Electrochemistry

Question 1

Electrochemistry

Question 2

Redox reactions can be studied electrically using…?

Answer 2

electrochemical cells

Question 3

What is an electrochemical cell?

Answer 3

an electrochemical cell is a simple system that generates a voltage

Question 4

Draw a diagram to show an electrochemical cell made up of 2 half-cells connected by a salt bridge

Question 5

What are the metal strips?

Answer 5

these are called electrodes (metallic conductors)

Question 6

What does each beaker contain?

Answer 6

each beaker contains a half-cell made up of redox couple

Question 7

What does a redox couple consist of?

Answer 7

a redox couple consist of metal atoms in equilibrium with it’s aqueous solution of ions

Question 8

In this experiment, which two things need to be connected in order for a reaction to occur?

Answer 8

No reaction can occur until the 2 half cells are connected by an external circuit (and a salt bridge)

Question 9

What is the external circuit?

Answer 9

The external circuit is a conducting wire through which electrons can pass from one electrode to the other.

Question 10

What is the salt bridge?

Answer 10

The salt bridge is a strip of filter paper soaked in a solution of soluble ionic compound (e.g potassum nitrate or potassium chloride)

Question 11

What is the salt bridge usually soaked in?

Answer 11

Potassium Nitrate or Potassium Chloride

Question 12

Electrode Potentials

Question 13

What is the external Circuit?

Answer 13

The external circuit is a conducting wire through which electrons can pass from one electrode to the other

Question 14

What is the salt bridge?

Answer 14

the salt bridge is often a strip of filter paper soaked in a solution of a soluble ionic compound(e.g potassium nitrate or potassium chloride) that does not react with the contents of either beaker

Question 15

What is the role of the salt bridge?

Answer 15

• the salt bridge enables the cell to work by completing the circuit without the 2 solutions mixing
• the salt bridge allows ions to move between the 2 half-cell compartments
• it prevents ion saturation at the electrodes that would stop the cell from working

Question 16

when does a voltmeter measure a reading?

Answer 16

when there is a potential difference between the 2 half-cells

Question 17

What is a voltmeter reading called?

Answer 17

A cell potential

Question 18

Draw and label a cell diagram

Question 19

The cell diagram can be written in a shorthand notation. Write the shorthand notation for RH magnesium electrode and a LH copper electrode. Describe what each thing notation represents?

Answer 19

• Positive electrode = written/drawn on the right hand side
• single vertical lines = represent phase (state) boundaries
• double vertical lines = salt bridge
• metal electrodes = always on the outside
• oxidation occurs in the Left hand half-cell and reduction occurs in the Right hand half-cell

Question 20

Describe the flow of electrons according to the cell diagram and the shorthand cell diagram?

Answer 20

electrons flow from the left hand half-cell to the right hand half-cell via the external circuit

Question 21

What type of reaction occurs in the Left-hand half cell and what type of reaction occurs in the right hand half-cell?

Answer 21

Left = Oxidation
Right = reduction

Question 22

Factors that affect the cell potential

Question 23

What are the factors that affect the cell potential?

Answer 23

• cell current
• cell concentration
• cell temperature
• cell pressure

Question 24

What is the cell current/ what is it measure by?

Answer 24

a high resistance digital voltmeter must be used to measure the true cell potential

Question 25

What does a high resistance voltmeter provide?

Answer 25

a high resistance voltmeter provides zero-current conditions

Question 26

What is the electromotive force (e.m.f)?

Answer 26

is the cell potential measured under zero-current conditions (Ecell)

Question 27

What happens when current if lowing to the voltmeter reading?

Answer 27

the cell potential reading drops

Question 28

What are the standard conditions used when measuring cell potentials?

Answer 28

• Cell concentration = 1 mol dm-3
• Cell temperature = 298K
• Cell pressure = 100KPa
• (Cell current = Zero-current)

Question 29

The cell pressure is significantly affected by what type of electrodes?

Answer 29

Gas electrodes

Question 30

What are gas electrodes?

Answer 30

gas electrodes consist of an inert metal surrounded by gas in equilibrium with a solution of it’s ions

Question 31

The inert metal is usually what metal?

Answer 31

Platinum

Question 32

What does the inert metal/ platinum act as?

