ScienceIQ.com

Bacteria Sometimes Catch A Virus

Bacteria sometimes catch a virus. Bacteriophages--'bacteria-eaters'-- or phages, are viruses that use bacteria to multiply. The phage attaches to a bacterium, injects its own genetic material, either RNA or DNA, through the bacterium's cell wall and membrane and takes over the cellular machinery to create hundreds of bacteriophages. Eventually, ...

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Geology

Rock, Mineral, Crystal, or Gemstone?

Rocks and minerals are all around us and used every day, perhaps without us even being aware of them. Besides making up the solid, supporting surface of the earth we live and move upon daily, rocks ... Continue reading

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Biology

Wetlands Top Ecosystem

Wetlands are areas where water covers the soil, or is present either at or near the surface of the soil all year or for varying periods of time during the year, including during the growing season. ... Continue reading

Wetlands
Biology

The Great Permian Extinction

More than 250 million years ago, when the current continents formed a single land mass, known as the Pangea and there was one super-ocean called Panthalassa, something extraordinary happened. Nearly ... Continue reading

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Engineering

X-Ray Images & False Color

The colors we see in the world around us are the result of the way that the human eye and brain perceive different wavelengths of light in the visible part of the electromagnetic spectrum. X-rays, and ... Continue reading

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The Color of The Sunset

SunsetColorColor in the form of pigment does not exist in the atmosphere. Instead, the color we see in the sky results from the scattering, refraction, and diffraction of sunlight by particles in the atmosphere, especially small particles such as air molecules. If there were no particles in the atmosphere, then sunlight would travel straight down to the Earth and the sky would be black.

Specifically, sunlight travels thought the solar system in straight, invisible waves (unless something sends it off in a different direction) and consists of a mixture of all colors in the visible portion of the electromagnetic spectrum. Furthermore, each color in this spectrum is associated with a different wavelength: red and orange have the longest wavelengths--while blue, indigo, and violet have the shortest (i.e., 0.47 um for violet to 0.64 um for red). Thus, when sunlight first enters the Earth's atmosphere, air molecules are typically the first to scatter the colors in sunlight--one by one, beginning at the violet end of the spectrum.

Specifically, when the sun is high in the sky (and there is a relatively short pathway to the Earth), violet, indigo, blue, and a little green are scattered, producing a blue sky. However, when the sun is low in the sky (i.e., sunrise or sunset), its path through the atmosphere is longer and yellow, orange, and red colors are scattered near the ground. Thus, as a general rule, the farther light travels through the atmosphere, the redder it becomes. The longer trip means more and more light at the blue end of the spectrum is scattered. This leaves red, yellow, and orange light to reach our eyes or reflect off clouds. This notion is perhaps best illustrated by example: a beam of sunlight that at a given moment produces a red sunset over the Appalachians is at the same time contributing to the deep blue of a late afternoon sky over the Rockies.