Mixtures, Elements and Compounds

Structure of the atom - General structure.

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

- Describe the general structure of an atom
- Identify the subatomic particles in an atom
- Show interest in exploring the structure of atoms

- Observe a diagram showing the structure of an atom
- Discuss in groups the general structure of atoms
- Identify the particles shown in the atom

How is the structure of the atom important?

- Mentor Integrated Science (pg. 1)
- Charts showing structure of an atom
- Digital resources
- Models of atoms

- Observation - Oral questions - Written assignments

Mixtures, Elements and Compounds

Structure of the atom - Meaning of an atom
Structure of the atom - Atomic number
Structure of the atom - Mass number
Structure of the atom - Representation of elements

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

- Explain the meaning of an atom
- Describe the characteristics of subatomic particles in an atom
- Appreciate the importance of understanding atomic structure

- Discuss in groups and find out the meaning of an atom
- Research on the differences between subatomic particles
- Share findings with classmates

How is the structure of the atom important?

- Mentor Integrated Science (pg. 2)
- Digital resources
- Charts showing structure of atoms
- Mentor Integrated Science (pg. 3)
- Periodic table
- Charts
- Mentor Integrated Science (pg. 4)
- Charts showing atomic structure
- Mentor Integrated Science (pg. 5)

- Observation - Oral questions - Written assignments

Mixtures, Elements and Compounds

Structure of the atom - Energy levels
Structure of the atom - Electron arrangement
Structure of the atom - Electron arrangements of elements
Structure of the atom - Energy level diagrams

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

- Identify energy levels in atoms
- Explain how electrons are organized in energy levels
- Show interest in understanding atomic structure

- Search for information on energy levels in atoms
- Discuss how energy levels are organized in atoms
- Study diagrams showing energy levels

How is the structure of the atom important?

- Mentor Integrated Science (pg. 6)
- Digital resources
- Charts showing energy levels
- Models
- Charts showing electron arrangements
- Mentor Integrated Science (pg. 7)
- Charts showing energy level diagrams

- Observation - Oral questions - Written assignments

Mixtures, Elements and Compounds

Structure of the atom - Electron arrangement practice
Structure of the atom - Modelling structures
Structure of the atom - Metals and non-metals identification

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

- Draw electron arrangements for more complex elements
- Write electron arrangements numerically
- Appreciate the systematic organization of electrons

- Complete practice exercises on electron arrangements
- Draw electron arrangements for various elements
- Share work with peers for feedback

How is the structure of the atom important?

- Mentor Integrated Science (pg. 8)
- Periodic table
- Digital resources
- Exercise sheets
- Locally available materials
- Sample models
- Mentor Integrated Science (pg. 9)
- Charts showing electron arrangements

- Observation - Written work - Peer assessment

Mixtures, Elements and Compounds

Structure of the atom - Metals and non-metals classification
Structure of the atom - Assessment
Metals and Alloys - Identifying metals
Metals and Alloys - Classification of materials

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

- Classify elements into metals and non-metals using electron arrangement
- Explain the relationship between electron arrangement and metallic properties
- Appreciate the diversity of elements

- Discuss classification of elements based on electron arrangements
- Complete tables to show metals and non-metals
- Match elements to their classifications

How is the structure of the atom important?

- Mentor Integrated Science (pg. 9)
- Digital resources
- Periodic table
- Charts showing classification of elements
- Mentor Integrated Science (pg. 10)
- Assessment items
- Models
- Mentor Integrated Science (pg. 15)
- Samples of metallic and non-metallic items
- Pictures
- Samples of different materials
- Worksheets

- Observation - Written work - Oral questions

Mixtures, Elements and Compounds

Metals and Alloys - Physical properties (state)
Metals and Alloys - Malleability
Metals and Alloys - Ductility

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

- Identify the state of different metals at room temperature
- Classify metals according to their state
- Show interest in investigating properties of metals

- Observe samples of common metals
- Record observations about the state of different metals
- Classify metals based on their state at room temperature

How are alloys important in day-to-day life?

- Mentor Integrated Science (pg. 16)
- Samples of different metals
- Digital resources
- Charts
- Mentor Integrated Science (pg. 17)
- Hammer or mallet
- Safety equipment
- Metal wires
- Pliers

- Observation - Practical work - Written assignments

Mixtures, Elements and Compounds

Metals and Alloys - Electrical conductivity
Metals and Alloys - Thermal conductivity
Metals and Alloys - Causes of rusting
Metals and Alloys - Effects of rusting

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

- Investigate the electrical conductivity of different metals
- Explain why metals conduct electricity
- Show interest in investigating electrical properties of metals

- Set up simple circuits to test electrical conductivity
- Record observations on how different metals conduct electricity
- Compare the electrical conductivity of different metals

How are alloys important in day-to-day life?

