Mixtures, element and compounds.

Structure of an atom.

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

-Define the term atom.
-Describe the structure of an atom.
-Draw the structure of an atom.
-Appreciate the structure of an atom.

In groups or pairs, learners are guided to: -
-Discuss and give the meaning of an atom.
-Use digital or print resources to search for information about the structure of an atom.
-Draw the structure of an atom.

-How is the structure of an important? -What are the components of atoms?

Sportlight
integrated science learner
integrated science studies learner

-Observation. -Oral questions. -Assessment rubrics. -Checklists. -Written tests.

Mixtures, element and compounds.

Structure of an atom.

By the end of the lesson, the learner should be able to:
-Define the term electron arrangement.
-Draw the electron arrangement in an atom using crosses or dots diagrams.
-Show interest in drawing electron arrangement in atoms using crosses or dots diagrams.

-Explain the meaning of electron arrangement and energy level.
-Observe the teacher or video clip on drawing electron arrangement in atoms using dots or cross diagrams.
-Illustrate the electron arrangement in atoms using dot or cross diagrams.

What is electron arrangement?

Sportlight
integrated science studies learner

-Oral questions. -Observation. -Checklists. -Illustration. -Written questions.

Mixtures, element and compounds.

Structure of an atom.

By the end of the lesson, the learner should be able to:
-Draw electronic arrangement of the first twenty elements on charts and books.
-Enjoy drawing the electron arrangement of the first twenty elements in periodic table.

-Draw electron arrangement of the first twenty elements using dots or cross diagrams on charts and excises books.
-Display their charts in class and peers to assess them and give feedback.

-How do you Draw the electron arrangement of elements? -What are valence electrons?

Sportlight
integrated science studies learner

Observation. -Oral questions. -Checklists.

Mixtures, element and compounds.

Structure of an atom.

By the end of the lesson, the learner should be able to:
-Identify the features used to distinguish metals and non-metals based on their tendency to lose or gain electrons.
-Search for information on How you can classify elements based on electron arrangement.
-Identify some locally available materials used in modelling the atomic structure selected elements of the periodic table.
-Model the atomic structure of the selected elements of the periodic table using locally available materials.
-Enjoy modelling the atomic structure of the selected elements of the periodic table using locally available materials.

-Use digital devices to Search for information on which feature one can Use to distinguish metals based on electron arrangement.
-Discuss How number of valence electrons distinguishes metals and non-metals based on their tendency to lose or gain electrons.
-Watch video clips on How one can distinguish elements as metal or non-metals.
-Collaborate on discussing on the suitable locally available materials to Use in modeling elements.
-Collect the locally available materials needed to Model the elements.
-Collaborate in modelling the twenty elements of the periodic table.
-Display their models in call for peer assessment.

How can one distinguish metals and non-metals elements based on electron arrangement?
Which locally available materials can one use to model the elements of the periodic table?

Sportlight
integrated science studies learner

-Observation. -Oral questions. -Written questions. -Assessment rubrics.
-Observation. -Checklists. -Assessment rubrics. -Portfolio. -Project.

Mixtures, element and compounds.

Structure of an atom assessment.
Metals and alloys.

By the end of the lesson, the learner should be able to:
-Attempt the questions on the sub-strand; structure of the atom.

Answer questions on the sub-strand; structure of the atom correctly.

Sportlight
integrated science studies learner

-Written questions. -Assessment rubrics. -Checklists.

Mixtures, element and compounds.

Metals and alloys.

By the end of the lesson, the learner should be able to:
-Carry out experiments to Show the physical properties of metals.
-Enjoy carrying out the experiments to Show the physical properties of metals.

-Study the procedure for conducting the experiments on physical properties of metals.
-Collaborate in carrying out experiments to demonstrate the physical properties of metals.
-Observe record and Discuss the observation they made.
-Present their findings for assessment.

Which experiment can one conduct to determine the physical properties of metals.

Sportlight
integrated science studies learner

-Demonstration. -Checklists. -Observation. -Oral questions. -Assessment rubrics.

Mixtures, element and compounds.

Metals and alloys.

By the end of the lesson, the learner should be able to:
-Define the composition of alloys.
-Identify the alloys in the locality.
-Discuss the uses of common alloys in the environment.
-Appreciate the uses of different metals in the society.
-Enjoy collecting the metals in the locality.

