✅12 - Acid Base Equilibria

Question 1

What is a Bronsted-Lowry acid?

Answer 1

A proton donor

Question 2

What is a Bronsted-Lowry base?

Answer 2

A proton acceptor

Question 3

What is a conjugate acid?

Answer 3

A species formed by the reception of a proton (H+) by a base in other words, it is a base with a hydrogen ion added to it.

Question 4

What is a conjugate base?

Answer 4

What is left after an acid has donated a proton in a chemical reaction.

Question 5

What is a diprotic/dibasic acid?

Answer 5

One which can donate two protons, such as H2SO4

Question 6

What is a diprotic/diacidic base?

Answer 6

One which can accept two protons, such as CO3 2-

Question 7

What are amphoteric substances?

Answer 7

One which can act either as an acid or a base, such as water

Question 8

What is a strong acid?

Answer 8

One which is almost completely dissociated in aqueous solution

Question 9

How are strong acids represented?

Answer 9

With a single arrow in the dissociation equation, not reversible

Question 10

What is a weak acid?

Answer 10

One that is only partially dissociated in aqueous solution

Question 11

How are weak acids represented?

Answer 11

With a reversible arrow in the dissociation equation

Question 12

How are hydrogen ion concentration and and concentration linked for strong acids?

Answer 12

Directly, so HCl of 0.100 moldm-3 will have an H+ concentration of 0.100 moldm-3

Question 13

How would you calculate pH from H+ concentration?

Answer 13

pH = -log [H+]

Question 14

How would you calculate [H+] from pH?

Answer 14

[H+] = 10^-pH

Question 15

What is Ka?

Answer 15

The acid dissociation constant

Question 16

What is the equation to work out Ka of a weak acid?

Answer 16

[H+] x [A-]
_______
[HA]

Question 17

What can the expression for Ka be simplified to?

Answer 17

[H+]^2
_____
[HA]

Question 18

How can you work out [H+] for a weak acid from Ka?

Answer 18

By rearranging the equation to find a value for [H+]^2, then square rooting the value.

Question 19

How would you work out pKa?

Answer 19

-log Ka

Question 20

The larger the value of Ka…

Answer 20

…the stronger the acid

Question 21

The larger the value of pKa…

Answer 21

…the weaker the acid

Question 22

How would you calculate the pH of a dibasic acid?

Answer 22

Ka HSO4 = 0.0100
In 0.500 moldm-3 solution of H2SO4, contribution to [H+] from H2SO4 will be 0.500moldm-3. If we assume that contribution to [H+] from HSO4- is (x)moldm-3:

Ka(HSO4-) = 0.0100 = (0.500- x) x/0.500
Solving this equation gives x = 0.0098
So total [H+] = 0.05098 with a pH of 0.293

Question 23

What is Kw?

Answer 23

The ionic product of water

Question 24

What is the equation to calculate Kw?

Answer 24

[H+] x [OH-]
_________
[H2O]

Question 25

What can the equation for Kw be simplified to?

Answer 25

[H+] x [OH-], as pure water is neutral

Question 26

How would you calculate pKw?

Answer 26

-log Kw

Question 27

Why do even the most alkaline solutions have some hydrogen ions?

Answer 27

Because water ionises to form H+ and OH-

Question 28

How would you calculate the pH of a strong base?

Answer 28

Find the concentration of the base
Divide the Kw by the base concentration
This will give you [H+], so you can then calculate pH

Question 29

How can the relative strengths of different acids/bases be determined?

Answer 29

By measuring the pH of equimolar aqueous solutions of the acids/bases, at the same temperature

Question 30

What is the pH of a salt of a strong acid and strong base?

Answer 30

7

Question 31

What is the pH of a salt of a weak acid and strong base?

Answer 31

> 7, alkaline

Question 32

What is the pH of a salt of a strong acid and weak base?

Answer 32

<7, acidic

Question 33

How does dilution affect the pH of solutions of strong acids?

Answer 33

pH increases by one for each 10-fold dilution

Question 34

How does dilution affect the pH of solutions of weak acids?

Answer 34

pH increases by 0.5 for each 10-fold dilution

Question 35

How can Ka of a weak acid be determined experimentally?

Answer 35

By dissolving a known mass of acid in a small volume of water and making it up to a known volume, then measuring its pH
Calculate concentration of solution
Work backwards to calculate Ka

Question 36

What is the end point of a titration?

Answer 36

When the acid and base are mixed in exactly the right proportions to react in equivalent amounts

Question 37

What is the equivalence point of a titration?

Answer 37

When the acid and base have reacted together in the exact proportions dictated by the stoichiometric equation

Question 38

What does the titration curve for strong acid strong base look like?

Answer 38

Starts at high pH, sudden drop as equivalence point reached, ends at low pH

Question 39

What does the titration curve for weak acid strong base look like?

Answer 39

Starts at high pH, equivalence point around pH 8/9, shorter middle section, ends at pH 3/4

Question 40

What does the titration curve for strong acid weak base look like?

Answer 40

Starts at pH 11, slight decrease in pH before equivalence point, around pH 5/6, ends around pH 1

Question 41

What does the titration curve for weak acid weak base look like?

Answer 41

Starts around pH11, no steep section, short, equivalence point at pH 7, ends around pH 4/5

Question 42

What is the point of inflexion?

Answer 42

The point on a weak acid/base titration curve where the equivalence point lies, no steep section

Question 43

For a strong acid/weak base titration, why does the pH fall sharply at first but then level off?

Answer 43

Because a buffer solution is formed

Question 44

A good indicator shows a colour change when…

Answer 44

…one drop of acid is added from the burette to accurately determine the end point of titration

Question 45

What is a buffer solution?

Answer 45

A solution whose pH remains the same when small amounts of acid are base are added

Question 46

What are the two most common ways of making a buffer solution?

Answer 46

Mixing a weak acid with its conjugate base

Mixing a weak base with its conjugate acid

Question 47

What is the simplest example of a buffer solution?

Answer 47

Ethanoic acid and sodium ethanoate

Question 48

How can the pH of a buffer solution be calculated?

Answer 48

Find Ka
Then find [H+] by rearranging the equation for Ka with the acid or base and the conjugate ion
Use [H+] to calculate pH

Question 49

How does a buffer solution work when acid is added?

Answer 49

When small amounts of acid are added, majority of H+ react with the CH3COO- ions to form CH3COOH molecules.

Question 50

How does a buffer solution work when base is added?

Answer 50

Majority of OH- added react with CH3COOH to form CH3COO- and H2O

Question 51

How would you make a buffer solution with a pH less than 7?

Answer 51

A mixture of a weak acid and its conjugate base

Question 52

How would you make a buffer solution with a pH more than 7?

Answer 52

A mixture of a weak base and its conjugate acid

Question 53

How can Ka be determined from a pH titration curve?

Answer 53

At the half equivalence point, pH = pKa

Question 54

What are the two processes involved in neutralisation?

Answer 54

Dissociation (endothermic) and hydration (exothermic)