- Mentor Integrated Science (pg. 18)
- Simple circuit components
- Metal samples
- Digital resources
- Mentor Integrated Science (pg. 19)
- Heat source
- Candle wax or cooking fat
- Mentor Integrated Science (pg. 20)
- Iron nails
- Test tubes
- Water and oil
- Mentor Integrated Science (pg. 21)
- Pictures of rusted items
- Actual rusted items

- Observation - Practical work - Written reports

Mixtures, Elements and Compounds

Metals and Alloys - Control of rusting
Metals and Alloys - Investigating rusting
Metals and Alloys - Uses of metals
Metals and Alloys - Identifying alloys

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

- Describe methods of preventing rusting
- Explain how different methods prevent rusting
- Appreciate the importance of preventing rusting

- Search for information on ways of preventing rusting
- Discuss different methods of preventing rusting
- Share findings on rust prevention

How are alloys important in day-to-day life?

- Mentor Integrated Science (pg. 22)
- Digital resources
- Items with rust prevention
- Pictures
- Camera (if available)
- Observation sheets
- Rusted items
- Mentor Integrated Science (pg. 23)
- Pictures showing uses of metals
- Charts
- Mentor Integrated Science (pg. 24)
- Samples of items made from alloys

- Observation - Oral presentations - Written assignments

Mixtures, Elements and Compounds

Metals and Alloys - Alloys in locality
Metals and Alloys - Composition of alloys
Metals and Alloys - Uses of alloys

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

- Collect items made from alloys in the locality
- Identify the alloys used to make different items
- Appreciate the use of alloys in everyday items

- Walk around school to identify items made from alloys
- Collect or take photographs of items made from alloys
- Discuss why the items are made from alloys

How are alloys important in day-to-day life?

- Mentor Integrated Science (pg. 24)
- Items made from alloys
- Camera (if available)
- Digital resources
- Mentor Integrated Science (pg. 25)
- Pictures of different alloys
- Charts
- Mentor Integrated Science (pg. 26)
- Pictures showing uses of alloys

- Observation - Field activity - Project work

Mixtures, Elements and Compounds

Metals and Alloys - Observing alloy uses
Metals and Alloys - Assessment
Water hardness - Physical properties
Water hardness - Water sources

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

- Observe uses of alloys in the locality
- Explain advantages of using alloys for specific purposes
- Show interest in applications of alloys

- Walk around the school or locality to observe uses of alloys
- Record observations on uses of alloys
- Discuss findings with classmates

How are alloys important in day-to-day life?

- Mentor Integrated Science (pg. 27)
- Observation sheets
- Items made from alloys
- Digital resources
- Mentor Integrated Science (pg. 32)
- Assessment items
- Samples of metals and alloys
- Mentor Integrated Science (pg. 33)
- Water samples from different sources
- Containers for samples
- Charts
- Water samples

- Observation - Field activity - Written reports

Mixtures, Elements and Compounds

Water hardness - Colour and odour
Water hardness - Investigating color and odor
Water hardness - Boiling point
Water hardness - Hard and soft water

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

- Determine the colour and odour of clean water
- Distinguish between clean and dirty water
- Show interest in water quality

- Discuss the colour and odour of water from different sources
- Observe the colour of water in a clear container
- Compare the colour and odour of different water samples

Why is hard water preferred for drinking?

- Mentor Integrated Science (pg. 34)
- Water samples
- Clear containers
- White paper
- Worksheets
- Mentor Integrated Science (pg. 35)
- Thermometer
- Heat source
- Beaker
- Water
- Mentor Integrated Science (pg. 36)
- Soap
- Beakers
- Digital resources

- Observation - Practical work - Oral questions

Mixtures, Elements and Compounds

Water hardness - Differences
Water hardness - Advantages of soft water
Water hardness - Hard water advantages

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

- Explain what makes water hard or soft
- Identify sources of hard and soft water
- Appreciate differences in water properties

- Discuss what causes water hardness
- Identify sources of hard and soft water
- Compare characteristics of hard and soft water

Why is hard water preferred for drinking?

- Mentor Integrated Science (pg. 37)
- Digital resources
- Charts
- Water samples
- Mentor Integrated Science (pg. 38)
- Debate materials
- Mentor Integrated Science (pg. 39)
- Research materials

- Observation - Oral presentations - Written assignments

Mixtures, Elements and Compounds

Water hardness - Methods of softening
Water hardness - Boiling method
Water hardness - Chemical method
Water hardness - Distillation method

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

- Identify methods of softening hard water
- Explain different water softening processes
- Show interest in water treatment methods

- Search for information on methods of softening hard water
- Discuss different methods of water softening
- Summarize findings on water softening methods

Why is hard water preferred for drinking?

- Mentor Integrated Science (pg. 40)
- Digital resources
- Charts
- Water samples
- Mentor Integrated Science (pg. 41)
- Hard water samples
- Heat source
- Beakers
- Soap
- Mentor Integrated Science (pg. 42)
- Washing soda
- Mentor Integrated Science (pg. 44)
- Distillation apparatus

- Observation - Oral presentations - Written assignments

Mixtures, Elements and Compounds
Living Things and their Environment
Living Things and their Environment

Water hardness - Applications
Nutrition in plants - External structure of the leaf
Nutrition in plants - Functions of leaf parts

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

- Identify applications of hard and soft water in daily life
- Match water types to their appropriate uses
- Appreciate the different uses of water based on hardness

- Search for information on applications of hard and soft water
- Discuss practical uses of different water types
- Match water types to specific applications

Why is hard water preferred for drinking?