-Discuss about the meaning of an alloy.
-Identify and Collect the alloys found in the locality.
-Discuss and Present the importance of metals in the community.
-Present their findings and Draw different items made of the alloys they collected.

-What is an alloy? -which examples of items are made of metals?

Sportlight
integrated science studies learner

-Oral questions. -Checklists. -Written questions. -Assessment rubrics.

Mixtures, element and compounds.

Metals and alloys.

By the end of the lesson, the learner should be able to:
-Identify uses of different metals in day-to-day life.
-Discuss the uses of different metals.
-Make flashcards or charts to Show the uses of metals in the society.
-Appreciate the uses of metals in the society.
-Explain the meaning of rust in metals.
-Identify the causes of rusting in metals.
-Describe the causes of rusting in metals.
-Appreciate the causes of rusting in metals.

-List some items made of metals in the locality.
-Use digital or print devices to Search for information on the uses of metals.
-Identify and Discuss the uses of the different metals.
-Prepare flashcards or charts showing uses of different metals.
-Observe rusted objects or items in the locality e.g. knives, nails, pangas etc.
-Discuss on the meaning of rusting and Present in class.
-Use digital or print devices to Search for information and causes of rusting in metals.
-Discuss the causes of rusting in metals.

What are the uses of the different metals in the locality?
-What is rusting? -What are the causes of rusting?

Sportlight
integrated science studies learner

-Checklists. -Oral questions. -Written questions. -Assessment rubrics.
-Assessment rubrics. -Checklists Written questions. -Oral questions. -Observation.

Mixtures, element and compounds.

Metals and alloys.

By the end of the lesson, the learner should be able to:
-Carry out simple experiment on the cause of rusting on metals.
-Enjoy carrying out the experiment on causes of rusting on metals.

-Prepare the requirements for the experiment.
-Work together in carrying out the experiment on causes of rusting.
-Observe, record and Discuss the observation made after a few days.

What are the observation made from the experiment on the causes of rusting?

Sportlight
integrated science studies learner

-Checklists. -Demonstration. -Practical. -Observation. -Oral questions.

Mixtures, element and compounds.

Metals and alloys.

By the end of the lesson, the learner should be able to:
-State different ways of controlling rusting of metals in the environment.
-Discuss the different ways of controlling rusting of metals.
-Search on the internet for the information on ways of controlling rusting of metals.
-Appreciate the different ways controlling rusting of metals.

-Discuss the different ways of controlling rusting on metals.
-Use digital devices to Search for information on ways of controlling rusting on metals.
-Discuss the different ways of controlling rusting on metals.

Which ways are best for controlling rusting on metals?

Sportlight
integrated science studies learner

-Assessment rubrics. -Oral questions. -Observation. -Checklists. -Written questions.

Mixtures, element and compounds.

Metals and alloys assessment.

By the end of the lesson, the learner should be able to:
-Attempt assessment questions on the sub-strand; metals and alloys.

-Answer the assessment question on the sub-strand; metals and alloys in their exercise books.

Sportlight
integrated science studies learner

-Written questions. -Checklists. -Assessment rubrics.

Mixtures, element and compounds.

Water hardness.
Water hardness and softness.

By the end of the lesson, the learner should be able to:
-Identify the physical properties of water.
-Describe the -physical properties of water.
-Search the internet for more information on physical properties of water.
-Appreciate the physical properties of water.
-Explain the meaning of soft water.
-Discuss the properties of soft water.
-Search the internet for information on properties of soft water.
-Appreciate the properties of soft water.

-Discuss the physical properties of water and present in class.
-Discuss the physical properties of water.
-Collect and observe water from different sources.
-Compare the water collected in terms of; appearance, odour, taste and boiling point and record the observation made and present it in class.
-Discuss on the meaning of soft water and Present in class.
-Use digital devices to Search for information on properties of soft water.
-Discuss the properties of soft water.

What are the physical properties of water?
What are the properties of soft water?

Sportlight
integrated science studies learner

-Written questions. -Oral questions. -Checklists. -Observation. -Assessment rubrics.
-Checklists. -Oral questions. -Written questions. -Assessment rubrics.

Mixtures, element and compounds.

Water hardness.

