A 'gas' is one of the four major
states of matter, consisting of freely moving
atoms or
molecules without a definite shape. Compared to the
solid and
liquid states of matter a gas has lower
density and a lower
viscosity. The
volume of a gas will change with changes in
temperature or
pressure, as described by the
ideal gas law. A gas also has the characteristic that it will
diffuse readily, spreading apart in order to uniformly fill the space of any container.
:''Gas can also refer to
gasoline,
natural gas, and other
various meanings.''
Physics
In a gas phase, the
atoms or
molecules constituting the matter basically move independently, (more freely than those in a solid or liquid) with no forces keeping them together or pushing them apart. Their only
interactions are rare and
random collisions. The particles move in random directions, at high speed. The range in speed is dependent on the temperature and defined by the
Maxwell-Boltzmann distribution. Therefore, the gas phase is a completely
disordered state. Following the
second law of thermodynamics, when no
work is being done on or by a gas, the gas particles will immediately
diffuse to homogeneously fill any shape or volume of space that is made available to them.
The
thermodynamic state of a gas is characterized by its
volume, its
temperature, and its
pressure. These variables are related by the fundamental
gas laws, which state that the pressure in an
ideal gas is proportional to its temperature and number of molecules, but inversely proportional to its volume.
Like
liquids and
plasmas, gases are flowing and free moving
fluids: they have the ability to flow and do not tend to return to their former configuration after deformation, although they do have
viscosity. Unlike liquids, unconstrained gases in a
vacuum environment do not occupy a fixed volume, but expand to fill the entire space. Note that this is true in the case of empty, vacuum environments. If one sprays
carbon dioxide from a
fire extinguisher, for example, the gas will not expand to fill the room. Instead, the gas will pour out like a fluid and pool on the floor. This is due to the fact that it is denser than the air surrounding it.
[1]
The
kinetic energy per molecule in a gas is the second greatest of the states of matter (after
plasma). Because of this high kinetic energy, gas atoms and
molecules tend to bounce off of any containing surface and off one another, the more powerfully as the kinetic energy is increased. A common misconception is that the collisions of the molecules with each other is essential to explain gas
pressure, but in fact their random velocities are sufficient to define that quantity. Mutual collisions are important only for establishing the
Maxwell-Boltzmann distribution.
Gas particles are normally well separated, as opposed to liquid particles, which are in contact. A material particle (say a dust mote) in a gas substrate moves in
Brownian Motion. Since it is at the limit of (or beyond) current technology to observe individual gas particles (atoms or molecules), only theoretical calculations give suggestions as to how they move, but their motion is different from Brownian Motion. The reason is that Brownian Motion involves a smooth drag due to the frictional force of many gas molecules, punctuated by violent collisions of an individual (or several) gas molecule(s) with the particle. The particle (generally consisting of millions or billions of atoms) thus moves in a jagged course, yet not so jagged as we would expect to find if we could examine an individual gas molecule.
Some types of gases
★
Ideal gas, in
physics,
chemistry, and
thermodynamics
★ Various
hydrocarbon gases used for heating, lighting, and energy transmission:
★
★
Natural gas
★
★
Liquefied Petroleum Gas ('LPG'), including
propane and
butane
★
★
Syngas: various synthetic fuel gases: names include
coal gas,
water gas,
illuminating gas,
wood gas,
producer gas,
holzgas,
air gas,
blue gas,
manufactured gas,
town gas,
hygas
★
Gas (chemical warfare), various poison gases used in warfare
★
Inhalational anaesthetic, including
nitrous oxide or ''laughing gas''.
★
Trace gas
★
Toxic gases
★
Noble gases
Etymology
The word "gas" was apparently proposed by the 17th century
Flemish chemist
Jan Baptist van Helmont, as a phonetic spelling of his
Dutch pronunciation of the
Greek word "
chaos", which was used since 1538 after
Paracelsus for "air".
[2]
See also
★
Cooling curve
★
Fuel gas
★
Gas laws
★
Gas metal arc welding
★
Ideal gas, in physics
★
Kinetic theory of gases
★
Liquefied Petroleum Gas, including
propane and
butane
★
List of phases of matter
★
Natural gas
★
Vapor
References
1. Beatty, William J. "Recurring science misconceptions in K-6 textbooks". Retrieved 2007-06-08.
2. http://www.etymonline.com/index.php?term=gas
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