It really, really depends on what you want from a car. If you want to win stoplight races, almost nothing will hang with a P3D. And if you're not an enthusiast, then it's probably sportier than anything you're familiar with. Go for it.
Yes my opinion is subjective. But if you like cars you might know what I am talking about.
Seats were by far my biggest gripe. Took a while just to find an adjustment that didn't make my lower legs go numb. They have almost no lateral support, and the bottom cushion is fairly short -- my legs were overhanging by a good six inches or so. That pressure point at the front edge is most likely why I was getting the tingling.
It's so easy to contract with Recaro for seats, but Tesla really wants to be vertically integrated. They've improved the seats already at least once on the Model 3, and a couple times on the Model S, so I'm hoping that the Model Y will be comfortable.
If you want a street car that you can track, you might swap in Recaros (I've done it...) but you do give up an airbag or two. Five-point harnesses are bad news on a street car, I definitely recommend against that.
It was however incredibly expensive to maintain, especially those competition package brakes!
A friend of mine has the Model 3, but not the performance version. He hasn't had it long but the torque is very comparable and I'll bet the maintenance is quite a bit lower.
That said I'll miss that RWD behavior and those exhaust notes.
The best part of that car was the handling/suspension and the stereo though. You could put it in M Dynamic Mode, which let you do controlled drifts. Shredded tires, but goodness it was fun to drift corners everywhere.
The sound system was the best I've ever heard, far better than a custom $4,000 system. 800 watts, a 10 inch sub under both front seats. That car was the closest thing to perfection I've personally ever driven. Its only real flaw was it didn't have quite enough low end torque ( 300 lb ft ) because it was a naturally aspirated v8. Plus you had to really baby the throttle on the low end so the tires wouldn't start sliding around when you accelerated from a stop.
I had literally 0 problems with it in three years outside of the stupid Takata airbag recall, which is why I didn't keep it. But you can't blame that on bmw. Plus I mean I spent a lot on tires, but that's on me :-)
At the time I test drove a comparable tesla and thought it accelerated really slow and had poor handling. Also it didn't even have a backup camera, decent stereo, or integration with popular music streaming services. But I hear they have gotten better.
For me the big benefit of the tesla is that you can shave 15-20 minutes off your commute by using the carpool lane and still have a decent car. Plus you are doing something to offset climate change.
Yeah I spent a fair bit on tires too, also on me.
A newer car would have likely been a little easier on maintenance, but the truth is the thing begs to be driven hard, which also doesn't help. Haha
Edit: It would have been more honest to have one test of acceleration and another of only braking. Also, the Tesla won the hot-lap but had significant body roll that made it difficult to stay on the track... This video is really only appealing to people who already like the Tesla.
> Mr Justice Tugendhat said that no Top Gear viewer would have reasonably compared the car's performance on the show's airfield track to its likely performance on a public road
https://en.wikipedia.org/wiki/Top_Gear_controversies#Tesla_R...
The new Top Gear has been nothing but fair about EVs and has given glowing reviews to several all-electric models.
At some point I would think we'd be able to have some sort of geofencing system were a car would be forced into "golf cart" mode once it's off the highway.
At any rate, don't turn a fine piece of engineering that many people have an emotional connection with, not to mention pay a lot of hard-earned money for, into some vaguely-autonomous, ToS-bound appliance that does not what its owner sees fit, but what its maker deems appropriate from medium earth orbit.
Censorship applies to behavior as well as words.
Cannot stand watching a video surrounded by a ton of crap.
youtube-dl -o - 'https://www.topgear.com/videos/video/video-tesla-model-3-vs-bmw-m3' | vlc -However, the idea of instant acceleration, a flat torque band, silent performance, and less pollution is very appealing to me. But the technology just isn't there for me yet, plus the inconvenience of the currently limited charging network compared to gas stations. Yes, I know it's getting better and I'm happy that it works for many people, but it does not work for me. I look forward to the day it does.
Lets be frank: Li-Ion batteries may have gotten dramatically lighter, but they're no where close to how light gasoline is. PHEVs allow gasoline engines to operate at their optimal power-generation band as a gasoline generator (optimizing your gas milage), while also using standard electric connections to charge on a daily basis.
So you don't need many Li-Ion batteries for PHEVs (lighter car, cheaper to make). You still get the flat torque band of EVs, and if you manage to charge your vehicle within 50-miles, you won't use any gasoline either.
In the long term, gas stations will grow less profitable as electricity becomes sufficient for 80+% of driving cases. But it seems more sustainable to downscale gas stations in the USA rather than to build out a supercharging network.
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Pure-electric high performance cars like Model S will be fun toys for those who can afford it. But PHEVs are the ones that seem to make financial sense for the majority of consumers. Be it the Prius Prime, Chevy Volt, or Honda Clarity.
One issue that I've seen raised a few times now is how honest the environmental credentials of these EVs really are. Sure, you aren't emitting pollution from your petrol/diesel engine as you drive. However, you have the emissions from whatever electricity source you use for charging instead, which obviously depends on how environmentally friendly or otherwise your power supply is. Crucially, you also have the effects of manufacturing these vehicles. Particularly when it comes to the batteries, those are still very significant. On top of that, batteries for EVs are heavy, and shifting all that extra weight around has a cost as well.
Just last week, there was a study being widely reported that suggested the true overall lifetime CO2 emissions given typical lifetime and usage levels for a car would make an electric vehicle worse than a diesel one of otherwise similar specification, much of this due to the hidden costs in mining key elements used in the battery.
Given that some of the materials involved are also relatively rare (or at least relatively difficult to supply viably in large quantities) I think the jury is still out on whether the modern generation of EVs will bring the big improvements that some of the environmentalists are hoping for.
Edit: To those anonymously downvoting, it would be more constructive and probably a lot more interesting to discuss actual facts and scientific evidence. For example, if you know of substantial, robust research on the environmental impacts of mining the materials needed for EV batteries on a scale where these vehicles become mass market rather than a niche product, please share it so the rest of us can learn something. Likewise, if you have substantial knowledge about the likely efficiency of improving EV technology, charging facilities and the sources behind them compared to other new or evolving models for powering vehicles over the next 10-20 years such as hybrid models or alternative fuels, please comment accordingly.
https://cleantechnica.com/2018/02/19/electric-car-well-to-wh...
And with electric cars, the ongoing CO2 emissions can be limited by where you get your charge. If you have solar for example, your not contributing any additional emissions beyond what it took to produce your solar setup. With an internal combustion engine, you don't really have much choice on how your fuel is produced.
1) Cars (especially diesels) emit far more particulates and carbon in real world driving conditions compared to idealized testing. The sort of stop and go, light to light driving we do on a daily basis running errands while the engine is cold is the worst edge case for an internal combustion engine. It's also the sort of driving EVs really shine at, since a big chunk of the energy spent getting up to speed is recaptured during regen braking and sitting idle uses no energy.
2) CO2 scrubbing, heat recapture and other techniques to reduce emissions are far more practical and economical at grid scale. Mandating better emissions on cars only affects new sales, but new rules for power stations can be retroactive.
3) EVs get cleaner as the grid does. ICE cars only get worse at emissions over their lifespan. The shift to EVs is really a two pronged approach, with improvements to the grid as another major focus.