METALS

Chemical Properties I - Reaction with Air

By the end of the lesson, the learner should be able to:
Investigate metal reactions with air and oxygen
- Write balanced equations for metal oxidation
- Compare reactivity patterns
- Explain tarnishing and oxide formation

Experiment 5.1: Heat metals in air - sodium, aluminium, zinc, iron, copper
- Observe color changes and products
- Record observations in Table 5.3
- Write oxidation equations

Deflagrating spoons, metal samples (Na, Al, Zn, Fe, Cu), Bunsen burners, safety equipment

KLB Secondary Chemistry Form 4, Pages 152-154

METALS

Chemical Properties II - Reaction with Water

By the end of the lesson, the learner should be able to:
Test metal reactions with cold water and steam
- Arrange metals by reactivity
- Explain aluminium's apparent unreactivity
- Write chemical equations for reactions

Experiment 5.2: Test metals with cold water and steam
- Use Table 5.4 for observations
- Test solutions with indicators
- Arrange metals in reactivity order

Metal samples, cold water, steam generator, test tubes, universal indicator, safety equipment

KLB Secondary Chemistry Form 4, Pages 154-156

METALS

Chemical Properties III - Reaction with Chlorine
Chemical Properties IV - Reaction with Acids

By the end of the lesson, the learner should be able to:
Investigate metal reactions with chlorine gas
- Write equations for chloride formation
- Compare reaction vigor
- Observe product characteristics

Experiment 5.3: React hot metals with chlorine gas (FUME CUPBOARD)
- Observe color changes and fume formation
- Record all observations
- Write balanced equations

Chlorine gas, gas jars, metal samples, tongs, deflagrating spoons, fume cupboard, safety equipment
Various acids (dilute and concentrated), metal strips, test tubes, gas collection apparatus, safety equipment

KLB Secondary Chemistry Form 4, Pages 156-157

METALS

Uses of Metals I - Sodium and Aluminium
Uses of Metals II - Zinc, Copper and Iron

By the end of the lesson, the learner should be able to:
State uses of sodium and its compounds
- Explain aluminium applications
- Relate properties to uses
- Describe alloy formation and uses
Explain galvanization process
- Describe copper electrical applications
- Compare iron, steel, and cast iron uses
- Analyze alloy compositions and properties

Discussion on sodium uses in industry
- Aluminium applications in transport and construction
- Study duralumin and other alloys
- Property-use relationships
Study galvanization and rust prevention
- Copper in electrical applications
- Different types of steel and their compositions
- Alloy property comparisons

Charts showing metal applications, alloy samples, aircraft parts, cooking vessels
Galvanized sheets, copper wires, steel samples, alloy composition charts, brass and bronze samples

KLB Secondary Chemistry Form 4, Pages 158-159
KLB Secondary Chemistry Form 4, Pages 159-161

METALS

Steel Types and Alloys
Environmental Effects of Metal Extraction

By the end of the lesson, the learner should be able to:
Compare cast iron, wrought iron, and steel
- Analyze different steel compositions
- Explain alloy property enhancement
- Describe specialized steel applications

Study cast iron, wrought iron, mild steel, and stainless steel
- Analyze carbon content effects
- Specialized steels for tools and instruments
- Discussion on alloy design

Steel samples with different compositions, carbon content charts, specialized tools, stainless steel items
Environmental impact case studies, pollution images, NEMA regulation documents, waste management examples

KLB Secondary Chemistry Form 4, Pages 159-161

ORGANIC CHEMISTRY II

Introduction to Alkanols and Nomenclature
Isomerism in Alkanols
Laboratory Preparation of Ethanol

By the end of the lesson, the learner should be able to:
Define alkanols and identify functional group
- Apply nomenclature rules for alkanols
- Draw structural formulae of simple alkanols
- Compare alkanols with corresponding alkanes

Q/A: Review alkanes, alkenes from Form 3
- Study functional group -OH concept
- Practice naming alkanols using IUPAC rules
- Complete Table 6.2 - alkanol structures

Molecular models, Table 6.1 and 6.2, alkanol structure charts, student books
Isomer structure charts, molecular models, practice worksheets, student books
Sugar, yeast, warm water, conical flask, delivery tube, lime water, thermometer

