3.1.12 - Acids and Bases Flashcards
Define Brønsted–Lowry Acids
Proton donors
When Brønsted–Lowry acids are mixed with water, they ______ ____
Release H+
State the equation for when Brønsted–Lowry acids are mixed with water
Define Brønsted–Lowry Bases
Proton acceptors
When Brønsted–Lowry bases are mixed with water, they grab ___ from ____
grab H+ from H2O
State the equation for when Brønsted–Lowry bases are mixed with water
Define strong acids
- Dissociate (or ionise) completely in water
- Nearly all H+ ions released
Where does the equilibrium of strong acids and bases reacting with water lie?
To the right
Define Weak Acids
- Dissociate only very slightly in water
- Small no. of H+ ions formed
Where does the equilibrium of weak acids and bases reacting with water lie?
To the left
Acids only get rid of their protons if there’s a ____ to ____ them
Acids only get rid of their protons if there’s a base to accept them
Write an equation for when HA (acid) reacts with B (base)
What happens to the position of equilibrium if you add more HA or B?
Shifts to right
What happens to the position of equilibrium if you add more BH+ or A-?
Shifts to left
When acid is added to water, water acts as ____ and _____ the ____
When acid is added to water, water acts as base and accepts the proton
Equilibrium’s far to the ___ for weak acids
left
Equilibrium’s far to the ___ for strong acids
right
What does water dissociate into?
Dissociates into hydroxonium ions and hydroxide ions
Which side does the equilibrium lie on?
To the left
State the ionic product of water (Kw) & the units
Describe how Kw is derived from the equilibrium constant
- Can work out normal equilibrium constant from equation: H2O ⇌ H+ + OH-
- Kc = [H+] [OH-] / [H2O]
- So much more water compared to H+ & OH- that water is considered to have constant value
- ∴ if you multiply expression fo Kc (which is a constant) by [H₂O] (another constant), you get a constant
- New constant = Kw
State what Kw is at 298K
1.00 x 10-14 mol² dm-6
State what the Kw expression is at pure water
Kw = [H+]2
Explain why Kw = [H+]2 in pure water
In pure water, there’s always one H+ ion for each OH- ion
What is the pH scale?
Measure of hydrogen ion concentration
The smaller the pH, the greater…
conc. of H+ ions
State the equation you can use to work out pH
(used for strong acids directly)
State the equation for calculating hydrogen ion concentration
What is meant by strong monoprotic acids?
e.g. HCL and HNO3 (nitric acid)
- 1 mole of acid produces 1 mole of hydrogen ions when it dissociates
- [H+] = [Acid]
What is meant by strong diprotic acids?
e.g. sulfuric acid
- Produces 2 mole of H+ for 1 mole of acid when it dissociates
- [H+] = 2[Acid]
What should you use to calculate pH of a strong base?
Why do you have to use Ka (acid dissociation constant) to work out the [H+] for weak acids?
- Weak acids (e.g. any that end in ‘oic’) dissociate only slightly in aq solution
- ∴ [H+] isn’t equal to acid concentration
- ∴ have to use equilibrium constant Ka
Why can you assume?
As only a tiny amount of HA dissociates
State the expression for Ka
(used when calculating pH for weak acids)
State Ka expression you use for weak acids in aq solution with nothing else added. Include the units.
State the equation for calculating pKa
pKa = -logKa
State the equation for calculating Ka
Ka = 10-pKa