Chemical Engineering - Stoichiometry - Discussion
Discussion Forum : Stoichiometry - Section 2 (Q.No. 17)
17.
The temperature at which the second Virial co-efficient of a real gas is zero is called the
Discussion:
6 comments Page 1 of 1.
Pawan Kumar Sharma said:
2 years ago
The temperature at which the second virial coefficient of a real gas is zero is called Boyle's temperature.
It is the temperature at which a real gas obeys Boyle's law.
It is given by the expression TB=a/bR where a and b are Van der Waal's constants.
Boyle's temperature of a gas is always higher than its critical temperature.
It is the temperature at which a real gas obeys Boyle's law.
It is given by the expression TB=a/bR where a and b are Van der Waal's constants.
Boyle's temperature of a gas is always higher than its critical temperature.
(1)
Clint said:
1 decade ago
From Marron and Lando, the temperature at which the second Virial coefficient of a real gas is zero is called the Boyle temperature.
Skp said:
7 years ago
The Boyle temperature is formally defined as the temperature for which the second virial coefficient, becomes zero. It is at this temperature that the attractive forces and the repulsive forces acting on the gas particles balance out. This is the virial equation of state and describes a real gas.
TANMAY SHAH said:
2 years ago
The right answer is Option B.
Pawan Kumar Sharma said:
2 years ago
I think B is the correct answer.
Gaurav Pal said:
1 year ago
The Boyle temperature is the temperature at which the second virial coefficient of a real gas is zero. At this temperature, the behaviour of the gas approaches ideal behaviour according to Boyle's law.
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