Answer 32

Acts as a source or a sink for electrons

Question 33

What is the most important gas electrode?

Answer 33

Hydrogen electrode

Question 34

What redox couple does the hydrogen electrode correspond to?

Answer 34

H+ (aq) / H2(g)

Question 35

draw the left and right shorthand diagram to show the hydrogen cell in a cell diagram?

Answer 35

Left: Pt (s) / H2 (g) / H+ (aq)
Right: H+ (s) / H2 (g) / Pt (s)

Question 36

What is the oxidation half equation for hydrogen?

Answer 36

H2 (g) —-> 2H+ (aq) + 2e-

Question 37

What is a redox electrode?

Answer 37

at a redox electrode, 2 oxidation states of a given element undergo a redox reaction at an inert metal surface

Question 38

For example the redox couple Fe3+ (aq) / Fe2+, write out the right and left shorthand notation for this Iron gas electrode?

Answer 38

Left: Pt (s) / Fe2+ or Fe3+ (aq)
Right : Fe2+ or Fe3+ (aq) / Pt (s)

Question 39

The Standard Hydrogen Electrode and The Standard Electrode Potentials

Question 40

What are standard potentials?

Answer 40

Cell potentials are called standard potentials when they are carried out under standard conditions

Question 41

What are standard conditions?

Answer 41

Standard conditions are:
- 1 mol dm-3
- 298K
- 100 KPa
- Zero current

Question 42

What can standard potentials for particular electrochemical cell are given by what symbol?

Answer 42

E°cell

Question 43

What is the electrode potential?
What is it a measure of?

Answer 43

• the electrode potential is the potential difference in volts between the metal and a solution of metal ions.
• it is a measure of the tendency of the metal to lose electrons

Question 44

What is it not possible to measure the potential of?

Answer 44

it is not possible to measure the potential of a single electrode

Question 45

So how are potentials measured?

Answer 45

Instead electrode potentials are listed relative to a standard reference electrode.

Question 46

What is the Primary Standard electrode reference?

Answer 46

the primary standard electrode used is the Standard Hydrogen Electrode (SHE)

Question 47

What value has the Standard Hydrogen electrode been given?

Answer 47

a value of Zero E°= 0.00V by scientists

Question 48

So all electrode potentials are what to the Standard Hydrogen potential?

Answer 48

all other electrode potentials are listed relative to the Standard Hydrogen electrode

Question 49

What is the standard Hydrogen Electrode?

Answer 49

the standard Hydrogen electrode is the hydrogen electrode operating under standard conditions (298K, 100 KPa, 1 mol dm-3)

Question 50

Describe the conditions surrounding the standard hydrogen electrode?
Draw a diagram to show this.

Answer 50

in the hydrogen electrode pure hydrogen gas at 100KPa pressure is bubbled across an inert platinum electrode placed in 1M solution of H+ at 298K

Question 51

Write the notion used to represent the standard hydrogen electrode?

Answer 51

Pt (s) / H2(g) / H+(aq)

Question 52

Draw a half equation to show this reaction?

Answer 52

2H+ (aq) + 2e- ⇌ H2 (g)

Question 53

The direction of the above reaction depends on what?

Answer 53

the direction of the above reaction depends on the other half cell to which the hydrogen electrode is connected

Question 54

The standard electrode potential of any redox couple can be predicted, how?

Answer 54

by connecting the redox couple to the standard hydrogen electrode

Question 55

Why must these reactions be carried out in standard conditions

Answer 55

Standard conditions so that E°cell values for different redox couples can be compared

Question 56

Describe the flow of electrons in the redox couple below:
Pt (s) / H2(g) / H+ (aq) // Cu2+ (aq) / Cu (s)

Answer 56

electrons flow from the hydrogen electrode to the Cu2+ (aq) / Cu (s) redox couple

Question 57

What is the positive electrode?

Answer 57

Cu (s)

Question 58

So the E °Cell for Cu2+ (aq) / Cu (s) redox couple is also…?
State the E ° Value of this redox couple ?

Answer 58

• Positive -
• the E ° value for the copper half cell = + 0.34 V

Question 59

If the copper half cell is replaced by Magnesium half cell, describe the flow of electrons now?

Answer 59

the electrons will flow from the magnesium redox couple towards the hydrogen electrode

Question 60

So the magnesium electrode will be..?
So the E ° value for the magnesium half cell would be ?

