Chemistry, 14.11.2019 01:31 stacysadousky
One hundred moles of hydrogen gas at 298 k are reversibly and isothermally compressed from 30 to 10 liters. the van der waals constants for hydrogen are a = 0.2461 liters2 · atm· mole– 2 and b = 0.02668 liters/mole, and in the range of pressure 0– 1500 atm, the virial equation for hydrogen is pv = rt (1 + 6.4 × 10– 4 p ). calculate the work that must be done on the system to effect the required change in volume and compare this with the values that would be calculated assuming that
(a) hydrogen behaves as a van der waals fluid and
(b) hydrogen behaves as an ideal gas.
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One hundred moles of hydrogen gas at 298 k are reversibly and isothermally compressed from 30 to 10...
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