Unit 1 Inorganic Chemistry: Key Area 4 - Chemical Equilibrium

Question 1

what are the 3 factors that affect equilibrium?

Answer 1

1) Concentration
2) Temperature
3) Pressure (only applies to gaseous substances)

Question 2

In the reaction A + B ⇌ C + D what happens to equilibrium if you add more A or B (reactant)?

Answer 2

Shifts to right

Question 3

In the reaction A + B ⇌ C + D what happens to equilibrium if you remove more C or D (product)?

Answer 3

Shifts to right

Question 4

In the reaction A + B ⇌ C + D what happens to equilibrium if you add C or D (product)?

Answer 4

Shifts to left

Question 5

In the reaction A + B ⇌ C + D what happens to equilibrium if you remove A or B (reactant

Answer 5

Shifts to left

Question 6

In the reaction A + B ⇌ C + D ΔH = -ve what happens to equilibrium if you increase temperature?

Answer 6

Favours the endothermic reaction.

Question 7

In the reaction A + B ⇌ C + D ΔH = -ve what happens to equilibrium if you decrease temperature?

Answer 7

Favours the exothermic reaction.

Question 8

In the reaction A(g) + B(g) ⇌ C(g) + D(g) what happens to equilibrium if you increase pressure?

Answer 8

Shift to side which has less gaseous moles.

Question 9

In the reaction A(g) + B(g) ⇌ C(g) + D(g) what happens to equilibrium if you decrease pressure?

Answer 9

Shift to side with more gaseous moles.

Question 10

What are the 2 types of equilibrium?

Answer 10

Homogeneous and Hetrogeneous.

Question 11

What happens in Homogeneous equilibrium?

Answer 11

Reactants and products are in the same physical state.

Question 12

What happens in Hetrogeneous equilibrium?

Answer 12

Reactants and products are in different physical states.

Question 13

What does the value of an equilibrium constant indicate?

Answer 13

The position of equilibrium.

Question 14

What are factors that affect equilibrium constant?

Answer 14

K is dependent on temperature and independent of concentration and pressure.

Question 15

In the reaction A + B ⇌ C + D ΔH = -ve how does a rise in temperature affect K?

Answer 15

It will shift the equilibrium to the left, decreasing the quantity of products and increasing the quantity of reactants. Which will cause a decrease in K.

Question 16

In the reaction A + B ⇌ C + D ΔH = +ve how does a rise in temperature affect K?

Answer 16

It will shift the equilibrium to the right, increasing the quantity of products and decreasing the quantity of reactants. Which will cause an increase in K.

Question 17

How does concentration affect the equilibrium position and the value of K?

Answer 17

Equilibrium position - Changes

Value of K - No Change

Question 18

How does temperature affect the equilibrium position and the value of K?

Answer 18

Equilibrium position - Changes

Value of K - Changes

Question 19

How does pressure affect the equilibrium position and the value of K?

Answer 19

Equilibrium position - Changes

Value of K - No Change

Question 20

How does catalyst affect the equilibrium position and the value of K?

Answer 20

Equilibrium position - No Change

Value of K - No Change

Question 21

What are liquids that do not mix said to be?

Answer 21

Immiscible

Question 22

What does dissolving a solute in 2 immiscible liquids allow the solute to do?

Answer 22

Distribute itself between the 2 liquids.

Question 23

What is a H+ ion?

Answer 23

Proton

Question 24

What happens to the H+ ion in water?

Answer 24

As it cannot exist on its own, it is attracted to the polar water molecules. It becomes a hydrated proton known as a hydronium ion (H3O+) and the H+ ion and water molecule form a dative covalent bond.

Question 25

How can the ionisation of water be represented?

Answer 25

H2O(l) H2O(l) ⇌ H3O+(aq) + OH−(aq)

Question 26

What is a hydronium atom?

Answer 26

A hydrated proton H3O+(aq).

Question 27

What is a shortened version of H3O+(aq)?

Answer 27

H+

Question 28

What is the K value of pure water?

Answer 28

1

Question 29

As pure water has a value of K what is the equation of K for pure water?

Answer 29

K = [H3O+] [OH−] or K = [H+] [OH−]

Question 30

What is the equilibrium constant Kw known as?

Answer 30

The ionic product of water.

Question 31

What is water in terms of K and what does this mean?

Answer 31

Water is amphoteric meaning it can act as both an acid and a base.

Question 32

At 25°C what is the approximate value of K?

Answer 32

1x10(14)

Question 33

How do higher temperatures affect the pH of water?

Answer 33

They do not become more acidic.

Question 34

In water and aqueous solutions with a pH value of 7 and temperature of 25°C what are the concentrations of H3O+(aq) and OH−(aq)?

Answer 34

Both x 10(-7) mol/l.

