Matter

Change of state Melting

By the end of the lesson, the learner should be able to:

Explain the meaning of change of state
Demonstrate melting using cooking fat
Appreciate the application of melting in everyday life

- Brainstorm the meaning of change of state of matter
Heat cooking fat to demonstrate melting
Discuss everyday examples of melting

How does matter change its state?

- mentor science and technology
pg. 35
Cooking fat
Source of heat
Metal plate or pan
Safety equipment

- Observation Oral questions Practical assessment

Matter

Change of state Evaporation
Change of state Sublimation

By the end of the lesson, the learner should be able to:

Demonstrate evaporation of water
Explain how liquids change to gas when heated
Appreciate evaporation in daily life

- Heat water to demonstrate evaporation
Observe and record what happens when water boils
Discuss applications of evaporation in daily life

How does water change into steam?

- mentor science and technology
pg. 36
Water
Source of heat
Container for heating water
Safety equipment
pg. 37
Mothballs
Metal plate

- Observation Oral questions Written records

Matter

Change of state Condensation
Change of state Freezing

By the end of the lesson, the learner should be able to:

Demonstrate condensation using boiling water and a cold surface
Explain how gases change to liquids when cooled
Appreciate condensation in daily life

- Boil water and hold a cold lid above it to demonstrate condensation
Observe and record the formation of water droplets
Discuss examples of condensation in nature and daily life

How does water vapor change into liquid water?

- mentor science and technology
pg. 38
Water
Container for heating
Cold lid or plate
Source of heat
Safety equipment
pg. 39
Ice cubes (if available)
Pictures of freezing examples

- Observation Oral questions Written records

Matter

Change of state Deposition
Change of state Summary

By the end of the lesson, the learner should be able to:

Explain the process of deposition
Describe how gases change directly to solids when cooled
Appreciate deposition in nature

- Discuss the process of deposition
Observe or view images/videos of frost formation
Explore examples of deposition in nature

How does water vapor change directly into ice?

- mentor science and technology
pg. 40
Digital devices (if available)
Pictures of frost
Diagrams showing deposition
pg. 41
Charts showing changes of state
Diagrams
Digital resources

- Observation Oral questions Written assessment

Matter

Change of state Heating effects
Change of state Cooling effects

By the end of the lesson, the learner should be able to:

Explain the effects of heat on matter
Identify changes that occur when matter is heated
Appreciate heating in daily life

- Discuss the effects of heat on matter
Demonstrate different heating effects
Relate to everyday experiences

What happens when matter is heated?

- mentor science and technology
pg. 42
Various materials for heating
Source of heat
Safety equipment
pg. 43
Various materials for cooling
Ice/cold water

- Observation Oral questions Written assessment

Matter

Change of state Drying clothes

By the end of the lesson, the learner should be able to:

Explain how evaporation helps in drying clothes
Identify factors that affect the rate of drying
Appreciate the application of evaporation

- Discuss how clothes dry in the sun
Explore factors that affect drying rate (wind, temperature, humidity)
Relate the process to evaporation

How does evaporation help in drying clothes?

Small pieces of wet cloth
Sunny area
Pictures showing clothes drying

- Observation Oral questions Written assessment

Matter

Change of state Drying foods

By the end of the lesson, the learner should be able to:

Explain how evaporation is used in food preservation
Describe traditional methods of drying foods
Appreciate food preservation techniques

- Discuss traditional methods of drying foods
Observe pictures of food drying processes
Relate the process to evaporation

How is evaporation used to preserve foods?

- mentor science and technology
pg. 45
Pictures of dried foods
Samples of dried foods (if available)
Digital resources

- Observation Oral questions Written assessment

Matter

Change of state Making ice

By the end of the lesson, the learner should be able to:

Explain how freezing is used to make ice
Describe the uses of ice in everyday life
Appreciate the importance of freezing

- Discuss how water changes to ice
Explore the uses of ice in daily life
Relate the process to freezing

How is ice made and used?

