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Spontaneous Combustion

Most of us know if we leave oily rags or papers in an enclosed area, we risk a fire. The process of burning is called oxidation. Oxidation is the same process that causes iron to rust or a banana to turn brown if left exposed to the air. It is the chemical reaction between oxygen and another material in which oxygen atoms replace the atoms of the ...

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SpontaneousCombustion
Geology

Seamounts - Underwater Mountains

Seamounts are undersea mountains that rise from the ocean floor, often with heights of 3,000 m or more. Compared to the surrounding ocean waters, seamounts have high biological productivity, and ... Continue reading

SeamountsUnderwaterMountains
Science

Subrahmanyan Chandrasekhar

NASA's premier X-ray observatory was named the Chandra X-ray Observatory in honor of the late Indian-American Nobel laureate, Subrahmanyan Chandrasekhar (pronounced: su/bra/mon'/yon chandra/say/kar). ... Continue reading

SubrahmanyanChandrasekhar
Engineering

Cool Fuel Cells

Astronauts have been using them for power aboard spacecraft since the 1960s. Soon, perhaps, they'll be just as common on Earth--powering cars, trucks, laptop computers and cell phones. They're called ... Continue reading

CoolFuelCells
Physics

Tick-Tock Atomic Clock

Modern navigators rely on atomic clocks. Instead of old-style springs or pendulums, the natural resonances of atoms -- usually cesium or rubidium -- provide the steady 'tick' of an atomic clock. The ... Continue reading

AtomicClock

What Are Squares And Square Roots?

SquaresAndSquareRootsThe mathematical term 'square' comes from the two-dimensional shape of the same name. A square shape has the two dimensions of length and width, both exactly the same and at angles of 90 to each other. It is also perfectly flat. Put another way, a square is just as wide as it is long. The mathematical square of a number comes from the shape of a square by the number of standard-sized squares that it contains. For example, a square that measures 9 centimeters on a side contains 81 smaller squares that are each 1 centimeter on a side. This is easy to demonstrate by making a drawing of the square on a piece of graph paper that has been ruled into 1 centimeter squares. Draw a 9 centimeter square and count the smaller squares that it contains. There will be 81 of them.

That number was obtained by finding the area of the four-sided shape, multiplying the length of the figure by its width. That is, by multiplying one number by another number. For a square, the length and width are equal. Finding the area of a square therefore involves multiplying a number by itself. This brings us to the general definition of the square of a number. The square of any number is that number multiplied by itself.

For example, 81 is the square of 9 because you have to multiply 9 by itself (9) to get 81. The number that gets multiplied by itself to make the square value is called the root value of that square, or the square root. This is the basis of the general definition of a square root. The square root of a number is whatever number must be multiplied by itself ('squared') to get the original number. For example, 3 is the square root of 9, because 3 must be multiplied by 3 (itself) to get 9. These relationships are true for any number.