Living Things and their Environment

Nutrition in animals - Process of digestion (ingestion)

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

- Observation - Oral questions - Written assignments - Demonstrations

Living Things and their Environment

Nutrition in animals - Process of digestion (digestion)
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 digestion in human beings
- Identify organs involved in digestion and their functions
- Appreciate the importance of proper digestion

- 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 digestion in different parts of the digestive system
- Using charts/models, identify organs involved in digestion
- Research on mechanical and chemical digestion
- Present findings to the class
- 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. 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)

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

- Observation - Oral questions - Written assignments - Presentations

Living Things and their Environment

Reproduction in plants - Parts of a flower
Reproduction in plants - Functions of parts of a flower

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

- Identify external parts of a flower
- Draw and label parts of a flower
- Appreciate the complexity of flower structure

- Collect and observe flowers from the school compound
- Identify and name the parts of the flowers
- Draw and label the parts of a flower
- Discuss the functions of the parts of a flower

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 86)
- Fresh flowers
- Hand lens
- Drawing materials
- Mentor Integrated Science Grade 9 (pg. 87)
- Flower models or charts
- Digital devices

- Observation - Drawing assessment - Oral questions - Written assignments

Living Things and their Environment

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:

- Explain the meaning of pollination
- Describe the importance of pollination in plant reproduction
- Appreciate the role of pollination in plant reproduction

- Discuss the meaning of pollination
- Watch videos on pollination process
- Research on the importance of pollination in plant reproduction
- Present findings to the class

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 88)
- Digital devices
- 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)
Reproduction in plants - Adaptations of flowers to insect pollination

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

- Identify wind and water as agents of pollination
- Explain how wind and water aid in pollination
- Show interest in various pollination mechanisms

- 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
- Observe pictures/videos of wind and water pollination
- Discuss how wind and water aid in pollination
- Research on examples of flowers pollinated by wind and water
- Present findings 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
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 92)
- Fresh insect-pollinated flowers
- Pictures of insect-pollinated flowers
- Hand lens

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

Living Things and their Environment

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 wind pollination
- Explain how these adaptations facilitate wind pollination
- Value the diversity in plant adaptations

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

How does reproduction in plants occur?

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

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

Reproduction in plants - Effects of agrochemicals on pollinating agents

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

- Observation - Oral questions - Written assignments - Debate assessment

Living Things and their Environment

Reproduction in plants - Fertilization in flowering plants
Reproduction in plants - Seed formation in flowering plants

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

- Explain the process of fertilization in flowering plants
- Describe the journey of pollen tube to the ovule
- Appreciate the complexity of plant reproduction

- Watch videos on fertilization in flowering plants
- Use diagrams/charts to illustrate the fertilization process
- Discuss the journey of the pollen tube to the ovule
- Create presentations on fertilization in flowering plants

How does reproduction in plants occur?

- Mentor Integrated Science Grade 9 (pg. 95)
- Videos on fertilization in plants
- Charts showing fertilization process
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 96)
- Videos on seed formation
- Charts showing seed formation
- Samples of seeds at different developmental stages

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

Reproduction in plants - Fruit formation in flowering plants
Reproduction in plants - Fruit and seed dispersal (meaning and importance)

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

- Explain the process of fruit formation in flowering plants
- Identify the changes that occur during fruit formation
- Appreciate the role of fruits in plant reproduction

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

- Watch videos on fruit formation
- Use diagrams/charts to illustrate fruit formation
- Observe different stages of fruit development if available
- Discuss the changes that occur during fruit formation
- 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. 97)
- Videos on fruit formation
- Charts showing fruit formation
- Samples of fruits at different developmental stages
- Mentor Integrated Science Grade 9 (pg. 98)
- Digital devices
- Charts showing seed dispersal

- Observation - Oral questions - Written assignments - Drawing assessment
- Observation - Oral questions - Written assignments - Debate assessment

Living Things and their Environment

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

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

- Explain animal dispersal of fruits and seeds
- Identify fruits and seeds dispersed by animals
- Appreciate the role of animals in plant reproduction

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

How does reproduction in plants occur?

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

- Observation - Oral questions - Written assignments - Collection assessment

Living Things and their Environment

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

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

- Observation - Oral questions - Written assignments - Collection assessment

Living Things and their Environment

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 self-dispersal mechanisms in fruits and seeds
- Identify fruits and seeds that use self-dispersal mechanisms
- Appreciate the diversity in dispersal mechanisms

- Observe fruits that use self-dispersal mechanisms
- Discuss the adaptations of these fruits and seeds for self-dispersal
- Research on examples of self-dispersed fruits and seeds
- Create presentations on self-dispersal mechanisms

How does reproduction in plants occur?