- Mentor Integrated Science (pg. 45)
- Digital resources
- Charts
- Pictures of water applications
- Mentor Integrated Science (pg. 49)
- Charts showing external structure of leaf
- Fresh leaves
- Mentor Integrated Science (pg. 50)

- Observation - Oral presentations - Written assignments

Living Things and their Environment

Nutrition in plants - Observing leaf structures
Nutrition in plants - Leaf adaptations for photosynthesis
Nutrition in plants - Internal structure of the leaf
Nutrition in plants - Leaf tissues for photosynthesis

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

- Collect and observe different types of leaves
- Identify external parts of leaves using a hand lens
- Draw and label parts of leaves

- Walk around the school compound to collect leaf samples
- Use a hand lens to observe external parts of leaves
- Draw and label parts of leaves observed
- Compare leaves with those identified previously

What is the importance of photosynthesis in nature?

- Mentor Integrated Science (pg. 50)
- Hand lens
- Fresh leaves
- Drawing materials
- Mentor Integrated Science (pg. 51)
- Digital resources
- Charts showing leaf adaptations
- Reference materials
- Mentor Integrated Science (pg. 52)
- Charts showing internal structure of leaf
- Models
- Mentor Integrated Science (pg. 53)
- Charts showing internal leaf tissues

- Observation - Practical work - Drawings

Living Things and their Environment

Nutrition in plants - Internal adaptations for photosynthesis
Nutrition in plants - Structure of chloroplast
Nutrition in plants - Chloroplast adaptations
Nutrition in plants - Process of photosynthesis

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

- Describe how internal leaf structures are adapted for photosynthesis
- Relate specific adaptations to photosynthetic functions
- Show interest in plant adaptations

- Discuss how internal leaf structures are adapted for photosynthesis
- Search for information about internal leaf adaptations
- Make summary notes on internal leaf adaptations

What is the importance of photosynthesis in nature?

- Mentor Integrated Science (pg. 54)
- Digital resources
- Charts showing internal leaf adaptations
- Reference materials
- Mentor Integrated Science (pg. 55)
- Charts showing structure of chloroplast
- Models
- Mentor Integrated Science (pg. 56)
- Photomicrographs of chloroplasts
- Charts showing chloroplast structure
- Mentor Integrated Science (pg. 57)
- Charts showing photosynthesis process

- Observation - Written assignments - Oral presentations

Living Things and their Environment

Nutrition in plants - Conditions for photosynthesis
Nutrition in plants - Stages of photosynthesis
Nutrition in plants - Testing for starch

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

- Identify conditions necessary for photosynthesis
- Explain the role of each condition in photosynthesis
- Appreciate the complexity of photosynthesis

- Search for information on conditions necessary for photosynthesis
- Discuss the role of each condition in photosynthesis
- Make summary notes on conditions for photosynthesis

What is the importance of photosynthesis in nature?

- Mentor Integrated Science (pg. 58)
- Charts showing conditions for photosynthesis
- Digital resources
- Reference materials
- Mentor Integrated Science (pg. 59)
- Charts showing stages of photosynthesis
- Mentor Integrated Science (pg. 60)
- Apparatus for testing starch in leaves
- Chemicals (iodine solution)
- Fresh leaves
- Heat source

- Observation - Written assignments - Oral presentations

Living Things and their Environment

Nutrition in plants - Light and photosynthesis
Nutrition in plants - Carbon (IV) oxide and photosynthesis
Nutrition in plants - Chlorophyll and photosynthesis
Nutrition in plants - Importance of photosynthesis

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

- Investigate whether light is necessary for photosynthesis
- Control variables in an experiment
- Practice safety measures when conducting experiments

- Design an experiment to investigate the effect of light on photosynthesis
- Set up the experiment with appropriate controls
- Record and analyze results
- Draw conclusions from the experiment

What is the importance of photosynthesis in nature?

- Mentor Integrated Science (pg. 61)
- Potted plants
- Aluminum foil/carbon paper
- Apparatus for testing starch
- Chemicals
- Mentor Integrated Science (pg. 62)
- Conical flasks with corks
- Potassium hydroxide solution
- Mentor Integrated Science (pg. 63)
- Variegated leaves
- Heat source
- Mentor Integrated Science (pg. 64)
- Digital resources
- Charts showing importance of photosynthesis
- Reference materials

- Observation - Practical work - Written reports

Living Things and their Environment

Nutrition in plants - Environmental impact of photosynthesis
Nutrition in animals - Modes of nutrition in animals
Nutrition in animals - Parasitic mode of nutrition

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

- Describe how photosynthesis affects carbon (IV) oxide levels
- Explain the role of photosynthesis in reducing global warming
- Value plants as contributors to environmental balance

- Discuss how photosynthesis affects the carbon cycle
- Explain how plants help reduce carbon (IV) oxide in the atmosphere
- Relate photosynthesis to environmental conservation

What is the importance of photosynthesis in nature?