By the end of the lesson, the learner should be able to:
-Conduct the soap leather test to Differentiate between hard and soft water.
-Put in group the samples of water into hard and soft water.
-Enjoy carrying out the activity on sampling hard and soft water.

-Collaborate in identifying the materials and steps to follow in conducting the soap leather test.
-Carry out activities to Compare the leathering abilities of various samples of water.
-Observe, record and Discuss their Observation.
-group the samples of water into either hard or soft water and Present in class.

Which test can you carry out to determine hard and soft water?

Sportlight
integrated science studies learner

-Checklists. -Demonstration. -Observation. -Oral questions. -Written questions. -Practical activity.

Mixtures, element and compounds.

Water hardness.

By the end of the lesson, the learner should be able to:
-Describe the addition of washing soda as a method of softening temporary hard water.
-Carry out an activity to soften temporary hard water using addition of washing soda.
-Appreciate the Use of washing soda as a method of softening temporary hard water.

-Use digital devices to Search for information on addition of washing soda as a method of softening temporary hard water.
-Discuss addition of washing soda as a method of softening temporary hard water.
-Collaborate in conducting an activity to soften temporary hard water by adding washing soda (sodium carbonate)

How do the addition of washing soda soften temporary hard water?

Sportlight
integrated science studies learner

-Checklists. -Practical activity. -Written questions. -observation schedule. -Demonstration. -Assessment rubrics.

Mixtures, element and compounds.

Water hardness.

By the end of the lesson, the learner should be able to:
-Describe distilling as a method of softening temporary hard water.
-Conduct an activity to softening temporary hard water by distilling method.
-Appreciate distilling as a method of softening temporary hard water.

-Discuss and Present the meaning of distilling method.
-Use digital or print devices to Search for information on distilling as a method of softening temporary hard water.
-Discuss distilling method of softening temporary hard water.
-Carry out activity to soften temporary hard water using distilling method.
-Observe, record and Discuss their findings in class.

How can we soften temporary hard water using the distilling method?

Sportlight
integrated science studies learner

-Checklists. -Oral questions. -Practical activities. -Observation. -Assessment rubrics.

Mixtures, element and compounds.

Water hardness.

By the end of the lesson, the learner should be able to:
-Outline the advantages and disadvantages of hard water.
-Discuss the advantages and disadvantages of hard water.
-Search the internet for information on the advantages and disadvantages of hard water.
-Appreciate the advantages and disadvantages of hard water.
-State the application of soft water in our day-to-day life.
-Discuss the application of soft water in our daily life.
-Search the internet for application of soft water in our daily life.
-Appreciate the application of soft water in our daily life.

-Discuss on the advantages and disadvantages of hard water and Present them in class.
-Use digital devices and print resources to Search for advantages and disadvantages of hard water.
-Write their findings and Present them in class.
-Discuss and Present the application of soft water in our daily life.
-Use digital or print resources to Search for information on application of soft water in our daily life.
-Discuss the application of soft water in our daily life.
-Prepare charts and flashcards showing the application of soft water in our daily life.

-Why is hard water preferred for drinking? -What are the advantages of hard water? -What are the disadvantages of hard water?
What are the applications of soft water in our daily life?

Sportlight
integrated science studies learner

-Checklists. -Oral questions. -observation rubrics. -Written questions.
-Written questions. -Oral questions. -Assessment rubrics. -Checklists.

Mixtures, element and compounds.

Water hardness.
Water hardness assessment.

By the end of the lesson, the learner should be able to:
-State the application of hard water in our daily life.
-Discuss the application of hard water in our daily life.
-Search the internet for the application of hard water in our daily life.
-Appreciate the Use of hard water in our daily life.

-Discuss and Present the application of hard water in our daily life.
-Use digital devices or print resources to Search for information on application of hard water in our daily life.
-Discuss the application of hard water in our daily life.
-Prepare charts and flashcards showing the application of hard water and Present in class.

What are the application of hard water in our daily life?

Sportlight
integrated science studies learner

-Checklists. -Observation. -Assessment rubrics. -Written questions.

Living things and their environment.

Nutrition in plants.

By the end of the lesson, the learner should be able to:
-Identify the external parts of a leaf.
-Describe the external parts of a leaf.
-Draw and label the external parts of a leaf.
-Enjoy drawing and labelling of a leaf.