KLB Secondary Chemistry Form 4, Pages 167-170

ORGANIC CHEMISTRY II

Industrial Preparation and Physical Properties
Chemical Properties of Alkanols I
Chemical Properties of Alkanols II

By the end of the lesson, the learner should be able to:
Explain hydration of ethene method
- Compare laboratory and industrial methods
- Analyze physical properties of alkanols
- Relate properties to molecular structure

Study ethene hydration using phosphoric acid catalyst
- Compare fermentation vs industrial methods
- Analyze Table 6.3 - physical properties
- Discussion on hydrogen bonding effects

Table 6.3, industrial process diagrams, ethene structure models, property comparison charts
Ethanol, sodium metal, universal indicator, concentrated H₂SO₄, ethanoic acid, test tubes
Acidified potassium chromate/manganate, ethanoic acid, concentrated H₂SO₄, heating apparatus

KLB Secondary Chemistry Form 4, Pages 171-173

ORGANIC CHEMISTRY II

Uses of Alkanols and Health Effects
Introduction to Alkanoic Acids
Laboratory Preparation of Ethanoic Acid
Physical and Chemical Properties of Alkanoic Acids

By the end of the lesson, the learner should be able to:
State various uses of alkanols
- Explain health effects of alcohol consumption
- Discuss methylated spirits
- Analyze alcohol in society
Prepare ethanoic acid by oxidation
- Write equations for preparation
- Set up oxidation apparatus
- Identify product by testing

Discussion on alkanol applications as solvents, fuels, antiseptics
- Health effects of alcohol consumption
- Methylated spirits composition
- Social implications
Experiment 6.3: Oxidize ethanol using acidified KMnO₄
- Set up heating and distillation apparatus
- Collect distillate at 118°C
- Test product properties

Charts showing alkanol uses, health impact data, methylated spirit samples, discussion materials
Alkanoic acid structure charts, Table 6.5 and 6.6, molecular models, student books
Ethanol, KMnO₄, concentrated H₂SO₄, distillation apparatus, thermometer, round-bottom flask
2M ethanoic acid, universal indicator, Mg strip, Na₂CO₃, NaOH, phenolphthalein, test tubes

KLB Secondary Chemistry Form 4, Pages 176-177
KLB Secondary Chemistry Form 4, Pages 179-180

ORGANIC CHEMISTRY II

Esterification and Uses of Alkanoic Acids

By the end of the lesson, the learner should be able to:
Explain ester formation process
- Write esterification equations
- State uses of alkanoic acids
- Prepare simple esters

Complete esterification experiments
- Study concentrated H₂SO₄ as catalyst
- Write general esterification equation
- Discuss applications in food, drugs, synthetic fibres

Ethanoic acid, ethanol, concentrated H₂SO₄, test tubes, heating apparatus, cold water

KLB Secondary Chemistry Form 4, Pages 182-183

ORGANIC CHEMISTRY II

Introduction to Detergents and Soap Preparation
Mode of Action of Soap and Hard Water Effects

By the end of the lesson, the learner should be able to:
Define detergents and classify types
- Explain saponification process
- Prepare soap in laboratory
- Compare soapy and soapless detergents

Study soap vs soapless detergent differences
- Experiment 6.5: Saponify castor oil with NaOH
- Add salt for salting out
- Test soap formation

Castor oil, 4M NaOH, NaCl, evaporating dish, water bath, stirring rod, filter paper
Soap samples, distilled water, hard water (CaCl₂/MgSO₄ solutions), test tubes, demonstration materials

KLB Secondary Chemistry Form 4, Pages 183-186

ORGANIC CHEMISTRY II

Soapless Detergents and Environmental Effects

By the end of the lesson, the learner should be able to:
Explain soapless detergent preparation
- Compare advantages/disadvantages
- Discuss environmental impact
- Analyze pollution effects

Study alkylbenzene sulphonate preparation
- Compare Table 6.9 - soap vs soapless
- Discussion on eutrophication and biodegradability
- Environmental awareness

Flow charts of detergent manufacture, Table 6.9, environmental impact data, sample detergents

