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WK | LSN | STRAND | SUB-STRAND | SPECIFIC_LEARNING_OUTCOMES | LEARNING_EXPERIENCES | KEY INQUIRY QUESTIONS | LEARNING RESOURCES | ASSESSMENT METHODS | REFLECTION |
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2 | 1 |
Force and energy
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Force and Energy: Transformation of energy; Forms of energy
Renewable energy sources Non-renewable energy sources Classification of renewable and non-renewable energy sources Energy transformations in nature. Energy transformations using materials in their locality Energy transformations using materials in their locality Energy transformations using materials in their locality Appliances whose working relies on energy transformations. Digital Activity Safety measures associated with energy transformation. Safety measures associated with energy transformation. Application of energy transformation. Pressure Describing pressure in solids Describing pressure in liquids To describe pressure in liquids using glass tubes and balloons To describe pressure in liquids using a tin. Determining pressure in solids and liquids Determining pressure in solids To determine pressure in a regular solid To determine pressure in similar solids. Determining pressure in liquids; Using a tin to investigate variation of pressure in liquids. To investigate the relationship of pressure in liquids to its depth and density using a tall glass jar. Solving numerical problems involving pressure. Solving numerical problems involving pressure using a formula Pressure formula in liquids. Solve numerical problems involving pressure using formula Applications of pressure in solids. Applications of pressure in liquids. |
By the end of the lesson, the learner should be able to:
Identify the forms of energy in their environment. Study the pictures in learner's book 8 involving various forms of energy. Appreciate the forms of energy in their environment. Explain the meaning of renewable energy sources. Recognise the importance of renewable energy sources. Appreciate the use of renewable energy sources. Explain the meaning of non-renewable energy sources. Recognise the importance of non-renewable energy sources. Appreciate the use of non-renewable energy sources. State the difference between renewable and non-renewable energy sources. Classify energy sources in nature into renewable and non-renewable energy sources. Appreciate the importance of energy sources in nature. Explain the meaning of energy transformation. Demonstrate energy transformations using locally available materials. Have a desire to learn more about energy transformation. State the materials needed to demonstrate the energy transformations in a falling object. Demonstrate the energy transformations in a falling object. Have fun and enjoy doing the experiment. State the materials needed to demonstrate the energy transformations in a swinging objects. Demonstrate the energy transformations in a swinging objects. State the materials needed to demonstrate the energy transformations in a simple steam-driven turbine. Demonstrate the energy transformations in a simple steam-driven turbine. Identify appliances whose working relies on energy transformations. Draw the appliances in learner's book 8. Appreciate the use of appliances whose working relies on energy transformations. Use their digital devices, learners to search the internet for information on dangers associated with energy transformation and strategies of preventing them. Write down their findings. Appreciate the use of digital devices. Discuss the safety measures associated with energy transformation. Study the pictures in learner's book 8 Appreciate the safety measures associated with energy transformation. Read the report in learner's book 8 Demonstrate the steps to follow when lighting a gas cooker. Appreciate the importance of preventing dangers associated with energy transformation. Read the paragraph in learner's book 8 Make a poster appreciating the application of energy transformation processes. Appreciate the application of energy transformation. Discuss the meaning of pressure. Read the discussion in learner's book 8 Have a desire to learn more about pressure. State the materials needed to demonstrate and describe pressure in solids. Demonstrate pressure in solids. State the materials and requirements needed to investigate pressure in liquids. Investigate pressure in liquids. Appreciate the importance of pressure in liquids. State the materials and requirements needed to investigate pressure in liquids using glass tubes and balloons. Investigate pressure in liquids using glass tubes and balloons. Have fun and enjoy conducting the experiment. State the materials and requirements needed to investigate pressure in liquids using a tin. Investigate pressure in liquids using a tin. State the formula of pressure, P Work out SI unit of pressure. Have a desire to learn more about pressure in solids. State the materials and requirements needed to investigate pressure in solids. Investigate pressure in solids. Appreciate the importance of pressure in solids. State the materials and requirements needed to determine pressure in a regular solid. Investigate pressure in a regular solid. Have fun and enjoy the experiment. State the materials and requirements needed to investigate pressure in similar solids. Investigate pressure in similar solids. Appreciate the importance of pressure in similar solids. State the materials and requirements needed to investigate variation of pressure in liquids. Investigate variation of pressure in liquids. Appreciate the importance of variation of pressure in liquids. State the materials and requirements needed to investigate the relationship of pressure in liquids to its depth and density using a tall glass jar. Investigate the relationship of pressure in liquids to its depth and density using a tall glass jar. Appreciate the importance of pressure in liquids to its depth and density using a tall glass jar. State the formula to solve numerical problems involving pressure in solids. Work out the surface area of the smallest face in m State the formula of working out pressure Solve numerical problems involving pressure using the formula. Enjoy solving numerical problems involving pressure using the formula. State the formula to solve numerical problems involving pressure in liquids. Work out pressure in liquids. Enjoy solving numerical problems involving pressure in liquids. State the formula of working out pressure using the formula. Appreciate the importance of numerical problems. Identify the applications of pressure in solids. Summarise the applications of pressure in solids. Appreciate the applications of pressure in solids. Identify the applications of pressure in liquids. Summarise the applications of pressure in liquids. Appreciate the applications of pressure in liquids. |
In their groups, learners are guided to identify the forms of energy in their environment.
