That 1/100,000 comparison doesn’t seem right if these panels generate 1W per square meter as the parent poster said. It sounds like you’re saying regular solar panels generate 100kW per square meter but I’m pretty sure that’s orders of magnitude too high. Am I misinterpreting what you said?
No that’s not right, it’s about 1000 watts/m2 on the surface. But it is on a totally clear day with the sun directly overhead. So depending on your latitude you get less per m2 because the Earth is round.
Wikipedia says it’s 1361 watts per m2 just outside the atmosphere.
On the power outside the atmosphere I didn’t comment because I was too lazy to look it up, the ballpark of the previous commenter was correct.
Regarding the surface: my apologies, I quoted a number from university that must have been a simplification for a calculation exercise, and I made the mistake of never thinking about it critically. Turns out I was wrong.
That 1/100,000 comparison doesn’t seem right if these panels generate 1W per square meter as the parent poster said. It sounds like you’re saying regular solar panels generate 100kW per square meter but I’m pretty sure that’s orders of magnitude too high. Am I misinterpreting what you said?
Agreed. It’s 1/100 with old panels at 1/300 with modern high performance panels, being up to 300w/m.
Outside earths atmosphere. Only ~650 Watts/m^2 reach the surface of our planet.
No that’s not right, it’s about 1000 watts/m2 on the surface. But it is on a totally clear day with the sun directly overhead. So depending on your latitude you get less per m2 because the Earth is round.
Wikipedia says it’s 1361 watts per m2 just outside the atmosphere.
On the power outside the atmosphere I didn’t comment because I was too lazy to look it up, the ballpark of the previous commenter was correct.
Regarding the surface: my apologies, I quoted a number from university that must have been a simplification for a calculation exercise, and I made the mistake of never thinking about it critically. Turns out I was wrong.