- Mentor Integrated Science (pg. 65)
- Digital resources
- Charts showing carbon cycle
- Reference materials
- Mentor Integrated Science Grade 9 (pg. 73)
- Digital devices
- Pictures of animals with different feeding habits
- Mentor Integrated Science Grade 9 (pg. 74)
- Pictures of parasitic animals

- Observation - Written assignments - Oral presentations

Living Things and their Environment

Nutrition in animals - Saprophytic mode of nutrition
Nutrition in animals - Symbiotic mode of nutrition
Nutrition in animals - Holozoic mode of nutrition
Nutrition in animals - Types of teeth (structure)

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

- Explain saprophytic mode of nutrition
- Identify organisms that exhibit saprophytic mode of nutrition
- Value the role of saprophytes in nutrient cycling

- Observe pictures/videos of saprophytic organisms
- Discuss the characteristics of saprophytic organisms
- Research on examples of saprophytic organisms
- Discuss the importance of saprophytes in the ecosystem

How do different animals feed?

- Mentor Integrated Science Grade 9 (pg. 74)
- Digital devices
- Pictures/videos of saprophytic organisms
- Mentor Integrated Science Grade 9 (pg. 75)
- Pictures of symbiotic relationships
- Pictures of animals with holozoic feeding
- Mentor Integrated Science Grade 9 (pg. 76)
- Dental models or charts

- Observation - Oral questions - Written assignments - Group discussions

Living Things and their Environment

Nutrition in animals - Types of teeth (functions)
Nutrition in animals - Dentition in animals (homodont and heterodont)
Nutrition in animals - Dentition in carnivores

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

- Describe the functions of different types of teeth
- Relate the structure of teeth to their functions
- Show interest in understanding tooth function

- Discuss the functions of different types of teeth
- Using models, demonstrate how different teeth perform their functions
- Make presentations on the relationship between structure and function of teeth

How is food digested in the human body?

- Mentor Integrated Science Grade 9 (pg. 77)
- Dental models or charts
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 78)
- Pictures of animal teeth
- Mentor Integrated Science Grade 9 (pg. 79)
- Pictures/models of carnivore teeth

- Observation - Oral questions - Written assignments - Presentations

Living Things and their Environment

Nutrition in animals - Dentition in herbivores
Nutrition in animals - Dentition in omnivores

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

- Describe the dentition of herbivores
- Identify adaptations of herbivore teeth to their feeding habits
- Show interest in understanding herbivore dentition

- Observe pictures/models of herbivore teeth
- Discuss the adaptations of herbivore teeth to their feeding habits
- Research on examples of herbivores and their dentition
- Make presentations on herbivore dentition

How is food digested in the human body?

- Mentor Integrated Science Grade 9 (pg. 80)
- Pictures/models of herbivore teeth
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 81)
- Pictures/models of omnivore teeth

- Observation - Oral questions - Written assignments - Presentations

Living Things and their Environment

Nutrition in animals - Process of digestion (ingestion)
Nutrition in animals - Process of digestion (digestion)

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

- Explain the process of ingestion in human beings
- Describe the role of teeth and salivary glands in ingestion
- Appreciate the complexity of the digestive process

- Discuss the process of ingestion
- Using charts/models, identify structures involved in ingestion
- Demonstrate the role of teeth and saliva in ingestion
- Research on the process of ingestion

How is food digested in the human body?

- Mentor Integrated Science Grade 9 (pg. 82)
- Charts/models of the digestive system
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 83)

- Observation - Oral questions - Written assignments - Demonstrations

Living Things and their Environment

Nutrition in animals - Process of digestion (absorption)
Nutrition in animals - Process of digestion (assimilation)

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

- Explain the process of absorption in human beings
- Identify structures involved in absorption and their adaptations
- Appreciate the efficiency of the absorption process

- Discuss the process of absorption in the small intestine
- Using charts/models, identify structures involved in absorption
- Research on the adaptations of the small intestine for absorption
- Present findings to the class

How is food digested in the human body?

- Mentor Integrated Science Grade 9 (pg. 83)
- Charts/models of the digestive system
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 84)
- Charts of the circulatory system

- Observation - Oral questions - Written assignments - Presentations

Living Things and their Environment

Nutrition in animals - Process of digestion (egestion)
Reproduction in plants - Parts of a flower

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

- Explain the process of egestion in human beings
- Identify structures involved in egestion and their functions
- Appreciate the importance of proper waste elimination

- Discuss the process of egestion
- Using charts/models, identify structures involved in egestion
- Research on the importance of fiber in egestion
- Present findings to the class

How is food digested in the human body?

- Mentor Integrated Science Grade 9 (pg. 84)
- Charts/models of the large intestine
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 86)
- Fresh flowers
- Hand lens
- Drawing materials

- Observation - Oral questions - Written assignments - Presentations

Living Things and their Environment

Reproduction in plants - Functions of parts of a flower
Reproduction in plants - Meaning of pollination
Reproduction in plants - Types of pollination (self-pollination)
Reproduction in plants - Types of pollination (cross-pollination)

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

- Outline the functions of different parts of a flower
- Relate the structure of flower parts to their functions
- Show interest in understanding flower parts

- Discuss in groups the functions of different parts of a flower
- Use models/charts to explain how the structure of flower parts relates to their functions
- Create presentations on flower parts and their functions

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 87)
- Flower models or charts
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 88)
- Videos on pollination
- Charts showing pollination
- Mentor Integrated Science Grade 9 (pg. 89)
- Charts showing self-pollination
- Charts showing cross-pollination

