Question 1: At 30oC, Kc = 0.315 for the reaction below.
H2 + Cl2 --> 2 HCl
In an experiment carried out at 30oC, the initial concentrations were [H2] = [Cl2] = [HCl] = 1.00 mol/L. What is the equilibrium concentration of HCl?
Give your answer in mol/L, accurate to three significant figures. Do not include units as part of your answer.
Question 2: At 2000 K, Kc = 0.154 for the reaction below.
2 CH4(g) → C2H2(g) + 3 H2(g)
If a 1.75-L equilibrium mixture at 2000 K contains 0.35 mol each of CH4(g) and H2(g), answer the following questions.
(a) What is the mole fraction of H2 present? (Note: The mole fraction of H2 is equal to the number of moles of H2 divided by the total number of moles.)
Enter your answer with 2 significant digits.
Enter scientific notation as 1.23E4.
Enter only numbers in your answer. (Do not include units.)
The mole fraction of H2 is ____________
(b) If the equilibrium mixture at 2000 K is transferred from a 1.75-L flask to 1.50-L flask, will the number of moles of H2(g) increase, decrease, or remain unchanged?
Question 3: At 1,500 K, the equilibrium constant for the reaction below is Kc = 0.0819.
Br2(g) --> 2 Br(g)
What is the percent dissociation of Br2 at 1,500 K, if the initial concentration of Br2 is 0.500 mol/L?
Give your answer accurate to two significant figures. Do not include the % sign as part of your answer.
Hint: If the initial concentration of Br2 is Co and the concentration of Br2 decreases by x (because of dissociation), then the percent dissociation of Br2 is equal to 100(x / Co).
Question 4: (a) What is the value of the reaction quotient (Qc) for the reaction below if a 9.75-L flask contains 0.0327 mol NO2(g) and 0.307 mol N2O4(g) at 25oC?
N2O4(g) → 2 NO2(g), Kc = 4.61x10-3 at 25oC
Enter your answer with 3 significant digits.
Enter scientific notation as 1.23E4.
Enter only numbers in your answer. (Do not include units.)
(b) If the reaction is not at equilibrium, in which direction will the reaction proceed-toward products or reactants?
Question 5: Some CH4(g), intially at 1.000 atm, is placed in an empty reaction vessel. At equilibrium, the total pressure is 1.981 atm. Assuming the partial pressures are in atmospheres, what is Kp for the reaction below?
2 CH4(g) → C2H2(g) + 3 H2(g)
Enter your answer accurate to 3 significant figures.
Question 6: Suppose that A and B react to form C according to the equation below.
A + 2B → C
What are the equilibrium concentrations of A, B and C if 1.0 mol A and 1.0 mol B are added to a 1.0 L flask? Assume that the equilibrium constant for this reaction is Kc = 4.3x1011.
Hint: The equilibrium constant for this reaction is quite large. Therefore, you should expect that the reaction goes almost 100% to completion.
Enter your answers with two significant figures.
Use exponential notation (e.g. enter 1.2x10-10 as 1.2e-10; enter 1.2x1015 as 1.2e15.)
Do not include units as part of your answer.
Equilibrium concentration of A: ____________ mol/L
Equilibrium concentration of B: ____________ mol/L
Equilibrium concentration of C: ____________ mol/L
Question 7: The reaction below reaches equilibrium in a closed reaction vessel. The enthalpy change for the forward reaction is +135 kJ/mol. Does the mass of Na2CO3 increase, decrease or stay the same if the temperature is increased?
2 NaHCO3(s) → Na2CO3(s) + CO2(g) + H2O(g)
The mass of Na2CO3
(a) increases
(b) decreases
(c) stays the same