-Use the hand lens to Observe parts of a fresh leaf of a plant.
-Identify the external parts of a leaf.
-Discuss the external parts of a leaf.
-Draw and label the external parts of a leaf on a chart and in exercise books.

What are the external parts of a leaf?

Sportlight
integrated science studies learner

-Observation. -Checklists. -Oral questions. -Drawing. -Written questions.

Living things and their environment.

Nutrition in plants.

By the end of the lesson, the learner should be able to:
-Identify the internal parts of a leaf.
-Describe the internal parts of a leaf.
-Draw and label the internal parts of a leaf.
-Enjoy drawing the internal parts of a leaf.

-Use digital devices or Study diagrams showing the internal parts of a leaf.
-Identify the different internal parts of a leaf from the diagram.
-Discuss the functions of the internal parts of a leaf and their locations.
-Draw and label the internal parts of a leaf on books and on charts.

Which internal parts of a leaf do you know?

Sportlight
integrated science studies learner

-Checklists. -Assessment rubrics. -Oral questions. -Written questions.

Living things and their environment.

Nutrition in plants.

By the end of the lesson, the learner should be able to:
-State the adaptations of a leaf to photosynthesis.
-Discuss the adaptations of the leaf to photosynthesis.
-Prepare charts showing the applications of the leaf to photosynthesis.
-Appreciate the adaptations of the leaf to photosynthesis.
-Define the term photosynthesis in plants.
-Describe the process of photosynthesis in plants.
-Search the internet for information on the process of photosynthesis in plants.
-Appreciate the process of photosynthesis in nature.

-Use digital devices or print resources to Search for information on the adaptation of a leaf to photosynthesis.
-Write down their findings in books.
-Discuss the adaptations of the leaf to photosynthesis.
-Discuss the adaptations of the leaf in relation to their roles in photosynthesis.
-Prepare charts showing the adaptations of the leaf to photosynthesis and Present in class.
-Use books, dictionary or the internet to Search for the meaning of photosynthesis?
-Use print or digital devices to Search for information on the process and products of photosynthesis.
-Discuss the process of photosynthesis in plants and share their findings in class.
-Watch video clips on the process of photosynthesis.

How is the leaf adapted to ensure photosynthesis?
-What is photosynthesis? -What are the products of photosynthesis?

Sportlight
integrated science studies learner

-Written questions. -Checklists. -Oral questions. -Assessment rubrics.
-Checklists. -Assessment rubrics. -Oral questions. -Written questions.

Living things and their environment.

Nutrition in plants.

By the end of the lesson, the learner should be able to:
-Identify the conditions necessary for photosynthesis to occur in plants.
-Discuss the conditions necessary for photosynthesis to take place.
-Search the internet for information on the conditions necessary for photosynthesis to occur in plants.
-Appreciate the conditions necessary for photosynthesis to occur in green plants.

-Use digital devices or print resources to Search for information on conditions necessary for photosynthesis to take place.
-Identify the conditions -necessary for photosynthesis to take place.
-Discuss the conditions necessary for photosynthesis to take place and Present their findings.
-Prepare posters or charts showing the conditions necessary for photosynthesis to occur.

What are the conditions necessary for photosynthesis to occur?

Sportlight
integrated science studies learner

-Checklists. -Observation. -Oral questions. -Written questions.

Living things and their environment.

Nutrition in plants.

By the end of the lesson, the learner should be able to:
-Outline the procedure for testing the necessity of light for photosynthesis (starch test)
-Carry out an experiment to Show that light is necessary for photosynthesis.
-Enjoy conducting the experiment showing the necessity of light in photosynthesis.

-Identify the requirements for setting up the experiment.
-Outline the procedure to be followed when setting up an experiment to Show that light is necessary for photosynthesis.
-Collaborate in setting up the experiment to Show that light is necessary for photosynthesis.
-Observe, record and Discuss their findings from the experiment.

How can we determine that light is a necessary condition for photosynthesis to take place in plants?

Sportlight
integrated science studies learner

-Practical activity. -Demonstration. -Checklists. -Oral questions. -Assessment rubrics. -observation schedule.

Living things and their environment.

Nutrition in plants.

By the end of the lesson, the learner should be able to:
-Describe the procedure for testing the necessity of chlorophyll for photosynthesis to occur.
-Prepare an experiment to Show that chlorophyll is necessary for photosynthesis to occur.
-Enjoy carrying out the experiment.

