All inert gases, helium, neon , argon have a similar behavior as
ideal gases. However, the nearest is helium.
In practice when the pressure is not too high, you can apply the ideal gas laws to any noble gases
2007-12-06 02:49:48
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answer #1
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answered by maussy 7
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Argon gas is an inert gas. It is a colorless, odorless and harmful gas that has a larger and heavier molecule than air. In fact, is about 51/2 times more dense than air. As a result it takes much longer for Argon gas to transfer heat or cold from the outside glass to the inside surface. Because less energy is transferred, the insulating value significantly improved. The result is less energy energy consumed to heat or cool your home. Another advantage of Argon is sound reduction from the outside for a more quiet living environment.
There exist three basic types of ideal gas:
1. The classical or Maxwell-Boltzmann ideal gas,
2. The ideal quantum Bose gas, composed of bosons, and
3. The ideal quantum Fermi gas, composed of fermions.
The classical ideal gas can be separated into two types: The classical thermodynamic ideal gas and the ideal quantum Boltzmann gas. Both are essentially the same, except that the classical thermodyamic ideal gas is based on classical thermodynamics alone, and certain thermodynamic parameters such as the entropy are only specified to within an undetermined additive constant.
The ideal quantum Boltzmann gas overcomes this limitation by taking the limit of the quantum Bose gas
and quantum Fermi gas in the limit of high temperature to specify these additive constants. The behavior of a quantum Boltzmann gas is the same as that of a classical ideal gas except for the specification of these constants.
The results of the quantum Boltzmann gas are used in a number of cases including the Sackur-Tetrode equation for the entropy of an ideal gas and the Saha ionization equation for a weakly ionized plasma.
2007-12-06 03:10:30
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answer #2
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answered by Anonymous
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Strictly speaking, an ideal gas is a hypothetical construct that ignores several properties of real gases and makes simplifying assumptions to create a mathematical model that approximates the behavior of real gases under a range of conditions. The ideal gas particles are assumed to move in a straight line, have perfectly elastic collisions, never to interact, and to possess no spatial dimensions. Needless to say, real gases do not have these properties. However, the only forces of attraction between Ar atoms are weak, short-range dispersion forces and Ar atoms have very restricted spatial extent, so to a greater degree than for many gases ideal gas behavior is a good approximation to the behavior of argon.
2007-12-06 02:58:01
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answer #3
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answered by Anonymous
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Short answer is no. Argon turns into a liquid at -187C at which point it is no longer a gas, much less an ideal gas!
2007-12-06 02:51:38
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answer #4
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answered by knottysailorboy 2
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It is challenging to even think of that a book can help people to change their fates however } countless males and ladies, people that they have benefitted in a big
2016-05-15 18:35:57
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answer #5
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answered by ? 2
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nobel gas, if memory serves, if not i have killed too many brain cells in the last 30 years.
2007-12-06 02:50:46
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answer #6
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answered by Crispy critter 3
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