3. Consider the chemical reaction: A + BC, occurring in a reactor of volume V. The equilibrium condition is A + B = μC. a) Discuss the equilibrium condition assuming that A, B and C are ideal gases of point particles with masses ma, mp and mc = m + mB. Consider each species as a Maxwell-Boltzmann quantum ideal gas of point particles. b) Discuss the classical limit of the equilibrium condition. Design a purely classical computer simulation of the reaction and discuss whether the equilibrium condition is valid for the simulation. c) Discuss the equilibrium condition assuming that A, B are monoatomic ideal gases and C is a diatomic ideal gas. Consider the quantum (Maxwell-Boltzmann) and the classical case.

3. Consider the chemical reaction: A + BC, occurring in a reactor of volume V. The equilibrium condition is A + B = μC. a) Discuss the equilibrium condition assuming that A, B and C are ideal gases of point particles with masses ma, mp and mc = m + mB. Consider each species as a Maxwell-Boltzmann quantum ideal gas of point particles. b) Discuss the classical limit of the equilibrium condition. Design a purely classical computer simulation of the reaction and discuss whether the equilibrium condition is valid for the simulation. c) Discuss the equilibrium condition assuming that A, B are monoatomic ideal gases and C is a diatomic ideal gas. Consider the quantum (Maxwell-Boltzmann) and the classical case.

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Question

3. Consider the chemical reaction: A + B + C, occurring in a reactor of volume V. The
equilibrium condition is µa +µB = µC•
a) Discuss the equilibrium condition assuming that A, B and C are ideal gases of point
particles with masses ma, mB and mc = ma + mB. Consider each species as a
Maxwell-Boltzmann quantum ideal gas of point particles.
b) Discuss the classical limit of the equilibrium condition. Design a purely classical
computer simulation of the reaction and discuss whether the equilibrium condition is
valid for the simulation.
c) Discuss the equilibrium condition assuming that A, B are monoatomic ideal gases
and C is a diatomic ideal gas. Consider the quantum (Maxwell-Boltzmann) and the
classical case.

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