Answer 60

• Negative
• E ° value = -2.36V

Question 61

How are standard electrode potential of redox couples determined normally?

Answer 61

Many SEP of redox couples have been determined experimentally (using the SHE or secondary standard) and are listed in chemistry data books

Question 62

What can these values be used to calculate..?

Answer 62

standard e.m.f values practically

Question 63

Why are standard electrode potentials always quoted for the reduction process?

Answer 63

by convention

Question 64

All electrode reactions are..?

Answer 64

reversible equilibrium reactions

Question 65

the direction in which the forward and backward reaction in a half cell will go depends on..?

Answer 65

which half-cell it is connected to

Question 66

What is the standard convection?

Answer 66

the standard convection is to place the half-cell with the more positive E° on the right hand side (positive electrode) and the half cell with the more negative E° on the left hand side (negative electrode)

Question 67

This results in electrons flowing?

Answer 67

From the left hand half cell to the right hand half cell

Question 68

Using this convention an expression can be applied to any pair of redox couples, what is the expression?

Answer 68

E°Cell = E°right - E°left

Question 69

Calculate the standard e.m.f of a cell with Zinc and Copper electrodes in solutions of 1.0M Zinc sulphate and Copper (II) sulphate respectively

Zn2+ (aq) + 2e- ⇌ Zn (s) E° = -0.76V
Cu2+ (aq) + 2e- ⇌ Cu(s) E° = +0.34V

Answer 69

• use expression: E°Cell = E°right - E°left
• remember the reaction with the more positive value is the right hand half-cell
• E°Cell = +0.34 - (-0.76)
• E°Cell = +1.10V

Question 70

Consider the cell made by connecting
Zn2+ (aq) / Zn (s) to Mg2+ (aq) / Mg (s)

a) write the equation for the reaction that occurs (the spontaneous or feasible reaction) and draw the cell notation
b) calculate the standard e.m.f of the cell

Answer 70

a) Two half equations are:
Zn2+ (aq) + 2e- ⇌ Zn (s) E° = -0.76V
Mg2+ (aq) + 2e-⇌ Mg(s) E° = -2.38V
- zinc is the positive electrode because E° = is more positive
- electrons are received here at this redox couple from the external circuit
- so the half cell reaction for this reaction goes FORWARD:
Zn2+ (aq) + 2e- ——–> Zn (s)
- Magnesium is the negative electrode
- electrons leave this electrode and enter the external circuit
- so magnesium half equation = in reverse
Mg (s) ——-> Mg2+ + 2e-
- so overall equation:
Zn2+ (aq) + Mg (s) —-> Zn (s) + Mg2+(aq)
- Cell representation:
- Mg (s) / Mg2+ (aq) // Zn2+ (aq) / Zn (s)

b) = +1.62V

Question 71

Secondary Standards

Question 72

What are the disadvantages of using the hydrogen electrode?

Answer 72

the hydrogen electrode is bulky, difficult to use and a little hazardous

Question 73

How do we resolve this?

Answer 73

so sometimes a different standard is used instead of the hydrogen electrode. Called the secondary standard

Question 74

Why is using a secondary standard better?

Answer 74

secondary standards are more convenient to use than the hydrogen electrode

Question 75

what is the secondary standard calibrated against?

Answer 75

the secondary standard is calibrated against the standard hydrogen electrode and produce equally valid standard potentials

Question 76

What are the two secondary standards?

Answer 76

• Calomel cell and
• Silver/silver chloride electrode

Question 77

What is the Calomel cell?
Draw the shorthand notation of this cell?

Answer 77

• this is the most commonly used Secondary standard
• Pt (s) / Hg(l) / Hg2cl2 (s), KCl (aq)

Question 78

What is the reduction half equation of the calomel cell?

Answer 78

Hg2Cl2 (s) + 2e- —> 2Hg (l) + 2Cl - (aq)

Question 79

What is the E° value calibrated against the hydrogen half-cell?

Answer 79

E° value = +0.27

Question 80

What is the silver/silver chloride cell?

Answer 80

second most commonly used secondary standard
Ag (s) / AgCl (s) / Cl- (aq)

Question 81

What is the reduction half-equation?