- mentor science and technology
pg. 46
Ice cubes (if available)
Pictures showing ice uses
Digital resources

- Observation Oral questions Written assessment

Matter

Change of state Cooling our bodies

By the end of the lesson, the learner should be able to:

Explain how sweating cools the body
Relate sweating to evaporation
Appreciate body temperature regulation

- Discuss how sweating helps cool the body
Demonstrate cooling effect of evaporation (water on skin)
Relate the process to evaporation

How does sweating cool our bodies?

- mentor science and technology
pg. 47
Water
Digital resources
Charts showing body cooling

- Observation Oral questions Written assessment

Matter

Change of state Rainfall formation

By the end of the lesson, the learner should be able to:

Explain how evaporation and condensation contribute to rainfall
Describe the water cycle
Appreciate the importance of rainfall

- Discuss the water cycle
Create diagrams showing rainfall formation
Relate the process to evaporation and condensation

How is rain formed?

- mentor science and technology
pg. 48
Charts showing water cycle
Digital resources
Diagrams of rainfall formation

- Observation Oral questions Diagrams

Matter

Change of state Candle making

By the end of the lesson, the learner should be able to:

Demonstrate how to make candles using waste wax
Explain the changes of state involved in candle making
Create a functional candle

- Demonstrate candle making using waste candle wax
Explain the changes of state during the process
Guide learners to make their own candles

How can we make candles?

- mentor science and technology
pg. 49
Waste candle wax
Cotton thread for wicks
Small containers
Source of heat
Safety equipment

- Observation Project assessment Practical skills

Matter

Change of state Repairing plastics

By the end of the lesson, the learner should be able to:

Demonstrate how to repair broken plastic containers
Explain the changes of state involved in plastic repair
Appreciate recycling and reuse

- Demonstrate plastic repair using heat
Explain the changes of state during the process
Guide learners to repair broken plastic items

How can we repair broken plastic containers?

- mentor science and technology
pg. 49
Broken plastic containers
Knife
Source of heat
Safety equipment
Oven gloves

- Observation Project assessment Practical skills

Matter

Change of state Project completion

By the end of the lesson, the learner should be able to:

Complete candle and plastic repair projects
Present and explain their projects
Appreciate practical applications of changes of state

- Complete candle making and plastic repair projects
Present completed projects to classmates
Discuss challenges and solutions

How can we apply our knowledge of changes of state?

- mentor science and technology
pg. 49
Completed projects
Materials for finishing projects
Presentation space

- Project assessment Presentation skills Peer evaluation

Matter

Change of state Assessment

By the end of the lesson, the learner should be able to:

Demonstrate understanding of changes of state
Identify different changes of state in examples
Apply knowledge to new situations

- Review all changes of state learned
Complete assessment activities
Discuss and correct misconceptions

What have we learned about changes of state?

- mentor science and technology
pg. 50
Assessment worksheets
Digital resources
Review materials

- Written assessment Oral questions Diagrams

Matter

Composition of air Components

By the end of the lesson, the learner should be able to:

Identify the components of air
Draw a pie chart showing percentage composition
Appreciate the importance of air

- Brainstorm on air and its constituents
Draw a pie chart showing composition of air
Discuss the importance of air

What is air made of?

- mentor science and technology
pg. 50
Chart showing air composition
Drawing materials
Digital resources

- Observation Oral questions Pie charts

Matter

Composition of air Oxygen

By the end of the lesson, the learner should be able to:

Demonstrate the presence of oxygen in air
Explain the percentage of oxygen in air
Appreciate the importance of oxygen

- Carry out activity to investigate the presence of oxygen in air
Discuss the percentage of oxygen in air
Explore the importance of oxygen

How can we prove oxygen is present in air?

- mentor science and technology
pg. 51
Candles
Glass containers
Matches
Water
Safety equipment

- Observation Oral questions Practical assessment

Matter

Composition of air Uses of oxygen

By the end of the lesson, the learner should be able to:

Outline the uses of oxygen
Explain how living things use oxygen
Appreciate the importance of oxygen

- Discuss the uses of oxygen in breathing, germination, and burning
Create a mind map of oxygen uses
Relate to everyday experiences

How is oxygen important to us?

