14: Redox 2

Question 1

What are the two options for balancing redox reactions?

Answer 1

Half reaction method

Change in oxidation method

Question 2

What is the change in oxidation method for balancing redox equations?

Answer 2

Write out unbalanced reaction

Assigned oxidation numbers

Draw brackets and connect redox atoms

Find common factor, assign stoichiometry

Question 3

What is the method for balancing equations in acidic conditions?

Answer 3

Write unbalanced equation

Assign oxidation numbers

Find common factor, assign stoichiometry

Add H2O to balance O atoms

Acidic solution balances H+ atoms from H2O

Question 4

What is the method for balancing equations in basic conditions?

Answer 4

Write unbalanced equation

Assign oxidation numbers

Find common factor, assign stoichiometry

Add OH- to balance O atoms

H2O added to balance H and O

Question 5

How is an equilibrium set up with metals?

Answer 5

Piece of metal is dipped into a solution of its metal ions

Metal forms positive ions and go into solution

Metal ions gain electrons and form metal

Question 6

What is the half equation for a metal in a solution of metal ion?

Answer 6

Mⁿ⁺ _(aq) + ne^- → M _(s)

Question 7

Where does the position of equilibrium effect the charge in a metal equilibrium?

Answer 7

Equilibrium to left, metal has -ve charge due to build up of electrons on the metal

Equilibrium to right, +ve charge builds up on metal as electrons are used up to form metal from metal ions

Question 8

What is a negative and positive electrode potential in reference to equilibrium with a metal?

Answer 8

Eq. lies on left with -ve charge, -ve electrode potential

Eq. lies on right with +ve charge, +ve electrode potential

Question 9

How does the position of equilibrium of a metal in solution show high reactivity?

Answer 9

More reactive metal tend to forms Mⁿ⁺ ions

Negative charge builds up on the metal -ve electrode potentials

Question 10

How does the position of equilibrium of a metal in solution show low reactivity?

Answer 10

Low reactive metal tend not to forms Mⁿ⁺ ions

Positive charge builds up on the metal +ve electrode potentials

Question 11

What is potential difference?

Answer 11

Difference between the positive and negative electrode

Measured in voltage

Question 12

What are the three types of electrode?

Answer 12

Metal electrodes

Gas electrodes

Redox electrodes

Question 13

What is a metal electrode?

Answer 13

Consists of metal surrounded by a solution of its ions

Question 14

What is a gas electrode?

Answer 14

Inert metal (platinum) is electrode to allow electrons to flow
Used for a gas and a solution of its ions

Question 15

Which inert metal is used normally for the gas electrodes?

Answer 15

Platinum

Question 16

What are redox electrodes?

Answer 16

For two ions of the same element where both are present in solution

Inert metal electrode allows flow of electrons

Question 17

What is a half cell?

Answer 17

One of two electrodes in an electrochemical cell

Question 18

What is reduction?

Answer 18

When a species gains electrons

Oxidation number decreases

Question 19

What is oxidation?

Answer 19

When a species loses electrons

Oxidation number increases

Question 20

How do s-block metals tend to react (terms of redox)?

Answer 20

Oxidised - lose electrons to form positive ions with charge same as group number

Question 21

How do p-block elements tend to react (terms of redox)?

Answer 21

Metals react by losing electrons to form +ve ion

Non-metals react by gaining electrons to form -ve ion

Question 22

How do d-block elements tend to react (terms of redox)?

Answer 22

Form ions with variable oxidation states

Tend to form +ve ions with +ve oxidation numbers

Question 23

What reactions occur in a cell?

Answer 23

Always a reduction and oxidation reaction occurring

Question 24

What charge is the anode in an electrochemical cell?

Answer 24

Negative electrode

Oxidation always occurs here

Question 25

What charge is the cathode in an electrochemical cell?

Answer 25

Positive electrode

Reduction always occurs here

Question 26

Where do electrons flow in a circuit?

Answer 26

From anode to cathode (more to least reactive metal)

Question 27

Which electrode does the more reactive metal form?

Answer 27

Anode - as gives up its electrons more easily

Question 28

Which electrode does the less reactive metal form?