Answer 81

AgCl (s) + e- —–> Ag (s) + Cl- (aq)

Question 82

What is the E° value calibrated against the Hydrogen half-cell?

Answer 82

E° = +0.22

Question 83

What happens when reaction conditions are altered?

Why is there a change in equilibrium positions?

Answer 83

• then a change in equilibrium position occurs and the electrode potential value
• this is because the reaction between the species in a redox couple is a reversible reaction and involves an equilibrium

Question 84

Consider the standard electrode potential of Zn2+ (aq) / Zn (s) redox couple:

Zn2+ (aq) + 2e- ⇌ Zn (s) E° = -0.76V

a) When is the value (E°) valid?

Answer 84

a) only valid in standard conditions (298K, 1.0M solution of Zn ions, 100KPa)

Question 85

What happens when the concentration of the above reaction increases?

Answer 85

• if the concentration of zinc ions is increased, then the electrode potential will become more positive
• this is because of the reduction of the Zinc Ions is now more likely to occur (Le Chatlier’s Principle)

Question 86

Eventually (non-rechargeable) batteries stop working. Which electrochemical cell was constructed during the early day of batter development?

Answer 86

Zn (s) / Zn2+ (aq) // Cu2+ (aq) / Cu (s) = Daniel cell

Question 87

What are the two half equations for this reaction?

Answer 87

• Zn2+ (aq) + 2e- ⇌ Zn (s) E° = -0.76V
• Cu2+ (aq) + 2e- ⇌ Cu (s) E° = +0.34V

Question 88

What is the overall equation for this recation?

Answer 88

Zn(s) + Cu2+ (aq) –> Zn2+ (aq) + Cu (s) E° cell = +1.10V

Question 89

Using Le Chatelier’s Principle, explain what heppens when:
1. [Cu2+] is increased
2. [Cu2+] is decreased
3. [Zn2+] is decreased
4. [Zn2+] is increased

Answer 89

1. If [Cu2+] is increased, E°cell goes up, equilibrium goes to the right
2. [Cu2+] is decreased, E° goes down, equilibrium goes to the left
3. E° goes up, equilibrium goes to the right
4. E° goes down, equilibrium goes to the left

Question 90

Describe what happen overtime when the [Zn2+] increases and [Cu2+] decreases?

Answer 90

• In the Daniel cell, over time, the [Zn2+] increases, E° goes down
• and [Cu2+] decreases, E° goes down
• As a result the E°cell value will gradually decrease to zero volts

Question 91

The Electrochemical Series

Question 92

What is the Electrochemical series?

Answer 92

The electrochemical series is a list of standard electrode potentials (E°) placed in order according to the value of the reduction process

Question 93

Describe the main trend in the electrochemical series?

Answer 93

the following series places the most positive electrode potential at the top and the other electrode potentials are placed in descending order of electrode potentials down the series

Question 94

Why do we need to know how the ordering works?

Answer 94

In the exam, the order is often reversed

Question 95

Using the Electrochemical Series and Predicting the Direction of Simple Redox Reactions

Question 96

When is a reaction spontaneous or feasible?

Answer 96

• when the E°cell is positive, so E°Cell is greater than 0
• If reduction occurs at the right hand cell
• the more positive the cell potential (E°cell), the further the equilibrium lies to the right

Question 97

The electrochemical series half-equation with the more positive E° value oxidises (reverses), the one….?

Answer 97

with a lower value

Question 98

What direction does this equation go then in a spontaneous/feasible reaction?

Answer 98

this means that the half equation with the more positive E° value always goes FORWARD (as written in the series)

Question 99

What happens to the other half equation?

Answer 99

The other half equation get’s reversed

Question 100

State the direction of the reaction, when the E° value is more positive?

Answer 100

More positive E° values - Spontaneous direction is FORWARDS

Question 101

State the direction of the reaction, when the E° value is more negative?

Answer 101

More negative E° Value - Spontaneous direction is BACKWARDS

Question 102

When a reaction is feasible, Gibbs free energy is..?

Answer 102

Negative -ΔG° < 0

Question 103

• ΔG Corresponds to ..?

