6.When the ideal-gas reaction A+B=C+Dhas reachedequilibrium, state whether or not each of the following relations must be true. Here n¡ isthe number of moles of species i in equilibrium, P, is the partial pressure of i, and µ; isthe chemical potential of i. Here a simple True or False answer is sufficient.(a) nc+np=nA +ng(b) Pc+Pp=PA+PB(c) na=ng(d) nc=na(e) If only A and B are present initially, then nc=np(f) Ha + HB= Hc+ Hp no matter what the initial composition.(g) If only A and B are present initially, then in equilibrium we must have nc # 0.(h) The equilibrium constant Kp(T)= PĄPB/(PcPp).(i) The value of –RT In Kp(T) = µE(T)+µ8(T)– H3(T) –- H§(T).) The equilibrium constant is independent of the total pressure.

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When the ideal-gas reaction A +B=C+D has reached equilibrium, state whether or not each of the following relations must be true. Here n¡ is the number of moles of species i in equilibrium, P, is the partial pressure of i, and µ; is the chemical potential of i. Here a simple True or False answer is sufficient. (a) nc+np=na +ng (b) Pc+Pp =PA +Pg (c) na =ng

When the ideal-gas reaction A +B=C+D has reached equilibrium, state whether or not each of the following relations must be true. Here n¡ is the number of moles of species i in equilibrium, P, is the partial pressure of i, and µ; is the chemical potential of i. Here a simple True or False answer is sufficient. (a) nc+np=na +ng (b) Pc+Pp =PA +Pg (c) na =ng

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Physical Chem #4