Nothing. EV's 100 years ago were as reliable or more so than ICE vehicles. What hasn't changed, and what the problem with EV's is, is that they aren't practical for many people because their power supply is fixed and not portable. Sure, in urban areas EV's are practical so long as you have access to a personal charger. Public charging puts EV's in a worse spot to ICE vehicles.
They are practical if you are only driving limited distances. I'm going to drive to San Antonio TX later this year. An EV doing that from Phoenix AZ is totally absurd and impractical. Yes, you probably could but it would require more planning and careful range management to do it. It isn't practical.
Driving to this bar... Which I've done is something you shouldn't attempt in an EV.
He says that road is a "little bumpy." I drove like 60 mph up it in my truck. Bumpy my ass...
EVs can't go off road like gasoline cars can.
EVs can't go long distances without spending a long time recharging, effectively ending the day for travel. Gasoline cars have effectively unlimited range, since it only takes a few minutes to refuel, and you can carry extra gasoline with you.
EVs are wasteful of energy as well, about half the efficiency of a gasoline car. The EV wastes energy due to waste heat generated by the dynamo, transformers, lines, switching equipment, more transformers, and finally in waste heat generated by the battery when charging. While driving, MORE waste heat is generated during discharge of the same battery (why they are liquid cooled!), and of course, the motor itself (why it's liquid cooled!).
It's just more efficient to burn the fuel right in the car. The cost of preparing that fuel and getting it to market is far less, therm for therm.
Most EVs can't even tow. Not even an empty utility trailer. The Cybertruck towing capacity is quite limited.
Braking and handling sucks on EVs, due to their higher weight. It also prevents EVs from safely fitting in older multistory parking lots. They overload the structure. This is why they are prevented from using such parking spaces. Heavier weight also means more expensive tires and brakes and greater stopping distances.
There is no practical electric aircraft. They are too heavy to carry a practical payload. They use gasoline or kerosene instead.
There is no practical semi-truck that is an EV. Such trucks have limited range (very bad for over the road trucking!), and must carry heavy batteries, reducing their payload capacity, and revenue per mile with it.
Amazon currently uses a fleet of electric delivery vans, which require twice the vans than if they were gasoline or diesel. One set is charging while the other set is out on the road delivering. This is primarily done for virtue signaling and in some cases local climate laws (like in Seattle). Whadda waste.
EVs are also a fire hazard. Lithium ion batteries have a very low internal resistance, which makes 'em great for today's EVs, but also carry the risk of fire. They burn like a firework. A single damaged cell sets the whole thing off as a class C fire (electrical), until ALL the cells are involved. At that point, it reverts to a class A fire and can be put out with water. By that time, of course, the car is destroyed, and maybe the home with it.
That damaged cell can happen due to road debris, a very minor accident, or simply manufacturing defect.
