Mixtures, Elements and Compounds

Mixtures - Meaning of homogeneous and heterogeneous mixtures

By the end of the lesson, the learner should be able to:
- Define the terms homogeneous mixture and heterogeneous mixture
- Classify given mixtures as homogeneous or heterogeneous using examples
- Show interest in identifying mixtures in everyday life

In groups, learners are guided to:
- Study a table of mixtures in column A and column B and discuss which column represents homogeneous and which represents heterogeneous mixtures
- Use digital or print media to search for the meanings of homogeneous and heterogeneous mixtures
- Write correct definitions in exercise books and share for peer review

What is the difference between a homogeneous mixture and a heterogeneous mixture?

- Spotlight Integrated Science pg. 97
- Digital resources
- Reference books

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Mixtures - Categorising solid-liquid mixtures as homogeneous or heterogeneous
Mixtures - Categorising solid-solid and liquid-liquid mixtures

By the end of the lesson, the learner should be able to:
- Group solid-liquid mixtures — common salt, sugar, sand, flour and charcoal in water — as homogeneous or heterogeneous
- Record observations of each mixture in a table
- Show care when handling glass beakers during the practical activity

In groups, learners are guided to:
- Half-fill beakers with distilled water and add each solid — common salt, sugar, sand, flour and charcoal — one at a time and observe
- Record whether each mixture is homogeneous or heterogeneous in a table
- Discuss observations with classmates and share notes for peer review

How does adding different solids to water help you tell the difference between a homogeneous and a heterogeneous mixture?

- Spotlight Integrated Science pg. 98
- Common salt, sugar, sand, flour, charcoal powder, glass beakers, glass rods, spatulas, protective clothing, distilled water
- Digital resources
- Spotlight Integrated Science pg. 101
- Cement, brass object, maize, beans, sand, sulphur, iron filings, test tubes, ethanol, kerosene, distilled water, ink

- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Mixtures - Categorising gas-gas mixtures and solvent, solute and solution

By the end of the lesson, the learner should be able to:
- Classify gas-gas mixtures as homogeneous or heterogeneous
- Define the terms solvent, solute and solution and give an example of each
- Show accuracy in naming the components of a given solution

In groups, learners are guided to:
- Use digital or print media to search for information on gas-gas mixtures that are homogeneous or heterogeneous and complete a table
- Study pictures of sugar-water and salt-water solutions and identify the solvent, solute and solution in each
- Write correct definitions of solvent, solute and solution in exercise books and share for peer assessment

How can you identify the solvent and solute in a solution you encounter at home or in the laboratory?

- Spotlight Integrated Science pg. 99
- Digital resources
- Test tubes, distilled water, cooking oil, ethanol
- Reference books

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Mixtures - Simple distillation
Mixtures - Crystallisation

By the end of the lesson, the learner should be able to:
- Describe simple distillation as a method of separating a soluble solid from a liquid
- Set up simple distillation apparatus — round-bottomed flask, Liebig condenser, tripod stand, wire gauze, thermometer, beaker, conical flask and source of heat
- Show care when handling heat and glass apparatus during the practical
- Describe crystallisation as a method of obtaining a soluble solid from a saturated solution by cooling
- Obtain copper (II) sulphate crystals from a copper (II) sulphate solution by crystallisation
- Show patience and care when allowing crystals to form undisturbed for a full day

In groups, learners are guided to:
- Set up apparatus for simple distillation using the labelled diagram as a guide
- Dissolve common salt in distilled water and heat the mixture, observing condensation in the conical flask
- Record the temperature at which colourless liquid collects and identify the components obtained
- Heat copper (II) sulphate solution in an evaporating dish until saturation, dip a glass rod and allow crystals to form
- Remove the evaporating dish from the water bath, cover with filter paper and leave undisturbed for one day
- Observe the crystals formed and record their colour, then discuss observations with classmates

How does simple distillation separate salt from its solution, and what does the process reveal about the boiling point of water?
What conditions must be created to make crystals form successfully from a copper (II) sulphate solution?

- Spotlight Integrated Science pg. 103
- Common salt, broken porcelain, distilled water, Liebig condenser, round-bottomed flask, tripod stand, wire gauze, thermometer, beaker, stand, clamp, source of heat, conical flask
- Digital resources
- Spotlight Integrated Science pg. 104
- Copper (II) sulphate, tripod stand, wire gauze, distilled water, measuring cylinder, glass beakers, stirring rod, spatula, source of heat, electronic balance, evaporating dish, boiling tube, mounting needle, filter paper
- Digital resources

- Practical assessment - Observation - Oral questions
- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Mixtures - Sublimation
Mixtures - Solvent extraction

By the end of the lesson, the learner should be able to:
- Describe sublimation as a process where a solid changes directly to gas on heating and deposits back as solid on cooling
- Separate a mixture of iodine and common salt using sublimation
- Show responsibility by carrying out the sublimation experiment in a fume chamber or open space

In groups, learners are guided to:
- Set up apparatus for sublimation using a beaker, tripod stand, wire gauze, round-bottomed flask with cold water and a source of heat
- Heat a mixture of iodine and common salt and observe the purple fumes and black solid forming on the cooler surface of the round-bottomed flask
- Record observations and answer questions on what type of mixture is separated by sublimation

Why must the sublimation experiment using iodine always be done in a fume chamber or outside the laboratory?