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

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

Reproduction in plants - Adaptations of fruits and seeds for dispersal
Reproduction in plants - Role of flowers in nature
The interdependence of life - Components of the environment
The interdependence of life - Biotic factors (predation)

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

- Identify biotic and abiotic components of the environment
- Explain the interrelationships between organisms and their environment
- Appreciate the interdependence in ecosystems

- 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
- Observe different components of the environment in the school compound
- Identify biotic and abiotic components
- Discuss interrelationships between organisms and their environment
- Record observations in a table

How does reproduction in plants occur?
What is the role of living and non-living factors in environments?

- Mentor Integrated Science Grade 9 (pg. 102)
- Various fruit and seed samples
- Hand lens
- Sorting trays
- 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
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 108)
- Pictures/videos of predator-prey relationships

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

Living Things and their Environment

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

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

- Explain parasitism as a biotic interaction
- Identify examples of parasitic relationships
- Value the diversity of relationships in ecosystems

- Discuss parasitism as a biotic interaction
- Observe pictures/videos of parasitic relationships
- Research on examples of parasitic relationships
- Present findings to class

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

- Mentor Integrated Science Grade 9 (pg. 109)
- Pictures/videos of parasitic relationships
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 110)
- Pictures/videos of symbiotic relationships
- Mentor Integrated Science Grade 9 (pg. 111)
- Pictures/videos of competitive relationships

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

The interdependence of life - Biotic factors (saprophytic)
The interdependence of life - Abiotic factors (temperature)

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

- Explain saprophytic relationships as a biotic interaction
- Identify examples of saprophytic organisms
- Appreciate the role of saprophytes in ecosystems

- Discuss saprophytic relationships
- Observe pictures/videos of saprophytic organisms
- Research on examples of saprophytic organisms
- Create presentations on saprophytic relationships

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

- Mentor Integrated Science Grade 9 (pg. 112)
- Pictures/videos of saprophytic organisms
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 113)
- Thermometers
- Pictures/videos of organisms in different temperature zones

- Observation - Oral questions - Written assignments - Group presentations

Living Things and their Environment

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 light affects living organisms
- Describe adaptations of organisms to different light conditions
- Appreciate the role of light in ecosystems

- Discuss how light affects living organisms
- Research on adaptations of organisms to different light conditions
- Observe plants grown under different light conditions
- Present findings to class

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

- Mentor Integrated Science Grade 9 (pg. 114)
- Light meters (if available)
- Plants grown under different light conditions
- Digital devices
- 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

- Explain how atmospheric pressure, pH and salinity affect living organisms
- Describe adaptations of organisms to these abiotic factors
- Value adaptations to different environments

- 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
- Discuss how atmospheric pressure, pH and salinity affect living organisms
- Research on adaptations of organisms to these factors
- Test pH and salinity of different water samples if possible
- 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
- Digital devices

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

Living Things and their Environment

The interdependence of life - Energy flow (food chains)

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

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

Living Things and their Environment

The interdependence of life - Energy flow (food webs)
The interdependence of life - Human activities (habitat change)

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

- Explain the concept of food webs
- Construct simple food webs
- Value the complexity of feeding relationships in ecosystems

- Discuss the concept of food webs
- Identify how food chains interconnect to form food webs
- Construct simple food webs using organisms observed in the local environment
- Present food webs to class

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

- Mentor Integrated Science Grade 9 (pg. 119)
- Charts showing food webs
- Pictures of local organisms
- Digital devices
- Mentor Integrated Science Grade 9 (pg. 120)
- Pictures showing habitat change
- Newspaper articles

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

Living Things and their Environment

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

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

- Explain the effects of hunting and poaching on ecosystems
- Describe conservation measures against hunting and poaching
- Show concern for wildlife conservation

- Discuss the effects of hunting and poaching on ecosystems
- Research on conservation measures against hunting and poaching
- Debate on sustainable hunting practices
- Present findings to class

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

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

- Observation - Oral questions - Debate assessment - Written assignments

Living Things and their Environment

The interdependence of life - Human activities (introduction of new living things)
The interdependence of life - Interrelationships in Kenya national parks