Answer 103

Positive +E°

Question 104

Consider the cell made by Connecting Ag+(aq)/ Ag(s) to Mg2+ (aq)/ Mg (s)

The 2 half-equations are:
Ag+ (aq) + e- ⇌ Ag(s) E°= +0.80V
Mg2+ (aq) + 2e- ⇌ Mg (s) E°= -2.38V

a) Write the equation for the spontaneous/ feasible reaction that occurs?
b) Draw the cell representation and calculate the standard e.m.f value of the cell, and state is the reaction is feasible?

Answer 104

a) Silver is the more positive electrode because the E° value for Ag+ (aq)/ Ag (s) redox couple is the ore positive

So the half cell for the reaction goes forwards as written:
Ag+ (aq) + e- —–> Ag (s)

Magnesium is the negative electrode
So magnesium half equation goes in reverse:
Mg (s) —–> Mg2+ (aq) + 2e-

So the spontaneous/ feasible reaction that occurs is:
2ag+ (aq) + Mg (s) —-> 2Ag (s) + Mg2+

B) Cell representation is obtained by placing the more positive E° value on the right:
Mg (s) / Mg2+ (aq) //Ag+ (aq) / Ag (s)

Standard e.m.f = +0.80 - (-2.38)
°e..m.f = +3.18V = reaction is feasible

Question 105

a) Using the electrochemical series to predict is Zinc will reduce V3+ (aq) to V2+

The 2 half-equations are:
V3+ (aq) + e- ⇌ V2+(aq) E°= -0.26V
Zn2+ (aq) + 2e- ⇌ Zn (s) E°= -0.76V

b) Draw the cell representation and calculate the standard e.m.f value of the cell?

Answer 105

V3+/V2+ is the positive electrode because the E° value for this redox couple is more positive
So half equation for this couple goes forwards as written:
V3+ (aq) + e- —-> V2+ (aq)

Zinc is the more negative electrode
So the half-equation goes in reverse:
Zn (s) —–> Zn2+ (aq) + 2e-

overall equation:
2V3+ (aq) + Zn (s) —-> 2V2+ (aq) + Zn2+

b) Cell representation:
Zn (s) / Zn2+ (aq) //V3+ (aq) , V2+ / Pt (s)

Standard e.m.f = -0.26-(-0.76)
°e.m.f = + 0.50V
The value is positive therefore the reaction is feasible. Zinc Ions can reduce V3+ ions to V2+ ions

Question 106

E3) Using the electrochemical series to predict is Fluorine can oxidise Fe2+ (aq) to Fe3+

The 2 half-equations are:
F2+ (g) + 2e- ⇌ 2F-(aq) E°= +2.87V
Fe3+ (aq) + e- ⇌ Fe2+ (aq) E°= +0.77V

b) Draw the cell representation and calculate the standard e.m.f value of the cell?

Answer 106

F2/F- is the positive electrode as the Ea) Using the electrochemical series to predict is Zinc will reduce V3+ (aq) to V2+

The 2 half-equations are:
V3+ (aq) + e- ⇌ V2+(s) E°= -0.26V
Zn2+ (aq) + 2e- ⇌ Zn (s) E°= -0.76V

b) Draw the cell representation and calculate the standard e.m.f value of the cell? value s more positive
So the half-cell equation for this redox couple goes forwards as written:
F2 (g) + 2e- —> 2F- (aq)

Fe3+/Fe2+ is the negative electrode
So this half equation goes in reverse:
Fe2+ (aq) ——> Fe3+ (aq) + e-

Overall equation:
F2 (g) + 2Fe2+ (aq) —-> 2F- (aq) + 2Fe3+ (aq)

Cell representation:
Pt (s) / Fe2+ (aq), Fe3+ (aq) // F2 (g)/ F- (aq) / Pt (s)

Standard e.m.f = + 2.87V - (+0.77)
Standard e.m.f = +2.10V

E° cell is positive therefore the reaction is feasible.
Fluorine can oxidise Fe2+ ions to Fe3+ ions

Question 107

Calculate the e.m.f of the following electrochemical cell and write an equation for the overall cell reaction:
Al (s) / Al3+ (aq) // V3+ (aq), V2+(aq) / Pt (s)

The 2 half equations are:
V3+ (aq) + e- ⇌ V2+ (aq) E°= -0.26V
Al3+ (aq) + 3e- ⇌ Al (s) (s) E°= -1.66V

Answer 107

V3+/V2+ is the positive electrode because E° value is more positive
So the half-cell equation for the reaction goes forwards as written:
V3+ (aq) + e- —-> V2+ (aq)

Al (s)/Al3+ is the negative electrode
So this half equation is in reverse:
Al (s) —–> Al3+ (aq)+ 3e-

Overall equation:
Al (s) + 3V3+ (aq) —> Al3+ (aq) + 3V2+ (aq)

Standard e.m.f = +1.40V
Therefore the reaction is feasible

Question 108

Predicting Redox Equations

Question 109

What values can be used to predict whether or not a redox reaction occurs (is feasible) when reactants are mixed together?

