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From Here To There

We all know that our galaxy, the Milky Way, is big -- very big. So big in fact that its size is impossible to grasp. To cope with the astronomical distances of galaxies, since miles or kilometers won't do, scientists have had to resort to using a really big yardstick. That yardstick is the distance light travels in one year, what scientists call a ...

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HereToThere
Geology

The Richter Magnitude Scale

Seismic waves are the vibrations from earthquakes that travel through the Earth; they are recorded on instruments called seismographs. Seismographs record a zig-zag trace that shows the varying ... Continue reading

RichterScale
Engineering

Airbags

An automobile airbag is a safety device: its sole purpose is to prevent an occupant of the vehicle from impacting with the surrounding structure. Typically, in a collision, Newton's laws of motion ... Continue reading

Airbags
Mathematics

Origins Of The Meter

The origins of the meter go back to at least the 18th century. At that time, there were two competing approaches to the definition of a standard unit of length. Some suggested defining the meter as ... Continue reading

OriginsOfTheMeter
Astronomy

White Dwarfs

White dwarfs are among the dimmest stars in the universe. Even so, they have commanded the attention of astronomers ever since the first white dwarf was observed by optical telescopes in the middle of ... Continue reading

WhiteDwarfs

A Undersea View of Our Earth's Geography

UnderseaEarthsGeographyThe ocean bottom is divided into three major areas: the continental shelf, the continental slope, and the deep ocean basin. The continental shelf extends underwater from each of the major land masses and can best be characterized as the submerged portion of the continents. The shelf has features similar to those we see on land, including hills, ridges, and canyons. The shelf varies in size--it may be virtually non-existent in some areas, while elsewhere it may extend out several hundred miles from the shore. The shelf's average distance is about 64 kilometers (40 miles). It is beyond the continental shelf that the 'deep sea' begins.

The shelf ends at a depth of about 200 meters (660 feet), giving way to the steeper continental slope, which descends about 3,700 meters (12,000 feet) to the deep ocean basin. Here, the ocean floor deepens sharply and its features again resemble those on land (i.e., great plains and mountains) only on a much larger scale. In fact, the Earth's longest mountain range lies under the sea. More than 56,000 kilometers (35,000 mi) long, this mountain range, called the Mid-Ocean Ridge system, snakes its way around the globe. The Mid-Ocean Ridge marks the areas where the Earth's crustal plates are moving apart and is one of the most geologically active areas on Earth. It is here that new sea floor is created, giving rise to hydrothermal vents and volcanoes.

The deepest known point on Earth is at the bottom of the Mariana Trench, a depression in the floor of the western Pacific Ocean, just east of the Mariana Islands. This trench is 1,554 miles long and 44 miles wide. Near its southwestern extremity (210 miles southwest of Guam) lies the deepest point on Earth. This point--known as the Challenger Deep--is where the ocean bottom lies at a depth of nearly 7 miles (variously reported to be at least 36,198 to 38,518 feet deep). In 1960, the Trieste, a manned submersible owned by the U.S. Navy, descended to the bottom of the Mariana Trench. The depth reported is still only an estimate, based on a mathematical conversion from measured pressure (more than 8 tons per square inch), interpreted in terms of the integral of water density from the surface to the bottom.