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

Reproduction in plants - Agents of pollination (insects)
Reproduction in plants - Agents of pollination (birds, other animals)
Reproduction in plants - Agents of pollination (wind, water)

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

- Identify insects as agents of pollination
- Explain how insects aid in pollination
- Appreciate the role of insects in plant reproduction

- Observe pictures/videos of insects as pollinators
- Discuss how insects aid in pollination
- Take a field excursion to observe insects pollinating flowers
- Record observations and present to class

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 90)
- Pictures/videos of insect pollinators
- Digital devices
- Pictures/videos of bird and animal pollinators
- Mentor Integrated Science Grade 9 (pg. 91)
- Pictures/videos of wind and water pollination

- Observation - Field notes assessment - Oral questions - Written assignments

Living Things and their Environment

Reproduction in plants - Adaptations of flowers to insect pollination
Reproduction in plants - Adaptations of flowers to wind pollination

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

- Identify adaptations of flowers to insect pollination
- Explain how these adaptations facilitate insect pollination
- Appreciate the relationship between structure and function

- Observe insect-pollinated flowers
- Identify and discuss adaptations to insect pollination
- Compare different insect-pollinated flowers
- Create presentations on adaptations to insect pollination

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 92)
- Fresh insect-pollinated flowers
- Pictures of insect-pollinated flowers
- Hand lens
- Mentor Integrated Science Grade 9 (pg. 93)
- Fresh wind-pollinated flowers
- Pictures of wind-pollinated flowers

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

Reproduction in plants - Effects of agrochemicals on pollinating agents
Reproduction in plants - Fertilization in flowering plants

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

- Explain the effects of agrochemicals on pollinating agents
- Describe how these effects impact plant reproduction
- Show concern for the impact of human activities on pollinators

- Research on the effects of agrochemicals on pollinating agents
- Discuss how these effects impact plant reproduction
- Debate on the use of agrochemicals and their effects on pollination
- Present findings to class

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 94)
- Digital devices
- Articles on effects of agrochemicals on pollinators
- Mentor Integrated Science Grade 9 (pg. 95)
- Videos on fertilization in plants
- Charts showing fertilization process

- Observation - Oral questions - Written assignments - Debate assessment

Living Things and their Environment

Reproduction in plants - Seed formation in flowering plants
Reproduction in plants - Fruit formation in flowering plants

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

- Explain the process of seed formation in flowering plants
- Identify the changes that occur during seed formation
- Value the importance of seeds in plant reproduction

- Watch videos on seed formation
- Use diagrams/charts to illustrate seed formation
- Observe different stages of seed development if available
- Discuss the changes that occur during seed formation

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 96)
- Videos on seed formation
- Charts showing seed formation
- Samples of seeds at different developmental stages
- Mentor Integrated Science Grade 9 (pg. 97)
- Videos on fruit formation
- Charts showing fruit formation
- Samples of fruits at different developmental stages

- Observation - Oral questions - Written assignments - Drawing assessment

Living Things and their Environment

Reproduction in plants - Fruit and seed dispersal (meaning and importance)
Reproduction in plants - Modes of fruit and seed dispersal (animals)

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

- Explain the meaning of fruit and seed dispersal
- Describe the importance of fruit and seed dispersal
- Value the role of dispersal in plant reproduction

- Discuss the meaning of fruit and seed dispersal
- Research on the importance of fruit and seed dispersal
- Debate on what would happen if seeds were not dispersed
- Present findings to class

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 98)
- Digital devices
- Charts showing seed dispersal
- Mentor Integrated Science Grade 9 (pg. 99)
- Samples of animal-dispersed fruits and seeds
- Pictures of animal dispersal

- Observation - Oral questions - Written assignments - Debate assessment

Living Things and their Environment

Reproduction in plants - Modes of fruit and seed dispersal (wind, water)
Reproduction in plants - Modes of fruit and seed dispersal (self-dispersal mechanisms)

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

- Explain wind and water dispersal of fruits and seeds
- Identify fruits and seeds dispersed by wind and water
- Show interest in different dispersal mechanisms

- Collect and observe fruits and seeds dispersed by wind and water
- Discuss the adaptations of these fruits and seeds for wind and water dispersal
- Research on examples of wind and water dispersed fruits and seeds
- Create presentations on wind and water dispersal

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 100)
- Samples of wind and water-dispersed fruits and seeds
- Digital devices
- Pictures of wind and water dispersal
- Mentor Integrated Science Grade 9 (pg. 101)
- Samples of self-dispersed fruits and seeds
- Pictures of self-dispersal mechanisms

- Observation - Oral questions - Written assignments - Collection assessment

Living Things and their Environment

Reproduction in plants - Adaptations of fruits and seeds for dispersal

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

- Identify adaptations of fruits and seeds for different dispersal methods
- Categorize fruits and seeds based on their dispersal methods
- Value the relationship between structure and function

- Collect and observe different fruits and seeds
- Identify adaptations for different dispersal methods
- Categorize the fruits and seeds based on their dispersal methods
- Create presentations on adaptations for dispersal

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 102)
- Various fruit and seed samples
- Hand lens
- Sorting trays

