Why is the sky black in space or on the Moon, but blue on Earth?
Answers
Answer:
In space or on the Moon there is no atmosphere to scatter light. The light from the sun travels a straight line without scattering and all the colors stay together. Looking toward the sun we thus see a brilliant white light while looking away we would see only the darkness of empty space.
In space or on the Moon there is no atmosphere to scatter light. The light from the sun travels a straight line without scattering and all the colors stay together. Looking toward the sun we thus see a brilliant white light while looking away we would see only the darkness of empty space.
Explanation:
Almost everyone admires the lovely blue sky displayed on a crisp, cool autumn day. As early as 1500, Leonardo da Vinci tried to explain the sky’s color. His notebooks show he monitored sunlight passing through wood smoke, suggesting he understood the basic phenomenon of light scattering. Although the complete physical explanation for the blue sky is complex because of length limitations we will focus on the primary mechanism.
In the 1870’s the English scientist, Lord Rayleigh, weighed in with part of the explanation. But to understand his rationale, we need to know two things about how we perceive light. First, all colors of visible sunlight from the short-wave violet to blue, green, yellow, orange, and the long -wave red, are emitted by the Sun, yet not in equal amounts. The predominant color in the visible spectrum is blue. Second, our eyes detect green light better than the other colors and they perceive blue light pretty well. Mixed together, all the colors of visible light appear white to us.
Imagine a cork at rest on the surface of a tranquil pond. A stone is then dropped into the pond, sending out waves that cause the cork move up and down. The cork receives wave energy and then oscillates up and down, and in a similar manner light waves can interact with air molecules. However, the air particles do not keep the energy from light waves that fall upon them, but quickly re-radiate that light energy in random directions. Hence the initial light that was coming from a specific direction is now scattered (re-radiated) in all directions.
This scattering depends upon particle or molecule size and the wavelength of the incident light. Scattering is proportional to one divided by wavelength to the fourth power. The long waves of sunlight (red) are less effectively scattered than the shorter ones (blue) by the small air particles in our atmosphere. Since red light has a wavelength (700nm) about 1.7 times greater than blue light (400nm) Rayleigh's findings show that blue light has about 9 times greater chance of scattering than red light. This scattered blue light goes out in all directions through the atmosphere and comes to us from throughout the sky during the day.
In space or on the Moon there is no atmosphere to scatter light. The light from the sun travels a straight line without scattering and all the colors stay together. Looking toward the sun we thus see a brilliant white light while looking away we would see only the darkness of empty space. Since there is virtually nothing in space to scatter or re-radiate the light to our eye, we see no part of the light and the sky appears to be black.
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