. . . . . "The Edmond\u2013Ogston model is a thermodynamic model proposed by Elizabeth Edmond and Alexander George Ogston in 1968 to describe phase separation of two-component polymer mixtures in a common solvent. At the core of the model is an expression for the Helmholtz free energy , where represents the slope of the binodal and spinodal in the critical point. Its value can be obtained by solving a third order polynomial in , , which can be done analytically using Cardano's method and choosing the solution for which both and are positive. The model is closely related to the Flory\u2013Huggins model."@en . . . . . "Edmond\u2013Ogston model"@en . "67227898"^^ . . . . "3003"^^ . . . "1065188521"^^ . . . . . . . . "The Edmond\u2013Ogston model is a thermodynamic model proposed by Elizabeth Edmond and Alexander George Ogston in 1968 to describe phase separation of two-component polymer mixtures in a common solvent. At the core of the model is an expression for the Helmholtz free energy that takes into account terms in the concentration of the polymers up to second order, and needs three virial coefficients and as input. Here is the molar concentration of polymer , is the universal gas constant, is the absolute temperature, is the system volume. It is possible to obtain explicit solutions for the coordinates of the critical point , where represents the slope of the binodal and spinodal in the critical point. Its value can be obtained by solving a third order polynomial in , , which can be done analytically using Cardano's method and choosing the solution for which both and are positive. The spinodal can be expressed analytically too, and the Lambert W function has a central role to express the coordinates of binodal and tie-lines. The model is closely related to the Flory\u2013Huggins model."@en . . . . . . . .