KLB Secondary Chemistry Form 4, Pages 188-191

ORGANIC CHEMISTRY II

Introduction to Polymers and Addition Polymerization
Addition Polymers - Types and Properties
Condensation Polymerization and Natural Polymers

By the end of the lesson, the learner should be able to:
Define polymers, monomers, and polymerization
- Explain addition polymerization
- Draw polymer structures
- Calculate polymer properties
Explain condensation polymerization
- Compare with addition polymerization
- Study natural polymers
- Analyze nylon formation

Study polymer concept and terminology
- Practice drawing addition polymers from monomers
- Examples: polyethene, polypropene, PVC
- Calculate molecular masses
Study nylon 6,6 formation from diamine and dioic acid
- Natural polymers: starch, protein, rubber
- Vulcanization process
- Compare synthetic vs natural

Polymer samples, monomer structure charts, molecular models, calculators, polymer formation diagrams
Various polymer samples, structure identification exercises, calculation worksheets, Table 6.10
Nylon samples, rubber samples, condensation reaction diagrams, natural polymer examples

KLB Secondary Chemistry Form 4, Pages 191-195
KLB Secondary Chemistry Form 4, Pages 197-200

ORGANIC CHEMISTRY II

Polymer Properties and Applications

By the end of the lesson, the learner should be able to:
Compare advantages and disadvantages of synthetic polymers
- State uses of different polymers
- Discuss environmental concerns
- Analyze polymer selection

Study Table 6.10 - polymer uses
- Advantages: strength, lightness, moldability
- Disadvantages: non-biodegradability, toxic gases
- Application analysis

Table 6.10, polymer application samples, environmental impact studies, product examples

KLB Secondary Chemistry Form 4, Pages 200-201

ORGANIC CHEMISTRY II
RADIOACTIVITY
RADIOACTIVITY

Comprehensive Problem Solving and Integration
Introduction, Nuclear Stability and Types of Radioactivity
Types of Radiation and Their Properties

By the end of the lesson, the learner should be able to:
Solve complex problems involving alkanols and acids
- Apply knowledge to practical situations
- Integrate polymer concepts
- Practice examination questions

Worked examples on organic synthesis
- Problem-solving on isomers, reactions, polymers
- Integration of all unit concepts
- Practice examination-style questions

Comprehensive problem sets, past examination papers, calculators, organic chemistry summary charts
Periodic table, atomic structure charts, Table 7.1, nuclear stability diagrams
Radiation type charts, penetration diagrams, electric field illustrations, safety equipment charts

KLB Secondary Chemistry Form 4, Pages 167-201

RADIOACTIVITY

Radioactive Decay and Half-Life Concept
Half-Life Calculations and Problem Solving
Nuclear Reactions and Equations

By the end of the lesson, the learner should be able to:
Define half-life of radioactive isotopes
- Plot radioactive decay curves
- Calculate remaining amounts after decay
- Apply conservation of mass and energy

Study Table 7.2 - iodine-131 decay data
- Plot decay graph using given data
- Calculate fractions remaining after multiple half-lives
- Practice basic half-life problems

Graph paper, Table 7.2 data, calculators, decay curve examples, half-life data table
Calculators, comprehensive problem sets, worked examples, isotope half-life comparison tables
Nuclear equation examples, periodic table, conservation law charts, practice worksheets

KLB Secondary Chemistry Form 4, Pages 204-206

RADIOACTIVITY

Radioactive Decay Series and Sequential Reactions
Nuclear Fission and Chain Reactions
Nuclear Fusion and Energy Comparisons
Medical and Diagnostic Applications
Industrial, Agricultural and Dating Applications

By the end of the lesson, the learner should be able to:
Explain sequential radioactive decay
- Trace decay series pathways
- Identify stable end products
- Complete partial decay series
Describe medical applications of radioisotopes
- Explain cancer treatment using radiation
- Discuss diagnostic procedures and imaging
- Analyze therapeutic vs diagnostic uses

Study thorium-232 decay series example
- Trace sequential alpha and beta emissions
- Identify stable lead-208 endpoint
- Practice completing decay series with missing nuclides
Study cobalt-60 and caesium-137 in cancer treatment
- Iodine-131 in thyroid monitoring
- Bone growth and fracture healing monitoring
- Sterilization of surgical instruments

