the door, and the assumption that the houses' electrical wiring was done properly and is in good condition.
So far the only less-invasive alternative is hoping they have a 20A circuit somewhere convenient, rather than just the kitchen plugs, then you can get an extra 33% charging speed (16A @ 120V) with the proper 5-20 adapter.
I think the more practical solution will be private plug-sharing, there's already a few apps and startups advertising I can earn money by allowing others to book my home charger, and a proper home install can do 11kw.