Abstract
This paper further simplifies the gas state equation (EOS) by introducing a thermodynamic constant, P (c) (*), into the equation, a theoretical pressure that all gas converts into liquid. In the gas-liquid saturation system, linear regressions of ln P-ln x (2) from M.P. to T (c) give P = P (c) (*) x (2). It verifies Henry's law of gas solubility. Meanwhile, P (c) (*)s for most substances are found in the range of 15-16, i.e., 3.269-8.886 MPa. Hence, EOS deforms into . Isotherm is a forced equilibrium system sustained by an outer force. Isothermal EOS is derived by differentiating heat over V (G). , where or . Empolying Ar as an example, EOS are demonstrated over the whole pressure range, 0-1000 MPa, including the supercritical state. Applausive results are obtained in the pressure range before the gas-liquid transition and high temperatures (1000-2000 K), respectively. The supercritical state of intermediate temperatures (160-800 K) is likely liquid-like. Hence, EOS is not fittable.