year 12 shut down work part 3 oxidation, reduction & redox
Post on 10-Jan-2022
3 Views
Preview:
TRANSCRIPT
Year 12 Shut down work part 3 – Oxidation, Reduction & Redox reactions
Physical Chemistry
Oxidation, Reduction & Redox reactions
• Oxidation & reduction recap
• Calculating oxidation states
• Redox equations
Supporting Videos: Oxidation, reduction & redox: https://www.youtube.com/watch?v=j-k49rtb9pc
Redox: https://www.youtube.com/watch?v=imjB1D2Jgic
Additional work - Practise exam questionsYou have now completed all of the Physical chemistry section of As • Have a go at the section 1 practise questions pg
136 to assess your physical chemistry knowledge
• RAG the questions to see which areas you need to work on as part of your revision as its been awhile since you have covered some of the physical work
• Send me your answers to mark and I will give you some feedback l.Hayward@st-bedes.durham.sch.uk
Tasks• Read through the
Powerpoint and complete the questions
• If you are struggling watch the videoclips
• Mark your questions using the answers in the answers folder
• Then have a go at the chemsheetworksheets
• Mark your work • Complete the additional work task
LearnIT!KnowIT!Redox reactions
• Part 1 - Oxidation & reduction Recap
Redox part 1- Oxidation & reduction recap
Oxidation is the loss of electrons.
When a species loses electrons it is said to be oxidised.
For example:
Na Na+ + e Each sodium atom loses one electron
2I- I2 + 2e
Each iodide ion loses one electron, so two in total
Redox part 1- Oxidation & reduction recap
Reduction is the gain of electrons.
When a species gains electrons it is said to be reduced.
For example:
Cl2 + 2e 2Cl-
Each chlorine atom gains one electron, so two in total
Al3+ + 3e Al Each aluminium ion gains three electrons
Redox part 1- Oxidation & reduction recap
Gaining and losing electrons - redox reactionsBy describing what happens to the electrons you get a much more general picture.
When something is oxidised it loses electrons, and when something is reduced it gains electrons.
Since redox reactions always involve the movement of electrons they are also called electron transfer reactions.
You can see the transfer of electrons by separating a redox reaction into two half equations that show the gain and loss of electrons.
LearnIT!KnowIT!Redox reactions
• Part 2 – Calculating Oxidation states
Redox part 2- Calculating Oxidation states
The oxidation number of an atom is the charge that would exist on an individual atom if the bonding were completely ionic.
In simple ions, the oxidation number of the atom is the charge on the ion.
Na+, K+, H+ all have an oxidation number of +1.
Mg2+, Ca2+, Pb2+ all have an oxidation number of +2.
Cl-, Br-, I- all have an oxidation number of -1.
O2-, S2- all have an oxidation number of -2.
Redox part 2- Calculating Oxidation states
In molecules or compounds, the sum of the oxidation numbers on the atoms is zero.
SO3
oxidation number of S = +6oxidation number of each O = -2.+6 + 3(-2) = 0
H2O2
oxidation number of H = +1oxidation number of O = -1.2(+1) + 2(-1) = 0
Redox part 2- Calculating Oxidation states
The Rules:
All group I atoms always adopt the +1 oxidation state in their compounds.
All group II atoms adopt the +2 oxidation state in their compounds.
Aluminium always adopts the +3 oxidation state in its compounds.
Fluorine always adopts the -1 oxidation state in its compounds.
Hydrogen adopts the +1 oxidation state in its compounds unless it is bonded to a metal, Silicon or boron in which case it adopts the -1 oxidation state.
Oxygen adopts the -2 oxidation state in its compounds unless it is bonded to a group I or group II metal or hydrogen (with which it sometimes adopts the -1 oxidation state), or with fluorine (with which it adopts the +2 oxidation state).
Redox part 2- Calculating Oxidation states
QuestionIT!
