The van der Waals (vdW) equation is a cubic equation of state (CEOS) which may be used to calculate the volume or pressure conditions for a real gas: P= a = RT a v-b v² Here, v represents the molar volume of the gas, and P, R, and T' are the absolute pressure, ideal gas constant, and absolute temperature of the gas, respectively. The values a and b are component dependent an may be calculated using: 27 R²T² 64 P C and b= 1 RT 8 Pc So, when both the critical pressure (Pc) and critical temperature (Tc) are known, one can apply the vdW CEOS to give a more accurate calculate more accurate properties than the ideal gas law. One must be careful to use absolute values for the pressure & temperature (e.g., unit of K not °C) and a value for the gas constant that is consistent with the unit desired (such as R = 0.0083144598 L·bar/K·mol) Do the following: a) Calculate the molar volume (L/mol) of nitrogen gas (Pc = 33.96 bar, Tc = 126.19 K) at 5 bar and 30°C using both the ideal gas law & using the vdW CEOS. b) Calculate the molar volume (L/mol) of ammonia gas (Pc = 113.33 bar, Tc = 405.40 K) at 15 bar and 110°C using both the ideal gas law & using the vdW CEOS.
The van der Waals (vdW) equation is a cubic equation of state (CEOS) which may be used to calculate the volume or pressure conditions for a real gas: P= a = RT a v-b v² Here, v represents the molar volume of the gas, and P, R, and T' are the absolute pressure, ideal gas constant, and absolute temperature of the gas, respectively. The values a and b are component dependent an may be calculated using: 27 R²T² 64 P C and b= 1 RT 8 Pc So, when both the critical pressure (Pc) and critical temperature (Tc) are known, one can apply the vdW CEOS to give a more accurate calculate more accurate properties than the ideal gas law. One must be careful to use absolute values for the pressure & temperature (e.g., unit of K not °C) and a value for the gas constant that is consistent with the unit desired (such as R = 0.0083144598 L·bar/K·mol) Do the following: a) Calculate the molar volume (L/mol) of nitrogen gas (Pc = 33.96 bar, Tc = 126.19 K) at 5 bar and 30°C using both the ideal gas law & using the vdW CEOS. b) Calculate the molar volume (L/mol) of ammonia gas (Pc = 113.33 bar, Tc = 405.40 K) at 15 bar and 110°C using both the ideal gas law & using the vdW CEOS.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![The van der Waals (vdW) equation is a cubic equation of state (CEOS) which may be used
to calculate the volume or pressure conditions for a real gas:
P=
a =
RT a
v-b v²
Here, v represents the molar volume of the gas, and P, R, and T' are the absolute pressure,
ideal gas constant, and absolute temperature of the gas, respectively. The values a and b
are component dependent an may be calculated using:
27 R²T²
64 P
C
and b=
1 RT
8 Pc
So, when both the critical pressure (Pc) and critical temperature (Tc) are known, one can
apply the vdW CEOS to give a more accurate calculate more accurate properties than the
ideal gas law. One must be careful to use absolute values for the pressure & temperature
(e.g., unit of K not °C) and a value for the gas constant that is consistent with the unit
desired (such as R = 0.0083144598 L·bar/K·mol)
Do the following:
a) Calculate the molar volume (L/mol) of nitrogen gas (Pc = 33.96 bar, Tc = 126.19 K) at
5 bar and 30°C using both the ideal gas law & using the vdW CEOS.
b)
Calculate the molar volume (L/mol) of ammonia gas (Pc = 113.33 bar, Tc = 405.40 K)
at 15 bar and 110°C using both the ideal gas law & using the vdW CEOS.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3ba71b9f-6645-4b82-be5d-cda1c9d5ec57%2Fa54ab75c-43fe-4d0c-831c-bffe4833b8b6%2F6nzfzy_processed.png&w=3840&q=75)
Transcribed Image Text:The van der Waals (vdW) equation is a cubic equation of state (CEOS) which may be used
to calculate the volume or pressure conditions for a real gas:
P=
a =
RT a
v-b v²
Here, v represents the molar volume of the gas, and P, R, and T' are the absolute pressure,
ideal gas constant, and absolute temperature of the gas, respectively. The values a and b
are component dependent an may be calculated using:
27 R²T²
64 P
C
and b=
1 RT
8 Pc
So, when both the critical pressure (Pc) and critical temperature (Tc) are known, one can
apply the vdW CEOS to give a more accurate calculate more accurate properties than the
ideal gas law. One must be careful to use absolute values for the pressure & temperature
(e.g., unit of K not °C) and a value for the gas constant that is consistent with the unit
desired (such as R = 0.0083144598 L·bar/K·mol)
Do the following:
a) Calculate the molar volume (L/mol) of nitrogen gas (Pc = 33.96 bar, Tc = 126.19 K) at
5 bar and 30°C using both the ideal gas law & using the vdW CEOS.
b)
Calculate the molar volume (L/mol) of ammonia gas (Pc = 113.33 bar, Tc = 405.40 K)
at 15 bar and 110°C using both the ideal gas law & using the vdW CEOS.
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