- Spotlight Integrated Science pg. 105
- Iodine, common salt, glass beakers, spatula, tripod stand, wire gauze, source of heat, round-bottomed flask, water
- Digital resources
- Spotlight Integrated Science pg. 106
- Mortar, pestle, plain paper, groundnuts, dropper, evaporating dish, propanone (acetone)

- Practical assessment - Observation - Oral questions

Mixtures, Elements and Compounds

Mixtures - Paper chromatography

By the end of the lesson, the learner should be able to:
- Describe paper chromatography as a method used to separate components of coloured substances such as ink, dyes and food colours
- Separate the components of black ink using ascending paper chromatography
- Show precision when preparing the chromatography strip and spotting the ink baseline

In groups, learners are guided to:
- Cut a rectangular strip of chromatography paper (2 cm × 14 cm) and draw a pencil baseline 1.5 cm from the edge
- Use a glass tube to spot black ink on the baseline, allow to dry, then place the strip in a boiling tube with water below the baseline
- Remove the strip when the solvent front rises near the top, dry and observe the coloured spots formed

What does the separation of black ink into coloured spots tell you about the composition of black ink?

- Spotlight Integrated Science pg. 107
- Black ink, thin glass tube, measuring cylinder, scalpel, glass rod, chromatography paper, beakers, boiling tube, ruler
- Digital resources

- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Mixtures - Paper chromatography

By the end of the lesson, the learner should be able to:
- Describe paper chromatography as a method used to separate components of coloured substances such as ink, dyes and food colours
- Separate the components of black ink using ascending paper chromatography
- Show precision when preparing the chromatography strip and spotting the ink baseline

In groups, learners are guided to:
- Cut a rectangular strip of chromatography paper (2 cm × 14 cm) and draw a pencil baseline 1.5 cm from the edge
- Use a glass tube to spot black ink on the baseline, allow to dry, then place the strip in a boiling tube with water below the baseline
- Remove the strip when the solvent front rises near the top, dry and observe the coloured spots formed

What does the separation of black ink into coloured spots tell you about the composition of black ink?

- Spotlight Integrated Science pg. 107
- Black ink, thin glass tube, measuring cylinder, scalpel, glass rod, chromatography paper, beakers, boiling tube, ruler
- Digital resources

- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Mixtures - Evaporation

By the end of the lesson, the learner should be able to:
- Describe evaporation as a method of separating mixtures where a solid is dissolved in a liquid
- Obtain salt crystals from a salt solution by evaporation using an evaporating dish, wire gauze and heat source
- Distinguish between evaporation and simple distillation as methods of separating solid-liquid mixtures

In groups, learners are guided to:
- Measure 100 ml of salt solution into a beaker, add two spatulafuls of salt and stir until dissolved, then transfer to an evaporating dish
- Heat the solution gently until all the liquid evaporates and solid salt crystals remain in the evaporating dish
- Discuss observations and compare evaporation with simple distillation — what is collected in each method?

How does evaporation differ from simple distillation in terms of what component of the mixture is recovered?

- Spotlight Integrated Science pg. 109
- Salt, distilled water, evaporating dish, tripod stand, wire gauze, source of heat, measuring cylinder, glass beaker, glass rod, spatula
- Digital resources

- Practical assessment - Observation - Oral questions

Mixtures, Elements and Compounds

Mixtures - Fractional distillation

By the end of the lesson, the learner should be able to:
- Describe fractional distillation as a method used to separate liquids with different but close boiling points
- Set up apparatus for fractional distillation and separate ethanol from a mixture of ethanol and water
- Show care when handling a heat source and hot apparatus during fractional distillation

In groups, learners are guided to:
- Use digital or print media to search for information on fractional distillation and write findings in exercise books
- Set up the fractionating column apparatus and heat the ethanol-water mixture, collecting ethanol first then water in separate conical flasks labelled A and B
- Record the temperature at which each liquid is collected and explain which liquid is ethanol and which is water

How does fractional distillation make use of the difference in boiling points to separate ethanol from water?

