3. The second virial coefficient for methane is a function of temperature approximated (in units of cm' mol ) by: B(T) = 42.44 - 1.629x10ʻ T ' - 2.488×10°T Use the virial equation of state to estimate the pressure, P, and the compressibility factor, Z, in a 5.00 L tank of methane gas at 20°C and compare with the ideal gas pressure and compressibility if the tank contains: a) 1.00 mole of methane b) 10.0 moles of methane Neglect higher order virial coefficients for this problem.

3. The second virial coefficient for methane is a function of temperature approximated (in units of cm' mol ) by: B(T) = 42.44 - 1.629x10ʻ T ' - 2.488×10°T Use the virial equation of state to estimate the pressure, P, and the compressibility factor, Z, in a 5.00 L tank of methane gas at 20°C and compare with the ideal gas pressure and compressibility if the tank contains: a) 1.00 mole of methane b) 10.0 moles of methane Neglect higher order virial coefficients for this problem.

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Question

3. The second virial coefficient for methane is a function of temperature approximated
(in units of cm' mol ) by:
B(T) = 42.44 - 1.629x10ʻ T ' - 2.488x10ʻT?
Use the virial equation of state to estimate the pressure, P, and the compressibility factor,
Z, in a 5.00 L tank of methane gas at 20°C and compare with the ideal gas pressure and
compressibility if the tank contains:
a) 1.00 mole of methane
b) 10.0 moles of methane
Neglect higher order virial coefficients for this problem.

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