- Observation - Oral questions - Classification activities - Written assignments

Living Things and their Environment

Reproduction in plants - Role of flowers in nature
The interdependence of life - Components of the environment
The interdependence of life - Biotic factors (predation)
The interdependence of life - Biotic factors (parasitism)

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

- Explain the role of flowers in nature
- Describe the ecological importance of flowers
- Appreciate the value of flowers in the ecosystem

- Discuss the role of flowers in nature
- Research on the ecological importance of flowers
- Debate on the value of flowers in the ecosystem
- Create presentations on the role of flowers in nature

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 105)
- Digital devices
- Pictures of different flowers and their roles
- Charts on flower roles in ecosystems
- Mentor Integrated Science Grade 9 (pg. 107)
- School grounds
- Notebooks
- Mentor Integrated Science Grade 9 (pg. 108)
- Pictures/videos of predator-prey relationships
- Mentor Integrated Science Grade 9 (pg. 109)
- Pictures/videos of parasitic relationships

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

The interdependence of life - Biotic factors (symbiosis)
The interdependence of life - Biotic factors (competition)
The interdependence of life - Biotic factors (saprophytic)

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

- Explain symbiosis as a biotic interaction
- Identify examples of symbiotic relationships
- Appreciate the importance of symbiotic relationships

- Discuss symbiosis as a biotic interaction
- Observe pictures/videos of symbiotic relationships
- Research on examples of symbiotic relationships
- Create presentations on symbiotic relationships

What is the role of living and non-living factors in environments?

- Mentor Integrated Science Grade 9 (pg. 110)
- Pictures/videos of symbiotic relationships
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 111)
- Pictures/videos of competitive relationships
- Mentor Integrated Science Grade 9 (pg. 112)
- Pictures/videos of saprophytic organisms

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

The interdependence of life - Abiotic factors (temperature)
The interdependence of life - Abiotic factors (light)
The interdependence of life - Abiotic factors (water)

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

- Explain how temperature affects living organisms
- Describe adaptations of organisms to different temperatures
- Value the importance of temperature in ecosystems

- Discuss how temperature affects living organisms
- Research on adaptations of organisms to different temperatures
- Observe pictures/videos of organisms in different temperature zones
- Present findings to class

What is the role of living and non-living factors in environments?

- Mentor Integrated Science Grade 9 (pg. 113)
- Thermometers
- Pictures/videos of organisms in different temperature zones
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 114)
- Light meters (if available)
- Plants grown under different light conditions
- Mentor Integrated Science Grade 9 (pg. 115)
- Pictures of plants from arid and wet environments
- Water samples

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

The interdependence of life - Abiotic factors (wind)
The interdependence of life - Abiotic factors (atmospheric pressure, pH and salinity)

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

- Explain how wind affects living organisms
- Describe adaptations of organisms to windy environments
- Appreciate the role of wind in ecosystems

- Discuss how wind affects living organisms
- Research on adaptations of organisms to windy environments
- Observe plants from windy and sheltered environments
- Present findings to class

What is the role of living and non-living factors in environments?

- Mentor Integrated Science Grade 9 (pg. 116)
- Pictures of plants from windy and sheltered environments
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 117)
- pH testing equipment (if available)
- Water samples of different salinity

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

The interdependence of life - Energy flow (food chains)
The interdependence of life - Energy flow (food webs)

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

- Explain the concept of food chains
- Construct simple food chains
- Appreciate energy flow in ecosystems

- Discuss the concept of food chains
- Identify producers and consumers in the environment
- Construct simple food chains using organisms observed in the local environment
- Present food chains to class

What is the role of living and non-living factors in environments?

- Mentor Integrated Science Grade 9 (pg. 118)
- Charts showing food chains
- Pictures of local organisms
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 119)
- Charts showing food webs

- Observation - Oral questions - Food chain construction assessment - Written assignments

Living Things and their Environment

The interdependence of life - Human activities (habitat change)
The interdependence of life - Human activities (hunting and poaching)

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

- Explain how human activities lead to habitat change
- Describe the effects of habitat change on ecosystems
- Show concern for habitat conservation

- Discuss human activities that lead to habitat change
- Research on the effects of habitat change on ecosystems
- Debate on the balance between development and conservation
- Present findings to class

What is the role of living and non-living factors in environments?

- Mentor Integrated Science Grade 9 (pg. 120)
- Pictures showing habitat change
- Digital devices
- Newspaper articles
- Mentor Integrated Science Grade 9 (pg. 121)
- Pictures related to hunting and poaching

- Observation - Oral questions - Debate assessment - Written assignments

Living Things and their Environment

The interdependence of life - Human activities (introduction of new living things)

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

- Explain the effects of introducing new species to ecosystems
- Describe examples of invasive species and their impacts
- Appreciate the importance of biodiversity conservation

- Discuss the effects of introducing new species to ecosystems
- Research on examples of invasive species and their impacts
- Debate on the management of invasive species
- Present findings to class

What is the role of living and non-living factors in environments?