- Spotlight Integrated Science pg. 111
- Fractionating column, glass beads, corks, two tripod stands, wire gauze, two clamps, Liebig condenser, measuring cylinder, round-bottomed flask, source of heat, thermometer, two conical flasks, glass beaker, broken chips, ethanol, water
- Digital resources

- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Mixtures - Applications of methods of separating homogeneous mixtures

By the end of the lesson, the learner should be able to:
- Identify real-life applications of each separation method — evaporation, fractional distillation, sublimation, simple distillation, crystallisation, solvent extraction and chromatography
- Match each application to its correct method of separation
- Appreciate how separation methods are used to improve daily life

- Use digital or print media to search for applications of each separation method and complete a table matching method to application
- Study information boxes from learners Grace, Kevin, David and Kitoto and name the separation method applied in each
- Write short notes on applications of all seven methods and share for peer assessment

How are the methods you have learned for separating mixtures used in industries and at home?

- Spotlight Integrated Science pg. 113
- Digital resources
- Reference books

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Mixtures - Applications of methods of separating homogeneous mixtures

By the end of the lesson, the learner should be able to:
- Identify real-life applications of each separation method — evaporation, fractional distillation, sublimation, simple distillation, crystallisation, solvent extraction and chromatography
- Match each application to its correct method of separation
- Appreciate how separation methods are used to improve daily life

- Use digital or print media to search for applications of each separation method and complete a table matching method to application
- Study information boxes from learners Grace, Kevin, David and Kitoto and name the separation method applied in each
- Write short notes on applications of all seven methods and share for peer assessment

How are the methods you have learned for separating mixtures used in industries and at home?

- Spotlight Integrated Science pg. 113
- Digital resources
- Reference books

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Mixtures - Uses of separating methods and end of sub-strand assessment
Acids, Bases and Indicators - Introduction to acids and bases

By the end of the lesson, the learner should be able to:
- Summarise the uses of all methods of separating homogeneous mixtures using a complete reference table
- Apply knowledge of separation methods to answer assessment questions on real-life scenarios
- Show confidence in selecting the correct separation method for a given situation
- Identify common examples of acids — lemon juice, fermented milk, ginger extract — and bases — baking powder solution
- Explain why tasting is not a safe method of identifying acids and bases in the laboratory
- Show awareness of the importance of using safe methods when classifying substances as acids or bases

- Read a magazine extract from Jumana Junior School describing how different learners use separation methods at home and in sport
- Complete the summary table of applications of methods of separating homogeneous mixtures
- Respond to Assessment Activity 2.1 questions and discuss answers with classmates
- Study pictures of a lemon, ginger, fermented milk and baking powder and discuss which are acidic and which are basic based on taste
- Discuss why tasting is not safe in the laboratory and identify alternative safe methods of classification
- Write short notes on the meaning of acids and bases and share for peer review

Which method of separation is most useful in everyday life, and how would you explain its use to someone who has never studied science?
Why is it unsafe to taste substances in the laboratory in order to identify them as acids or bases?

- Spotlight Integrated Science pg. 115
- Learner exercise books
- Digital resources
- Spotlight Integrated Science pg. 118
- Digital resources
- Reference books

- Written test - Oral questions - Self-assessment
- Oral questions - Written assignments - Observation

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Classifying solutions using litmus paper

By the end of the lesson, the learner should be able to:
- Use red and blue litmus papers to classify lemon juice, ginger extract, fermented milk and baking powder solution as acidic or basic
- Explain the colour change of litmus paper in acidic and basic solutions
- Appreciate litmus paper as a safe and reliable indicator for classifying substances

In groups, learners are guided to:
- Measure 10 ml of lemon juice into a test tube, dip red and blue litmus papers and record colour changes in a table
- Repeat using ginger extract, fermented milk and baking powder solution and record all observations
- Discuss the colour changes observed and write a conclusion on how litmus paper identifies acids and bases

How does the colour change of litmus paper confirm whether a solution is acidic or basic?

- Spotlight Integrated Science pg. 119
- Lemon juice, measuring cylinder, ginger extract, fermented milk, baking powder solution, labels, test tube rack, test tubes, blue litmus papers, red litmus papers
- Digital resources

- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Classifying solutions using litmus paper

By the end of the lesson, the learner should be able to:
- Use red and blue litmus papers to classify lemon juice, ginger extract, fermented milk and baking powder solution as acidic or basic
- Explain the colour change of litmus paper in acidic and basic solutions
- Appreciate litmus paper as a safe and reliable indicator for classifying substances

In groups, learners are guided to:
- Measure 10 ml of lemon juice into a test tube, dip red and blue litmus papers and record colour changes in a table
- Repeat using ginger extract, fermented milk and baking powder solution and record all observations
- Discuss the colour changes observed and write a conclusion on how litmus paper identifies acids and bases

How does the colour change of litmus paper confirm whether a solution is acidic or basic?

