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The Virial equation of state adjusts for non-ideal behavior of gases by fitting experimental pressures and volumes at a given temperature to a polynomial expansion for the compression factor, Z. pV_m = m(1 + B/V_m + C/ V^2_m +) Given that the second virial coefficient, B, is-126 cm^3 mol^-1 for CO_2 at 300. K. Are intermolecular forces at this temperature attractive? Explain briefly.
The Virial equation of state adjusts for non-ideal behavior of gases by fitting experimental pressures and volumes at a given temperature to a polynomial expansion for the compression factor, Z. pV_m = m(1 + B/V_m + C/ V^2_m +) Given that the second virial coefficient, B, is-126 cm^3 mol^-1 for CO_2 at 300. K. Are intermolecular forces at this temperature attractive? Explain briefly.
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Irving HeathcoteLv2
25 Oct 2019
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