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The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under
steady state conditions. The inlet stream does not contain B and the concentration of A in the
inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s
and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions
are elementary following the first order rate law. Also assume that the system has constant
molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal
place) is __________.
steady state conditions. The inlet stream does not contain B and the concentration of A in the
inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s
and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions
are elementary following the first order rate law. Also assume that the system has constant
molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal
place) is __________.
Correct answer is '0.267'. Can you explain this answer?
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The liquid phase reversible reaction A⇔B is carried out in an iso...
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The liquid phase reversible reaction A⇔B is carried out in an iso...
+ B ⇌ C + D is carried out in a closed vessel at constant temperature and pressure. Initially, only A and B are present in the vessel.
As the reaction proceeds, the concentrations of A and B will decrease while the concentrations of C and D will increase until the reaction reaches equilibrium.
At equilibrium, the rate of the forward reaction is equal to the rate of the reverse reaction, and the concentrations of A, B, C, and D remain constant.
The equilibrium constant (Kc) for this reaction can be expressed as:
Kc = [C][D]/[A][B]
where [A], [B], [C], and [D] are the molar concentrations of the respective species at equilibrium.
If the equilibrium constant is large, it means that the reaction favors the formation of products (C and D) over reactants (A and B). Conversely, if the equilibrium constant is small, it means that the reaction favors the formation of reactants over products.
The equilibrium constant can also be expressed in terms of the Gibbs free energy change (ΔG) at equilibrium:
ΔG° = -RT ln Kc
where R is the gas constant, T is the temperature in Kelvin, and ln is the natural logarithm. If ΔG° is negative, it means that the reaction is spontaneous and favors the formation of products. If ΔG° is positive, it means that the reaction is non-spontaneous and favors the formation of reactants. If ΔG° is zero, it means that the reaction is at equilibrium.
As the reaction proceeds, the concentrations of A and B will decrease while the concentrations of C and D will increase until the reaction reaches equilibrium.
At equilibrium, the rate of the forward reaction is equal to the rate of the reverse reaction, and the concentrations of A, B, C, and D remain constant.
The equilibrium constant (Kc) for this reaction can be expressed as:
Kc = [C][D]/[A][B]
where [A], [B], [C], and [D] are the molar concentrations of the respective species at equilibrium.
If the equilibrium constant is large, it means that the reaction favors the formation of products (C and D) over reactants (A and B). Conversely, if the equilibrium constant is small, it means that the reaction favors the formation of reactants over products.
The equilibrium constant can also be expressed in terms of the Gibbs free energy change (ΔG) at equilibrium:
ΔG° = -RT ln Kc
where R is the gas constant, T is the temperature in Kelvin, and ln is the natural logarithm. If ΔG° is negative, it means that the reaction is spontaneous and favors the formation of products. If ΔG° is positive, it means that the reaction is non-spontaneous and favors the formation of reactants. If ΔG° is zero, it means that the reaction is at equilibrium.
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The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer?
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The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared according to the GATE exam syllabus. Information about The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer?.
The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared according to the GATE exam syllabus. Information about The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer?.
Solutions for The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? in English & in Hindi are available as part of our courses for GATE.
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Here you can find the meaning of The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer?, a detailed solution for The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? has been provided alongside types of The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice The liquid phase reversible reaction A⇔B is carried out in an isothermal CSTR operating under steady state conditions. The inlet stream does not contain B and the concentration of A in the inlet stream is 10 mol/lit. The concentrations of A at the reactor exit, for residence times of 1 s and 5s are 8 mol/lit and 5 mol/lit, respectively. Assume the forward and backward reactions are elementary following the first order rate law. Also assume that the system has constant molar density. The rate constant of the forward reaction (in s?1, rounded off to the third decimal place) is __________.Correct answer is '0.267'. Can you explain this answer? tests, examples and also practice GATE tests.
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