To add substance:

From the nhsta site (https://www.nhtsa.gov/sites/nhtsa.dot.gov/files/documents/12...)

Observations on various aspects:

* "Because the lower the flash point, the more hazardous the fire risk, flammable electrolyte solvents in Li-ion batteries are more or less as hazardous as conventional vehicular fuels."

* "Because the narrower the flammability range, the less hazardous the fire risk, flammable electrolytic solvents in Li-ion batteries are about as hazardous as conventional vehicular fuels, and certainly less hazardous than hydrogen."

* "Because the lower the minimum ignition temperature, the more hazardous the fire risk, flammable electrolytic solvents are not as hazardous as conventional vehicular fuels."

* "Because the lower the minimum spark energy, the more hazardous the fire risk, flammable electrolytic solvents are probably about as hazardous as conventional vehicular fuels."

* "Because the lower the maximum flame temperature the lower the exposure risk (skin burns) to fire, electrolytic solvents are expected to pose no more of a severe risk to burn injuries than conventional vehicular fuels, gasoline and diesel."

* "Because of the probable similarity in the magnitude of the maximum flame temperatures, if the combustion of the electrolytic solvents were confined, the resulting overpressure that could build up would maximize at about the same levels as for the other flammable fuels, meaning that the burst damage that would result from Li-ion explosions would also be comparable to that from conventional vehicular fuels."

* "The thermal energy expected to be released upon initiation and combustion of the electrolytic solvents would be less than that of gasoline and diesel fuel."

Also don't forget that the millions of miles and hundreds of thousands of teslas gives enough size to have statistically comparable results to ice engines, and it looks great for tesla. Edit - here's an article on this from a few years ago https://www.businessinsider.com/elon-musk-blog-post-on-tesla...

Unfortunately comment sections usually don't work like that :(

While I don't necessarily agree with how they've advertised it I think they are legally safe. All Model 3's DO have the HARDWARE to support full-self driving, even if the software is not there. And regarding the software, it has been shown to be about 40% safer than humans where it is used, which is what they've claimed.

How do we know the hardware will adequately support full self-driving if it doesn't actually exist yet?

That seems overly optimistic, if not an outright fabrication.

Because humans can do driving with comparable (worse, actually) hardware. Superhuman reflexes mean that software with superhuman driving abilities can exist.

Humans also have human brains, which are much more important to driving than eyes.

This is the part that can be emulated in software. All you have to prove is that what ever platform/language you're using for the programming is Turing Complete, which is the case for almost all of the most popular languages.

So can I run Crysis on my TI calculator? I'm sure whatever platform/language is running on it is Turing Complete. I think you missed the point that the brain is also hardware.

Good point, I'm assuming their Nvidia GPUs have enough power/memory to do the processing they want to do.

> All Model 3's DO have the HARDWARE to support full-self driving, even if the software is not there.

Please provide evidence.

Given that the only full-self driving system out there is Waymo's, which uses completely different hardware than Tesla's, it is impossible to back your claim, unless you develop a fully-self-driving system on top of Tesla's hardware.

So until that is done, your claim is false, no matter how many caps you use.

Sure, they have cameras to see and a computer to do rigorous processing. We can compare this to a human, who uses their vision to perceive the outside world while driving. (You could also argue humans use their hearing, well the Tesla's have mic's if they really wanted to use that).

> they have cameras to see and a computer to do rigorous processing. We can compare this to a human, who uses their vision to perceive the outside world while driving

My phone also has cameras and a processor. Are you implying that my phone is as equipped to drive a car as a human?

A monkey has eyes, a brain, arms and legs. Are you implying that a monkey is as equipped to drive a car as a human?

I'd say the monkey has most of the hardware but not the software, analogously. As for the phone, right I was assuming the cars have enough processing power and memory to do the necessary processing. But granted they haven't exemplified full self-driving on their current hardware, I will have to concede that we do not know how much processing and power are needed to be truly self-driving. For all we know, that last 10% of self-driving capability may require an exponential increase in the amount of processing required.

if we ask what the reasonable expectation is after an advertisement tells a customer that the capability "exceeds human safety" I would say that the average customer thinks of a fully automated system.

This couldn't be further from the truth as automated vehicles still suffer from edge cases (remember the lethal accident involving a concrete pillar) where humans can easily make better decisions.

A system that is advertised as superior to human judgement ought to strictly improve on human performance. Nobody expects that to mean that the car drives perfect 95% of the time but accidentally kills you in a weird situation. This 'idiot savant' characteristic of ML algorithms is what makes them still dangerous in day-to-day situations.

Yes I totally agree, I think there should be some regulation regarding this area. At least in terms of being clear when advertising. I think it's ok to deploy such a system where in some/most cases the AI will help, but it needs to be made apparent that it can and will fail in some seemingly simple cases.

That’s probably a gambit to avoiding being easily sued but it’s a really bad faith attempt to mislead. Most people are going to read that and assume that a Tesla is self-driving, as evidenced by the multiple accidents caused by someone trusting the car too much. Until that’s real they shouldn’t be allowed to advertise something which hasn’t shipped.

Could you expand more on the prospects of wireless transmission of electricity. I've seen some stuff about this but have had a hard time finding sources talking about it, I'm quite intrigued.

If you have a new iPhone or an older Android, you could utilize this technology to charge your phone.

Right, inductive charging. From what I've read it doesn't seem like this was the method Tesla was researching for long range transmission was it?

Tesla was trying to make use of the conductivity present in the ground and ionosphere to transmit power. Not inductive, but more like capacitively coupled.