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Pyroclastic Flows: Deadly Rivers of Rock

A volcano, during a violent eruption, blasts massive amounts of heated rock fragments, hot gas and ash out vents and collapsing domes. This sudden outpouring of superheated material reaches temperatures of up to 1500 degrees F (815.5 C) during a volcanic explosion and sometimes results in the rapid movement of molten lava called a pyroclastic flow. ...

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VolcanoFlows
Geology

What's So Bad About The Badlands?

Hundreds of square miles of South Dakota are known as 'Badlands', a dry terrain of colorful rock formations and little vegetation. For pioneers crossing them in the 19th century, these lands were ... Continue reading

WhatsSoBadAboutTheBadlands
Engineering

Red Dot Replacing Cross Hairs

A bullet fired from a gun becomes subject to the pull of gravity and begins to fall the instant it leaves the gun barrel. The farther away from the gun the bullet travels, the lower to the ground it ... Continue reading

RedDotReplacingCrossHairs
Biology

Splitting Hairs

Pluck a single strand of hair from your head and you've lost what scientists call the hair shaft. The shaft is made of three layers, each inside the other. The outer casing is the cuticle. Under an ... Continue reading

SplittingHairs
Science

Classifying Organisms

Have you ever noticed that when you see an insect or a bird, there is real satisfaction in giving it a name, and an uncomfortable uncertainty when you can't? Along these same lines, consider the ... Continue reading

ClassifyingOrganisms

Radioactive Radon

RadioactiveRadonRadon is a gas produced by the radioactive decay of the element radium. Radioactive decay is a natural, spontaneous process in which an atom of one element decays or breaks down to form another element by losing atomic particles (protons, neutrons, or electrons). When solid radium decays to form radon gas, it loses two protons and two neutrons. These two protons and two neutrons are called an alpha particle, which is a type of radiation. The elements that produce radiation are called radioactive. Radon itself is radioactive because it also decays, losing an alpha particle and forming the element polonium.

The decay of each radioactive element occurs at a very specific rate. How fast an element decays is measured in terms of the element 'half-life', or the amount of time for one half of a given amount of the element to decay. Uranium has a half-life of 4.4 billion years, so a 4.4-billion-year-old rock has only half of the uranium with which it started. The half-life of radon is only 3.8 days. If a jar was filled with radon, in 3.8 days only half of the radon would be left. But the newly made daughter products of radon would also be in the jar, including polonium, bismuth, and lead. Polunium is also radioactive - it is this element, which is produced by radon in the air and in people's lungs, that can hurt lung tissue and cause lung cancer.