ScienceIQ.com

The Neurological Complications Of Lyme Disease

Lyme disease is caused by a bacterial organism that is transmitted to humans via the bite of an infected tick. Most people bitten by an infected tick develop a characteristic skin rash around the area of the bite. The rash may feel hot to the touch, and vary in size, shape, and color, but it will often have a “bull’s eye” appearance (a red ring ...

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LymeDisease
Geology

What's In A Name?

Hurricane Elena as seen from the space shuttle. Have you ever wondered how hurricanes get their names? For several hundred years many hurricanes in the West Indies were named after the particular ... Continue reading

HurricaneElena
Astronomy

The Constellations

The random arrangement of the stars visible to the naked eye has remained essentially unchanged since the time of the first written records. One of the earliest complete lists we have was compiled in ... Continue reading

TheConstellations
Biology

An Invasion of Infiltrators

Why might a species be invasive in one country but not a big problem in its native land? As an example, consider a plant that is a major weed in the U.S. but in its native land it may be a minor pest. ... Continue reading

Infiltrators
Biology

The Egg-citing Egg

How many chicken eggs have you eaten in your life? If it is any gauge, the per capita consumption of eggs by Americans is over 250 per year. Eggs are not only found on your breakfast plate, but in ... Continue reading

Eggs

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!