Answer 109

Standard electrode potentials

Question 110

How should we go about predicting redox equations when reactants are mixed together?

Answer 110

• Identify Appropriate Half Equations
  -redox involves both oxidation+ reduction
  -So one of the half-equations must show electron gain (Reduction) and other electron loss (oxidation)
• Using the E° Values
  -E° Values for two half equation are identified (one forward and one reversed)
  -E° Values are then added together
  -Note that the values are not adjusted in terms of the different number of electrons involved
  -if overall E°reaction = is positive reaction is feasible and reaction will occur spontaneously
  -E° Reaction is negative then a reaction can not occur, thermodynamically impossible under standard conditions
  -Not that Half equations are equivalent to the half-cells discussed previously and E°reaction is the same as E°cell

Question 111

Example 1.
Predict the products if any, when Cu2+ (aq) ions are mixed with V2+ (aq) ions. Use the E° values to explain your answer.

The 2 Half equations are:
V3+ (aq) + e- ⇌ V2+ (aq) E°= -0.26V
Cu2+ (aq) + 2e- ⇌ Cu (s) E°= +0.24V

Answer 111

Cu2+ ions are the reactants and must therefore be on the left-hand side of the equation (written as forwards):
Cu2+ (aq) + 2e- ⇌ Cu (s) E° = +0.24

V2+ ions are also reactants and must therefore be on the left-hand side of the equation.
This involves reversing the half-equation and changing the E° sign:
V3+ (aq) + e- ⇌ V2+ (aq) E°= + 0.26V

We can now add together the 2 E° values to get an E° Reaction value
E° reaction = +0.26 + (+0.34)
E° r = +0.60V
The reaction is therefore feasible (a reaction occurs) and therefore products will be formed

Overall equation:
2V2+ (aq) + Cu2+ (aq) —> 2V3+ (aq) + Cu (s)
Therefore the products are V3+ (aq) and Cu (s)

Question 112

Example 2.
Predict the products if any, when Zn metal is mixed with Mg2+ (aq) ions. Use E° Values to explain your answer

The 2 Half equations are:
Mg2+ (aq) + 2e- ⇌ Mg (s) E°= -2.36V
Zn2+ (aq) + 2e- ⇌ Zn (s) E°= -0.76V

Answer 112

Mg2+ ions are the reactants, so therefore must be on the left hand side of the equation (forwards as written):
Mg2+ (aq) + 2e- ⇌ Mg (s) E°= -2.36V

Zinc metal is also a reactant and must therefore be on the left-hand side of the half-equation.
This involves reversing the half-equation and changing the E° Sign:
Zn (s) —–> Zn2+ + 2e- E°= -0.76V

We can now add the two E°values to get a E°reaction value.
E°r = -1.60V
The reaction is therefore not feasible and therefore no products will be formed

Question 113

ELECTROCHEMICAL CELLS

Question 114

What are adapted chemical cells used for?

Answer 114

Cn be used as commercial source of electrical energy

Question 115

These electrochemical cells can be divided into 3 main groups, what are they?

Answer 115

• primary cells
  -secondary cells
  -Fuel cells

Question 116

What are electrochemical cells that provide a convenient source of electrical energy commonly called?

Answer 116

batteries

Question 117

Where does the term battery originate from?

Answer 117

The term battery originates from an array of more than 1 cell joined together in series

Question 118

What is a primary cell?

Answer 118

a primary cell is irreversible and is not intended to be recharged by an electric current (non-rechargeable)

Question 119

what is a secondary cell?

Answer 119

a secondary cell is reversible and is specifically designed to be recharged by an electric current (rechargeable)

Question 120

What is a Fuel cell?

