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A gas obeying the Clausius equation of state is isothermally compressed from 5 MPa to 15 MPain a closed system at 400 K. The Clausius equation of state iswhere P is thepressure, T is the temperature, n is the molar volume and R is the universal gas constant.Theparameter b in the above equation varies with temperature as b(T) = b0 + b1T withb0=4 x 10-5m3mol-1 and b1= 1.35 x 10-7 m3mol-1K-1 . The effect of pressure on the molar enthalpy(h) at a constant temperature is given by.Let hi and hf denote initial andfinal molar enthalpies, respectively. The change in the molar enthalpy hf -hi (in J mol-1, roundedoff to the first decimal place) for this process is________Correct answer is '400'. 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 gas obeying the Clausius equation of state is isothermally compressed from 5 MPa to 15 MPain a closed system at 400 K. The Clausius equation of state iswhere P is thepressure, T is the temperature, n is the molar volume and R is the universal gas constant.Theparameter b in the above equation varies with temperature as b(T) = b0 + b1T withb0=4 x 10-5m3mol-1 and b1= 1.35 x 10-7 m3mol-1K-1 . The effect of pressure on the molar enthalpy(h) at a constant temperature is given by.Let hi and hf denote initial andfinal molar enthalpies, respectively. The change in the molar enthalpy hf -hi (in J mol-1, roundedoff to the first decimal place) for this process is________Correct answer is '400'. 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 gas obeying the Clausius equation of state is isothermally compressed from 5 MPa to 15 MPain a closed system at 400 K. The Clausius equation of state iswhere P is thepressure, T is the temperature, n is the molar volume and R is the universal gas constant.Theparameter b in the above equation varies with temperature as b(T) = b0 + b1T withb0=4 x 10-5m3mol-1 and b1= 1.35 x 10-7 m3mol-1K-1 . The effect of pressure on the molar enthalpy(h) at a constant temperature is given by.Let hi and hf denote initial andfinal molar enthalpies, respectively. The change in the molar enthalpy hf -hi (in J mol-1, roundedoff to the first decimal place) for this process is________Correct answer is '400'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
A gas obeying the Clausius equation of state is isothermally compressed from 5 MPa to 15 MPain a closed system at 400 K. The Clausius equation of state iswhere P is thepressure, T is the temperature, n is the molar volume and R is the universal gas constant.Theparameter b in the above equation varies with temperature as b(T) = b0 + b1T withb0=4 x 10-5m3mol-1 and b1= 1.35 x 10-7 m3mol-1K-1 . The effect of pressure on the molar enthalpy(h) at a constant temperature is given by.Let hi and hf denote initial andfinal molar enthalpies, respectively. The change in the molar enthalpy hf -hi (in J mol-1, roundedoff to the first decimal place) for this process is________Correct answer is '400'. Can you explain this answer?, a detailed solution for A gas obeying the Clausius equation of state is isothermally compressed from 5 MPa to 15 MPain a closed system at 400 K. The Clausius equation of state iswhere P is thepressure, T is the temperature, n is the molar volume and R is the universal gas constant.Theparameter b in the above equation varies with temperature as b(T) = b0 + b1T withb0=4 x 10-5m3mol-1 and b1= 1.35 x 10-7 m3mol-1K-1 . The effect of pressure on the molar enthalpy(h) at a constant temperature is given by.Let hi and hf denote initial andfinal molar enthalpies, respectively. The change in the molar enthalpy hf -hi (in J mol-1, roundedoff to the first decimal place) for this process is________Correct answer is '400'. Can you explain this answer? has been provided alongside types of A gas obeying the Clausius equation of state is isothermally compressed from 5 MPa to 15 MPain a closed system at 400 K. The Clausius equation of state iswhere P is thepressure, T is the temperature, n is the molar volume and R is the universal gas constant.Theparameter b in the above equation varies with temperature as b(T) = b0 + b1T withb0=4 x 10-5m3mol-1 and b1= 1.35 x 10-7 m3mol-1K-1 . The effect of pressure on the molar enthalpy(h) at a constant temperature is given by.Let hi and hf denote initial andfinal molar enthalpies, respectively. The change in the molar enthalpy hf -hi (in J mol-1, roundedoff to the first decimal place) for this process is________Correct answer is '400'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice A gas obeying the Clausius equation of state is isothermally compressed from 5 MPa to 15 MPain a closed system at 400 K. The Clausius equation of state iswhere P is thepressure, T is the temperature, n is the molar volume and R is the universal gas constant.Theparameter b in the above equation varies with temperature as b(T) = b0 + b1T withb0=4 x 10-5m3mol-1 and b1= 1.35 x 10-7 m3mol-1K-1 . The effect of pressure on the molar enthalpy(h) at a constant temperature is given by.Let hi and hf denote initial andfinal molar enthalpies, respectively. The change in the molar enthalpy hf -hi (in J mol-1, roundedoff to the first decimal place) for this process is________Correct answer is '400'. Can you explain this answer? tests, examples and also practice GATE tests.