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Coming In Strong On Your AM Dial


AM Wave Deflection The AM radio dial would be nothing but chaos and noise without a very basic rule - turn down the power at night. The Federal Communications Commission (FCC) controls and regulates the airwaves in the United States. One important rule requires many AM stations to cut power or shut down altogether each evening. This is due to some basic physical properties of the upper atmosphere called the ionosphere that is many miles above the earth's surface.

The ionosphere is relatively thin and affected by a steady stream of solar particles and radiation that pelt it day and night. During the day, it is not very reflective and AM radio waves, tend to bounce along the ground up to 100 miles (160.9 km) from the broadcast tower. The further away from the transmitter, the weaker the radio signal. At night though, it is a different story. The ionosphere becomes highly reflective. This allows AM waves to bounce off the ionosphere and travel great distances through the atmosphere, hundreds of miles in fact. Without some night-time curbs on AM stations, a Boston station could be knocked out by a stronger station in Chicago, or farther.

Why aren't FM radio waves affected the same way? The answer simply is that FM radio waves are much shorter than AM waves. An FM radio wave may be as small at 10 feet (3 m), while AM waves can range from 600 to 1,800 feet (182.9 to 548.64 km). So FM waves scatter and never even come close to the ionosphere.

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About the Author


Gene MascoliGene Mascoli, JD
Gene Mascoli is a founder and publisher of ScienceIQ.com. He holds a J.D. degree from the University of Santa Clara and a B.A. in English. In 1997 Gene launched ScienceMaster.com, an online science education portal where he brought together his love of writing with his interest in the sciences. Gene collaborated with David Gamon on the popular digital book “The Internet Guide to NASA on the Net” and has also produced two popular science CD-ROMs on astronomy and space science.
ScienceMaster.com

Further Reading
How Radio Signals Work
by Jim Sinclair


Related Web Links
Solar Storms and You
by NASA/GSFC

About the Ionosphere
by HAARP





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