- Spotlight Integrated Science pg. 119
- Lemon juice, measuring cylinder, ginger extract, fermented milk, baking powder solution, labels, test tube rack, test tubes, blue litmus papers, red litmus papers
- Digital resources

- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Classifying household solutions as acidic or basic

By the end of the lesson, the learner should be able to:
- Use litmus papers to classify household solutions — orange juice, vinegar, soap solution, wood ash solution, toothpaste, antacid, distilled water, bleach, common salt and sugar solution — as acidic, basic or neutral
- Explain that neutral solutions cause no colour change in either litmus paper
- Show care when handling household chemicals in the laboratory

In groups, learners are guided to:
- Measure 3 cm³ of orange juice and dip red and blue litmus papers, record colour changes in Table 2.10
- Repeat using all other household solutions and record observations for each
- Discuss results and classify each solution as acidic, basic or neutral based on colour changes

What household substances are acidic or basic, and why is it important to know this?

- Spotlight Integrated Science pg. 120
- Orange juice, vinegar, soap solution, wood ash solution, toothpaste solution, antacid solution, fermented milk, distilled water, bleach, common salt solution, sugar solution, test tubes, droppers, test tube rack, measuring cylinder, red and blue litmus papers
- Digital resources

- Practical assessment - Observation - Oral questions

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Classifying household solutions as acidic or basic
Acids, Bases and Indicators - Preparing and using a plant extract indicator

By the end of the lesson, the learner should be able to:
- Use litmus papers to classify household solutions — orange juice, vinegar, soap solution, wood ash solution, toothpaste, antacid, distilled water, bleach, common salt and sugar solution — as acidic, basic or neutral
- Explain that neutral solutions cause no colour change in either litmus paper
- Show care when handling household chemicals in the laboratory
- Prepare an acid-base indicator from hibiscus flower petals using propanone and filtration
- Use the prepared plant extract to classify household solutions as acidic, basic or neutral
- Show environmental awareness by plucking only the flower petals needed and safely disposing of plant remains

In groups, learners are guided to:
- Measure 3 cm³ of orange juice and dip red and blue litmus papers, record colour changes in Table 2.10
- Repeat using all other household solutions and record observations for each
- Discuss results and classify each solution as acidic, basic or neutral based on colour changes
- Cut hibiscus flower petals into small pieces, grind in a mortar with propanone, filter the coloured extract into a beaker
- Add two drops of the plant extract to test tubes containing lemon juice, soap solution, wood ash solution, orange juice, vinegar and other household solutions and record the colour changes in Table 2.11
- Compare colour changes with litmus paper results and discuss which solutions are acidic, basic or neutral

What household substances are acidic or basic, and why is it important to know this?
How does a plant extract work as an acid-base indicator, and how does it compare to litmus paper?

- Spotlight Integrated Science pg. 120
- Orange juice, vinegar, soap solution, wood ash solution, toothpaste solution, antacid solution, fermented milk, distilled water, bleach, common salt solution, sugar solution, test tubes, droppers, test tube rack, measuring cylinder, red and blue litmus papers
- Digital resources
- Spotlight Integrated Science pg. 121
- Hibiscus flowers, scalpel, mortar, pestle, propanone, filter funnel, beakers, test tubes, droppers, test tube rack, measuring cylinder, household solutions
- Digital resources

- Practical assessment - Observation - Oral questions
- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Physical properties of acids and bases

By the end of the lesson, the learner should be able to:
- Identify the physical properties of acids — sour taste, turns red litmus paper blue, corrosive, conducts electricity
- Identify the physical properties of bases — bitter taste, turns red litmus paper blue, slippery feel, conducts electricity
- Show safety awareness by following correct procedures when investigating properties of acids and bases

In groups, learners are guided to:
- Use digital or print media to search for physical properties of acids and bases and write findings in exercise books
- Taste fermented milk and lemon juice using a clean spoon to observe the sour taste of acids
- Pour a little soap solution on the palm, rub and discuss the slippery feel of bases

What are the key differences between the physical properties of acids and those of bases?

- Spotlight Integrated Science pg. 123
- Fermented milk, lemon juice, ginger extract, clean spoons, digital resources
- Reference books

- Oral questions - Written assignments - Observation

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Physical properties of acids and bases

By the end of the lesson, the learner should be able to:
- Identify the physical properties of acids — sour taste, turns red litmus paper blue, corrosive, conducts electricity
- Identify the physical properties of bases — bitter taste, turns red litmus paper blue, slippery feel, conducts electricity
- Show safety awareness by following correct procedures when investigating properties of acids and bases

In groups, learners are guided to:
- Use digital or print media to search for physical properties of acids and bases and write findings in exercise books
- Taste fermented milk and lemon juice using a clean spoon to observe the sour taste of acids
- Pour a little soap solution on the palm, rub and discuss the slippery feel of bases

What are the key differences between the physical properties of acids and those of bases?