- mentor science and technology
pg. 52
Charts showing oxygen uses
Digital resources
Drawing materials

- Observation Oral questions Mind maps

Matter

Composition of air Carbon dioxide

By the end of the lesson, the learner should be able to:

Explain the percentage of carbon dioxide in air
Outline the uses of carbon dioxide
Appreciate the importance of carbon dioxide

- Discuss the percentage of carbon dioxide in air
Explore the uses of carbon dioxide in plants and preservation
Create a poster showing carbon dioxide uses

How is carbon dioxide important?

- mentor science and technology
pg. 53
Charts showing carbon dioxide uses
Digital resources
Drawing materials

- Observation Oral questions Posters

Matter

Composition of air Nitrogen

By the end of the lesson, the learner should be able to:

Explain the percentage of nitrogen in air
Outline the uses of nitrogen
Appreciate the importance of nitrogen

- Discuss the percentage of nitrogen in air
Explore the uses of nitrogen in plants and industry
Create a chart showing nitrogen uses

How is nitrogen important?

- mentor science and technology
pg. 54
Charts showing nitrogen uses
Digital resources
Pictures of leguminous plants

- Observation Oral questions Charts

Matter

Composition of air Inert gases

By the end of the lesson, the learner should be able to:

Identify inert gases in air
Explain the uses of inert gases
Appreciate the importance of inert gases

- Discuss the inert gases found in air
Explore the uses of inert gases in light bulbs and balloons
Create a list of inert gas applications

What are inert gases used for?

- mentor science and technology
pg. 55
Charts showing inert gas uses
Digital resources
Pictures of applications

- Observation Oral questions Written work

Matter

Composition of air Air pollution

By the end of the lesson, the learner should be able to:

Define air pollution
Identify sources of air pollution
Show concern for air quality

- Brainstorm on the meaning of air pollution
Explore the school and neighborhood to identify air pollutants
Discuss the effects of air pollution

What is air pollution?

- mentor science and technology
pg. 56
Pictures showing air pollution
Digital resources
Safety equipment

- Observation Oral questions Written work

Matter

Composition of air Bad smell

By the end of the lesson, the learner should be able to:

Identify sources of bad smell in the environment
Explain how bad smell pollutes air
Suggest ways to reduce bad smell

- Discuss sources of bad smell
Identify areas with bad smell in the environment
Suggest ways to reduce bad smell

How does bad smell pollute air?

- mentor science and technology
pg. 57
Pictures of sources of bad smell
Digital resources
Safety equipment

- Observation Oral questions Written work

Matter

Composition of air Smoke

By the end of the lesson, the learner should be able to:

Identify sources of smoke in the environment
Explain how smoke pollutes air
Suggest ways to reduce smoke

- Discuss sources of smoke
Identify activities that produce smoke
Suggest ways to reduce smoke production

How does smoke pollute air?

- mentor science and technology
pg. 58
Pictures of sources of smoke
Digital resources
Safety equipment

- Observation Oral questions Written work

Matter

Composition of air Dust

By the end of the lesson, the learner should be able to:

Identify sources of dust in the environment
Explain how dust pollutes air
Suggest ways to reduce dust

- Discuss sources of dust
Identify areas with dust in the environment
Suggest ways to reduce dust

How does dust pollute air?

- mentor science and technology
pg. 59
Pictures of sources of dust
Digital resources
Safety equipment

- Observation Oral questions Written work

Matter

Composition of air Health effects

By the end of the lesson, the learner should be able to:

Explain the effects of air pollution on health
Identify diseases caused by air pollution
Show concern for personal health

- Discuss how air pollution affects health
Identify diseases caused by air pollution
Create a poster showing health effects

How does air pollution affect our health?

- mentor science and technology
pg. 60
Charts showing health effects
Digital resources
Pictures of effects

- Observation Oral questions Posters

Matter

Composition of air Ventilation

By the end of the lesson, the learner should be able to:

Explain the importance of ventilation
Identify ventilation systems in buildings
Appreciate the role of ventilation in air quality

- Discuss the importance of ventilation
Identify ventilation systems in the school
Explain how ventilation improves air quality

Why is ventilation important?