Answer 28

Cathode - accepts electrons more easily

Question 29

What is cell potential?

Answer 29

Voltage between the two half-cells Measure direction of flow of electrons

Question 30

What is the convention of drawing half-cells?

Answer 30

Oxidation half-cell (anode) on the left Reduction half-cell (cathode) on the right

Question 31

How are equations at electrodes presented?

Answer 31

Presented as reductions Reversible arrows show they can go in both directions

Question 32

What are the steps to setting up an accurate electrochemical cell?

Answer 32

Strips of metals to investigate are cleaned using sandpaper

Clean grease/oil on electrodes with propanone, do not touch surface of metal with hands

Place into beaker with corresponding metal ions

Salt bridge made and electrodes connected to a voltmeter

Question 33

What is a salt bridge?

Answer 33

Way to distribute ions to the different half-cells

Question 34

What is the set up of a salt bridge?

Answer 34

Piece of filter paper soaked with unreactive ions Tube containing unreactive ions in an agar gel

Question 35

Why is a salt bridge used?

Answer 35

Balance +ve and -ve charge in half cell solutions to maintain electrode potentials

Question 36

Which compounds/ions are used in salt bridges?

Answer 36

KNO3 Forms unreactive ions

Question 37

How are half-cell electrode potentials measured?

Answer 37

Measured relative to a particular half-cell (SHE)

Question 38

What is SHE?

Answer 38

Standard hydrogen electrode Electrode chosen to be the primary standard which all others are measured against

Question 39

Why are electrodes measured under standard conditions?

Answer 39

Various factors affect the electrode potential of a half-cell Due to half cells being in equilibrium

Question 40

What are the standard conditions for a half-cell?

Answer 40

Cell conc - 1 M of ions involved in half-equation

Cell temp - 298K

Cell pressure - 100kPa (only affects half-cells with gases)

High resistance voltmeter

Question 41

Why is a high resistance voltmeter used?

Answer 41

Must be done under zero-current conditions Allows measurement of full pd (emf), no current drawn from cell

Question 42

What are the standard conditions in a SHE?

Answer 42

1M solution of H+ atoms

298K

H2 at 100kPa

Salt bridge

Platinum electrode

Question 43

What is the half equation for the SHE?

Answer 43

2H+ (aq) + 2e- -> H2 (g)

Question 44

What are the conventions to drawing a cell?

Answer 44

|| separates half cells

Reduction is on the right

[] show substance flowing over inert metal

R|O||O|R

separates species/phases

Question 45

What is the convention for a hydrogen and magnesium electrochemical cell?

Answer 45

Pt[H2 (g)] | 2H+ (aq) || Mg2+ (aq) | Mg(s)

Question 46

What is the standard electrode potential of a half-cell?

Answer 46

Voltage measured under standard conditions when half-cell connected to SHE

Question 47

What is the electrode potential of a SHE?

Answer 47

0V

Question 48

What is E(cell)?

Answer 48

Cell potential of an electrochemical cell

Question 49

What is the equation for E(cell)?

Answer 49

E(cell) = E(reduction) - E(oxidation)

Question 50

Why is the E(cell) value always positive?

Answer 50

More negative E value is being subtracted from more positive E value

Question 51

What is the electrode potential of more reactive metals and why?

Answer 51

More negative standard electrode potential Loses electrons more easily

Question 52

What is the electrode potential of less reactive metals and why?

Answer 52

More positive standard electrode potential Gains electrons more easily

Question 53

When is a reaction thermodynamically feasible?

Answer 53

The overall E(cell) value is positive

Question 54

How can E values be used to predict disproportionation?

Answer 54

If E(cell) is positive for different redox reactions then disproportionation occurs

Question 55

Why might the E(cell) value predict something is not feasible but in practice it is?

Answer 55

Conditions are not standard Reaction kinetics aren’t favourable - slow rate of reaction so may not seem to occur, or high activation energy

Question 56

What is cell potential related to?

Answer 56

E(cell) is directly proportional to ΔS(total)

E(cell) is therefore directly proportional ln(K)

Question 57

How are pipettes used?