- Spotlight Integrated Science pg. 123
- Fermented milk, lemon juice, ginger extract, clean spoons, digital resources
- Reference books

- Oral questions - Written assignments - Observation

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Investigating physical properties using litmus and corrosiveness

By the end of the lesson, the learner should be able to:
- Investigate the effect of dilute sulphuric acid and dilute sodium hydroxide on red and blue litmus papers
- Record observations on the colour changes produced by acids and bases in litmus papers
- Appreciate the importance of handling corrosive acids and bases with protective clothing and care

In groups, learners are guided to:
- Measure 2 cm³ of dilute sulphuric acid into a test tube, dip red and blue litmus papers and record colour changes in Table 2.12
- Repeat using dilute sodium hydroxide solution and record colour changes
- Discuss and summarise the physical properties of acids and bases from all practical observations

How do the colour changes in litmus paper confirm the physical properties of an acid or a base?

- Spotlight Integrated Science pg. 124
- Red and blue litmus papers, droppers, dilute sulphuric acid, dilute sodium hydroxide, test tubes, test tube rack, measuring cylinder, protective clothing
- Digital resources

- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Investigating physical properties using litmus and corrosiveness
Acids, Bases and Indicators - Electrical conductivity of acids and bases

By the end of the lesson, the learner should be able to:
- Investigate the effect of dilute sulphuric acid and dilute sodium hydroxide on red and blue litmus papers
- Record observations on the colour changes produced by acids and bases in litmus papers
- Appreciate the importance of handling corrosive acids and bases with protective clothing and care
- Investigate whether dilute sulphuric acid and dilute sodium hydroxide conduct electricity
- Explain that solutions of acids and bases conduct electricity because they contain ions
- Show care when setting up an electrical circuit involving liquid conductors

In groups, learners are guided to:
- Measure 2 cm³ of dilute sulphuric acid into a test tube, dip red and blue litmus papers and record colour changes in Table 2.12
- Repeat using dilute sodium hydroxide solution and record colour changes
- Discuss and summarise the physical properties of acids and bases from all practical observations
- Set up a conductivity circuit using a dry cell, switch, bulb, connecting wire, graphite rods, rubber cork and glass beaker
- Pour dilute sulphuric acid into the beaker, close the switch and observe whether the bulb lights
- Repeat using dilute sodium hydroxide solution and distilled water, then drain and rinse the beaker after each test

How do the colour changes in litmus paper confirm the physical properties of an acid or a base?
Why do solutions of acids and bases conduct electricity while distilled water does not?

- Spotlight Integrated Science pg. 124
- Red and blue litmus papers, droppers, dilute sulphuric acid, dilute sodium hydroxide, test tubes, test tube rack, measuring cylinder, protective clothing
- Digital resources
- Spotlight Integrated Science pg. 125
- Measuring cylinder, glass beaker, rubber cork, connecting wire, dry cell, switch, graphite rods, dilute sulphuric acid, dilute sodium hydroxide, distilled water
- Digital resources

- Practical assessment - Observation - Written assignments
- Practical assessment - Observation - Oral questions

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Introduction to applications of acids, bases and indicators

By the end of the lesson, the learner should be able to:
- Identify common examples of acids, bases and indicators used in daily life — vinegar, toothpaste, fertiliser, car battery, antacid tablets and soil indicators
- Link each substance to a specific acid, base or indicator
- Show curiosity about the scientific basis of everyday substances

In groups, learners are guided to:
- Study pictures of vinegar, toothpaste, fertiliser, car battery, antacid tablets and discuss which contain acids, bases or indicators
- Use digital or print media to search for applications of acids, bases and indicators and write findings in exercise books
- Share findings with classmates for peer assessment

How do acids and bases play a role in substances and activities you encounter every day?

- Spotlight Integrated Science pg. 126
- Digital resources
- Reference books
- Pictures of acids, bases and indicator products

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Introduction to applications of acids, bases and indicators

By the end of the lesson, the learner should be able to:
- Identify common examples of acids, bases and indicators used in daily life — vinegar, toothpaste, fertiliser, car battery, antacid tablets and soil indicators
- Link each substance to a specific acid, base or indicator
- Show curiosity about the scientific basis of everyday substances

In groups, learners are guided to:
- Study pictures of vinegar, toothpaste, fertiliser, car battery, antacid tablets and discuss which contain acids, bases or indicators
- Use digital or print media to search for applications of acids, bases and indicators and write findings in exercise books
- Share findings with classmates for peer assessment

How do acids and bases play a role in substances and activities you encounter every day?

- Spotlight Integrated Science pg. 126
- Digital resources
- Reference books
- Pictures of acids, bases and indicator products

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Discussing applications of acids and bases

By the end of the lesson, the learner should be able to:
- Describe specific applications of acids and bases in real life — wood ash for removing bad smell, antacid tablets for acidity, lime for neutralising soil
- Apply knowledge of acids and bases to explain the scenarios shown in pictures and discussion cards
- Appreciate the practical value of acids and bases in solving everyday problems

In groups, learners are guided to:
- Study pictures of Patrick using wood ash and Nimo taking antacid tablets and explain the role of acids or bases in each scenario
- Discuss other applications of acids and bases at home, in agriculture and in medicine
- Write short notes on applications of acids and bases in at least four real-life contexts and share for peer review

How does knowing whether a substance is an acid or a base help you make better decisions in daily life?