-Describe and Discuss the procedure for testing that chlorophyll is necessary for photosynthesis to take place.
-Identify and Prepare the requirements.
-Collaborate in setting up an experiment to Show that chlorophyll is necessary for photosynthesis to occur.
-Observe, record and Discuss their findings.

How can we determine that chlorophyll is necessary for photosynthesis to take place?

Sportlight
integrated science studies learner

-Practical activity. -Checklists. -observation schedule. -Assessment rubrics. -Oral questions.

Living things and their environment.

Nutrition in plants.
Nutrition in plants assessment.
Nutrition in animals.

By the end of the lesson, the learner should be able to:
-Outline the procedure for testing carbon (iv) oxide is necessary for photosynthesis to take place.
-Set up an experiment to Show that carbon (iv) oxide is necessary for photosynthesis to take place.
-Enjoy carrying out the experiment on the necessity of carbon (iv) oxide occurrence of photosynthesis.
-Identify the modes of nutrition in animals.
-Describe the parasitic and saprophytic as modes of nutrition in animals.
-Search the internet for information on parasitic and saprophytic as modes of nutrition in animals.
-Acknowledge the different modes of nutrition in animals.

-Outline and Discuss the procedure followed in testing that carbon (iv) oxide is necessary for photosynthesis to take place.
-Identify and Prepare the requirements needed to Carry out the experiment.
-Collaborate in setting up the experiment to Show that carbon (iv) oxide is necessary for photosynthesis to occur.
-Observe, record and Discuss on their Observation.
-Identify the different modes of nutrition in animals.
-Use print or digital resources to Search for information on parasitic and saprophytic as modes of nutrition in animals.
-Discuss parasitic saprophytic as modes of nutrition in animals and give examples.

How can we determine that carbon (iv) oxide is necessary for photosynthesis to occur?
How do animals feed?

Sportlight
integrated science studies learner

-Practical activity. -Checklists. -observation schedule. -Assessment rubrics. -Oral questions.
-Written questions. -Oral questions. -Checklists. -Oral discussion. -Assessment rubrics.

Living things and their environment.

Nutrition in animals.

By the end of the lesson, the learner should be able to:
-
-Define the structure and functions of different types of teeth.
-Explain dentition in animals (homodont and heterodonts)
-Describe the structure and functions of different types teeth.
-Draw the structure of different types of teeth.

In groups or pairs, learners are guided to: -
-Define the structure and functions of different types of teeth.
-Explain dentition in animals (homodont and heterodonts)
-describe the structure and functions of different types teeth.
-Draw the structure based on different dentition of teeth.

-How do different animals feed?

Sportlight
integrated science learner
integrated science studies learner

-Checklists. -Observation. -discussion. -Oral questions. -Assessment rubrics.

Living things and their environment.

Nutrition in animals.

By the end of the lesson, the learner should be able to:
-Describe the dentition in herbivorous.
-Identify the teeth structure for herbivorous.
-Discuss the function of the teeth structure in herbivorous.
-Draw the dentition structure of herbivorous.

-Describe the dentition in herbivorous.
-Identify the teeth structure of a herbivorous.
-Discuss the functions of the teeth structure in herbivorous.
-Draw the dentition structure of herbivorous.

How do different animals feed?

Sportlight
integrated science studies learner

-Checklists. -Oral questions. -discussion. -Assessment rubrics.

Living things and their environment.

Nutrition in animals.

By the end of the lesson, the learner should be able to:
-Describe the dentition in omnivorous.
-Identify the dentition structure of omnivorous.
-Name examples of omnivorous.
-Discuss the functions of the teeth structure in omnivorous.
-Draw the teeth structure in omnivorous.

-Describe the dentition in omnivorous.
-Identify the dentition in omnivorous.
-Name examples of omnivorous.
-Discuss the functions of the different teeth structure of omnivorous.

-How do different animals feed?

Sportlight
integrated science studies learner

-Checklists. -Oral questions. -discussion. -Assessment rubrics.

Living things and their environment.
Force and energy.

Nutrition in animals.
Curved mirrors.