Decay series charts, thorium series diagram, nuclide stability charts, practice decay series
Fission reaction diagrams, chain reaction illustrations, nuclear reactor diagrams, energy calculation examples
Fusion reaction diagrams, comparison tables, stellar fusion charts, energy comparison data
Medical radioisotope charts, treatment procedure diagrams, diagnostic equipment images, case studies
Carbon dating examples, agricultural application charts, industrial use diagrams, food preservation data

KLB Secondary Chemistry Form 4, Pages 206-207
KLB Secondary Chemistry Form 4, Pages 208-209

RADIOACTIVITY

Radiation Hazards and Environmental Impact

By the end of the lesson, the learner should be able to:
Identify radiation health hazards
- Explain genetic mutation effects
- Discuss major nuclear accidents
- Analyze long-term environmental contamination

Study Chernobyl and Three Mile Island accidents
- Genetic mutation and cancer effects
- Long-term radiation exposure consequences
- Nuclear waste disposal challenges

Accident case studies, environmental impact data, radiation exposure charts, contamination maps

KLB Secondary Chemistry Form 4, Pages 209-210

RADIOACTIVITY

Safety Measures and International Control

By the end of the lesson, the learner should be able to:
Explain radiation protection principles
- Describe proper storage and disposal methods
- Discuss IAEA role and standards
- Analyze monitoring and control systems

Study IAEA guidelines and international cooperation
- Radiation protection protocols and ALARA principle
- Safe storage, transport and disposal methods
- Environmental monitoring systems

IAEA guidelines, safety protocol charts, monitoring equipment diagrams, international cooperation data

KLB Secondary Chemistry Form 4, Pages 209-210

RADIOACTIVITY

Half-Life Problem Solving and Graph Analysis
Nuclear Equations and Conservation Laws

By the end of the lesson, the learner should be able to:
Solve comprehensive half-life problems
- Analyze experimental decay data
- Plot and interpret decay curves
- Determine half-lives graphically

Plot decay curves from experimental data
- Determine half-lives from graphs
- Analyze count rate vs time data
- Complex half-life calculation problems

Graph paper, experimental data sets, calculators, statistical analysis examples, comprehensive problem sets
Nuclear equation worksheets, periodic table, decay series diagrams, conservation law examples

KLB Secondary Chemistry Form 4, Pages 199-210

REVISION

Chemistry Paper 1 Revision
Chemistry Paper 1 Revision
Chemistry Paper 1 Revision
Chemistry Paper 2 Revision

Section A: Short Answer Questions
Integrated Short Answer Practice
Structured Questions: Analysis & Explanations
Structured Questions: Calculations & Reactions
Integrated Exam Practice

By the end of the lesson, the learner should be able to:
– attempt compulsory short-answer questions – recall and explain key chemistry concepts clearly – apply correct working in simple chemical calculations
- attempt structured questions systematically - interpret and explain concepts from the Periodic Table, gases, and bonding - apply scientific reasoning to short-answer questions

Students attempt selected short-answer questions individually Peer-marking and teacher correction through discussion
Learners attempt selected structured questions Teacher guides marking and discusses common errors Class shares strategies for improving explanations

Past Chemistry Paper 1 exams, Marking Schemes
Past Papers, Chalkboard, Chemistry Charts
Full Past Paper 1, Answer Booklets, Marking Schemes
Past Chemistry Paper 2 exams, Marking Schemes, Whiteboard
Calculators, Revision Exercises, Charts
Past Papers, Marking Schemes, Exam Answer Sheets

KLB Chemistry Bk 1–4, KCSE Past Papers
KLB Chem Bk 2–4, KCSE Past Papers

Chemistry Paper 3 Revision

Quantitative Practical Skills
Qualitative Practical Skills

By the end of the lesson, the learner should be able to:
- apply correct laboratory techniques in measuring and mixing solutions - record results systematically and accurately - analyze practical data to make valid conclusions

Teacher reviews quantitative procedures Learners practice measurement and recording Class discussion on data presentation and interpretation

Laboratory apparatus, Past Papers
Laboratory apparatus, Reagents, Past Papers

KLB Chem Bk 1–4, KCSE Past Papers

Chemistry Paper 1 Revision

Section A: Short Answer Questions
Integrated Short Answer Practice

By the end of the lesson, the learner should be able to:
– attempt compulsory short-answer questions – recall and explain key chemistry concepts clearly – apply correct working in simple chemical calculations