- mentor science and technology
pg. 61
Pictures of ventilation systems
Digital resources
School buildings

- Observation Oral questions Written work

Matter

Composition of air Dust control

By the end of the lesson, the learner should be able to:

Demonstrate methods of controlling dust
Explain the importance of sprinkling water on dusty grounds
Practice dust control measures

- Demonstrate sprinkling water before sweeping
Compare sweeping with and without water
Discuss other dust control methods

How can we control dust in our environment?

- mentor science and technology
pg. 62
Water
Brooms
Dusty area
Safety equipment

- Observation Practical assessment Oral questions

Matter

Composition of air Smoke reduction

By the end of the lesson, the learner should be able to:

Identify methods of reducing smoke
Explain the advantages of cleaner cooking methods
Appreciate the importance of smoke reduction

- Discuss cleaner cooking methods
Compare different cooking stoves
Explore other smoke reduction methods

How can we reduce smoke in our environment?

- mentor science and technology
pg. 63
Pictures of different cooking methods
Digital resources
Charts

- Observation Oral questions Written work

Matter

Composition of air Poster making

By the end of the lesson, the learner should be able to:

Create posters on air pollutants
Present information on pollution dangers
Suggest control measures for air pollution

- Make posters on common air pollutants
Include dangers and control measures
Display posters for awareness

How can we create awareness about air pollution?

- mentor science and technology
pg. 64
Manila papers/carton boxes
Coloring materials
Digital resources

- Project assessment Presentation skills Creativity

Matter
Force and Energy

Composition of air Assessment
3.1 Light Movement of light through transparent materials

By the end of the lesson, the learner should be able to:

Demonstrate understanding of air composition
Identify air pollutants and their effects
Suggest solutions to air pollution

- Review air composition and pollution
Complete assessment activities
Discuss and correct misconceptions

What have we learned about air composition and pollution?

- mentor science and technology
pg. 65
Assessment worksheets
Digital resources
Review materials
Mentor Science & Technology pg. 67-68
Transparent materials (glass, clear plastic)
Digital resources (where available)

- Written assessment Oral questions Diagrams

Force and Energy

3.1 Light Movement of light through translucent materials
3.1 Light Movement of light through opaque materials

By the end of the lesson, the learner should be able to:

Demonstrate the movement of light through translucent materials
Identify translucent materials in the environment
Appreciate the importance of translucent materials in everyday life

Learners to carry out activities to show movement of light through translucent materials
Learners to compare translucent and transparent materials
Learners to discuss applications of translucent materials

How are translucent materials useful in our daily lives?

Mentor Science & Technology pg. 69
Translucent materials (tracing paper, wax paper)
Digital resources (where available)
Mentor Science & Technology pg. 70
Opaque materials (cardboard, wooden blocks)

Observation Oral questions Written tests

Force and Energy

3.1 Light Reflection of light at plane surfaces
3.1 Light Terms associated with plane mirrors

By the end of the lesson, the learner should be able to:

Perform an experiment to show reflection of light on plane mirrors
Explain the principle of light reflection
Develop a positive attitude toward systematic investigation

Learners to set up and conduct an experiment showing reflection of light using a torch and mirror
Learners to observe how light is reflected by the mirror
Learners to discuss their findings

How is light reflected by a mirror?

Mentor Science & Technology pg. 71-72
Torch
Plane mirrors
Digital resources
Mentor Science & Technology pg. 73-75
Diagrams showing reflection of light
Protractors

Observation Oral questions Practical assessment

Force and Energy

3.1 Light Locating images formed in plane mirrors
3.1 Light Ray diagrams of images in plane mirrors

By the end of the lesson, the learner should be able to:

Locate images formed by plane mirrors
Measure the distance of images from mirrors
Appreciate the application of image formation in daily life

Learners to carry out an activity to locate images formed by plane mirrors
Learners to observe the position of the image in relation to the object
Learners to determine the distance of the image from the mirror

How can we locate an image formed by a plane mirror?

