Question 1
Match the following descriptions to the corresponding property notation
| Gi |
A. The molar Gibbs energy of an ideal gas mixture |
| Gi‾ |
B. The molar Gibbs energy of species i which behaves as an ideal gas |
| G |
C. The partial molar Gibbs energy of species i in an ideal gas mixture |
| Giig |
D. The molar Gibbs energy of pure species i |
Giig‾
|
E. The molar Gibbs energy of the solution |
| Gig |
F. The molar Gibbs energy of an ideal solution |
| G iid‾ |
G. The excess Gibbs energy of a solution |
| Gid |
H The partial molar Gibbs energy of species i in a real solution |
| GE |
I. The partial excess Gibbs energy of species i |
| GiE‾ |
J. The partial molar Gibbs energy of species i in an ideal solution |
Question 2
Choose which of the following are TRUE. Pick ALL answers that are correct
A. The chemical potential it also called the partial molar Gibbs energy of a given species i
B. The chemical potential is also called the Gibbs energy of a pure species i
C. A binary solution of species A and B is in equilibrium with its vapour in a closed system. This means that the binary liquid solution has the Same T and P as its vapour. but the chemical potential of A in the liquid is different to that In the vapour phase.
D. The chemical potential of species i in a mixture is defined as [∂(nG‾)/∂ni]T,P,nj
E. The chemical potential of species I in a mixture is defined as [∂(G)/∂ni]T,P,nj
F. The chemical potential of species I in a mixture is defined as [∂(nG)/∂ni]T,P,nj
Question 3
30.7 cm3 of pure methanol (species 1) and 49.6 cm3 of pure water (species 2) are mooed at room temperature. Mat is the total volume of the resulting solution? Give your answer in cm3 to 1 decimal place.
Given: Partial molar volumes at the given solution concentration are V1‾ = 38 cm3/mol and V2‾ =18 cm3/mol. The molar volumes of pure species are 40.727 cm3 mol and 18.068 cm3/mol respectively.
Question 4
Which of the following are TRUE? Choose ALL answers that apply.
A. For a pure species. coexisting liquid and vapour phases at equilibrium have the same T and P. but different fugacities in each phase.
B. For Ideal Gases, the fugacity coefficient is 1. ie, fi= P.
C. The activity coefficient of a species i is the ratio of its fugacity in a real solution to its fugacity in an ideal solution (at the same T,P and composition)
D. The fugacity of pure species i, fi is defined in relation to the Gibbs free energy of pure species as follows: Gi = Γi(T) + RT Ln fi
E. The Lewsi/Randall rule applies to each species i in an ideal solution and is given by f^idi = xifi
F. Excess properties are zero for ideal solutions.
Question 5
n-butane C4H10 (g) undergoes a cracking reaction to form C2H4 (g) and C2H6 (g) Using the data in Table C4, calculate the standard enthalpy change of reaction at 298 15K, ΔH°298. Give your answer to the nearest J.
Question 6
n-butane C4H10 (g) undergoes a cracking reaction to form C2H4(g) and C2H6 (g). Using the data in Table C4, calculate the standard Gibbs energy change of reaction at 298 15K ΔG°298:, Give your answer to the nearest J.
Question 7
Using your answer to questions 5 and 6 for ΔH°298 and ΔG°298 calculate the equilibrium constant K at a reaction temperature 742.2 K for the cracking of n-butane C4H10 → C2H4 + C2H6. use Cp/R data from table C1 for this calculation and take R = 8.314 j/(mol.K). Give your answer for J to to 2 decimal places.
Question 8
The following reaction reaches equilibrium at 350° C and 2.3 bar, with an equilibrium constant K = 3.7064 at these conditions:
CH3CHO (g) + H2(g) → C2H5OH(g)
if the system initially contains 1 mol of H2 and 1 mol of acetaldehyde. what is the extent of reaction? Assume ideal gases. Give your answer to 2 decimal places.
Question 9
The following reaction reaches equilibrium at 350° C and 1 bar, with an equilibrium constant K = 3.7064 at these conditions:
CH3CHO (g) + H2(g) → C2H5OH(g)
If the system initially contains 1 mol of H2,1 mol of acetaldehyde and 1 mol of N2, what is the gas-phase composition of N2 when the reaction reaches equilibrium? Assume ideal gases and assume N2 is inert under these conditions. Give your answer to 2 decimal places.
Attachment:- Appendix.pdf