- Spotlight Integrated Science pg. 127
- Digital resources
- Reference books

- Oral questions - Written assignments - Observation

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Discussing applications of acids and bases
Acids, Bases and Indicators - Investigating use of indicators in real life

By the end of the lesson, the learner should be able to:
- Describe specific applications of acids and bases in real life — wood ash for removing bad smell, antacid tablets for acidity, lime for neutralising soil
- Apply knowledge of acids and bases to explain the scenarios shown in pictures and discussion cards
- Appreciate the practical value of acids and bases in solving everyday problems
- Describe how indicators are used to test the acidity and basicity of soil samples
- Carry out a practical activity using a plant extract to test different soil samples and record results
- Show appreciation for the role of indicators in maintaining soil health for crop production

In groups, learners are guided to:
- Study pictures of Patrick using wood ash and Nimo taking antacid tablets and explain the role of acids or bases in each scenario
- Discuss other applications of acids and bases at home, in agriculture and in medicine
- Write short notes on applications of acids and bases in at least four real-life contexts and share for peer review
- Weigh four soil samples A, B, C and D using an electronic balance and transfer each into a separate conical flask with distilled water
- Set up filtration apparatus and filter each soil sample mixture, then dip red and blue litmus papers into each filtrate
- Record which soil samples are acidic, basic or neutral and discuss the implications for farming

How does knowing whether a substance is an acid or a base help you make better decisions in daily life?
How do farmers use indicators to determine whether soil needs treatment before planting crops?

- Spotlight Integrated Science pg. 127
- Digital resources
- Reference books
- Spotlight Integrated Science pg. 128
- Four soil samples, electronic balance, conical flasks, droppers, filter funnel, filter paper, measuring cylinder, beaker, red and blue litmus papers
- Digital resources

- Oral questions - Written assignments - Observation
- Practical assessment - Observation - Written assignments

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Indicator practical results and conclusions

By the end of the lesson, the learner should be able to:
- Interpret results from the soil indicator practical and draw conclusions about soil acidity
- Explain that soil can become acidic over time and describe how lime is used to neutralise acidic soil
- Show concern for sustainable farming practices by linking soil acidity to crop health

- Discuss practical activity results — which soil samples turned litmus paper red or blue — and draw a conclusion table
- Read the points to note summarising what learners observed about filtrate colour and soil acidity
- Answer discussion questions on how indicators can be used in real life to prevent soil acidification and crop loss

What should a farmer do after discovering that the soil on their farm is too acidic, and why?

- Spotlight Integrated Science pg. 129
- Learner exercise books
- Digital resources
- Reference books

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Indicator practical results and conclusions

By the end of the lesson, the learner should be able to:
- Interpret results from the soil indicator practical and draw conclusions about soil acidity
- Explain that soil can become acidic over time and describe how lime is used to neutralise acidic soil
- Show concern for sustainable farming practices by linking soil acidity to crop health

- Discuss practical activity results — which soil samples turned litmus paper red or blue — and draw a conclusion table
- Read the points to note summarising what learners observed about filtrate colour and soil acidity
- Answer discussion questions on how indicators can be used in real life to prevent soil acidification and crop loss

What should a farmer do after discovering that the soil on their farm is too acidic, and why?

- Spotlight Integrated Science pg. 129
- Learner exercise books
- Digital resources
- Reference books

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Summarising uses of acids, bases and indicators

By the end of the lesson, the learner should be able to:
- State the specific uses of acids — sulphuric acid in fertilisers, citric acid in food preservation, carbonic acid in fizzy drinks
- State the uses of bases — magnesium hydroxide as antacid, calcium hydroxide to neutralise acidic soils, sodium hydroxide in soap
- Show appreciation for the chemistry behind products used in daily life

- Read a class conversation between teacher Wahome and learners at Langi Junior School discussing uses of acids, bases and indicators
- Write the uses of acids, bases and indicators as explained in the conversation
- Discuss other uses of acids, bases and indicators not mentioned in the conversation and add to notes

How does knowing the specific uses of acids and bases help you understand the products you use every day?

- Spotlight Integrated Science pg. 130
- Digital resources
- Reference books

- Oral questions - Written assignments - Peer assessment

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Uses of acids, bases and indicators flash cards

By the end of the lesson, the learner should be able to:
- Apply knowledge of uses of acids, bases and indicators to create informative flash cards
- Recall at least three uses each of acids, bases and indicators from the summary points to note
- Show creativity and communication skills when designing and presenting flash cards

In groups, learners are guided to:
- Read flash cards from Ken, Brenda and Ritah describing uses of indicators in farming, acids in car batteries and bases in antacids
- Create personal flash cards appreciating at least one use each of acids, bases and indicators in daily life
- Display flash cards at the Integrated Science corner and present to classmates

Why do you think it is important for a Grade 7 learner to know the uses of acids, bases and indicators in real life?

