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The Strange Case Of Phineas Gage

Long before the advent of neuroscience, brain injuries have been used to deduce how the brain is organized into separate regions handling separate tasks. Consider the case of Phineas Gage, a 19th-century railroad construction foreman whose life was dramatically changed when a dynamite charge went off accidentally and blasted a 3 1/2-foot long, 1 ...

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PhineasGage
Biology

Palm Trees and Prickly Pears

If you drive around Southern California you'll see a lot of palm trees and prickly pear cacti. If you drive around Southern Spain you will too! How did it happen that two places an ocean apart have ... Continue reading

PalmTreesandPricklyPears
Geology

Tornadoes

Tornadoes are perhaps one of the most terrifying manifestations of weather. Luckily for the rest of the world, they occur most frequently in the United States. A typical tornado season may see as many ... Continue reading

Tornadoes
Engineering

Snakebots Coming Your Way

Early robots were stiff, clumsy machines that plodded in straight lines. More modern robots can be radio controlled and move with much more grace and precision. Snakebots, though, can weave through ... Continue reading

Snakebots
Biology

Sweet Dolphin Dreams

Imagine if your breathing wasn't an automatic response. That might work during the day. But what about when you went to sleep? You wouldn't get a good night's sleep if you had to wake up every few ... Continue reading

DolphinDreams

Ultraviolet Light

UltravioletLightUltraviolet light is a form of radiation which is not visible to the human eye. It's in an invisible part of the 'electromagnetic spectrum'. Radiated energy, or radiation, is given off by many objects: a light bulb, a crackling fire, and stars are some examples of objects which emit radiation. The type of radiation being emitted depends on the temperature of the object. A coal glowing red in a barbecue is cooler than our Sun, which appears yellow, which is cooler still than some stars which appear bright white.

If a prism is used to break-up the radiated light from an object into its component colors, the 'visible light' which our eyes can see makes up only a small part of the total spectrum. Visible light runs from the familiar blue to green to yellow to orange to red. Red light is the least energetic of the colors of visible light, and blue is the most energetic. Beyond the red end of the visible part of the spectrum lies the infrared and radio radiation. Infrared 'light' is familiar to us as heat, while radio waves are used for TV and radio broadcasts.

Beyond the blue end of the visible spectrum lies ultraviolet light, X-rays and gamma-rays. All of the X-rays, gamma-rays and ultraviolet light emitted by stars are absorbed by the Earth's atmosphere. That is why we need to send our telescopes into space (such as Astro-2 !) in order to measure the ultraviolet light from stars and galaxies. Many scientists are interested in studying the invisible universe of ultraviolet light, since the hottest and most active objects in the universe give off large amounts of ultraviolet energy.