- Mentor Integrated Science Grade 9 (pg. 122)
- Pictures of invasive species
- Digital devices
- Newspaper articles

- Observation - Oral questions - Debate assessment - Written assignments

Living Things and their Environment
Force and Energy

The interdependence of life - Interrelationships in Kenya national parks
The interdependence of life - Role of decomposers in ecosystems
Curved mirrors - Types of curved mirrors

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

- Describe interrelationships in Kenya national parks
- Construct food chains and food webs of Kenya national parks
- Value the importance of national parks for biodiversity

- Research on interrelationships in Kenya national parks
- Construct food chains and food webs of Kenya national parks
- Discuss the importance of national parks for biodiversity
- Present findings to class

What is the role of living and non-living factors in environments?

- Mentor Integrated Science Grade 9 (pg. 123)
- Pictures of Kenya national parks
- Digital devices
- Maps of Kenya national parks
- Mentor Integrated Science Grade 9 (pg. 125)
- Pictures/videos of decomposers
- Materials to create models
- Mentor Integrated Science (pg. 133)
- Shiny spoons
- Digital resources on curved mirrors

- Observation - Oral questions - Food web construction assessment - Presentations

Force and Energy

Curved mirrors - Terms associated with concave mirrors
Curved mirrors - Determining focal length of concave mirror
Curved mirrors - Ray diagrams for concave mirrors
Curved mirrors - Image formation by concave mirrors (beyond C)

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

- Identify the terms associated with concave mirrors
- Describe the structure of a concave mirror
- Show interest in understanding the properties of concave mirrors

- Discuss the terms associated with concave mirrors (aperture, center of curvature, pole, principal axis, principal focus, focal length)
- Draw and label the parts of a concave mirror
- Watch animations explaining the terms associated with concave mirrors

How is the structure of the concave mirror important in image formation?

- Mentor Integrated Science (pg. 135)
- Digital resources
- Charts showing the structure of a concave mirror
- Mentor Integrated Science (pg. 137)
- Concave mirrors
- Rulers
- White screens or plain paper
- Mirror holders
- Mentor Integrated Science (pg. 140)
- Plain paper
- Pencils
- Drawing instruments
- Mentor Integrated Science (pg. 143)

- Observation - Drawings and labels - Written assignments

Force and Energy

Curved mirrors - Image formation by concave mirrors (at C)
Curved mirrors - Image formation by concave mirrors (between C and F)
Curved mirrors - Image formation by concave mirrors (at F)

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

- Draw ray diagrams to locate images when objects are placed at C
- Describe the characteristics of images formed
- Show curiosity in investigating image formation

- Draw ray diagrams to locate images when objects are placed at the center of curvature
- Determine the characteristics of images formed
- Verify the results through practical observation

What are the characteristics of images formed when objects are placed at the center of curvature?

- Mentor Integrated Science (pg. 144)
- Concave mirrors
- Drawing instruments
- Digital resources
- Mentor Integrated Science (pg. 145)
- Mentor Integrated Science (pg. 147)

- Observation - Ray diagram assessment - Written descriptions

Force and Energy

Curved mirrors - Image formation by concave mirrors (between F and P)
Curved mirrors - Characteristics of images formed by concave mirrors
Curved mirrors - Locating images formed by concave mirrors experimentally
Curved mirrors - Terms associated with convex mirrors

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

- Draw ray diagrams to locate images when objects are placed between F and P
- Describe the characteristics of images formed
- Appreciate the practical applications of this image formation

- Draw ray diagrams to locate images when objects are placed between the principal focus and the pole
- Determine the characteristics of images formed
- Discuss practical applications like magnifying mirrors

What are the characteristics of images formed when objects are placed between the principal focus and the pole?

- Mentor Integrated Science (pg. 148)
- Concave mirrors
- Drawing instruments
- Digital resources
- Mentor Integrated Science (pg. 149)
- Previous ray diagrams
- Mentor Integrated Science (pg. 150)
- Mirror holders
- Screens
- Candles or light sources
- Rulers
- Mentor Integrated Science (pg. 153)
- Convex mirrors
- Charts showing the structure of convex mirrors

- Observation - Ray diagram assessment - Written descriptions

Force and Energy

Curved mirrors - Ray diagrams for convex mirrors
Curved mirrors - Image formation by convex mirrors
Curved mirrors - Locating images formed by convex mirrors experimentally
Curved mirrors - Applications of curved mirrors (concave mirrors)

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

- Draw conventional ray diagrams for convex mirrors
- Identify the four special rays used in ray diagrams for convex mirrors
- Show interest in the ray diagram approach to locate images

- Draw conventional ray diagrams of convex mirrors
- Identify and draw the four types of rays used in ray diagrams for convex mirrors
- Analyze how these rays help locate images

How do ray diagrams help in locating images formed by convex mirrors?

- Mentor Integrated Science (pg. 154)
- Plain paper
- Rulers
- Pencils
- Drawing instruments
- Mentor Integrated Science (pg. 156)
- Convex mirrors
- Digital resources
- Mentor Integrated Science (pg. 159)
- Mirror holders
- Objects of various sizes
- Mentor Integrated Science (pg. 161)
- Concave mirrors
- Examples of devices using concave mirrors

- Observation - Drawing assessment - Written assignments

Force and Energy

Curved mirrors - Applications of curved mirrors (convex mirrors)
Curved mirrors - Applications of curved mirrors (parabolic reflectors)
Waves - Meaning of waves

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

- Identify applications of convex mirrors in daily life
- Explain how the properties of convex mirrors make them suitable for specific applications
- Value the role of curved mirrors in enhancing safety and efficiency

- Research and discuss applications of convex mirrors (driving mirrors, security mirrors, eliminating blind spots)
- Explain how the wide field of view property of convex mirrors relates to their applications
- Observe examples of convex mirrors in use

What are the practical applications of convex mirrors in our daily lives?