Mentor Science & Technology pg. 76-77
Plane mirrors
Objects of different sizes and shapes
Rulers
Mentor Science & Technology pg. 78-79
Plain paper
Pencils
Compass

Observation Oral questions Practical assessment

Force and Energy

3.1 Light Special rays used in ray diagrams
3.1 Light Characteristics of images formed by plane mirrors

By the end of the lesson, the learner should be able to:

Identify special rays used to locate images
Apply the principle of special rays in drawing ray diagrams
Develop a systematic approach to solving optical problems

Learners to observe diagrams showing special rays used in ray diagrams
Learners to identify incident rays and reflected rays in diagrams
Learners to draw ray diagrams in their notebooks using special rays

How are special rays used in ray diagrams?

Mentor Science & Technology pg. 80
Plain paper
Rulers
Pencils
Mentor Science & Technology pg. 81
Plane mirrors
Objects of different sizes
Measuring tapes

Observation Peer assessment Written assignments

Force and Energy

3.1 Light Formation of shadows

By the end of the lesson, the learner should be able to:

Demonstrate the formation of shadows
Explain factors that affect shadow formation
Develop curiosity about natural phenomena involving shadows

Learners to carry out activities showing shadow formation using a torch and various objects
Learners to observe and record how shadows are formed
Learners to investigate factors affecting shadow size

How are shadows formed?

Mentor Science & Technology pg. 82-83
Torch
Various objects (ball, book, etc.)
White cardboard or wall

Observation Oral questions Written assignments

Force and Energy

3.1 Light Formation of solar eclipse

By the end of the lesson, the learner should be able to:

Describe the formation of solar eclipse
Demonstrate how a solar eclipse occurs using models
Appreciate the natural phenomena in the sky

Learners to study diagrams showing how solar eclipses occur
Learners to discuss the relative position of the sun, moon, and earth during a solar eclipse
Learners to demonstrate solar eclipse formation

How does a solar eclipse occur?

Mentor Science & Technology pg. 84-85
Torch
Small and large balls
Stands to hold balls
Digital resources

Observation Oral questions Practical assessment

Force and Energy

3.1 Light Formation of lunar eclipse

By the end of the lesson, the learner should be able to:

Describe the formation of lunar eclipse
Compare the formation of solar and lunar eclipses
Show interest in astronomical events

Learners to study diagrams showing how lunar eclipses occur
Learners to discuss the relative position of the sun, moon, and earth during a lunar eclipse
Learners to compare solar and lunar eclipses

How does a lunar eclipse occur?

Mentor Science & Technology pg. 86-87
Torch
Small and large balls
Stands to hold balls
Digital resources

Observation Oral questions Practical assessment

Force and Energy

3.1 Light Rainbow formation

By the end of the lesson, the learner should be able to:

Describe the formation of rainbow in nature
Explain the role of light dispersion in rainbow formation
Appreciate the beauty of natural phenomena

Learners to search for information on rainbow formation
Learners to discuss how light is dispersed to form a rainbow
Learners to identify conditions necessary for rainbow formation

How is a rainbow formed in nature?

Mentor Science & Technology pg. 87
Digital resources
Prism (if available)
Water spray bottle

Observation Oral questions Written assignments

Force and Energy

3.1 Light Applications of movement of light

By the end of the lesson, the learner should be able to:

Discuss the applications of movement of light through different media
Design a simple optical device based on light principles
Appreciate the importance of light in everyday life

Learners to research applications of light movement
Learners to identify how these applications are used in everyday life
Learners to explore how periscopes use the principles of reflection

How is the movement of light applied in everyday life?

Mentor Science & Technology pg. 87
Digital resources
Pictures of optical instruments

Observation Oral questions Written tests

Force and Energy

3.1 Light Making a periscope (Project)
3.1 Light Evaluating the periscope project

By the end of the lesson, the learner should be able to:

Make a functional periscope using locally available materials
Apply principles of light reflection in construction
Develop creativity in designing optical instruments

Learners to plan how to make a periscope
Learners to use locally available resources to make a functional periscope
Learners to test their periscopes and make necessary adjustments

How does a periscope work?

Mentor Science & Technology pg. 87
Cardboard/empty boxes
Small mirrors
Scissors
Glue/tape
Rulers
Completed periscopes
Evaluation forms

Observation Project assessment Peer evaluation