All kinds of vehicles have batteries, and if the batteries get too cold they don’t work, and so the car won’t work.

Electric car batteries are more advanced and larger than normal car batteries, and so can generally keep themselves warm for about a week or two on full charge. Making things warm takes a lot of energy, and electric car batteries are 100x larger than regular car batteries, so it takes a lot more energy to keep then warm.

The reason people say electric vehicles struggle in the cold is because they are more efficient, meaning more of the energy goes into moving the car and less into heating it up. An electric motor is around 98% efficient, and a lithium ion car battery is around 95% efficient, for an overall efficiency of around 93%. Driving 60km/hr a 2 ton car has about 1 MegaJoules (MJ) of kinetic or moving energy. For a 93% electric car to accomplish this it needs to take 1.08MJ of energy out of the batteries, 1MJ goes to speeding up the car, 0.08MJ goes into heating up the batteries and motor.

Internal Combustion Engine (ICE) cars are around 25% efficient, so to speed up to 60km/hr they need to burn 4MJ of fuel energy, 1MJ goes to speeding up the car and 3MJ goes into heating up the engine and exhaust air going out the back. As you can see ICE cars have a lot of extra heat just being wasted, so once they get started they have no trouble staying warm. They still need a battery to get started, and if that gets too cold they are stuck, hence people use small block heaters to keep the normal car battery warm.

So in general electric cars are awesome, use less energy no matter if they are solar powered or coal. In cold climates the extra energy we need to keep any vehicle warm is just more noticable. It’s worth noting that combustion fuel is usually cheaper per MJ for heating things, so the need to spend extra energy keeping electric cars warm is more noticable in cold climates. The fact that all ICE cars are already generate lots of waste heat is no different in cold climates vs warm climates, so it is no additional cost from their normal operation, so it seems like a bigger difference than it is. To drive most electric cars in a normal climate is much cheaper for fuel, filling up a 75kWh long range Tesla at $0.15/kWh of electricity is $11.25, much cheaper than filling up a car with gas.

Worst case scenario in a cold climate you may use double or triple the energy to keep your electric car running, it is still using less energy overall and is probably cheaper to run than a gas car. The exception is if you are in a cold climate where electricity is super expensive, say $0.35/kWh or something, and you have no way to access a Type 2 charger with 6kW, or if you have a very short range electric car and have no extra battery capacity to drive and more your car warm. As electric car ranges improve this problem will become much less of.an issue.