Answer 120

A fuel cell generates electricity from the continuous oxidation of an external source of fuel

Question 121

Fuel cells can also be considered what type of cells?

Answer 121

to be primary cells

Question 122

Why is this?

Answer 122

since they do not need to be electrically recharged

Question 123

What are fuel cells charged by?

Answer 123

Fuel cells are charged by the continuous supply of fuel

Question 124

Primary Cells

Question 125

What is a primary cell?

Answer 125

a primary cell is irreversible and not intended to be recharged by an electrical current

Question 126

What is the single function of a primary cell?

Answer 126

The single function of a primary cell is to provide current to an external circuit while discharging (galvanic action)
- once discharged, primary cells are discarded

Question 127

Explain what is meant by the term disposable?

Question 128

What is a Galvanic Cell?

Answer 128

a galvanic cell is one with a positive e.m.f in which the spontaneous forward cell reaction can be used to provide an electrical current to an external circuit

Question 129

What are some features of a primary cell?

Answer 129

• disposable
• long-life / high power

Question 130

Secondary Cells

Question 131

what is a secondary cell?

Answer 131

a secondary cell si reversible and is designed to be recharged by an electricla current (rechargeable)

Question 132

secondary cells combine two opposing functions of all reversible cells what are they?

Answer 132

• They provide current to an external circuit while discharging (galvanic action) –> chemical into electrical energy
• They use current form an external circuit while charging (electrolytic action) – electrical into chemical energy

Question 133

What is an electrolytic cell?

Answer 133

An electrolytic cell is one with a negative e.m.f, which makes the forward reaction impossible, but which is then made possible by the flow of electric current from an external circuit

Question 134

In order for the system to be completely reversible, what is important that needs to be amintained?

Answer 134

It is important that the products resulting from both Galvanic and electrolytic action are not dispersed in the cell but (being insoluble) remain attached to the cell electrodes

Question 135

What is an example of a rechargeable cell?

Answer 135

Lithium ion cell

Question 136

what examples of technology contain Lithium ion cell batteries?

Answer 136

mobile phones, tablets and laptops contain Lithium ion batteries - these are rechargeable batteries

Question 137

What type of reaction do these cells use?

Answer 137

they use reversible reactions

Question 138

What is a Lithium ion cell made up of?

Answer 138

• one type of Lithium ion cell is made u of LiCoO2 electrode and a graphite electrode
• the electrolyte is a lithium salt in an organic solvent

Question 139

What are the 2 half equations for the reaction?

Answer 139

• Li+ (aq) + CoO2 (S) + e- ⇌ Li+[CoO2]- (s) E° = +0.56V
• Li+ (aq) e- ⇌ Li (s) E° = -3.04V

Question 140

Describe using equation what occurs when the battery supplies power (discharging)?

Answer 140

• At the positive electrode = - Li+ (aq) + CoO2 (S) + e- ⇌ Li+[CoO2]- (s)
• At the Negative electrode = Li+ (aq) e- ⇌ Li (s) E° = -3.04V

-Overall reaction = Li (s) + CoO2 (S) –> Li+ [CoO2]- (s)

Question 141

Reverse reactions occur on…?
What does this do?

Answer 141

Charging - replenishing the battery

Question 142

What are two advantages of the Lithium ion cell?

Answer 142

• the EMF value is really high (due to the lithium having the highest negative standard electrode potential
• Another advantage of the lithium ion cell is that Lithium is ver light (great for mobile devices)

Question 143

What are the features of some common secondary cells?

Question 144

Fuel cells

Question 145

What are Fuel cells?

Answer 145

Fuel cells use a supply of hydrogen or organic fuel, together with a supply of oxygen, to provide a source of electrical power

Question 146

The simplest fuel cell uses energy from the reaction of … to provide electrical power

Answer 146

Hydrogen and Oxygen

Question 147

What is the percentage of chemical energy of combustion can be directly converted into electrical energy by Fuel cells?

Answer 147

85%

Question 148

FUEL CELLS

Question 149

why can fuel cells also be considered as primary cells?

Answer 149

Because they do not need to be recharged

Question 150

What is a fuel cell?

Answer 150

Fuel cells use a supply of hydrogen or organic fuel, together with a supply of oxygen, to provide a source of electrical power.

Question 151

How does a fuel cells make electricity?