Students attempt selected short-answer questions individually Peer-marking and teacher correction through discussion

Past Chemistry Paper 1 exams, Marking Schemes
Past Papers, Chalkboard, Chemistry Charts
Full Past Paper 1, Answer Booklets, Marking Schemes

KLB Chemistry Bk 1–4, KCSE Past Papers

Chemistry Paper 2 Revision

Structured Questions: Analysis & Explanations
Structured Questions: Calculations & Reactions
Integrated Exam Practice

By the end of the lesson, the learner should be able to:
- attempt structured questions systematically - interpret and explain concepts from the Periodic Table, gases, and bonding - apply scientific reasoning to short-answer questions

Learners attempt selected structured questions Teacher guides marking and discusses common errors Class shares strategies for improving explanations

Past Chemistry Paper 2 exams, Marking Schemes, Whiteboard
Calculators, Revision Exercises, Charts
Past Papers, Marking Schemes, Exam Answer Sheets

KLB Chem Bk 2–4, KCSE Past Papers

Chemistry Paper 3 Revision
Chemistry Paper 1 Revision
Chemistry Paper 1 Revision
Chemistry Paper 2 Revision

Quantitative Practical Skills
Qualitative Practical Skills
Section A: Short Answer Questions
Section A: Short Answer Questions
Integrated Short Answer Practice
Structured Questions: Analysis & Explanations

By the end of the lesson, the learner should be able to:
- apply correct laboratory techniques in measuring and mixing solutions - record results systematically and accurately - analyze practical data to make valid conclusions
– practice a variety of short-answer questions across different Chemistry topics – apply knowledge of experimental setups, chemical properties, and reactions – improve accuracy and clarity in responses

Teacher reviews quantitative procedures Learners practice measurement and recording Class discussion on data presentation and interpretation
Teacher demonstrates answering approaches Students work in groups to discuss selected questions Class review using marking scheme

Laboratory apparatus, Past Papers
Laboratory apparatus, Reagents, Past Papers
Past Chemistry Paper 1 exams, Marking Schemes
Past Papers, Chalkboard, Chemistry Charts
Full Past Paper 1, Answer Booklets, Marking Schemes
Past Chemistry Paper 2 exams, Marking Schemes, Whiteboard

KLB Chem Bk 1–4, KCSE Past Papers
KLB Chemistry Bk 1–4

Chemistry Paper 2 Revision
Chemistry Paper 3 Revision

Structured Questions: Calculations & Reactions
Integrated Exam Practice
Quantitative Practical Skills

By the end of the lesson, the learner should be able to:
- solve questions involving mole ratios, empirical formulae, titration, and gas laws - write and balance chemical equations - present working clearly for full marks

Learners attempt numerical and equation-based questions in groups Teacher reviews answers using marking scheme Class discussion of calculation shortcuts and common pitfalls

Calculators, Revision Exercises, Charts
Past Papers, Marking Schemes, Exam Answer Sheets
Laboratory apparatus, Past Papers

KCSE Past Papers, Revision Kits

Chemistry Paper 3 Revision
Chemistry Paper 1 Revision

Qualitative Practical Skills
Section A: Short Answer Questions

By the end of the lesson, the learner should be able to:
- make accurate observations during experiments - record results clearly and systematically - draw correct inferences from experimental outcomes

Teacher demonstrates step-by-step approach to qualitative tasks Learners carry out tests in groups Group review of observations vs. inferences

Laboratory apparatus, Reagents, Past Papers
Past Chemistry Paper 1 exams, Marking Schemes

KLB Chem Bk 1–4, KCSE Past Papers

Chemistry Paper 1 Revision
Chemistry Paper 2 Revision

Section A: Short Answer Questions
Integrated Short Answer Practice
Structured Questions: Analysis & Explanations

By the end of the lesson, the learner should be able to:
– practice a variety of short-answer questions across different Chemistry topics – apply knowledge of experimental setups, chemical properties, and reactions – improve accuracy and clarity in responses

