• @[email protected]
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    41 year ago

    there doesn’t need to be. It’s not. plain and simple. There just isn’t enough area on a car’s body (remember, most of them won’t even be oriented properly most of the time) for panels to generate enough power for self sufficiency. Even if the panels were 100% efficient. This will always be the case for any solar car.

      • @[email protected]
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        41 year ago

        assuming average conditions, somewhere on the order of 20 kw at cruising speed. More is needed to accelerate.

        On the earth’s surface, we get about 1kw per meter squared of energy from the sun. That’s before factoring in inefficiencies in the panels, inefficiencies due to panels not oriented correctly, the battery charging system etc. Actual usable energy generated is significantly less than that.

        So, with 100% efficient panels, you would still need, in theory, at minimum around 20 meters squared of perfectly efficient, perfectly oriented panels. Probably about 3 to 4 times more, in practice. There just is not enough surface area on a car.

        • @[email protected]
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          21 year ago

          I was just trying to get an idea about the magnitude of the problem. Thank you for the response.

    • @[email protected]
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      11 year ago

      I mean that’s just not true unless you’re referring to the very narrow scope of powering itself while driving down the highway at 70MPH.

      With a sufficiently efficient design and enough solar panels and sun exposure, like can be seen on the Aptera, you can get 30-40 miles of range/day, which is more than sufficient for a daily commute.