Question 35

If the concentration of H3O+(aq) or the concentration of

OH−(aq) is known, how can the concentration of the other ion can be calculated?

Answer 35

Using Kw or by usH + pOH = 14.

Question 36

When is a solution said to be acidic?

Answer 36

When there is an excess of hydrogen ions over hydroxide ions (i.e. pH < pOH).

Question 37

In the case of water what is the concentration of always the same?

Answer 37

The concentration of hydrogen ions and hydroxide ions.

Question 38

What still stays the same in water even if the pH of the water changes?

Answer 38

The water stays neutral (pH =pOH).

Question 39

What type of scale is a pH scale?

Answer 39

A logarithmic scale

Question 40

What does a change in pH by 1 unit change the concentration of H+ by?

Answer 40

10

Question 41

What does a change in pH by 2 units change the concentration of H+ by?

Answer 41

100

Question 42

What is the value of pH +pOH?

Answer 42

14

Question 43

What does the Arrhenius definition of acids and bases only apply to?

Answer 43

Aqueous solutions

Question 44

What is the Arrhenius definition of what happens to an acid when it is dissolved in water?

Answer 44

An acid dissociates to increase H+ ions when dissolved in water e.g. [H+] > [OH-]. (Acids produce H+ ions in aqueous solution).

Question 45

What is the Arrhenius definition of what happens to a base when it is dissolved in water?

Answer 45

A base dissociates to increase OH- ions when dissolved in water e.g. [OH-] > [H+]. (Bases produce OH− ions in aqueous solution).

Question 46

What are problems with the Arrhenius definition of how acids and bases dissolve in water?

Answer 46

• Why substances, such as NH3 and Na2CO3, dissolve in water to form basic solutions, even though they do not contain OH– ions.
• Why substances, such as CO2, dissolve in water to form acidic solutions, even though they do not contain H+ ions.
• That acid–base reactions take place outside aqueous solution.

Question 47

What is the Brønsted Lowry definition of acids and bases?

Answer 47

The Brønsted-Lowry definitions of acids and bases state that an acid is a proton donor and a base is a proton acceptor. (does not need to have OH-) Base structure must contain an atom with an unshared pair of electrons.

Question 48

For the equation HCL(aq) + H2O(l) ⇌ H3O+(aq) +Cl-(aq) what happens according to the Brønsted Lowry theory?

Answer 48

• HCL donates a proton to water therefore HCL is an acid.

- H2O accepts a proton from HCL therefore H2O is a base.

Question 49

What happens in a Brønsted Lowry acid-base reaction?

Answer 49

• The original base becomes an acid in the reverse reaction.

- The original acid becomes a base in the reverse process.

Question 50

For every acid what is there?

Answer 50

For every acid there is a conjugate base, formed by the loss of a proton.

Question 51

What is the general equation for a conjugate acid reaction?

Answer 51

HA (acid) ⇌ H+ + A-(conjugate base)

Question 52

What is the general equation for a conjugate acid reaction H2O(l) + H2O(l) ⇌ H3O+(aq) + OH-(aq)?

Answer 52

H2O(l)(acid) + H2O(l) ⇌ H3O+(aq) + OH-(aq)(conjugate base)

Question 53

What is the general equation for a conjugate acid reaction of HCL(aq) + H20(l) ⇌ H30+(aq) + Cl-(aq)?

Answer 53

HCL(aq)(acid) + H20(l) ⇌ H30+(aq) + Cl-(aq)(conjugate base)

Question 54

For every base what is there?

Answer 54

A conjugate acid which is formed by the gain of a proton.

Question 55

What is the general equation for a conjugate base reaction of NH3 + H2O ⇌ NH4+ + OH-?

Answer 55

NH3(base) + H2O ⇌ NH4+(conjugate acid) + OH-

Question 56

What is the general equation for a conjugate acid reaction of CO3^2-(aq) + H3O+(aq) ⇌ HCO3^-(aq) +H2O(l)?

Answer 56

CO3^2-(aq)(base) + H3O+(aq) ⇌ HCO3^-(aq) +H2O(l)(conjugate acid)

Question 57

What is the general equation for a conjugate acid and base reaction of OH+(aq) + H3O+ (aq) ⇌ H2O(l) + H2O(l)?

Answer 57

OH+(aq)(base) + H3O+(aq)(acid) ⇌ H2O(l)(conjugate acid) + H2O(l)(conjugate base)

Question 58

What do conjugate acid-base pairs differ by?

Answer 58

Only one proton

Question 59

What can amphoteric substances act as?

Answer 59

Either an acid or a base because they have both a transferable H and an atom with lone pair electrons. As water can act as a base, accepting H+ from HCL and as an acid by donating H+ to NH3.

Question 60

What are acids either?

Answer 60

Acids are either strong or weak depending on wether or how they (dissociate) dissolve in water.

Question 61

How do strong acids dissociate into ions in solution?

