ScienceIQ.com

The Physics of Sandcastles

Give a plastic bucket and a shovel to a child, then turn her loose on a beach full of sand. She'll happily toil the day away building the sandcastle to end all sandcastles. It's pure fun. It's also serious physics. Sandcastles are built from grains - billions of tiny sharp-edged particles that rub and tumble together. The strength of a sandcastle ...

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Sandcastles
Chemistry

Nitrogen Gas and Compounds

Nitrogen is a very interesting element. It is the seventh element of the periodic table, with seven electrons in its atoms. The somewhat unique combination of electronic structure and small atomic ... Continue reading

NitrogenGasandCompounds
Geology

Hurricanes, The Basics

There is nothing like them in the atmosphere. Born in warm tropical waters, these spiraling masses require a complex combination of atmospheric processes to grow, mature, and then die. They are not ... Continue reading

HurricanesTheBasics
Geology

All That Glitters

Gold is called a 'noble' metal because it does not oxidize under ordinary conditions. Its chemical symbol Au is derived from the Latin word 'aurum.' In pure form gold has a metallic luster and is sun ... Continue reading

AllThatGlitters
Geology

Devils Postpile National Monument

Established in 1911 by presidential proclamation, Devils Postpile National Monument protects and preserves the Devils Postpile formation, the 101-foot Rainbow Falls, and the pristine mountain scenery. ... Continue reading

DevilsPostpileNationalMonument

Respect Your Nose

NoseScienceOur language seems to indicate that we think of the world as divided up into things that 'smell' and things that don't. Garbage smells. Groceries don't. A dirty sock smells. A clean one doesn't. That way of talking doesn't give much respect to odors, or to our olfactory system. Once you appreciate the delicacy of our olfactory system's design, you're likely to give it a little more of the respect it deserves.

At the top of your nasal passages, just behind the bridge of your nose and where the passages are closest to your brain, there are five million smell receptor cells concentrated in two small patches no bigger than a dime, one for each nostril. There are about a thousand different types of receptor, each one of which allows a different odor molecule to 'dock' in it. That in turn triggers that receptor's neuron to fire and send a signal to the olfactory bulb, which relays the signal to several destinations in the brain.

Think of each receptor type as a different letter of an alphabet, and think of how many different words there are in your vocabulary. Now, think of an alphabet not of 26 letters but of a thousand. That gives you some idea of the potential complexity of the odor codes that can be sent to your brain. Impressive, isn't it!