Answer 57

Measure only one volume of solution Fill pipette just above line and drop level carefully to the line

Question 58

How is a burette moved?

Answer 58

Burettes measure different volumes and let you add solutions drop by drop

Question 59

How are titrations used to calculate conc of acid/alkali?

Answer 59

Know volume of an alkali with unknown conc titrated with acid of known conc Volume of acid needed to neutralise acid used to calculate the conc of the alkali Or vice versa with acid/alkali

Question 60

What does an oxidising agent do?

Answer 60

Accepts electrons and is reduced

Question 61

What does a reducing agent do?

Answer 61

Donates electrons and is oxidised

Question 62

Why are d-block transition metals used as oxidising/reducing agents?

Answer 62

Good at changing oxidation numbers Readily give out/accept electrons

Question 63

How can the amount of reducing agent be calculated from an impure source?

Answer 63

Measure amount of impure product

Add dilute sulphuric acid to make up 250cm3

Titrate against oxidising agent such as MnO4- or C2O7 2-

Calculate moles

Question 64

What are the oxidation agents used which have a colour change in titration?

Answer 64

Potassium manganate KMnO4, goes from purple to colourless

Potassium Dichromate K2Cr2O7, goes from orange to green

Question 65

What are the ratios for iron and common oxidising agents?

Answer 65

Manganate - 5Fe2+ : MnO4-

Dichromate - 6Fe2+ : Cr2O7 2-

Question 66

What are the oxidation states of Vanadium?

Answer 66

+5 = VO₃^- or VO₂⁺

+4 = VO²⁺

+3 = V³⁺

+2 = V²⁺

Question 67

What are the colours of the oxidation states of Vanadium?

Answer 67

Yellow = VO₃^- or VO₂⁺ (oxidation state +5)

Blue = VO²⁺ (oxidation state +4)

Green = V³⁺ (oxidation state +3)

Violet = V²⁺ (oxidation state +2)

Question 68

What is the electronic configuration of Vanadium?

Answer 68

1s2 2s2 2p6 3s2 3p6 3d3 4s2

Question 69

What is the half equation for the changing on oxidation state of vanadium between +5 and +4?

Answer 69

VO₂⁺ + 2H⁺ + e^- -> VO²+ + H₂O

Question 70

What is the half equation for the changing on oxidation state of vanadium between +4 and +3?

Answer 70

VO²+ + 2H⁺ + e^- -> V³+ + H₂O

Question 71

What is the half equation for the changing on oxidation state of vanadium between +3 and +2?

Answer 71

V^3+ + e- -> V^2+

Question 72

How is thiosulphate used for a titration?

Answer 72

XS iodide ions react with oxidising agent, liberating iodine

Iodine titrated against a standard solution of sodium thiosulphate

Question 73

What is the equation linking iodine and thiosulphate?

Answer 73

I₂ + 2S₂O₃^2- -> 2I^- + S₄O₆^2-

Question 74

What is the method for sodium thiosulphate titration?

Answer 74

Known volume of oxidising agent pipetted into a conical flask

Similar vol of dilute sulphuric acid added, with XS solid KI, swirled to ensure all oxidising agent reacts

Burette filled with standard solution of sodium thiosulphate

Thiosulphate added until brown fades to straw

Few drops of starch added to make it blue-black

Thiosulphate added until decolourised

Question 75

What colour change is seen when using thiosulphate?

Answer 75

Brown to pale straw before starch

Black-blue to colourless after starch

Question 76

What occurs when starch is added to an iodine solution?

Answer 76

Iodine forms complex with starch Forms a blue-black colour

Question 77

Why is manganate used instead of dichromate for some titrations?

Answer 77

Clearer colour change

Question 78

What is the method for titration with potassium manganate?

Answer 78

Known volume (usually 25cm3) of reducing agent is pipetted into a conical flask

Approx 25cm3 of dilute sulphuric acid is added

Burette filed with standard solution of potassium manganate

Manganate (purple) added to reducing agent bit by bit where it turns colourless

End-point when a permanent pink colour is seen

Question 79

What is the reaction which occurs in a potassium manganate titration?

