Strands#265 Did You Hear That?
Quizzes & Puzzles1 min ago
sunrays
Thank you for enlightening me.
I know I should not directly look at the sun as it can permanently damage the retina leading to blindness.
However, I can easily look at the sun at the sunrise and sunset.
How is it possible?
Does that extra bit of travel in the earth's atmosphere by the sunrays at sunset and sunrise make it possible? If so where has the sunray's energy gone at these times not harming my retina?
Again, I can see the full disc of the sun when it is thick fog making the sun look like the harmless moon in day time. What frequency light rays are absorbed by the fog/mist thus making the sun look like a white moon?
Are they absorbed or dispersed or converted in some other ways?
thanking you
I know I should not directly look at the sun as it can permanently damage the retina leading to blindness.
However, I can easily look at the sun at the sunrise and sunset.
How is it possible?
Does that extra bit of travel in the earth's atmosphere by the sunrays at sunset and sunrise make it possible? If so where has the sunray's energy gone at these times not harming my retina?
Again, I can see the full disc of the sun when it is thick fog making the sun look like the harmless moon in day time. What frequency light rays are absorbed by the fog/mist thus making the sun look like a white moon?
Are they absorbed or dispersed or converted in some other ways?
thanking you
Answers
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I would guess that the difference in distance the sunlight has to travel through the atmosphere to you between noon and dusk/dawn is considerably more than an 'extra bit'. Perhaps as much as four times or more, depending on the time of the year and where on the World you are.
Consider the extremes of climate between the Equator and the Poles.
Consider the extremes of climate between the Equator and the Poles.
The same amount of rays are spread over a much much larger area at sunset, and also most of them are not actualy reaching your eyes also the ones that are are going through much more atmosphere, The shorter wavelenghts are also getting filtered out so all you see is a relatively small amount of red light.
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