By the end of the lesson, the learner should be able to:
-Describe the structure and functions of different types of teeth.
-Name different types of teeth (incisors, canines, premolars and molars)
-Discuss the structure and functions of different types of teeth.
-Draw the different types of teeth in their books and charts.
-Outline types of curved mirrors (concave and convex).
-Collaboratively discuss the types of curved mirrors.
-Use print and non-print media for more information on types curved mirrors.
-Acknowledge the application of curved mirrors in our daily life.

-Describe the structure and functions of different types of teeth.
-Name different types of teeth (incisors, canines, premolars and molars)
-Discuss the structure and functions of different types of teeth and Present their finding in class.
-Enjoy drawing the different types of teeth in their books and on charts.
-Outline types of curved mirrors e.g. concave and convex and give examples.
-Collaboratively Discuss the types of curved mirrors.
-Use print and non-print media for more information on types curved mirrors.
-Acknowledge the application of curved mirrors in our daily life.

Why do different teeth have different functions?
How many types of curved mirrors do we have?

Sportlight
integrated science studies learner
integrated science learner

-Checklists. -Oral questions. -Observation. -Written questions.
-Assessment rubrics. -Observation. -Written exercise. -Oral tests. -Checklists.

Force and energy.

Curved mirrors.

By the end of the lesson, the learner should be able to:
-Define concave mirrors.
-Collaboratively Discuss the concave mirror as an example of curved mirrors
-Assemble different types of concave mirrors in the locality.
-Search the internet for information on concave mirrors.
-Appreciate the application of concave mirrors.

-Define concave mirrors.
-Collaboratively Discuss the concave mirror as an example of curved mirrors
-Assemble different types of concave mirrors in the locality.
-Search the internet for more information on concave mirrors.
-Appreciate the application of concave mirrors.

What is a concave mirror?

Sportlight
integrated science studies learner

-Assessment rubrics. -Observation. -Checklists. -Oral tests. -Written exercise.

Force and energy.

Curved mirrors.

By the end of the lesson, the learner should be able to:
-Outline the terms used in curved mirrors (aperture, pole, centre of curvature, principal focus, focal length, radius of curvature and focal plane)
-Collaboratively Discuss the terms used in curved mirrors and Present in class for peer assessment.
-Search the internet for information on the term used in curved mirrors.
-Acknowledge the terms used in curved mirrors.

-Outline the terms used in curved mirrors (aperture, pole, centre of curvature, principal focus, focal length, radius of curvature and focal plane)
-Collaboratively Discuss the terms used in curved mirrors and Present in class for peer assessment.
-Search the internet for information on the term used in curved mirrors.
-Acknowledge the terms used in curved mirrors.

Why are different terms used in curved mirrors?

Sportlight
integrated science studies learner

-Observation. -Assessment rubrics. -Written questions. -Oral questions. -Checklists.

Force and energy.

Curved mirrors.

By the end of the lesson, the learner should be able to:
-Carry out an activity to locate the position of images formed by concave mirrors.
-Draw ray diagrams to locate images formed by concave mirrors.
-Use print and non-print media to Search for information on the images formed by concave mirrors.
-Appreciate the images formed by concave mirrors.

-Carry out an activity to locate the position of images formed by concave mirrors.
-Draw ray diagrams to locate images formed by concave mirrors.
-Use print and non-print media to Search for information on the images formed by concave mirrors.
-Appreciate the images formed by concave mirrors.

How are images formed in concave mirrors?

Sportlight
integrated science studies learner

-Assessment rubrics. -Written exercises. -Checklists. -Oral questions. -Observation.

Force and energy.

Curved mirrors.

By the end of the lesson, the learner should be able to:
-Carry out an activity to locate the position of images formed by convex mirrors.
-Draw ray diagrams to locate images formed by convex mirrors.
-Use print and non-print media to Search for information on the images formed by convex mirrors.
-Collaboratively Discuss the images formed by convex mirrors.
-Acknowledge the image formed by convex mirrors.
-Describe the images formed by convex mirrors.
-Collaboratively Discuss the characteristics of the images formed by convex mirrors.
-Use internet for information on the objects formed by convex mirrors.
-Acknowledge the images formed by convex mirrors.

