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Can insulation create heat?
As I dropped out of science at A level my equation ability is almost zero, but we are having a discussion with those with relevant qualifications who are discussing the potential of atmospheric insulation.
As a surface loses the heat at night slower with clouds than without, they clearly present a barrier to the escaping heat, but as far as the laws of conservation of energy go (which I did do at O level) isn't it impossible however well insulated for the surface temperature from the sun to increase above what it would have been from methane, water vapour and anything else like Venus has, as that would be creating energy from nowhere?
I have a second related question I'll add next.
As a surface loses the heat at night slower with clouds than without, they clearly present a barrier to the escaping heat, but as far as the laws of conservation of energy go (which I did do at O level) isn't it impossible however well insulated for the surface temperature from the sun to increase above what it would have been from methane, water vapour and anything else like Venus has, as that would be creating energy from nowhere?
I have a second related question I'll add next.
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No best answer has yet been selected by David H. Once a best answer has been selected, it will be shown here.
For more on marking an answer as the "Best Answer", please visit our FAQ.Sorry david, I can not follow what it is that you want to know. If you mean the energy from the sun, the clouds have only a minor affect on a planet's insulation. It is the atmospheric layers that is the main insulation that prevents Earth from heating up too much and cook all plants, and at night drop to minus 50° or whatever.
Sorry if this is not what you meant.
Sorry if this is not what you meant.
I think I know what you're talking about and what you're missing.
We used to talk about the greenhouse effect more than we do these days - but that's the effect that is relevant here.
There is an effect called fleurescence where a wave is absorbed by something and re-radiated at a lower wavelength the lost energy being heat.
You see it with white T shirts glowing under UV
The Earth's atmosphere is transparent to certain wavelengths. When they hit the Earth they can be re-radiated at wavelengths that CO2 and other "greenhouse gasses" can absorb and turn into heat.
It's not a question of creating energy from nowhere it's a case of the Earth (and Venus) acting as an 'Energy trap' for energy from the Sun.
Appologies if I've misinterpreted the question though
We used to talk about the greenhouse effect more than we do these days - but that's the effect that is relevant here.
There is an effect called fleurescence where a wave is absorbed by something and re-radiated at a lower wavelength the lost energy being heat.
You see it with white T shirts glowing under UV
The Earth's atmosphere is transparent to certain wavelengths. When they hit the Earth they can be re-radiated at wavelengths that CO2 and other "greenhouse gasses" can absorb and turn into heat.
It's not a question of creating energy from nowhere it's a case of the Earth (and Venus) acting as an 'Energy trap' for energy from the Sun.
Appologies if I've misinterpreted the question though
The solidification of the earths core also provides (latent)heat.
http ://w ww-s sc.i gpp. ucla .edu /per sonn el/r usse ll/p aper s/ea rth_ mag
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