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

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

- 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
- 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. 122)
- Pictures of invasive species
- Digital devices
- Newspaper articles
- Mentor Integrated Science Grade 9 (pg. 123)
- Pictures of Kenya national parks
- Digital devices
- Maps of Kenya national parks

- Observation - Oral questions - Debate assessment - Written assignments
- Observation - Oral questions - Food web construction assessment - Presentations

Living Things and their Environment
Force and Energy

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:

- Explain the role of decomposers in ecosystems
- Identify examples of decomposers
- Appreciate the importance of decomposers in nutrient cycling

- Discuss the role of decomposers in ecosystems
- Observe pictures/videos of decomposers in action
- Research on examples of decomposers
- Create a model of nutrient cycling showing the role of decomposers

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

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

- Observation - Oral questions - Model assessment - Written assignments

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

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

- Observation - Drawings and labels - Written assignments

Force and Energy

Curved mirrors - Image formation by concave mirrors (beyond C)
Curved mirrors - Image formation by concave mirrors (at C)

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

- Draw ray diagrams to locate images when objects are placed beyond C
- Describe the characteristics of images formed
- Appreciate the systematic approach in determining image properties

- Draw ray diagrams to locate images when objects are placed beyond the center of curvature
- Use the ray diagrams to determine image characteristics (size, position, nature)
- Compare theoretical predictions with practical observations

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

- Mentor Integrated Science (pg. 143)
- Concave mirrors
- Drawing instruments
- Digital resources
- Mentor Integrated Science (pg. 144)

- Observation - Ray diagram assessment - Written descriptions

Force and Energy

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

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

- Draw ray diagrams to locate images when objects are placed between C and F
- Describe the characteristics of images formed
- Appreciate the systematic approach in determining image properties

- 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 center of curvature and the principal focus
- Determine the characteristics of images formed
- Verify the results through practical observation
- 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 center of curvature and the principal focus?
What are the characteristics of images formed when objects are placed between the principal focus and the pole?

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

- Observation - Ray diagram assessment - Written descriptions

Force and Energy

Curved mirrors - Terms associated with convex mirrors
Curved mirrors - Ray diagrams for convex mirrors

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

- Identify the terms associated with convex mirrors
- Compare the structure of convex mirrors with concave mirrors
- Appreciate the differences between concave and convex mirrors

- Discuss the terms associated with convex mirrors (aperture, center of curvature, pole, principal axis, principal focus, focal length)
- Draw and label the parts of a convex mirror
- Compare terms used in convex mirrors with those in concave mirrors

How does the structure of convex mirrors differ from concave mirrors?

- Mentor Integrated Science (pg. 153)
- Convex mirrors
- Digital resources
- Charts showing the structure of convex mirrors
- Mentor Integrated Science (pg. 154)
- Plain paper
- Rulers
- Pencils
- Drawing instruments

- Observation - Drawings and labels - Written assignments

Force and Energy

Curved mirrors - Image formation by convex mirrors
Curved mirrors - Locating images formed by convex mirrors experimentally

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

- Draw ray diagrams to locate images formed by convex mirrors
- Describe the characteristics of images formed by convex mirrors
- Appreciate the consistent nature of images formed by convex mirrors

- Draw ray diagrams to locate images formed by convex mirrors for different object positions
- Determine the characteristics of images formed
- Discuss why convex mirrors always form virtual, upright, and diminished images

What are the characteristics of images formed by convex mirrors?

- Mentor Integrated Science (pg. 156)
- Convex mirrors
- Drawing instruments
- Digital resources
- Mentor Integrated Science (pg. 159)
- Mirror holders
- Objects of various sizes
- Rulers

- Observation - Ray diagram assessment - Written descriptions

Force and Energy

Curved mirrors - Applications of curved mirrors (concave mirrors)
Curved mirrors - Applications of curved mirrors (convex mirrors)
Curved mirrors - Applications of curved mirrors (parabolic reflectors)

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

- Identify applications of concave mirrors in daily life
- Explain how the properties of concave mirrors make them suitable for specific applications
- Appreciate the practical importance of curved mirrors

- Research and discuss applications of concave mirrors (magnifying mirrors, dentist mirrors, solar concentrators, projectors)
- Explain how the image-forming properties of concave mirrors relate to their applications
- Demonstrate applications using actual mirrors where possible

