Last I heard, the first 1,000 Model Ss will have 230 or 300mi ranges, so the 160mi range owners will not even exist for a while.
Possible Secret Plan:
1. Build 1 supercharger halfway between LA and SF to accomodate owners of the 300mi (and maybe 230mi) range Model S and all Roadster owners, if I understand correctly.
2. Build 2 more superchargers halfway between each metropolis and the first supercharger to accomodate all other Model S owners.
3. Profit.
4. ???
5. More profit.
Yes, the original poster isn't quite right, but you are ignoring the fact that EVs are basically designed to be topped off every night instead of only filled when it gets near empty, as is typically done with gas cars. GP should have said that you can charge it from empty overnight on household power (240V/35A). Even most US houses have this anyway because electricity is delivered on +120V and -120V wires, and it's just that most appliances that aren't electric ovens, dryers, and/or air conditioners, run between 120V and neutral while those large power appliances run between +120V/35A and -120V/35A.
Since most electricity at night costs ~$0.11/kWh and gas costs ~$4.00/gal, going 100 miles costs $3 in a Roadster (27kWh) or $8 in a Prius (2gal). I haven't ever bought electricity in another country, but I know the gas is sure way more expensive in the EU so I expect one would get the same result there.
So a one-car family probably shouldn't have an EV (until we get 1000 mile batteries), in case they need to take a road trip. But many American middle-class families have 2 (or 3) cars, 1 of which could be an EV.
I don't understand why we don't just build pyramids, but with radioactive waste instead of dead pharaohs. They've proven that they can last for 4500 years and counting. You can build them almost wherever you want (subject to only to fault lines, nearby human populations, and proximity to radioactive waste generation).
Also, by this point, I'm not sure Yucca Mountain would be able to hold all of our high-level radioactive waste anyway.
Nowadays almost all camera batteries provided by (computer, camera, car, etc.) manufacturers are Li-Ion and almost all rechargeable AAs are traditional NiMH, so it sounds to me like you are comparing different chemistries and erroneously concluding that the result is due to the quality of the battery.
Li-Ion batteries and low self-discharge NiMH batteries discharge 2-3% per month. Traditional NiMH and NiCd batteries discharge15-30% per month. If you buy the low self-discharge NiMH batteries, you won't look back (unless you have applications where you change the batteries more often than weekly, then you're doing so much recharging you won't notice the longer shelf life).
To answer the original question: since EVs currently use Li-Ion batteries, expect them to discharge a few percent per month, which would add up to one full cycle every 3 years. Using the national average of $0.12/kWh, this would translate to a cost of a $0.64/year for a Chevy Volt (16kWh) , $0.96/year for a Nissan LEAF (24kWh), and $2.12/year for a Tesla Roadster (53kWh), so not much.
The cheap options all evaporate as soon as you want a router with the same features as the Time Capsule or the $180 AirPort Extreme (plus BYO external drive); Simultaneous Dual Band and USB looks like it'll run you $120, not $50, from non-Apple brands.
Oh, and "you’ll need to use a little hack [13] to force the new drive to appear in Time Machine. Once it appears, however, your cheap-and-cheerful DIY Time Capsule should function in exactly the same way as the real thing."(emphasis mine) I'm sorry, but what is the point of a backup that should work?
I want a backup that I am confident works; saving $60 isn't worth it.
You realize that not all radiation is the same right? For a simplistic view of photon radiation, there are high energy photons (x-rays and gamma-rays) with an absorption length of several meters of human tissue which distribute an even dose throughout your tissue and then there are relatively low-energy photons with an absorption length of about a millimeter of human tissue which are consequently absorbed predominantly by your skin, concentrating the dose there.
The TSA claims to be using the low-energy kind that concentrate the dose on your skin which would likely cause skin cancer. (I haven't looked up the absorption spectrum of melanin, but I think it drops off before we get to the soft x-ray region so dark skinned people may be just as susceptible as pasty white
Look up Americium in a Table of Isotopes; there are a decent number gamma rays that it emits at 60keV or 73keV depending on the isotope (Am-241 or Am-243) after it alpha decays. That said, smoke detectors vary a lot depending on the amount of Americium inside and you're always better off with a long half-life calibration source.
"More software projects have gone awry for lack of calendar time than for all other causes combined." -- Fred Brooks, Jr., _The Mythical Man Month_