Oxygen, symbol O, colorless, odorless, tasteless, slightly magnetic gaseous element. On
earth, oxygen is more abundant than any other element. Oxygen was discovered in 1774 by
the British chemist Joseph Priestley and, independently, by the Swedish chemist Carl
Wilhelm Scheele; it was shown to be an elemental gas by the French chemist Antoine
Laurent Lavoisier in his classic experiments on combustion.
Large amounts of oxygen are used in high-temperature welding torches, in which a mixture
of oxygen and another gas produces a flame of much higher temperature than is obtained by
burning gases in air. Oxygen is administered to patients whose breathing is impaired and
also to people in aircraft flying at high altitudes, where the poor oxygen concentration
cannot support normal respiration. Oxygen-enriched air is used in open-hearth furnaces
for steel manufacture.
Most of the oxygen produced in the United States is used to make a mixture of carbon
monoxide and hydrogen called synthesis gas, used for the synthesis of methanol and
ammonia. High-purity oxygen is used also in the metal-fabrication industries; in liquid
form it is of great importance as a propellant for guided missiles and rockets2.
I have chosen the element "Oxygen" because without Oxygen, human beings would not be
able to live. Oxygen is probably the single most important element in the world as we
know it. With out Oxygen we would not breath, have water, eat plants.
Oxygen's Electron configuration is 1S2 + 2S2 + 2P4, it's electron dot symbol is: .
Gaseous oxygen can be condensed to a pale blue liquid that is strongly magnetic. Pale
blue solid oxygen is produced by compressing the liquid. The atomic weight
of oxygen is 15.9994.Oxygen composes 21 percent by volume or 23.15 percent by
weight of the atmosphere; 85.8 percent by weight of the oceans and, as a
constituent of most rocks and minerals, 46.7 percent by weight of the solid crust of the
earth. Oxygen comprises 60 percent of the human body. It is a constituent of all living
tissues; almost all plants and animals, including all humans, require oxygen, in the free
or combined state, to maintain life.3
Three structural forms of oxygen are known: ordinary oxygen, containing two atoms per
molecule, formula O2; ozone, containing three atoms per molecule, formula O3; and a pale
blue, nonmagnetic form, O4, containing four atoms per molecule, which readily breaks down
into ordinary oxygen. Three stable isotopes of oxygen are known; oxygen-16 (atomic mass
16) is the most abundant. It comprises 99.76 percent of ordinary oxygen and was used in
determination of atomic weights until the 1960s.
Oxygen is prepared in the laboratory from salts such as potassium chlorate, barium
peroxide, and sodium peroxide. The most important industrial methods for the preparation
of oxygen are the electrolysis of water and the fractional distillation of liquid air. In
the latter method, air is liquefied and allowed to evaporate. The nitrogen in the liquid
air is more volatile and boils off first, leaving the oxygen. Oxygen is stored and
shipped in either liquid or gaseous form.
Oxygen is a component of many organic and inorganic compounds. It forms compounds called
oxides with almost all the elements, including some of the noble gases. A chemical
reaction in which an oxide forms is called oxidation. The rate of the reaction varies
with different elements. Ordinary combustion, or burning, is a very rapid form of
oxidation. In spontaneous combustion, the heat evolved by the oxidation reaction is
sufficiently great to raise the temperature of the substance to the point that flames
result. For example, phosphorus combines so vigorously with oxygen that the heat
liberated in the reaction causes the phosphorus to melt and burn. Certain very finely
divided powders present so much surface area to the air that they burst into flame by
spontaneous combustion; they are called pyrophoric substances. Sulfur, hydrogen, sodium,
and magnesium combine with oxygen less energetically and burn only after ignition. Some
elements, such as copper and mercury, form oxides slowly, even when heated. Inactive
metals, such as platinum, iridium, and gold, form oxides only through indirect methods.
For discussion of oxides of elements see separate articles on each element.3
A Guy jumps of a ship in the middle of the ocean and he swims and swims towards an
island. Having second thoughts about leaving the world, he started screaming at a passing
ship. The added oxygen to his blood caused his face to turn dark purple. The captain of
the ship saw the man, waived to him, and didn't pick him up. I guess it was because he
was "Marooned."
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