REVIEW QUESTIONS

Chapter 15
  1. A mixture of 0.10 mol of of and 0.10 mol of is placed in a flask and allowed to reach equilibrium as shown below:
At equilibrium . Calculate the equilibrium constant, , for this reaction.
Initial
Equilibrium
  1. At for the reaction shown below:
    (A)
Calculate and for the reaction shown below:
(B)
  1. At for the following reaction:
In an equilibrium mixture, and . What is the concentration of in the equilibrium mixture?
  1. At for the equilibrium:
If the partial pressures of NOBr and NO are equal at equilibrium, what is the partial pressure of ?
  1. A mixture of and are place in a 1.00-L flask and allowed to come to equilibrium as shown below. At equilibrium .
a) What are the equilibrium concentrations of and ?
Initial
Equilibrium
b) Calculate and for this reaction at .
  1. When 2.00 mol each of hydrogen and iodine are mixed in a flask, 3.50 mol of HI is produced at equilibrium:
Calculate the equilibrium constant for this reaction.
Initial
Equilibrium
  1. The equilibrium constant for the reaction
has a numerical value of 3.00 at a given temperature. 1.50 mol each of and are mixed in a flask and allowed to reach equilibrium. What percent of is converted to product?
Initial
Equilibrium
Taking square root of each side,
  1. Predict how each of the following changes affect the amount of present in an equilibrium mixture in the reaction
a) Raising the temperature of the mixture.
Since reaction is exothermic, raising temperature will shift the equilibrium to the left and reduce amount of hydrogen.
b) Adding more .
Adding more water, will shift the equilibrium to the right and increase the amount of hydrogen.
c) Doubling the volume of the container holding the mixture.
Increasing the volume of the container will reduce the pressure but the equilibrium will not be affected, and the amount of hydrogen will not change.
d) Adding a catalyst.
Adding catalyst does not alter the equilibrium and the amount of hydrogen produced.
11. At the equilibrium constant for the reaction below is . If the initial concentration of NO is 0.500 M , what are the equilibrium concentrations of each substance?
Initial
Equilibrium
Taking square root of each side,
  1. The reaction below has an equilibrium constant . If 0.100 mol of BrCl is placed in a flask and allowed to come to equilibrium, what are the equilibrium concentrations of each substance?
Initial
Equilibrium
Taking square root of each side,
  1. An equilibrium mixture of , and HI at contains and 0.155 M HI in a flask. What are the equilibrium concentrations when equilibrium is reestablished following the addition of 0.100 mol of HI ?
After addition of :
Initial
Equilibrium
Taking square root of each side,