ScienceIQ.com

Can You Miss the Earth?

Have you ever wondered why astronauts float in space? Well, it isn't because there is no gravity in space. Astronauts float because they are in constant free fall. If a baseball pitcher throws a ball perfectly level, a few feet above the ground, and another person drops a ball from the same height, both balls will hit the ground at the same ...

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Weightlessness
Engineering

GPS (Global Positioning System)

The GPS, or Global Positioning System, is the high-tech application of one of the most fundamental principles of geometry. Surveyors routinely use geometry and triangulation to map and lay out areas ... Continue reading

GPSGlobalPositioningSystem
Biology

How Do Cats See in the Dark?

Cats are nocturnal; therefore they need good night vision. Their eyes are able to function with 1/6 the light humans require. During the day, their eyes must be able to function without being ... Continue reading

CatEyesight
Astronomy

Hubble & Keck Teams Find Farthest Known Galaxy in Universe

An international team of astronomers may have set a new record in discovering what is the most distant known galaxy in the universe. Located an estimated 13 billion light-years away, the object is ... Continue reading

HubbleKeck
Engineering

How Can A Bullet-proof Vest Stop A Bullet?

Here's an experiment: take the small coil springs from a dozen or so retractable pens and roll them together in a heap until they are thoroughly tangled and entwined. Now try to pull them apart from ... Continue reading

BulletproofVestStopABullet

Coming In Strong On Your AM Dial

AMRadioWavesThe 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.