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

- Mentor Integrated Science (pg. 161)
- Concave mirrors
- Digital resources
- Examples of devices using concave mirrors
- Mentor Integrated Science (pg. 162)
- Convex mirrors
- Examples of devices using convex mirrors
- Mentor Integrated Science (pg. 163)
- Examples of devices using parabolic reflectors

- Observation - Oral presentations - Written assignments

Force and Energy

Waves - Meaning of waves
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:

- Explain the meaning of waves in science
- Describe waves as a transmission of disturbance that carries energy
- Show interest in understanding wave phenomena in nature

- Differentiate between transverse and longitudinal waves
- Demonstrate the generation of both types of waves using a slinky spring
- Show interest in classifying waves based on particle movement

- Read the story about John and ripples in the dam
- Discuss what happens when an object is dropped in still water
- Observe the movement of water waves and how they transport energy without moving matter
- Use a slinky spring to demonstrate transverse waves (moving left to right)
- Use a slinky spring to demonstrate longitudinal waves (moving to-and-fro)
- Compare the motion of particles in both types of waves
- Observe and record the differences between these wave types

How are waves applied in our day to day life?
What is the difference between transverse and longitudinal waves?

- Mentor Integrated Science (pg. 166)
- Basin with water
- Small objects to drop in water
- Digital resources
- Mentor Integrated Science (pg. 167)
- Rope
- 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 - Oral questions - Written assignments
- Observation - Practical assessment - Drawings and diagrams - Written reports

Force and Energy

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

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

- Observation - Practical assessment - Graph analysis - Written assignments

Force and Energy

Waves - Wave speed
Waves - Phase of waves

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

- Explain how to determine the speed of a wave
- Apply the wave speed equation v = fλ
- Show interest in mathematical relationships in wave phenomena

- Discuss how to calculate wave speed using the distance-time method
- Introduce the wave equation speed = wavelength × frequency
- Solve example problems involving wave speed calculations
- Perform calculations with different wave parameters

How is the speed of a wave determined?

- Mentor Integrated Science (pg. 176)
- Calculators
- Wave speed problems
- Digital resources
- Wave demonstration equipment
- Mentor Integrated Science (pg. 178)
- Stands with clamps
- Strings and identical masses
- Stopwatches
- Graph paper

- Observation - Problem-solving exercises - Mathematical calculations - Written assignments

Force and Energy

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:

- Set up pendulums oscillating in phase
- Compare the displacement-time graphs of in-phase oscillations
- Show curiosity in investigating wave phenomena

- Set up identical pendulums oscillating in phase
- Record period and create displacement-time graphs
- Analyze the characteristics of in-phase oscillations
- Compare theoretical and experimental results

What are the characteristics of oscillations that are in phase?

- Mentor Integrated Science (pg. 179)
- Pendulum apparatus
- Stopwatches
- Measuring equipment
- Graph paper
- Mentor Integrated Science (pg. 181)
- Mentor Integrated Science (pg. 183)
- Ripple tank
- Water
- Paper for tracing
- Rulers

- Observation - Practical assessment - Graph construction and analysis - 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

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

- Demonstrate diffraction of waves around obstacles
- Explain how gap size affects diffraction patterns
- Appreciate diffraction as a fundamental wave property

- 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
- Set up a ripple tank with barriers having gaps of different sizes
- Generate waves and observe their behavior passing through gaps
- Compare diffraction patterns with different gap widths
- Relate observations to wave theory

How are waves reflected at barriers?
How do waves behave when passing through gaps or around obstacles?

- 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)
- Ripple tank
- Water
- Metal barriers with adjustable gaps
- Paper for tracing wave patterns
- Mentor Integrated Science (pg. 187)
- Digital resources
- Diagrams of remote sensing processes
- Video clips on remote sensing

- Observation - Practical assessment - Drawing analysis - Written reports

Force and Energy

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:

- Explain transmission, absorption and reflection of waves in remote sensing
- Describe how wave interactions affect remote sensing data
- Value the role of wave properties in modern technology

- Study the diagram representing the remote sensing process
- Discuss each step involved in remote sensing
- Analyze how absorption and reflection differ during remote sensing
- Relate these processes to wave properties

How do transmission, absorption and reflection of waves affect remote sensing?

- Mentor Integrated Science (pg. 188)
- Digital resources
- Diagrams of remote sensing processes
- Examples of remote sensing data
- Mentor Integrated Science (pg. 190)
- Examples of wave-based technologies
- Video clips on wave applications

- Observation - Diagram analysis - Group discussions - Written assignments