Answer 61

Strong acids are completely dissociated into ions in aqueous solution.

Question 62

What is an example of a strong acid reaction and what would be the [H+] concentration if the HCL concentration is 0.1 mol/l?

Answer 62

HCL(aq) + H20(l) ⇌ H30+(aq) + Cl-(aq)

[H+] concentration is 0.1 mol/l

Question 63

What are examples of strong acids?

Answer 63

• Hydrochloric acid (HCL)
• Nitric acid (HNO3)
• Sulphuric acid (H2SO4)

Question 64

How do weak acids dissociate into ions in solution?

Answer 64

Weak acids do not completely dissociate into ions in solution.

Question 65

What is an example of a weak acid reaction and why is this?

Answer 65

CH3COOH(aq) ⇌ CH3COO-(aq) + H20+(aq)

- Ethanoic acid solutions contain molecules of CH3COOH as well as H3O+ and CH3COO- ions.

Question 66

What are examples of weak acids and where can more examples be found?

Answer 66

• Ethanoic acid (CH3COOH)
• Methanoic acid (HCOOH)
• Sulphurous acid (H2SO3)
• Carbonic acid (H2CO3)
• Pg 13 in the databook

Question 67

What does the type of solvent effect?

Answer 67

The acid properties

Question 68

What is an example of a solvent that affects acidic properties?

Answer 68

HCL in non - polar solvents - no dissociation therefore only HCL molecules no ions, so it is not an acid.

Question 69

How do strong bases/alkalis dissolve?

Answer 69

By completely dissociating into ions.

Question 70

How do weak bases/alkalis?

Answer 70

Do not completely dissociate into ions in solution.

Question 71

Strong acid vs weak acid?

Answer 71

Higher conductivity, lower pH, faster reaction due to higher H+ ion concentration.

Question 72

Strong base/alkali vs weak base/alkali?

Answer 72

Higher conductivity, higher pH due to higher OH- ion concentration.

Question 73

What do equimolar solutions of strong and weak acdis and alaklis differ in?

Answer 73

Concentration, pH and speed of reaction. This is due to the different concentration of H+ and OH- ions in solution.

Question 74

How do strong bases/alkalis dissolve?

Answer 74

By completely dissociating into ions.

Question 75

What is an example of a strong base/alkali reaction?

Answer 75

NaOH(s) + (aq) ⇌ Na+(aq) + OH-(aq)

Question 76

What are examples of strong base/alkalis?

Answer 76

• Sodium hydroxide (NaOH)
• Potassium hydroxide (KOH)
• Lithium hydroxide (LiOH)

Question 77

How do weak bases/alaklis dissolve?

Answer 77

They do not completely dissociate into ions in solution.

Question 78

What is an example of a weak base/alkali reaction and why?

Answer 78

NH3(aq) + H2O(l) ⇌ NH4+(aq) + OH-(aq)

Ammonia solutions contain molecules of NH3 as well as NH4+ and OH- ions.

Question 79

What are examples of weak bases /alkalis

Answer 79

• Aminomethane (CH3NH2)
• Ammonia (NH3)
• Aminoethane (C2H5NH2)

Question 80

what does the pH of a salt solution depend on?

Answer 80

The strength of the acid and base from which it was formed.

Question 81

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

Answer 81

Acidic

Question 82

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

Answer 82

Neutral

Question 83

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

Answer 83

Alkaline

Question 84

What are all salts?

Answer 84

All salts are strong electrolytes and completely ionise in solution.

Question 85

What will happen to the ions of a weak acid or base when dissolved?

Answer 85

They will set up an equilibrium with the ions in water.

Question 86

What happens in terms of equilibrium in the acidic salt reaction of Ammonium chloride with water?

Answer 86

Ammonium chloride completely dissociates. The ammonium ions form an equilibrium with the OH- ions moving the water equilibrium to the right. Excess H+ are formed so pH is less than 7.

Question 87

What happens in terms of equilibrium in the alkaline salt reaction of Sodium Ethanoate with water?

Answer 87

Sodium ethanoate completely dissociates. The ethanoate ions form an equilibrium with the H+ ions moving the water equilibrium to the right. Excess OH- ions are formed so the pH is greater than 7.

Question 88

What is a soap?

Answer 88

Soap is a salt formed between a fatty acid (weak acid) and sodium or potassium hydroxide. Therefore soaps are alkaline.

Question 89

When a weak acid is dissolved in water what is the general dissociation?

Answer 89

HA ⇌ H+ + A-

Question 90

What is Ka known as?

Answer 90

The acid dissociation constant.

Question 91

What is the equation for the acid dissociation?

Answer 91

Ka = ([H3O+] [A-]) / [HA] or pKa = -log10 Ka

Question 92

What does a smaller value of Ka represent?