- Spotlight Integrated Science pg. 131
- Flash card materials — cardboard, markers
- Digital resources

- Peer assessment - Oral questions - Observation

Mixtures, Elements and Compounds

Acids, Bases and Indicators - Uses of acids, bases and indicators flash cards

By the end of the lesson, the learner should be able to:
- Apply knowledge of uses of acids, bases and indicators to create informative flash cards
- Recall at least three uses each of acids, bases and indicators from the summary points to note
- Show creativity and communication skills when designing and presenting flash cards

In groups, learners are guided to:
- Read flash cards from Ken, Brenda and Ritah describing uses of indicators in farming, acids in car batteries and bases in antacids
- Create personal flash cards appreciating at least one use each of acids, bases and indicators in daily life
- Display flash cards at the Integrated Science corner and present to classmates

Why do you think it is important for a Grade 7 learner to know the uses of acids, bases and indicators in real life?

- Spotlight Integrated Science pg. 131
- Flash card materials — cardboard, markers
- Digital resources

- Peer assessment - Oral questions - Observation

Mixtures, Elements and Compounds

Acids, Bases and Indicators - End of sub-strand assessment

By the end of the lesson, the learner should be able to:
- Demonstrate understanding of acids, bases and indicators across all topics — identification, preparation, physical properties, applications and uses
- Apply knowledge to classify solutions, describe properties and explain real-life uses in assessment questions
- Show confidence and accuracy when responding to written and oral assessment tasks

In groups, learners are guided to:
- Group given solutions as acidic or basic using Assessment Activity 2.2 questions
- Answer questions on physical properties, litmus paper colour changes and applications of acids, bases and indicators
- Complete the self-assessment table for sub-strand 2.2 and identify areas for further review

How well can you identify, describe and explain the uses of acids, bases and indicators after completing this sub-strand?

- Spotlight Integrated Science pg. 132
- Learner exercise books
- Digital resources

- Written test - Oral questions - Self-assessment

Living Things and the Environment

Human Reproductive System - Parts of the male reproductive system

By the end of the lesson, the learner should be able to:
- Identify the parts of the male human reproductive system (penis, testis, urethra, sperm duct, glands, scrotum)
- State the location of each part
- Show respect when learning about the human body

In groups, learners are guided to:
- Use charts to observe and identify parts of the male reproductive system
- Draw and label the male reproductive system in exercise books
- Peer-review labelled diagrams

What parts make up the male human reproductive system?

- Spotlight Integrated Science pg. 135
- Charts showing male reproductive system
- Exercise books

- Observation - Oral questions

Living Things and the Environment

Human Reproductive System - Parts of the female reproductive system

By the end of the lesson, the learner should be able to:
- Identify the parts of the female human reproductive system (vagina, cervix, uterus, oviduct, ovaries)
- State the location of each part
- Show respect and sensitivity when learning about the human body

In groups, learners are guided to:
- Use charts to observe and identify parts of the female reproductive system
- Draw and label the female reproductive system in exercise books
- Peer-review labelled diagrams

What parts make up the female human reproductive system?

- Spotlight Integrated Science pg. 136
- Charts showing female reproductive system
- Exercise books

- Observation - Oral questions

Living Things and the Environment

Human Reproductive System - Functions of the male reproductive system
Human Reproductive System - Functions of the female reproductive system
Human Reproductive System - Adolescence: meaning and onset

By the end of the lesson, the learner should be able to:
- State the function of each part of the male reproductive system
- Explain how the parts work together in reproduction
- Show interest in understanding body systems
- State the function of each part of the female reproductive system
- Explain how the parts work together during reproduction
- Show interest in understanding body systems

In groups, learners are guided to:
- Use print or digital media to search for functions of parts of the male reproductive system
- Complete a table matching parts to their functions
- Discuss findings with classmates
- Use print or digital media to search for functions of parts of the female reproductive system
- Complete a table matching parts to their functions
- Discuss findings with classmates

What is the function of each part of the male reproductive system?
What is the function of each part of the female reproductive system?

- Spotlight Integrated Science pg. 137
- Charts
- Reference books
- Spotlight Integrated Science pg. 138
- Charts
- Reference books
- Spotlight Integrated Science pg. 141
- Internet access

- Oral questions - Written assignments

Living Things and the Environment

Human Reproductive System - Physical changes in boys during adolescence

By the end of the lesson, the learner should be able to:
- Describe the physical changes that take place in boys during adolescence
- Explain the biological reasons for each change
- Show acceptance of physical changes as a normal part of development

In groups, learners are guided to:
- Use print or digital media to research physical changes in boys during adolescence
- Compile a list of physical changes specific to boys
- Share findings with the class

What physical changes take place in boys during adolescence?

