10.4 Na2O.B2O3 and k2o b23 from complete ranges of solid and liquid solutions and the solid and liquid show a common minimum at the molar composition and T temperature 11 23 Kelvin calculate the molar Gibbs free energy of formation of the equimolar solid solution from the solid and need to be 23 and 1123 K assuming that liquid solution are ideal
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Na2O·B2O3 and K2O·B2O3 form complete ranges of solid and liquid solutions and the solidus and liquidus show a common minimum at the equimolar composition and T=1123 K. Calculate the molar Gibbs free energy of formation of the equimolar solid solution from solid Na2O·B2O3 at 1123 K, assuming that the liquid solutions are ideal
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10.4 Na2O.B2O3 and k2o b23 from complete ranges of solid and liquid solutions and the solid and liquid show a common minimum at the molar composition and T temperature 11 23 Kelvin calculate the molar Gibbs free energy of formation of the equimolar solid solution from the solid and need to be 23 and 1123 K assuming that liquid solution are ideal
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