Chapter 6

Question 1

Reaction Quotient (Q)

Answer 1

Q = [reactants]/[prodcuts]

Question 2

Equilibrium

Answer 2

Q = Keq (forward) = 1/Keq (reverse)
∆G = 0
Equal forward and reverse rates of reaction

Question 3

Forward Reaction

Answer 3

Q < Keq
Greater concentration of reactants and smaller concentration of products
Forward rate increased to restore equilibrium
Reaction proceeds toward reactants (left)
∆G = +

Question 4

Reverse Reaction

Answer 4

Q > Keq
Greater concentration of products and smaller concentration of reactants
Reverse rate increased to restore equilibrium
Reaction proceeds toward products (right)
∆G = -

Question 5

Equilibrium Constant Expression

Answer 5

Pure solids and liquids aren’t included
Temperature dependent!!

Question 6

Equilibrium Constant Expression Gases

Answer 6

Question 7

Changes in pH

Answer 7

[H+] decreases with increasing pH
* Shifts reaction to the right

[H+] increases with decreasing pH
* Shifts reaction to the left

Question 8

Changes in Pressure

Answer 8

Decreasing pressure, shifts reaction to the side with more moles of gas

Increasing pressure shifts reaction to the side with less moles of gas

Question 9

Changes in Temperature

Answer 9

Increasing temperature shifts reaction based on enthalpy of reaction
If reaction is endothermic (∆H > 0) heat functions as reactant
If reaction is exothermic (∆H < 0) heat functions as product
Decide endothermic exothermic based on where + heat is

Temperature increases, reaction will shift left
Temperature decreases, reaction will shift right

Question 10

Changes in Water Concentration

Answer 10

Removing water causes reaction to shift to the side where water was previously
All other concentrations would increase proportionately
If now more products than reactants (Q will increase)
If now more reactants than products (Q will decrease)

Question 11

Kinetic Products

Answer 11

Favored at low temperatures with low heat transfer and short reaction time

Pathway:
* Smaller gain in free energy to reach transition state
* Higher free energy of products
* Smaller difference in free energy between transition state and products.

Question 12

Thermodynamic Products

Answer 12

Favored at high temperatures with high heat transfer and long reaction time

Pathway:
* Higher gain in free energy to reach transition state
* Smaller free energy of products
* Higher difference in free energy between transition state and products (more stable)

Question 13

Changes in Volume

Answer 13

Decreasing volume causes shift to side with less moles of gas
Increasing volume causes shift to side with more moles of gas