- Spotlight Integrated Science pg. 142
- Reference books
- Charts

- Oral questions - Written assignments

Living Things and the Environment

Human Reproductive System - Physical changes in girls during adolescence

By the end of the lesson, the learner should be able to:
- Describe the physical changes that take place in girls during adolescence
- Explain the biological reasons for each change
- Show empathy and respect for the changes experienced by girls

In groups, learners are guided to:
- Use print or digital media to research physical changes in girls during adolescence
- Compile a list of physical changes specific to girls (e.g. menstruation, breast development)
- Share findings with the class sensitively

What physical changes take place in girls during adolescence?

- Spotlight Integrated Science pg. 143
- Reference books
- Charts

- Oral questions - Written assignments

Living Things and the Environment

Human Reproductive System - Physical challenges during adolescence

By the end of the lesson, the learner should be able to:
- Identify physical challenges that adolescents experience (pimples, sweating, body odour)
- Explain how each physical challenge can be managed
- Show self-awareness when discussing personal changes

In groups, learners are guided to:
- Discuss physical challenges and practical ways to manage them
- Compile a list of personal hygiene practices for adolescents
- Share and peer-review management strategies

What physical challenges do adolescents face and how can they manage them?

- Spotlight Integrated Science pg. 144
- Reference books
- Internet access

- Oral questions - Written assignments

Living Things and the Environment

Human Reproductive System - Social and emotional challenges during adolescence
Human Reproductive System - Managing developmental challenges

By the end of the lesson, the learner should be able to:
- Describe the social and emotional challenges faced during adolescence
- Explain the impact of peer pressure and mood swings
- Show empathy toward peers experiencing developmental challenges
- Describe practical ways of managing developmental challenges during adolescence
- Explain the importance of seeking guidance from trusted adults
- Show confidence in discussing ways to manage challenges

In groups, learners are guided to:
- Discuss social and emotional challenges (peer pressure, low self-esteem, mood swings)
- Use print or digital media to search for strategies for managing emotional challenges
- Share findings with classmates sensitively
- Discuss ways of managing developmental challenges (seeking help from trusted adults, exercising, good hygiene)
- Use print or digital media for additional strategies
- Share and peer-review management plans

What social and emotional challenges do adolescents face?
How can adolescents manage the developmental challenges they face?

- Spotlight Integrated Science pg. 145
- Reference books
- Internet access
- Spotlight Integrated Science pg. 146
- Reference books
- Charts

- Oral questions - Written assignments
- Oral questions - Observation

Living Things and the Environment

Human Reproductive System - Developing a plan to manage challenges

By the end of the lesson, the learner should be able to:
- Develop a personal plan to manage developmental challenges during adolescence
- Include both physical and emotional management strategies
- Show responsibility in taking care of one's own health and wellbeing

In groups, learners are guided to:
- Collaboratively create a plan to manage developmental challenges
- Include practical daily activities such as hygiene, exercise, and seeking support
- Present and peer-review plans with classmates

What would a practical personal plan for managing adolescence look like?

- Spotlight Integrated Science pg. 147
- Plan template
- Exercise books

- Checklist - Observation

Living Things and the Environment

Human Reproductive System - Developing a plan to manage challenges

By the end of the lesson, the learner should be able to:
- Develop a personal plan to manage developmental challenges during adolescence
- Include both physical and emotional management strategies
- Show responsibility in taking care of one's own health and wellbeing

In groups, learners are guided to:
- Collaboratively create a plan to manage developmental challenges
- Include practical daily activities such as hygiene, exercise, and seeking support
- Present and peer-review plans with classmates

What would a practical personal plan for managing adolescence look like?

- Spotlight Integrated Science pg. 147
- Plan template
- Exercise books

- Checklist - Observation

Living Things and the Environment

Human Reproductive System - Social and reproductive implications of adolescence

By the end of the lesson, the learner should be able to:
- Recognise that physical changes during adolescence have social and reproductive implications
- Explain how adolescence prepares the body for reproduction
- Show self-discipline and responsibility in managing adolescent changes

In groups, learners are guided to:
- Discuss how physical changes during adolescence relate to social roles and reproductive maturity
- Use print or digital media to search for information on reproductive implications
- Discuss the importance of self-discipline during adolescence

What are the social and reproductive implications of physical changes during adolescence?

- Spotlight Integrated Science pg. 149
- Reference books
- Internet access

- Oral questions - Written assignments

Living Things and the Environment

Human Reproductive System - Review and assessment

By the end of the lesson, the learner should be able to:
- Recall and explain key concepts on the human reproductive system and adolescence
- Complete an assessment task on sub-strand 3.1
- Show confidence in discussing topics in the human reproductive system

In groups, learners are guided to:
- Complete a review exercise covering all 3.1 topics
- Peer-mark and discuss corrections
- Teacher provides feedback on performance

What are the key concepts about the human reproductive system and adolescence?

- Spotlight Integrated Science pg. 150
- Assessment papers
- Exercise books

- Written test - Oral questions