4. Use the van der Waals parameters for hydrogen sulfide a/(atm dm6 mol-2) = 4.484 and b/(10-2 dm3 mol-1) = 4.34 to calculate approximate values of (a) the Boyle temperature of the gas (by assuming van der Waals gas behavior); (b) the radius of the hydrogen sulfide in pm based on the argument given on Page 23 in Section 1C where b = 4 Vmolecule NA. Read the definitions on Page 23 in the textbook; (c) critical temperature Tc (in K) and critical pressure Pc (in atm). (d) Also, plot the p-V diagram for the hydrogen sulfide van Waals gas for three isotherms: T = 0.85 Tc, T = Tc, and T = 1. 8 Tc where Tc is the critical temperature in the range of molar volume Vm between 0.0600 L/mol and 0.800 L/mol . Note that if you plot the p-V diagram correctly, the equilibrium vapor pressure cannot be estimated, for example, at T = 0.85 Tc.
4. Use the van der Waals parameters for hydrogen sulfide a/(atm dm6 mol-2) = 4.484 and b/(10-2 dm3 mol-1) = 4.34 to calculate approximate values of
(a) the Boyle temperature of the gas (by assuming van der Waals gas behavior);
(b) the radius of the hydrogen sulfide in pm based on the argument given on Page 23 in Section 1C where b = 4 Vmolecule NA. Read the definitions on Page 23 in the textbook;
(c) critical temperature Tc (in K) and critical pressure Pc (in atm).
(d) Also, plot the p-V diagram for the hydrogen sulfide van Waals gas for three isotherms: T = 0.85 Tc, T = Tc, and T = 1. 8 Tc where Tc is the critical temperature in the range of molar volume Vm between 0.0600 L/mol and 0.800 L/mol . Note that if you plot the p-V diagram correctly, the equilibrium vapor pressure cannot be estimated, for example, at T = 0.85 Tc.
I only need question d answered but you need the other parts to create the table and the plot. Thank you
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