.7 Oxidation, reduction, redox equations

Question 1

Identify whether each reaction is an example of reduction or oxidation:
2FeO + C 🡪 2Fe + CO2

2Mg + O2 🡪 2MgO

Na 🡪 Na+ + e-

2I- - 2e- 🡪

I2 ½ O2 + 2e- 🡪 O2-

Answer 1

Reduction 
Oxidation 
Oxidation 
Oxidation 
Reduction

Question 2

Define oxidation and reduction in terms of electrons, what is an oxidation number? Why do we use oxidation states?

Answer 2

Can be expressed in two ways: Oxidation is the gain of oxygen
Reduction is the loss of oxygen

Oxidation is the loss of electrons
Reduction is the gain of electrons
OiL RiG

‘An oxidation number is the charge an atom would have if electrons in its bonds belonged completely to a more electronegative atom’.
∴ The more electronegative atom becomes negative

Tell if oxidation or reduction has taken place
Work out what has been oxidised / reduced
Construct half equations and balance redox equations

Question 3

Oxidation Number Rules (Lesson + ones from Dr B) (in order of importance) including benchmarks

Answer 3

Lesson:The oxidation number of elements = 0 So Na = 0 and the Cl in Cl2 = 0

Oxidation numbers are written as charge;value and must be placed above the specific element (e.g +2 on top of Mg -2 on top of O in MgO)

Simple ions have the same ionic charge and oxidation number Na+, K+ both have the oxidation number +1 S2-, O2- both have the oxidation number -2

The sum of oxidation numbers in (free elements) natural molecules and compounds= 0
The sum of oxidation numbers in complex ions = the charge of the ion

Metals Group 1 = +1 Group 2 = +2 Group 3 = +3 (mostly, but Al is always +3)

Non metals
Vary but are mostly negative. To avoid ambiguity, oxidation number is often given in the name e.g. sulphur(VI)oxide for SO3

Hydrogen +1 BUT 0 in H2
-1 in metal hydrides e.g. NaH (due to hydride ion: H-)

Oxygen -2 BUT 0 in O2
-1 in peroxides e.g.H2O2
+2 with fluorine, e.g. F2O
Fluorine -1 BUT 0 in F2

In compound, most EN element always has a negative oxidation state

(Check Mr B ones for last rule abt group 16 15 etc)

Question 4

Practice Questions from powerpoint

Answer 4

(Should’ve done anyway)

Question 5

Hydrogen burning in air is a common reaction, what is actual happening?

H2(g) + ½ O2(g) → H2O(g)

Answer 5

Oxidation states (H) 0 → +1 
Oxidation states 0 → -2 

The H has lost electrons, i.e become oxidised and value has increased
O has gained electrons, i.e become reduced and value has decreased.

Question 6

New Definition of REDOX (in terms of oxidation number)

Answer 6

If an atom is oxidized, its oxidation number increases
Oxidation = Loss of electrons (OIL)

If an atom is reduced, its oxidation number decreases
Reduction = Gain of electrons (RIG)

Question 7

Calculate the changes that take place in the underlined element in the following reactions, classify as oxidation, reduction or neither (O,R or N)

1. NO3- → NO (N underlined)
2. HNO3 → N2O
3. C2O42- → CO2 (C)
4. SO32- → SO42- (S)
5. H2O2 → H2O (H)
6. H2O2 → O2 (O)

Answer 7

1. NO3- → NO : R +5 to +2
2. HNO3 → N2O : R +5 to +1
3. C2O42- → CO2 : O +3 to +4
4. SO32- → SO42- : O +4 to +6
5. H2O2 → H2O : R -1 to -2
6. H2O2 → O2 : O -1 to 0

Question 8

Do half equation for

2Mg + O2 🡪 2MgO (overall reaction)

Answer 8

By definition, reduction and oxidation take place simultaneously and we can show an overall equation or two half equations for redox reactions.

1) Mg: Mg – 2e- → Mg2+ (but we don’t show – electrons so I need to draw this with e on RHS)
Mg → Mg2+ + 2e-

2) O: 1/2O2 + 2e- → O2-
3) 2Mg + O2 + 2e- → 2Mg2+ + 2O2- + 2e-
4) Cancel out electrons
5) 2Mg + O2 → 2Mg2+ + 2O2- (combined half equations – ionic equation)

Question 9

What do Ionic Equations only show? How do you do them?