-Carry out an activity to locate the position of images formed by convex mirrors.
-Draw ray diagrams to locate images formed by convex mirrors.
-Use print and non-print media to Search for information on the images formed by convex mirrors.
-Collaboratively Discuss the images formed by convex mirrors.
-Acknowledge the image formed by convex mirrors.
-Describe characteristics of the images formed by convex mirrors.
-Collaboratively Discuss the characteristics of the images formed by convex mirrors.
-Use internet for information on the objects formed by convex mirrors.
-Acknowledge the images formed by convex mirrors.

How are images formed in convex mirrors?
What are the characteristics of images formed by convex mirrors?

Sportlight
integrated science studies learner

-Observation. -Oral questions. -Written questions. -Assessment rubrics. -Checklists.
-Oral questions. -Written exercises. -Observation. -Checklists. -Assessment rubrics.

Force and energy.

Curved mirrors.

By the end of the lesson, the learner should be able to:
-Outline the difference between the images formed by concave mirrors and convex mirrors.
-Collaboratively Discuss the differences in images formed by concave mirrors and convex mirrors.
-Search the internet for information on the differences between images formed by concave mirrors and convex mirrors.
-Appreciate the differences between the images formed by concave mirrors and convex mirrors.

-Outline the difference between the images formed by concave mirrors and convex mirrors.
-Collaboratively Discuss the differences in images formed by concave mirrors and convex mirrors.
-Search the internet for information on the differences between images formed by concave mirrors and convex mirrors.
-Appreciate the differences between the images formed by concave mirrors and convex mirrors.

How are images formed by the two types of mirrors different?

Sportlight
integrated science studies learner

-Oral questions. -Checklists. -Assessment rubrics. -Observation. -Written questions.

Force and energy.

Curved mirrors.

By the end of the lesson, the learner should be able to:
-Explain the uses of convex mirrors in our daily life.
-Collaboratively Discuss the uses of convex mirrors in our daily life and Present in class.
-Search the internet for information on the uses of convex mirrors in our daily life.
-Appreciate the uses of convex mirrors in our daily life.

-Explain the uses of convex mirrors in our daily life.
-Collaboratively Discuss the uses of convex mirrors in our daily life and Present in class.
-Search the internet for information on the uses of convex mirrors in our daily life.
-Appreciate the uses of convex mirrors in our daily life.

How do we use convex mirrors?

Sportlight
integrated science studies learner

-Checklists. -Observation. -Assessment rubrics. -Written exercise. -Oral questions.

Force and energy.

Curved mirrors.

By the end of the lesson, the learner should be able to:
-Outline the characteristics of images formed by curved mirrors.
-Collaboratively discuss the characteristics of images formed by curved mirrors (objects at infinity, beyond C, at C between C and F, at F and between F and P)
-Search the internet for information on the characteristics of images formed by curved mirrors (objects at infinity, beyond C, at C, between C and F and between F and P)
-Appreciate the characteristics of images formed by curved mirrors.

-Outline the characteristics of images formed by curved mirrors.
-Collaboratively discuss the characteristics of images formed by curved mirrors (objects at infinity, beyond C, at C between C and F, at F and between F and P)
-Search the internet for information on the characteristics of images formed by curved mirrors (objects at infinity, beyond C, at C, between C and F and between F and P)
-Appreciate the characteristics of images formed by curved mirrors.

What are the characteristics of images formed by curved mirrors?

Sportlight
integrated science studies learner

-Assessment rubrics. -Observation. -Oral questions. -Checklists. -Written questions.

Force and energy.

Curved mirrors.
Waves.

By the end of the lesson, the learner should be able to:
-Outline the application of concave and convex mirrors in day-to-day life (solar concentration, car headlamps, shaving mirrors, dentists
-Explain generation of waves in nature.
-Identify generations of waves in nature.
-Use the internet to Search for information on the generation of waves.
-Collaboratively Discuss the generation of waves in nature.
-Acknowledge the generation of waves in nature.

-Outline the application of concave and convex mirrors in day-to-day life (solar concentration, car headlamps, shaving mirrors, dentists
-Explain generation of waves in nature.
-Identify generations of waves in nature.
-Use the internet to Search for information on the generation of waves.
-Collaboratively Discuss the generation of waves in nature.
-Acknowledge the generation of waves in nature.

How do we apply concave and convex mirrors in our day-to-day life?
How are waves generated in nature?

