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A binary system at a constant pressure with species ‘1’ and ‘2’ is described by the two-suffixMargules equation, gE/RT =3x1x2.where E g is the molar excess Gibbs free energy, R is theuniversal gas constant, T is the temperature and 1 2 x , x are the mole fractions of species 1 and 2,respectively. At a temperature T, g1/RT =1 and g2/RT =2where g1 and g2 are the molar Gibbs freeenergies of pure species 1 and 2, respectively. At the same temperature, g represents the molarGibbs free energy of the mixture. For a binary mixture with 40 mole % of species 1, the value(rounded off to the second decimal place) of g/RT is ___________Correct answer is '3.72'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared
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the GATE exam syllabus. Information about A binary system at a constant pressure with species ‘1’ and ‘2’ is described by the two-suffixMargules equation, gE/RT =3x1x2.where E g is the molar excess Gibbs free energy, R is theuniversal gas constant, T is the temperature and 1 2 x , x are the mole fractions of species 1 and 2,respectively. At a temperature T, g1/RT =1 and g2/RT =2where g1 and g2 are the molar Gibbs freeenergies of pure species 1 and 2, respectively. At the same temperature, g represents the molarGibbs free energy of the mixture. For a binary mixture with 40 mole % of species 1, the value(rounded off to the second decimal place) of g/RT is ___________Correct answer is '3.72'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam.
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Here you can find the meaning of A binary system at a constant pressure with species ‘1’ and ‘2’ is described by the two-suffixMargules equation, gE/RT =3x1x2.where E g is the molar excess Gibbs free energy, R is theuniversal gas constant, T is the temperature and 1 2 x , x are the mole fractions of species 1 and 2,respectively. At a temperature T, g1/RT =1 and g2/RT =2where g1 and g2 are the molar Gibbs freeenergies of pure species 1 and 2, respectively. At the same temperature, g represents the molarGibbs free energy of the mixture. For a binary mixture with 40 mole % of species 1, the value(rounded off to the second decimal place) of g/RT is ___________Correct answer is '3.72'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
A binary system at a constant pressure with species ‘1’ and ‘2’ is described by the two-suffixMargules equation, gE/RT =3x1x2.where E g is the molar excess Gibbs free energy, R is theuniversal gas constant, T is the temperature and 1 2 x , x are the mole fractions of species 1 and 2,respectively. At a temperature T, g1/RT =1 and g2/RT =2where g1 and g2 are the molar Gibbs freeenergies of pure species 1 and 2, respectively. At the same temperature, g represents the molarGibbs free energy of the mixture. For a binary mixture with 40 mole % of species 1, the value(rounded off to the second decimal place) of g/RT is ___________Correct answer is '3.72'. Can you explain this answer?, a detailed solution for A binary system at a constant pressure with species ‘1’ and ‘2’ is described by the two-suffixMargules equation, gE/RT =3x1x2.where E g is the molar excess Gibbs free energy, R is theuniversal gas constant, T is the temperature and 1 2 x , x are the mole fractions of species 1 and 2,respectively. At a temperature T, g1/RT =1 and g2/RT =2where g1 and g2 are the molar Gibbs freeenergies of pure species 1 and 2, respectively. At the same temperature, g represents the molarGibbs free energy of the mixture. For a binary mixture with 40 mole % of species 1, the value(rounded off to the second decimal place) of g/RT is ___________Correct answer is '3.72'. Can you explain this answer? has been provided alongside types of A binary system at a constant pressure with species ‘1’ and ‘2’ is described by the two-suffixMargules equation, gE/RT =3x1x2.where E g is the molar excess Gibbs free energy, R is theuniversal gas constant, T is the temperature and 1 2 x , x are the mole fractions of species 1 and 2,respectively. At a temperature T, g1/RT =1 and g2/RT =2where g1 and g2 are the molar Gibbs freeenergies of pure species 1 and 2, respectively. At the same temperature, g represents the molarGibbs free energy of the mixture. For a binary mixture with 40 mole % of species 1, the value(rounded off to the second decimal place) of g/RT is ___________Correct answer is '3.72'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice A binary system at a constant pressure with species ‘1’ and ‘2’ is described by the two-suffixMargules equation, gE/RT =3x1x2.where E g is the molar excess Gibbs free energy, R is theuniversal gas constant, T is the temperature and 1 2 x , x are the mole fractions of species 1 and 2,respectively. At a temperature T, g1/RT =1 and g2/RT =2where g1 and g2 are the molar Gibbs freeenergies of pure species 1 and 2, respectively. At the same temperature, g represents the molarGibbs free energy of the mixture. For a binary mixture with 40 mole % of species 1, the value(rounded off to the second decimal place) of g/RT is ___________Correct answer is '3.72'. Can you explain this answer? tests, examples and also practice GATE tests.