Compare the values obtained for the pressure (atm) of 2 mols O2 at 298.15K held in a 8.25 dm³ bulb using A) Redlick-Kwong equation. Tc= 154.6K; Pc=50.43 bar B) Beatle- Bridgeman equation A0= 0.14911 Pa m⁶mol^-2 B0=46.24 ×10^-6 m³ mol^-1 c=4.80×10^-1 m³K³mol^-1 a=25.62×10^-6 m³mol^-1 b=4.208 ×10^-6 m³mol^-1 Use R=8.314 Pa•m³/mole•K Show complete solution, and round the final answer up to 4 decimal places.
Compare the values obtained for the pressure (atm) of 2 mols O2 at 298.15K held in a 8.25 dm³ bulb using A) Redlick-Kwong equation. Tc= 154.6K; Pc=50.43 bar B) Beatle- Bridgeman equation A0= 0.14911 Pa m⁶mol^-2 B0=46.24 ×10^-6 m³ mol^-1 c=4.80×10^-1 m³K³mol^-1 a=25.62×10^-6 m³mol^-1 b=4.208 ×10^-6 m³mol^-1 Use R=8.314 Pa•m³/mole•K Show complete solution, and round the final answer up to 4 decimal places.
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Compare the values obtained for the pressure (atm) of 2 mols O2 at 298.15K held in a 8.25 dm³ bulb using
A) Redlick-Kwong equation. Tc= 154.6K; Pc=50.43 bar
B) Beatle- Bridgeman equation
A0= 0.14911 Pa m⁶mol^-2
B0=46.24 ×10^-6 m³ mol^-1
c=4.80×10^-1 m³K³mol^-1
a=25.62×10^-6 m³mol^-1
b=4.208 ×10^-6 m³mol^-1
Use R=8.314 Pa•m³/mole•K
Show complete solution, and round the final answer up to 4 decimal places.
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