Answer 92

A weaker acid

Question 93

When is the equation for amending Ka to find out [H+] of the dissociation of a weak acid?

Answer 93

H+ = √Ka x C where C is the concentration of the acid.

Question 94

What does pKa represent?

Answer 94

The dissociation constant of an acid.

Question 95

How can the value of pKa be found?

Answer 95

pKa = -log10 Ka

Question 96

Where are the Ka values found?

Answer 96

Pg 13 on the data book

Question 97

What does an increase in Ka represent and how does this affect the value of pKa?

Answer 97

As Ka increases (acid strength increases) and pKa decreases (due to the pKa equation above).

Question 98

What is the equation for the pH value of a weak acid?

Answer 98

pH = 1/2 pKa - 1/2 log10c

Question 99

What is the equation for diluting an acid?

Answer 99

pH = -log10 [H+]

Question 100

What is the pH of 0.1 mol l-1 of a strong acid?

Answer 100

pH = -log10(0.1) = 1

Question 101

What is the pH of 0.01 mol l-1 of a strong acid?

Answer 101

pH = -log10(0.01) = 2

Question 102

How will a dilution of a strong acid by a factor of 10 affect the pH of the acid?

Answer 102

Change the pH of the acid by 1 unit.

Question 103

What is the pH of 0.1 mol l-1 of a weak acid?

Answer 103

pH = 1/2 pKa - 1/2 log(0.1) = 0.5

Question 104

What is the pH of 0.01 mol l-1 of a weak acid?

Answer 104

pH = 1/2 pKa - 1/2 log(0.01) = 0.

Question 105

How will a dilution of a strong acid by a factor of 10 affect the pH of the acid?

Answer 105

Change the pH of the acid by 0.5 units.

Question 106

What is a buffer solution?

Answer 106

A buffer solution is one in which the pH remains approximately constant when small amounts of acid, base or water are added.

Question 107

What are the 2 types of buffers?

Answer 107

Basic and acidic

Question 108

What are common examples of buffers?

Answer 108

Blood, Swimming pool, Contact lens solution.

Question 109

What does an acid buffer consist of?

Answer 109

An acid buffer consists of a solution of a WEAK acid and one of its SALTS.

Question 110

What can a weak acid supply to an acid buffer?

Answer 110

The weak acid can supply additional hydrogen ions when these are removed by the addition of a small amount of base.

Question 111

What can the salt of a weak acid provide to an acid buffer?

Answer 111

The salt of the weak acid provides the conjugate base, which can absorb excess hydrogen ions produced by the addition of small amounts of acid.

Question 112

What does a basic buffer consist of?

Answer 112

A solution of a weak base and one of its salts.

Question 113

What does a weak base provide in a basic buffer?

Answer 113

Remove excess added hydrogen ions.

Question 114

What does the salt of the base provide in a basic buffer?

Answer 114

The conjugate acid to replace hydrogen ions removed.

Question 115

What is the equation for the pH of a buffer solution?

Answer 115

pH = pKa - log10[acid/salt]

Question 116

What are indicators?

Answer 116

Indicators are weak acids that change colour when they are converted into their conjugate base.

Question 117

How can the dissociation of indicators be represented and what is the calculation for the dissociation constant for the indicator?

Answer 117

Hln(aq) + H2O(l) ⇌ H3O+(aq) + ln-(aq)

Kln = ([H3O+] [ln-]) / [Hln]

Where :
In- = indicator

Hln = conjugate base

And In- and HIn have different colours

Question 118

In an aqueous solution what is distinctively different between the acid indicator and that of its conjugate base?

Answer 118

Colour

Question 119

What is the colour of an indicator determined by?

Answer 119

The colour of the indicator is determined by the ratio of [HIn] to [In-].

Question 120

What is the theoretical point at which a colour change occurs in an indicator?

Answer 120

The theoretical point at which colour change occurs is when [H3O+] = KIn.

Question 121

When is the colour change said to be distinguishable in an indicator?

Answer 121

when [HIn] and [In-] differ by a factor of 10.

Question 122

How can the pH range over which a colour change occurs be estimated by the expression:
pHpKIn 1

Answer 122

pH = pKIn (+/-) 1

Question 123

What is the equivalence point?

Answer 123

When the reaction is just completed.

Question 124

For a titration between a strong acid and a strong base what will the equivalence point be?

Answer 124

pH 7

Question 125

If titrating with a base, what should you ideally choose the indicator to be?

Answer 125

An indicator that has a pKIn 1 less than the pH at the equivalence point.

Question 126

If titrating with an acid, what should you ideally choose the indicator to be?

Answer 126

An indicator that has a pKIn 1 more than the pH at the equivalence point.

Question 127

What will the equivalence point be for a weaker acid?

Answer 127

Higher as the change in pH becomes less dramatic.

Question 128

What does the pH have to be at least for the indicator to work?

Answer 128

2