That’s a weird comparison to make. The Aptera is smaller and uses different materials.
Afaik it’s going to be classified as a motorcycle in many states in the USA, but they’re still aiming for a high rating. I know they have crumple zones and a safety cell made from composites akin to F1 cars.
Whether what they’re planning will be enough, we’ll only know for sure once they test it.
The math works quite well as long as the information is accurate.
Of course things can always turn up to be different in the end product.
But from the information we have now, ~4 hours of good sunlight conditions will be enough for 43 miles.
The body weighs around 360kg, with a 60kwh battery it supposedly weighs around 800kg (the smallest and lightest option is 25kwh), with a drag coefficient of 0.13.
In comparison to some of the most efficient cars - the Hyundai Ioniq 6 is around 1,860kg with a drag coefficient of 0.21. Tesla Model 3 is around 1760kg with a drag coefficient of 0.219.
It’s going to be a whole lot more efficient than the average car just based on these numbers.
Now it depends on how much of the car’s surface will be covered by the solar panel and what’s the panel’s efficiency.
Or 43 miles in Aptera’s case
Just a rule of thumb for the future, don’t use a DRAMless QLC SSD as an OS drive.
Or even just a QLC SSD.
Newmaxx has a spreadsheet with details and recommendations - https://borecraft.com/
I’ve also been thinking of getting the NM790. Just take into account it has no DRAM.
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Yup.
Tailscale has some documentation about it, and also a bunch of examples (And apparently one specific to Immich).
Since you already got some replies, a bit of a different approach would be to set those services up using Docker and having Tailscale as a sidecar to each one of those.
You will then be able to access each one as a seperate device. immich.*.ts.net etc.
This seems to be a step towards a solution / a solution.
Although there’s a company which has supposedly already solved it completely.
Oxford PV recently had a commercial sale of a perovskite solar panel with a 25 year guarantee
By adapting the formulation and synthesis of the perovskite and the cell design and encapsulation optimization, Oxford PV succeeded in mitigating stability-related deficits and aims at providing future buyers of their modules with the industry-standard 25 year performance guarantee
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Kurvitz and Rostov have their own studio called Red Info.
Although I haven’t seen anything about what they’re working on.
Their previous study also goes into efficiency and cost.
One of the main advantages of firebricks is their low cost.
A bit more than half of the land used to grow corn for ethanol in the USA, is needed for a photovoltaic system to power the entire country according to Prof. Mark Z Jacobson (who calculated it according to 2050 energy needs after full electrification).
Photovoltaics
From what I remember, in Zoom the meeting’s host needs to enable E2EE, it’s not automatic, and it disables a lot of Zoom’s features while also limiting the amount of participants.
I’ve seen them say their solar panels will provide more energy for the same amount of land at a lower cost.
But it doesn’t seem like their prices are publicly available yet.
I think it’s still interesting as it shows the potential.
And Oxford PV recently had a commercial sale of a perovskite solar panel with a 25 year guarantee
By adapting the formulation and synthesis of the perovskite and the cell design and encapsulation optimization, Oxford PV succeeded in mitigating stability-related deficits and aims at providing future buyers of their modules with the industry-standard 25 year performance guarantee
From the article, it looks like the focus is on the more relevant parts for hydrogen, the chemical and steel industries.
Those and long haul vehicles (planes and ships) seem like the places where hydrogen is more relevant / the only realistic option at the moment.
Copying from a previous comment of mine:
https://doi.org/10.1039/D2SE00096B
By adapting the formulation and synthesis of the perovskite and the cell design and encapsulation optimization, Oxford PV succeeded in mitigating stability-related deficits and aims at providing future buyers of their modules with the industry-standard 25 year performance guarantee
Neat! Glad to hear
Yeah they’ve done a good job with their documentation.
I was tempted by it several times already to try some features I didn’t even consider using.