Teacher demonstrates answering approaches Students work in groups to discuss selected questions Class review using marking scheme

Past Papers, Chalkboard, Chemistry Charts
Full Past Paper 1, Answer Booklets, Marking Schemes
Past Chemistry Paper 2 exams, Marking Schemes, Whiteboard

KLB Chemistry Bk 1–4

Chemistry Paper 2 Revision
Chemistry Paper 3 Revision
Chemistry Paper 3 Revision
Chemistry Paper 1 Revision
Chemistry Paper 1 Revision

Structured Questions: Calculations & Reactions
Integrated Exam Practice
Quantitative Practical Skills
Qualitative Practical Skills
Section A: Short Answer Questions
Section A: Short Answer Questions

By the end of the lesson, the learner should be able to:
- solve questions involving mole ratios, empirical formulae, titration, and gas laws - write and balance chemical equations - present working clearly for full marks
- make accurate observations during experiments - record results clearly and systematically - draw correct inferences from experimental outcomes

Learners attempt numerical and equation-based questions in groups Teacher reviews answers using marking scheme Class discussion of calculation shortcuts and common pitfalls
Teacher demonstrates step-by-step approach to qualitative tasks Learners carry out tests in groups Group review of observations vs. inferences

Calculators, Revision Exercises, Charts
Past Papers, Marking Schemes, Exam Answer Sheets
Laboratory apparatus, Past Papers
Laboratory apparatus, Reagents, Past Papers
Past Chemistry Paper 1 exams, Marking Schemes
Past Papers, Chalkboard, Chemistry Charts

KCSE Past Papers, Revision Kits
KLB Chem Bk 1–4, KCSE Past Papers

Chemistry Paper 1 Revision
Chemistry Paper 2 Revision
Chemistry Paper 2 Revision

Integrated Short Answer Practice
Structured Questions: Analysis & Explanations
Structured Questions: Calculations & Reactions

By the end of the lesson, the learner should be able to:
– integrate knowledge from all Chemistry topics to solve mixed Paper 1 questions – practice time management under exam conditions – review answers using marking schemes and teacher feedback

Students attempt a timed set of Paper 1 questions (mock) Teacher leads whole-class marking and discussion of common errors

Full Past Paper 1, Answer Booklets, Marking Schemes
Past Chemistry Paper 2 exams, Marking Schemes, Whiteboard
Calculators, Revision Exercises, Charts

KCSE Past Papers, Teachers’ Guide

Chemistry Paper 2 Revision
Chemistry Paper 3 Revision
Chemistry Paper 3 Revision

Integrated Exam Practice
Quantitative Practical Skills
Qualitative Practical Skills

By the end of the lesson, the learner should be able to:
- integrate knowledge across topics (organic, industrial, acids/bases, gases) - apply time management in answering compulsory Paper 2 questions - self-assess answers against marking scheme

Learners sit for a timed mock (selected Paper 2 questions) Peer marking guided by marking scheme Teacher highlights answering techniques and improvement areas

Past Papers, Marking Schemes, Exam Answer Sheets
Laboratory apparatus, Past Papers
Laboratory apparatus, Reagents, Past Papers

KLB Chem Bk 1–4, KCSE Past Papers

Chemistry Paper 1 Revision

Section A: Short Answer Questions

By the end of the lesson, the learner should be able to:
– attempt compulsory short-answer questions – recall and explain key chemistry concepts clearly – apply correct working in simple chemical calculations

Students attempt selected short-answer questions individually Peer-marking and teacher correction through discussion

Past Chemistry Paper 1 exams, Marking Schemes
Past Papers, Chalkboard, Chemistry Charts

KLB Chemistry Bk 1–4, KCSE Past Papers

Chemistry Paper 1 Revision
Chemistry Paper 2 Revision
Chemistry Paper 2 Revision
Chemistry Paper 2 Revision
Chemistry Paper 3 Revision
Chemistry Paper 3 Revision

Integrated Short Answer Practice
Structured Questions: Analysis & Explanations
Structured Questions: Calculations & Reactions
Integrated Exam Practice
Quantitative Practical Skills
Qualitative Practical Skills