Answer 79

Fe2+ reacts with MnO4 - ions turning it colourless

End-point when no Fe2+ is left in the solution

Question 80

What are the main types of cells?

Answer 80

Non-rechargeable

Rechargeable

Fuel cells

Question 81

What is a battery?

Answer 81

More than one cell which is joined together

Question 82

Why are non-rechargeable cells not used more than once?

Answer 82

Chemicals used up over time and emf drops

Once one or more chemicals run out it cannot be used

Question 83

What are the common chemicals found in non-rechargeable cells?

Answer 83

Zinc-carbon cell - standard and cheap with shorter life

Alkaline cell - higher cost but longer life

Question 84

How do rechargeable cells work?

Answer 84

Reactions are reversible

Reversed by applying an external current and regenerating the chemicals

Question 85

What are common types of rechargeable cells?

Answer 85

Lead-acid

Nickel-cadmium

Question 86

What is a fuel cell?

Answer 86

Cell which have a continuous supply of the chemicals into the cell

Chemicals are stored separately outside the cell

Question 87

What do the fuel cells not require like conventional cells?

Answer 87

Does not run out of chemicals

Not need recharging

Question 88

What is the most common fuel cell?

Answer 88

Hydrogen-oxygen fuel cell

Question 89

What is the set up of a hydrogen-oxygen fuel cell?

Answer 89

Hydrogen and oxygen gases fed into two separate platinum-containing electrodes

Electrodes separated by an anion-exchange membrane allowing only ions to move through it

Question 90

What are the two types of hydrogen-oxygen fuel cells?

Answer 90

Alkaline or acidic

Question 91

What are the half equations in an alkaline hydrogen-oxygen fuel cell?

Answer 91

H₂ + 2OH^- -> 2H₂O + 2e^-

O₂ + 2H₂O + 4e^- -> 4OH^-

Overall: 2H₂ + O₂ -> 2H₂O

Question 92

What are the half equations in an acidic hydrogen-oxygen fuel cell?

Answer 92

H₂ -> 2H⁺ + 2e^-

O₂ + 4H⁺ + 4e^- -> 2H₂O

Overall: 2H₂ + O₂ -> 2H₂O

Question 93

What is the cell emf of a hydrogen-oxygen fuel cell?

Answer 93

Acidic and alkali: +1.23 V

Question 94

Which is the anion-exchange membrane and polymer electrolyte membrane?

Answer 94

Surface which allows passage of H+ or OH- ions to flow between electrodes in hydrogen-oxygen fuel cells

Question 95

Which electrode is hydrogen and oxygen delivered to in a hydrogen-oxygen fuel cell?

Answer 95

Hydrogen delivered to the anode Oxygen delivered to the cathode

Question 96

How is electricity generated in an acidic hydrogen-oxygen fuel cell?

Answer 96

H2 forms H+ ions at anode, donating electrons to it

Electrons move to cathode, creating a pd H+ ions move between electrodes through electrolyte to cathode

Electrons at cathode used to combine H+ and O2 to form water

Question 97

How is electricity generated in an alkali hydrogen-oxygen fuel cell?

Answer 97

O2 at cathode reacts with water and uses electrons from circuit to form OH-

OH- pass through anion-exchange membrane to negative anode

OH- reacts with H2 to form H2O and produces e- which go into the circuit and produces a pd

Question 98

What are the advantages/disadvantages to using cells?

Answer 98

Portable source of electrical energy

Waste issues

Question 99

What are the advantages/disadvantages to using non-rechargeable cells?

Answer 99

Cheap

Waste issues

Question 100

What are the advantages/disadvantages to using re-chargeable cells?

Answer 100

Less waste, cheaper in long run, lower environmental impact

Some waste issues at end

Question 101

What are the advantages/disadvantages to using hydrogen fuel cells?

Answer 101

Only waste product is water, no recharging, very efficient

Need constant supply of fuels, hydrogen is flammable and explosive and made using fossil fuels, high cost of fuel cells

Question 102

Define standard electrode potential

Answer 102

Emf of a half-cell measured relative to SHE All standard conditions (1M solution, 100kPa gas, 298K)