Chemical Equilibria: Le Chatelier's Principle Flashcards
Define the term dynamic equilibria
- When the forward and backward rate of reaction is the same
- When the concentrations of reactants and products remain
constant
What is needed for dynamic equilibrium to be reached?
- Reversible reaction
- Closed system (no reactants or products leave)
- Constant temperature
Describe reversible reactions
- Reactions that have both a forward and backward reaction
- Shown with symbol ⇌
- All reversible reactions eventually reach dynamic equilibrium
State Le Chatelier’s principle?
- If a factor affecting the position of equilibrium is altered, the position of equilibrium shifts to oppose the change
Which factors affect the position of equilibrium?
- Temperature
- Concentration and pressure
Consider reaction A + B ⇌ C + D. If the concentration of A increases, which direction will the equilibrium shift to?
- Equilibrium will shift to the right
- To oppose the change and decrease the concentration of A
- And increase the concentration of C and D
What will you need to know about the forward and backward reaction if the temperature changes and you need to determine the shift in equilibrium?
- Need to know whether forward and backward reaction are either endothermic or exothermic
What are endothermic and exothermic reactions?
• Endothermic
- Heat is absorbed
- (+ve ΔH)
• Exothermic
- Heat is released
- (-ve ΔH)
Consider the reaction A + B ⇌ C + D. The forward reaction ΔH change = -250kJmol-1. What happens if the temperature is increased?
- Position of equilibrium would shift to oppose the change, therefore shift to the endothermic direction
- Here, the position of equilibrium will shift to the left
Which direction will the position of equilibrium shift to if the temperature increases?
- Shift to endothermic reaction (+ve ΔH)
- Excess heat needs to be removed
Which direction will the position of equilibrium shift to if the temperature decreases?
- Shift to the exothermic direction
- Heat needs to be gained
What type of reactions does pressure affect the position of equilibrium of?
- Relevant for reactions involving gases
- Equilibrium is only affected when there is a different amount of moles of gas on each side of the equation
Consider the reaction 3H2(g) + N2(g) ⇌ 2NH3(g). What happens if the pressure is increased?
- When pressure increases, system will react to oppose the change and move to the side that has the fewest moles of gas
- Here, the position of equilibrium will shift to the right
Which direction will the position of equilibrium sift to when pressure is increased?
- Shift to direction with lower amount of moles
- Help releases the build up in pressure
Which direction will the position of equilibrium shift to when the pressure is decreased?
- Shift to direction with more moles
- Pressure has been lost