- Mentor Integrated Science (pg. 162)
- Convex mirrors
- Digital resources
- Examples of devices using convex mirrors
- Mentor Integrated Science (pg. 163)
- Examples of devices using parabolic reflectors
- Mentor Integrated Science (pg. 166)
- Basin with water
- Small objects to drop in water

- Observation - Oral presentations - Written assignments

Force and Energy

Waves - Generating waves in nature
Waves - Transverse and longitudinal waves
Waves - Classifying waves
Waves - Amplitude and wavelength

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

- Describe how to generate different types of waves
- Differentiate between mechanical and electromagnetic waves
- Appreciate the presence of waves in everyday phenomena

- Demonstrate generation of waves using a rope
- Generate water waves in a basin
- Observe how sound waves are generated using a speaker
- Discuss the difference between mechanical and electromagnetic waves

How are different types of waves generated in nature?

- Mentor Integrated Science (pg. 167)
- Rope
- Basin with water
- Speakers
- Rice or sand
- Mentor Integrated Science (pg. 169)
- Slinky springs
- Cloth pieces for marking
- Digital resources showing wave motion
- Mentor Integrated Science (pg. 171)
- Digital resources
- Charts showing different wave types
- Wave demonstration equipment
- Mentor Integrated Science (pg. 172)
- Wave diagrams
- Rulers
- Graph paper
- Digital simulations

- Observation - Practical assessment - Written reports

Force and Energy

Waves - Frequency and period
Waves - Practical: Period of waves
Waves - Wave speed

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

- Define frequency and period of waves
- Describe the relationship between frequency and period
- Show interest in quantitative aspects of wave motion

- Search for the meaning of frequency and period using digital or print resources
- Discuss the motion of a mass on a string to illustrate oscillation
- Create displacement-time graphs for oscillating objects
- Establish the relationship between frequency and period

What is the relationship between frequency and period in wave motion?

- Mentor Integrated Science (pg. 173)
- Digital resources
- String and masses
- Stopwatches
- Graph paper
- Mentor Integrated Science (pg. 175)
- Stands with clamps
- Strings
- Masses
- Mentor Integrated Science (pg. 176)
- Calculators
- Wave speed problems
- Wave demonstration equipment

- Observation - Practical assessment - Graph analysis - Written assignments

Force and Energy

Waves - Phase of waves
Waves - Oscillation in phase
Waves - Oscillation out of phase
Waves - Characteristics of waves: straight-line motion

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

- Explain the concept of phase in wave motion
- Differentiate between in-phase and out-of-phase oscillations
- Appreciate the mathematical precision in describing wave relationships

- Conduct experiments with identical pendulums oscillating in phase
- Observe pendulums with same frequency but different amplitudes
- Compare pendulums oscillating in opposite directions
- Create and analyze displacement-time graphs for different phase relationships

What determines whether waves are in phase or out of phase?

- Mentor Integrated Science (pg. 178)
- Stands with clamps
- Strings and identical masses
- Stopwatches
- Graph paper
- Mentor Integrated Science (pg. 179)
- Pendulum apparatus
- Measuring equipment
- Mentor Integrated Science (pg. 181)
- Mentor Integrated Science (pg. 183)
- Ripple tank
- Water
- Paper for tracing
- Rulers

- Observation - Practical assessment - Graph interpretation - Written reports

Force and Energy

Waves - Characteristics of waves: reflection
Waves - Characteristics of waves: bending
Waves - Characteristics of waves: diffraction
Waves - Remote sensing in relation to waves
Waves - Transmission, absorption and reflection in remote sensing
Waves - Applications of waves in everyday life

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

- Demonstrate reflection of waves in a ripple tank
- Verify that waves obey the laws of reflection
- Appreciate that various wave types follow similar behavior patterns

- Set up a ripple tank with barriers to demonstrate wave reflection
- Observe reflection patterns with barriers at different angles
- Compare the incident and reflected waves
- Verify the laws of reflection for water waves

How are waves reflected at barriers?

- Mentor Integrated Science (pg. 184)
- Ripple tank
- Water
- Metal strips as reflectors
- Paper for tracing wave patterns
- Mentor Integrated Science (pg. 185)
- Glass plate to create shallow region
- Mentor Integrated Science (pg. 186)
- Metal barriers with adjustable gaps
- Mentor Integrated Science (pg. 187)
- Digital resources
- Diagrams of remote sensing processes
- Video clips on remote sensing
- Mentor Integrated Science (pg. 188)
- Examples of remote sensing data
- Mentor Integrated Science (pg. 190)
- Examples of wave-based technologies
- Video clips on wave applications

- Observation - Practical assessment - Drawing analysis - Written reports