Buffer solutions Flashcards
A buffer solution is?
A buffer solution is a mixture that minimises pH changes on addition of small amounts of acid or base.
In basic terms what does a buffer solution mixture consist of?
A weak acid, HA.
It’s conjugate base, A-.
Explain how a buffer solution is set up using CH3COOH as the weak acid and CH3COONa as the supply of weak base.
In the CH3COOH/CH3COONa buffer system:
- The weak acid, CH3COOH, dissociates partially:
CH3COOH(aq) H(aq) + CH3COO-(aq)
- the salt dissociates completely, generating the conjugate base, CH3COO-.
CH3COO-Na(aq) CH3COO-(aq) + Na*(aq)
The equilibrium mixture formed contains a high concentration of the undissociated weak acid, CH3COOH, and its conjugate base, CH3COO-. The high concentration of the conjugate base pushes the equilibrium to the left, so the concentration of H*(aq) ions is very small.
Explain how a buffer solution works?
The buffer solution minimises the pH changes by using the equilibrium:
HA(aq) H*(aq) + A-(aq)
The overall principle is simple:
- The weak acid, HA, removes added alkali.
- The conjugate base, A-, removes added acid.
Explain how a buffer solution acts when there’s is an addition of an acid, H*(aq) into the solution.
- [H*(aq)] is increased.
- The conjugate base, A-(aq) reacts with H*(aq) ions.
- The equilibrium shifts to the left, removing most of the added H*(aq) ions.
Explain how a buffer solution acts when there’s an addition of an alkali, OH-(aq) to the solution.
- [OH-(aq)] is increased.
- The small concentration of H*(aq) ions react with the OH-(aq) ions.
- HA dissociates, shifting the equilibrium to the right to restore most of the H*(aq) ions that have reacted.
Give the formula for calculating the pH using the Henderson-Hasselbalch relationship.
pH = pKa + log [A-]/[HA]