By the end of the lesson, the learner should be able to:
– integrate knowledge from all Chemistry topics to solve mixed Paper 1 questions – practice time management under exam conditions – review answers using marking schemes and teacher feedback
- integrate knowledge across topics (organic, industrial, acids/bases, gases) - apply time management in answering compulsory Paper 2 questions - self-assess answers against marking scheme

Students attempt a timed set of Paper 1 questions (mock) Teacher leads whole-class marking and discussion of common errors
Learners sit for a timed mock (selected Paper 2 questions) Peer marking guided by marking scheme Teacher highlights answering techniques and improvement areas

Full Past Paper 1, Answer Booklets, Marking Schemes
Past Chemistry Paper 2 exams, Marking Schemes, Whiteboard
Calculators, Revision Exercises, Charts
Past Papers, Marking Schemes, Exam Answer Sheets
Laboratory apparatus, Past Papers
Laboratory apparatus, Reagents, Past Papers

KCSE Past Papers, Teachers’ Guide
KLB Chem Bk 1–4, KCSE Past Papers

Chemistry Paper 1 Revision

Section A: Short Answer Questions
Integrated Short Answer Practice

By the end of the lesson, the learner should be able to:
– attempt compulsory short-answer questions – recall and explain key chemistry concepts clearly – apply correct working in simple chemical calculations

Students attempt selected short-answer questions individually Peer-marking and teacher correction through discussion

Past Chemistry Paper 1 exams, Marking Schemes
Past Papers, Chalkboard, Chemistry Charts
Full Past Paper 1, Answer Booklets, Marking Schemes

KLB Chemistry Bk 1–4, KCSE Past Papers

Chemistry Paper 2 Revision

Structured Questions: Analysis & Explanations
Structured Questions: Calculations & Reactions
Integrated Exam Practice

By the end of the lesson, the learner should be able to:
- attempt structured questions systematically - interpret and explain concepts from the Periodic Table, gases, and bonding - apply scientific reasoning to short-answer questions

Learners attempt selected structured questions Teacher guides marking and discusses common errors Class shares strategies for improving explanations

Past Chemistry Paper 2 exams, Marking Schemes, Whiteboard
Calculators, Revision Exercises, Charts
Past Papers, Marking Schemes, Exam Answer Sheets

KLB Chem Bk 2–4, KCSE Past Papers

Chemistry Paper 3 Revision

Quantitative Practical Skills
Qualitative Practical Skills

By the end of the lesson, the learner should be able to:
- apply correct laboratory techniques in measuring and mixing solutions - record results systematically and accurately - analyze practical data to make valid conclusions

Teacher reviews quantitative procedures Learners practice measurement and recording Class discussion on data presentation and interpretation

Laboratory apparatus, Past Papers
Laboratory apparatus, Reagents, Past Papers

KLB Chem Bk 1–4, KCSE Past Papers

Chemistry Paper 1 Revision
Chemistry Paper 2 Revision
Chemistry Paper 3 Revision
Chemistry Paper 3 Revision

Section A: Short Answer Questions
Integrated Short Answer Practice
Structured Questions: Analysis & Explanations
Structured Questions: Calculations & Reactions
Integrated Exam Practice
Quantitative Practical Skills
Qualitative Practical Skills

By the end of the lesson, the learner should be able to:
– attempt compulsory short-answer questions – recall and explain key chemistry concepts clearly – apply correct working in simple chemical calculations
- attempt structured questions systematically - interpret and explain concepts from the Periodic Table, gases, and bonding - apply scientific reasoning to short-answer questions

Students attempt selected short-answer questions individually Peer-marking and teacher correction through discussion
Learners attempt selected structured questions Teacher guides marking and discusses common errors Class shares strategies for improving explanations

Past Chemistry Paper 1 exams, Marking Schemes
Past Papers, Chalkboard, Chemistry Charts
Full Past Paper 1, Answer Booklets, Marking Schemes
Past Chemistry Paper 2 exams, Marking Schemes, Whiteboard
Calculators, Revision Exercises, Charts
Past Papers, Marking Schemes, Exam Answer Sheets
Laboratory apparatus, Past Papers
Laboratory apparatus, Reagents, Past Papers

KLB Chemistry Bk 1–4, KCSE Past Papers
KLB Chem Bk 2–4, KCSE Past Papers