Answer 9

Only show species in a reaction that are chemically altered (have a change in oxidation state)

Sn(s) + PbCl2(aq) → SnCl2(aq) + Pb(s) (Full equation)

Identify which species in this equation are chemically altered and which are spectator ions (not chemically altered)

Write reduction and oxidation equations for these

Combine the equations

Question 10

Do ionic equation for

Sn(s) + PbCl2(aq) → SnCl2(aq) + Pb(s)

Answer 10

Sn → Sn2+ + 2e- (Oxidation)

Pb2+ + 2e- → Pb (Reduction)

2Cl- → 2Cl- (no change - spectator ion)

Sn + Pb2+ → Sn2+ + Pb (ionic equation)

Question 11

In a redox reaction, what is an agent?

What are the agents (and what types) in this reaction

Sn + Pb2+ → Sn2+ + Pb

Answer 11

An MI5 agent works for MI5. An agent causes something to happen.

An oxidising agent makes oxidisation happen. It itself is reduced.

Sn loses electrons. It is oxidised. Therefore, it is the reducing agent.

Pb gains electrons. It is reduced. Therefore, it is the oxidising agent.

Question 12

For each of the following write two half equations and then combine them to write ionic equations.

Zn + 2AgCl 🡪 ZnCl2 + 2Ag
2K + H2 🡪 2KH
Mg + 2HCl 🡪 MgCl2 + H2
PbO2 + 4HCl 🡪 PbCl2 + Cl2 + 2H2O

Answer 12

1) Zn + 2AgCl →ZnCl2 + 2Ag

Zn → Zn2+ + 2e-
2Ag+ + 2e- → 2Ag

Cl- is a spectator ion

Zn + 2Ag+ → Zn2+ + 2Ag

2) 2K + H2 → 2KH

2K → 2K+ + 2e-
H2 + 2e- → 2H-

2K + H2 → 2H- + 2K+

3)Mg + 2HCl → MgCl2 + H2

Mg → Mg2+ + 2e-
2H+ + 2e- → H2

Cl is a spectator ion

Mg + 2H+ → Mg2+ + H2

4)PbO2 + 4HCl → PbCl2 + Cl2 + 2H2O

Pb4+ + 2e- → Pb2+
2Cl- → Cl2 + 2e-

2O2-, 2Cl- and 4H+ are spectator ions

Pb4+ + 2Cl- 🡪 Pb2+ + Cl2

Question 13

What is disproportionation?

Answer 13

A reaction where a substance undergoes both oxidation and reduction simultaneously is called a disproportionation reaction.

Question 14

Balancing redox half equations steps

Practice with MnO4- being reduced to Mn2+ in acidic solution

Answer 14

1. Identify the atom being oxidised or reduced, and make sure there are the same number of that atom on both sides (by balancing).
2. Work out oxidation state of the element before and after the change
3. Add electrons to one side of the equation so that the oxidation states balance.

(Often reactions take place in aqueous conditions, so a number of spectator species are also present, and although neither is oxidised nor reduced, they still exist and need to be balanced).

4. Balance O atoms by adding water ; Balance H atoms by adding H+ ions.

i. MnO4- → Mn2+
ii. +7 → +2
iii. MnO4- + 5e- → Mn2+
iv. MnO4- + 5e- → Mn2+ + 4H2O

MnO4- + 5e- + 8H+ → Mn2+ + 4H2O

Question 15

Full complex eq for

Cr2O72- being reduced to Cr3+ in acidic solution

Answer 15

i. Cr2O72- → 2Cr3+
ii. +6 → +3 (each chromium)
iii. Cr2O72- + 6e- → 2Cr3+
iv. Cr2O72- + 6e- → 2Cr3+ + 7H2O

Cr2O72- + 6e- + 14H+ → 2Cr3+ + 7H2O

Question 16

How to combine complex half equations?

Practice with: Oxidising agent H2SO4 →H2S and reducing agent 2I- →I2

Answer 16

1. Write out the two half equations
2. Multiply the equations so that the number of electrons in each is the same
3. Add the two equations and cancel out the electrons on either side
4. If necessary, cancel any other species which appear on both sides