RedoxPart 1 & 2
• Oxidation & reduction recap
• Calculating oxidation states
Redox part 1 &2 – Questions
1. Define the term ‘oxidation’.
2. Define the term ‘reduction’.
3. What is meant by the term ‘oxidation number’?
4. What is the oxidation number of a molecule or compound?
5. What is a redox reaction?
6. What is the oxidation number of hydrogen?
7. What is the oxidation number of oxygen?
Check your answers
Now have a go at the CHEMSHEETS worksheet 1034
LearnIT!KnowIT!Redox reactions
• Part 3 – Redox half equations
Redox part 3- Redox half equtions
Redox half equationsThere are two ways to balance half-equations:Method 1:
Identify the atom being oxidised or reduced, and make sure there are the same number of that atom on both sides
Insert the number of electrons being gained or lost:(on the left if reduction, on the right if oxidation)
No of electrons gained/lost = change in oxidation number x number of atoms changing oxidation number
Balance O atoms by adding water
Balance H atoms by adding H+
Redox part 3- Redox half equtions
Example 1 Write a balanced half-equation for the process SO3
2- SO4
2-
There is one sulfur on each side, so S is already balancedthe oxidation number of the S is increasing from +4 to +6, so two electrons are being lost.
SO32- SO4
2- + 2eThere are three O atoms on the left and four on the right, so one water is needed on the left:
SO32- + H2O SO4
2- + 2eThere are two H atoms on the left and none on the right, so two H ions are needed on the right:
SO32- + H2O SO4
2- + 2H+ + 2e
The oxidation number of sulfur is increasing and electrons are being lost. It is an oxidation process.
Redox part 3- Redox half equtions
Method 2:This method does not use oxidation numbers and is easier in more
complex processes
Identify the atom being oxidised or reduced, and make sure there are the same number of that atom on both sides
Balance O atoms by adding water
Balance H atoms by adding H+
Add the necessary number of electrons to ensure the charge on both sides is the same
Redox part 3- Redox half equtions
Example 2Write a balanced half-equation for the process H2SO4 H2S
There is one sulfur on each side, so the S is already balanced
There are four O atoms on the left and none on the right, so four waters are needed on the right
H2SO4 H2S + 4H2OThere are two H atoms on the left and ten on the right, so eight H ions are needed on the left.
H2SO4 + 8H+ H2S + 4H2O
The total charge on the left is +8 and on the right is 0. So eight electrons must be added to the left to balance the charge.
H2SO4 + 8H+ + 8e H2S + 4H2O
The oxidation number of the S is decreasing and electrons are being gained. It is a reduction process.
QuestionIT!
Redox Reactions Part 3
• Redox Half equations
Complete CHEMSHEETS worksheet 1035
LearnIT!KnowIT!Redox reactions
• Part 4 – Combining Redox half equations
Redox part 4- Combining Redox half equations
Combining half equations Half-equations consider gain and loss of electrons but electrons cannot be created or destroyed; they can only be transferred.
Any reaction consisting of the oxidation of one species and the reduction of another is known as a redox reaction.
For example, H2SO4 + 8H+ + 8e H2S + 4H2O - reduction
2I- I2 + 2e – oxidation
(the oxidation half-equation must be multiplied by 4 to equate the electrons)
overall: H2SO4 + 8H+ + 8I- H2S + 4H2O + 4I2
Redox part 4- Combining Redox half equations
The species which is reduced is accepting electrons from the other species and is causing it to be oxidised.
It is an oxidising agent.
The species which is oxidised is donating electrons to another species and is causing it to be reduced.
It is a reducing agent.
For example, I2 + 2S2O3
2- 2I- + S4O6
2-
Half-equations: I2 + 2e 2I- (reduction)2S2O3
2- S4O6
2- + 2e (oxidation)
I2 is the oxidising agent; S2O32- is the reducing agent.
Redox part 4- Combining Redox half equations
There are many substances which readily undergo both oxidation and reduction, and which can behave as both oxidising agents and
reducing agents.
Species such as these are capable of undergoing oxidation and reduction simultaneously.
The simultaneous oxidation and reduction of the same species is known as disproportionation.
For example,H2O2 + 2H+ + 2e 2H2O (reduction)
H2O2 O2 + 2H+ + 2e (oxidation)2H2O2 2H2O + O2 (disproportionation)
oxidation numbers: -1 -2 0
QuestionIT!
RedoxReactions part 4
• Combining Redox half
equations
Redox part 4 – Questions
8. Define the term ‘oxidising agent’.
9. Define the term ‘reducing agent’.
10. What is a disproportionation reaction?
Check your answers
Now have a go at the CHEMSHEETS worksheet 1036
top related