Sportlight
integrated science studies learner

-Checklists. -Assessment rubrics. -Observation. -Discussions. -Written questions. -Oral questions.
-Checklists. -Assessment rubrics. -Written questions. -Oral questions. -peer assessment.

Force and energy.

Waves.

By the end of the lesson, the learner should be able to:
-classify longitudinal waves in nature.
-Collaboratively Discuss the longitudinal waves in nature and Present their findings in class.
-Search the internet for more information on longitudinal waves.
-Acknowledge longitudinal waves in day-to-day life.

-classify longitudinal waves in nature.
-Collaboratively Discuss the longitudinal waves in nature and Present their findings in class.
-Search the internet for more information on longitudinal waves.
-Acknowledge longitudinal waves in nature.

What is longitudinal wave in nature?

Sportlight
integrated science studies learner

-Assessment rubrics. -Checklists. -Observation. -Written questions. -peer assessment.

Force and energy.

Waves.

By the end of the lesson, the learner should be able to:
-Outline basic characteristics of waves in nature.
-Collaboratively Describe the basic characteristics of waves in nature.
-Collaboratively Discuss the basic characteristics of waves in nature and Present in class.
-Search the internet for information on basic characteristics of waves in nature.
-Acknowledge the basic characteristics of waves in nature.

-Outline basic characteristics of waves in nature.
-Collaboratively Describe the basic characteristics of waves in nature.
-Collaboratively Discuss the basic characteristics of waves in nature and Present in class.
-Search the internet for information on basic characteristics of waves in nature.
-Acknowledge the basic characteristics of waves in nature.

How do we identify waves in nature?

Sportlight
integrated science studies learner

-Assessment rubrics. -Checklists. -Written questions. -peer assessment. -Observation. -Oral questions.

Force and energy.

Waves.

By the end of the lesson, the learner should be able to:
-Carry out activities to demonstrate the parts of a wave (amplitude, wavelength, frequency, period, wave speed, phase; include wave equations velocity wavelength x frequency)
-Collaboratively discuss parts of a wave in nature and present in class.
-Search the internet on information on parts of a wave in nature.
-Acknowledge parts of waves in nature.

-Carry out activities to demonstrate the parts of a wave (amplitude, wavelength, frequency, period, wave speed, phase; include wave equations velocity wavelength x frequency)
-Collaboratively discuss parts of a wave in nature and present in class.
-Search the internet on information on parts of a wave in nature.
-Acknowledge parts of waves in nature.

How are parts waves applied in our day-to-day life?

Sportlight
integrated science studies learner

-Assessment rubrics. -Checklists. -Oral questions. -Written exercise. -Observation. -peer assessment.

Force and energy.

Waves.

By the end of the lesson, the learner should be able to:
-Outline characteristics of waves (straight line motion, reflection, bending of waves, movement around objects)
-Carry out activities in groups to demonstrate characteristics of waves.
-Collaboratively Discuss the different characteristics of waves and Present in class.
-Acknowledge the characteristics of waves in nature.
-Outline the application of waves in day-to-day life. (Medical ultrasound, X-rays, CT scans, MRI scans, cancer therapy and laser surgery & communication radar, radio, cellphone, television, WIFI and operation of drone, cooking microwaves)
-Collaboratively discuss the application of waves in day-to-day life and present in class.
-Search the internet information on application of waves in day-to-day life.
-Appreciate the application of waves in our day-to-day life.

-Outline characteristics of waves (straight line motion, reflection, bending of waves, movement around objects)
-Carry out activities in groups to demonstrate characteristics of waves.
-Collaboratively Discuss the different characteristics of waves and Present in class.
-Acknowledge the characteristics of waves in nature.
-Outline the application of waves in day-to-day life. (Medical ultrasound, X-rays, CT scans, MRI scans, cancer therapy and laser surgery & communication radar, radio, cellphone, television, WIFI and operation of drone, cooking microwaves)
-Collaboratively discuss the application of waves in day-to-day life and present in class.
-Search the internet information on application of waves in day-to-day life.
-Appreciate the application of waves in our day-to-day life.

How do we classify waves?
How are waves important in our day-to-day life?

Sportlight
integrated science studies learner

-Assessment rubrics. -Checklists -Observation. -Written questions. -Oral questions. -Observation. -peer assessment.
-Assessment rubrics. -Observation. -Written questions. -Oral questions. -Checklists.