Answer 151

A fuel cell makes elctricity by introducing fuel (on the anode catalyst side) and an oxidant (on the cathode catalyst side), which react together in the presence of an electrolyte

Question 152

Describe the flow of reactants and products in a fuel cell?
This means that..?

Answer 152

The reactants flow in and the products flow out, while the electrolyte stays the same. This means that the fuel cells can flow continuously as long as the various flows are maintained

Question 153

Why are fuel cells very reliable?

Answer 153

Because there are no moving parts

Question 154

What are fuel cells used in combination with and why?

Answer 154

Fuel cells cannot store energy like batteries but they are sometimes used in combination with batteries

Question 155

What can these batteries do?

Answer 155

These batteries can electrolyse the products during charging

Question 156

What is the difference between fuel cells and batteries?

Answer 156

Fuel cells consume reactants that must be replenished, whereas batteries store and release energy in a closed system

Question 157

What is the simplest of the fuel cells?

Answer 157

The Hydrogen-Oxygen fuel cell

Question 158

SO what is the role of the Hydrogen and Oxygen fuel cell?

Answer 158

Uses energy from the reaction of oxygen and hydrogen to provide electrical power

Question 159

What is used as duel and what is used an an oxidant in this reaction/fuel cell?

Answer 159

Hydrogen is used as the fuel (on the anode catalyst)
Oxygen is used as the Oxidant (on the cathode catalyst side)

Question 160

What must this fuel cell occur in?

Answer 160

An electrolyte

Question 161

What catalyst is typically used in a hydrogen and oxygen fuel cell?

Answer 161

Usually a platinum- group metal or a alloy

Question 162

Why are the platinum electrodes Inert and porous?

Answer 162

to allow the passage of reactant and product gases

Question 163

The 2 platinum electrodes are immersed in an electrolyte. what could this electrolyte be?

Answer 163

• Acidic (e.g Phosphorus acid)
• Alkaline (e.g commercial cells use hot aqueous potassium hydroxide

Question 164

Describe the effect of platinum on the rate of reaction?

Answer 164

Platinum increases the rate of the electrode reactions (faster reactions provide higher current)

Question 165

How does the ACIDIC hydrogen-Oxygen fuel cell work?

Answer 165

-Hydrogen diffuses to the anode platinum catalyst - here it splits up to make H+ ions (protons) and electrons
- The hydrogen ions are conducted through the electrolyte to the cathode
- the electrons travel through the external circuit
- At the cathode platinum catalyst surface, oxygen molecules react with the electrons (that have travelled through the external circuit) and the hydrogen ions to form water
- Any excess gases are recycled, so water is the only waste product

Question 166

How does the ALKALINE Hydrogen-Oxygen Fuel cell work?

Answer 166

• at the anode, hydrogen reacts with hydroxide ions(that have been conducted through the electrolyte), water and electrons are produced - the electrons enter the external circuit
• At the cathode, oxygen reacts with the electrons arriving from the external circuit to make hydroxide ions (that are conducted through the electrolyte

Question 167

What are Acidic condition half-equations?

Question 168

What are alkaline half-equations

Question 169

Why is the EMF value of the two equations the same?

Answer 169

This is because the overall reaction is the same

Question 170

Give the cell representation of an acidic Hydrogen-oxygen fuel cell?

Question 171

Give the cell representation of the alkaline hydrogen-oxygen fuel cell

Question 172

What are the reaction conditions of the hydrogen-oxygen fuel cell and explain what happens if we do not control these?

Question 173

How is Hydrogen and oxygen obtained?

Question 174

How is most hydrogen produced?

Question 175

Why is this reaction of making hydrogen not really good?

Question 176

Why is the Hydrogen-fuel cell not considered green?

Question 177

How can Hydrogen be made ‘green’ or ‘Cleanly’?

Question 178

Where does energy to make hydrogen green/electrolysis come from, what is the downside of this?

Question 179

ORGANIC FUEL CELLS

Question 180

What is an organic fuel cell?

Answer 180

In organic fuel cells, an organic fuel such as ethanol mixes with water (on the anode catalyst) and reacts with oxygen as the oxidant (on the cathode side pf the catalyst)

Question 181

Write equations to show what happens at the anode and the cathode, as well as an overall equation

Question 182

DONE!!!