2006-10-24 18:33:07 · 6 answers · asked by Nikki H 1 in Science & Mathematics ➔ Chemistry
Please hurry I have to go to sleep soon.
2006-10-24 18:49:36 · update #1
1.) All gases are real gases and Ideal gases are almost non existing(hYpothetical).
2.) ideal gases obey the Gas Laws (boyles, Charles etc.) under all conditionsof temprature n pressure.Real gases do so at High Temperature and Low Pressure.
3.) ideal gases obey the equation PV = nRT whereas Real gases obey vander Waals Equation.
4.)In ideal gases Volume of molecules is negligible compared to total volume Occupied by the Gas. Volume occupied by rEAL gAS IS not Negligible compared to the total volume of Gas.
All d Best!
2006-10-24 18:37:36 · answer #1 · answered by Anonymous · 3⤊ 0⤋
G'day Nikki H,
Thank you for your question.
An ideal gas or perfect gas is a hypothetical gas consisting of identical particles of negligible volume, with no intermolecular forces. Additionally, the constituent atoms or molecules undergo perfectly elastic collisions with the walls of the container. Real gases do not exhibit these exact properties, although the approximation is often good enough to describe real gases. The approximation breaks down at high pressures and low temperatures, where the intermolecular forces play a greater role in determining the properties of the gas. There are basically three types of ideal gas:
*the classical or Maxwell-Boltzmann ideal gas,
* the ideal quantum Bose gas, composed of bosons, and
* 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.
I have attached sources for your reference.
Regards
2006-10-24 18:45:27 · answer #2 · answered by Anonymous · 1⤊ 0⤋
In an ideal gas, the particles don't interact with each other, they just bounce off the walls. In a real gas: * particles have a physical size, so sometimes they bump into each other * particles have attractive forces, so they affect each other's trajectories These effects become more relevant at high pressures and low temperatures. An ideal gas would have zero volume at 0K. But all real gases liquify (or freeze) before that point.
2016-05-22 12:13:39 · answer #3 · answered by MarilynAnn 4 · 0⤊ 0⤋
real gases are gases to which most gas laws dont apply unless under specific conditions also many natural gases. an ideal gas only exists in theory.
2006-10-24 18:45:50 · answer #4 · answered by mad_sci_123 2 · 0⤊ 0⤋
Ideal gases are silent but deadly and real gases are loud and disgusting lol.
2006-10-24 18:35:26 · answer #5 · answered by Thumper 5 · 0⤊ 3⤋
real gasses stink like dookie
2006-10-24 18:34:38 · answer #6 · answered by Ynot me 2 4 · 0⤊ 3⤋