All MCAT Physical Resources
Example Questions
Example Question #21 : Le Chatelier's Principle And Common Ion Effect
Barium fluoride dissolves in solution according to the following equation.
Enough BaF2 is added to create a saturated liter of aqueous solution.
Suppose you double the amount of salt in the saturated solution. What would happen as a result of adding more BaF2?
The solubility of BaF2 will increase.
The solubility will be unaffected.
More salt will be dissolved.
The concentration of Ba2+ ions will increase.
The solubility will be unaffected.
Remember that the concentration of the salt is not included in the solubility product constant equation, because it is a solid. Only the ion concentrations can affect the solubility of the salt in solution. When the solution is saturated, adding more salt will do nothing to the concentration of ions in the solution.
Example Question #161 : General Chemistry
A saturated solution of scandium hydroxide, which also contains solid scandium hydroxide, is treated with 0.1N HCl. The addition of acid will __________ the solubility of scandium hydroxide because of __________.
increase . . . the decreased pH
decrease . . . Le Chatelier's principle
not affect . . . the common ion effect
increase . . . Le Chatelier's principle
decrease . . . the common ion effect
increase . . . Le Chatelier's principle
Scandium hydroxide dissociates according to this reaction.
As 0.1N HCl is added, it will quantitatively react with hydroxide anions to produce ScCl3 and water.
Hydroxide will be removed from the above equilibrium, and the system will compensate by shifting the equilibrium to the right, according Le Chatelier's principle. As the equilibrium shifts to the right, more solid scandium hydroxide is hydrolyzed, resulting in increased solubility.
Example Question #1 : Reaction Equilibrium
A system contains iodine atoms that are in equilibrium with respect to the reaction below:
The volume of the system is suddenly reduced, leading to an increase in pressure. What effect will this have on the reaction?
The reaction shifts to the left
The reaction shifts to the right
The reaction shifts to the right then to the left
The reaction will not be affected
The reaction shifts to the right
Since the system is originally at equilibrium and a stress is applied, Le Chatelier's principle is to be considered. By increasing the total pressure, the reaction will move in the direction toward which there are less molecules of gas.
Looking at the original reaction there are two moles of gas on the left and only one on the right, indicating that the reaction will shift to the right if the pressure is increased.
Example Question #22 : Le Chatelier's Principle And Common Ion Effect
Consider the following saturated solution. Assume it is at equilibrium.
Adding lead nitrate to the reaction will __________.
reduce the magnitude of
shift the reaction to the right
shift the reaction to the left
have no effect on whether additional lead chromate added to the reaction is able to dissolve
shift the reaction to the left
If lead nitrate is added to the reaction, it will dissociate into lead ions and nitrate ions. Because of the common ion effect, adding additional lead ions to the reaction will shift the reaction to the left and reduce the production of lead and chromate concentrations, keeping the solubility constant the same. (This is in accordance with Le Chatelier's principle.)
Example Question #23 : Le Chatelier's Principle And Common Ion Effect
Consider the following saturated solution. Assume it is at equilibrium.
Adding sodium chromate to the above solution would ___________ the solubility of lead chromate due to ___________.
increase . . . an increase of chromate ion concentration
decrease . . . an increase of sodium ion concentration
increase . . . an increase of sodium ion concentration
decrease . . . an increase of chromate ion concentration
decrease . . . an increase of chromate ion concentration
Adding sodium chromate increases the concentration of chromate ion in the solution, which shifts the reaction to the left due to the common ion effect. Thus, the solubility of lead chromate would decrease, as there would be an increased amount of solid lead chromate.
Example Question #161 : Gre Subject Test: Chemistry
Consider the following saturated solution. Assume it is at equilibrium.
What is the chromate ion concentration after 0.019 moles of lead nitrate is added to 1 L of the above solution?
Us the solubility constant to calculate the answer to this question. We know that:
and
Since is a very small number, we can assume that the concentration of chromate, , will be very small compared to the concentration of the added lead, 0.019 M. We can use the two known values ( and lead concentration) to solve for the unknown chromate concentration:
Example Question #24 : Le Chatelier's Principle And Common Ion Effect
Which of the following adjustments would cause the equilibrium to shift towards the right?
I. Adding more substance B
II. Adding more substance D
III. Increasing the temperature
IV. Decreasing the volume
I only
I and II
I, II, and III
I, III, and IV
I only
We know that concentration, temperature, medium and catalyst all affect the direction and the rate of the reaction through the Le Chatelier's Principle, where a system tries to relieve stress when stress is being applied. In order to push the equilibrium towards the right, we need to increase volume, decrease temperature, increase concentration of A and B, and decrease the concentrations of C and D. In the choices provided, only roman numeral I provided a correction suggestion. By increasing temperature, the system would want to go to the side that does not produce heat (the left). By increasing the amount of D, it will tend to shift reaction away from the species being added. By decreasing the volume and thus increasing the pressure, the system would want to shift left towards the side with less moles of gas.
Example Question #25 : Le Chatelier's Principle And Common Ion Effect
Which of the following adjustments would shift the equilibrium towards the left?
I. Placing the reaction vessel into an ice bath
II. Increasing the pressure in the reaction vessel
III. Increasing the amount of C and D
IV. Decreasing the amount of A and B
III, and IV
II, III, and IV
I, II, and IV
I, and III
II, III, and IV
The following will shift the equilibrium to the left:
- decreased volume (increased pressure)
- increased temperature
- decreased amounts of A and B
- increased amounts of D and C
Of the choices, all are correct except for Roman numeral I. Placing the vessel into an ice bath decreases the temperature of the equilibrium, and thus the system would want to shift towards the side that produces heat to replace the heat lost.
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