Exam 17: Equilibrium: the Extent of Chemical Reactions

In water, the following equilibrium exists: In pure water at 25 $\degree$ C, the concentration of H⁺ ions is 1.00 * 10¯⁷ mol/L. Calculate the value of the equilibrium constant for the reaction as written above.

At a high temperature, the following reaction has an equilibrium constant of 1.0 *10².

Although a system may be at equilibrium, the rate constants of the forward and reverse reactions will in general be different.

An equilibrium is established in which both the forward (fwd) and the reverse (rev) reactions are elementary. If the equilibrium constant K_c = 1.6 *10¯² and the rate constant k_fwd = 8.0 * 10¯⁷ s¯¹ what is the value of k_rev?

When 0.152 mol of solid PH₃BCl₃ is introduced into a 3.0 L container at a certain temperature, 8.44 *10¯³ mol of PH₃ is present at equilibrium: PH₃BCl₃(s) PH₃(g) + BCl₃(g) Construct a reaction table for the process, and use it to calculate K_c at this temperature.

Carbon monoxide and chlorine combine in an equilibrium reaction to produce the highly toxic product, phosgene (COCl₂). If the equilibrium constant for this reaction is K_c = 248, predict, if possible, what will happen when the reactants and product are combined with the concentrations shown. [CO] = [Cl₂] = 0.0200 M; [COCl₂] = 0.0992 M

Write the mass-action expression, Q_c, for the following chemical reaction.

For a solution equilibrium, a change in concentration of a reactant or product does not change K_c.

There is a direct correlation between the speed of a reaction and its equilibrium constant.

The two equilibrium constants for the same reaction, K_c and K_p, will always equal one another when

In order to write the correct mass-action expression for a reaction one must

Consider the equilibrium reaction: Which of the following correctly describes the relationship between K_c and K_p for the reaction?

The equilibrium constant, K_c, for the decomposition of COBr₂

Given this equilibrium constant data at 25 $\degree$ C, what is the value of K_c at this temperature for the reaction

Methanol can be synthesized by combining carbon monoxide and hydrogen. A reaction vessel contains these compounds at equilibrium. What effect will be seen when equilibrium is reestablished after decreasing the temperature by 45 $\degree$ C?

Increasing the initial amount of the limiting reactant in a reaction will increase the value of the equilibrium constant, K_c.

For a gas-phase equilibrium, a change in the pressure of any single reactant or product will affect the amounts of other substances involved in the equilibrium.

Methanol can be synthesized by combining carbon monoxide and hydrogen. A reaction vessel contains the three gases at equilibrium with a total pressure of 1.00 atm. What will happen to the partial pressure of hydrogen if enough argon is added to raise the total pressure to 1.4 atm?

Consider the reactions of cadmium with the thiosulfate anion. What is the value for the equilibrium constant for the following reaction?

Write the mass-action expression, Q_c, for the following chemical reaction.