ScienceIQ.com

Hollywood To The Rescue

Sixty years ago, World War II was driving many advances in the sciences; a surprising number of these developments have evolved to impact our lives today. At the beginning of the war, scientists and engineers were finding new applications for radio waves. For example, they used the discovery that waves would reflect off objects to create Radar, and ...

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HollywoodRescue
Chemistry

What Is Reduction?

Long ago, in a laboratory far, far away...before the development of the atomic theory we now use, scientists believed in a principle called animism, and that the chemistry of different materials was ... Continue reading

WhatIsReduction
Biology

What Is A Coccolithophore?

Like any other type of phytoplankton, coccolithophores are one-celled marine plants that live in large numbers throughout the upper layers of the ocean. Unlike any other plant in the ocean, ... Continue reading

WhatIsACoccolithophore
Biology

Synchronicity

There's something called synchronicity that we've probably all experienced at one time or another. Some people prefer the term 'meaningful coincidence.' You're thinking about your friend from high ... Continue reading

Sinchronicity
Biology

Genome Mapping: A Guide To The Genetic Highway We Call The Human Genome

Imagine you're in a car driving down the highway to visit an old friend who has just moved to Los Angeles. Your favorite tunes are playing on the radio, and you haven't a care in the world. You stop ... Continue reading

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How Sublime

DryIceShow of hands. How many of you can't resist playing with dry ice? Dry ice is carbon dioxide frozen to -109.3 degrees F (-78.5 C). Throw a piece in water and it bubbles and boils. Expose a piece to air and it turns into white fog. The thing that makes dry ice do these tricks is a process called sublimation.

When a solid changes directly to a gas, without first becoming a liquid, we say that it sublimates. At the right temperature, any solid will sublimate without enough pressure. On the surface of the Earth, H2O exists in all three states of matter, including the liquid state. Because there is enough air pressure pressing on the H2O, it can remain a liquid between 32 degrees and 212 degrees Fahrenheit ( 0 and 100 C). But CO2 needs a lot of pressure to form a liquid, about 1,000 pounds per square inch of pressure, much more than is found naturally on the surface of the Earth. So instead, it makes a quick jump from a solid state to a gaseous state. In space, with little or no pressure, (there is no gravity in outer space), sublimation is the rule and not the exception. You won't find any liquids on a trip to Pluto. Here on Earth, if you use dry ice, you won't get a big puddle on your floor, but you may get frostbitten.