In their groups, learners are guided to study the pictures in learner's book 8 involving various forms of energy. In their groups, learners are guided to do the tasks in learner's book 8 page 131 In groups, learners are guided to explain the meaning of renewable energy sources. In groups, learners are guided to recognise the importance of renewable energy sources. In groups, learners are guided to give examples of renewable energy sources. In groups, learners are guided to explain the meaning of non-renewable energy sources. In groups, learners are guided to recognise the importance of non-renewable energy sources. In groups, learners are guided to give examples of non-renewable energy sources. In groups, learners are guided to state the difference between renewable and non-renewable energy sources. In groups, learners are guided to outline the importance of renewable and non-renewable energy sources. In groups, learners are guided to classify energy sources in nature into renewable and non-renewable energy sources. In groups, learners are guided to explain the meaning of energy transformation. In groups, learners are guided to identify energy transformations in nature. In groups, learners are guided to demonstrate energy transformations using locally available materials. In groups, learners are guided to state the materials needed to demonstrate the energy transformations in a falling object. In groups, learners are guided to outline the procedure of investigating energy transformations in a falling object. In groups, learners are guided to demonstrate the energy transformations in a falling object. In groups, learners are guided to state the materials needed to demonstrate the energy transformations in a swinging objects. In groups, learners are guided to outline the procedure of investigating energy transformations in a swinging objects. In groups, learners are guided to demonstrate the energy transformations in a swinging objects. In groups, learners are guided to state the materials needed to demonstrate the energy transformations in a simple steam-driven turbine. In groups, learners are guided to outline the procedure of investigating energy transformations in a simple steam-driven turbine. In groups, learners are guided to demonstrate the energy transformations in a simple steam-driven turbine. In groups, learners are guided to identify appliances whose working relies on energy transformations. In groups, learners are guided to draw the appliances in learner's book 8 page 138 In groups, learners are guided to discuss and write the energy transformations that take place when the appliances are in use. As a class, learners are guided to use their digital devices, learners to search the internet for information on dangers associated with energy transformation and strategies of preventing them. As a class, learners are guided to write down their findings. In groups, learners to share their findings with their classmates. In groups, learners to discuss the safety measures associated with energy transformation. In groups, learners to study the pictures in learner's book 8 page 141 In groups, learners to state the importance of observing safety measures associated with energy transformation. In groups, learners are guided to read the report in learner's book 8 page 142 In groups, learners are guided to list the dangers associated with the energy transformations processes and state their preventive measures. In groups, learners are guided to demonstrate the steps to follow when lighting a gas cooker. In groups, learners are guided to read the paragraph in learner's book 8 page 144 In groups, learners are guided to give examples of applications of energy transformation. In groups, learners are guided to make a poster appreciating the application of energy transformation processes. In groups, learners are guided to discuss the meaning of pressure. In groups, learners are guided to read the discussion in learner's book 8 page 148 In groups, learners are guided to answer the questions that follows. In groups, learners are guided to state the materials needed to demonstrate and describe pressure in solids. In groups, learners are guided to outline the procedure of demonstrating pressure in solids. In groups, learners are guided to demonstrate pressure in solids. In groups, learners are guided to state the materials and requirements needed to investigate pressure in liquids. In groups, learners are guided to investigate pressure in liquids. In groups, learners are guided to describe pressure in liquids. In groups, learners are guided to state the materials and requirements needed to investigate pressure in liquids using glass tubes and balloons. In groups, learners are guided to investigate pressure in liquids using glass tubes and balloons. In groups, learners are guided to describe pressure in liquids using glass tubes and balloons. In groups, learners are guided to state the materials and requirements needed to investigate pressure in liquids using a tin. In groups, learners are guided to investigate pressure in liquids using a tin. In groups, learners are guided to describe pressure in liquids using a tin. In groups, learners are guided to state the formula of pressure, P In groups, learners are guided to explain the meaning of SI unit of force. In groups, learners are guided to work out SI unit of pressure. In groups, learners are guided to state the materials and requirements needed to investigate pressure in solids. In groups, learners are guided to investigate pressure in solids. In groups, learners are guided to determine pressure in solids. In groups, learners are guided to state the materials and requirements needed to determine pressure in a regular solid. In groups, learners are guided to investigate pressure in a regular solid. In groups, learners are guided to calculate the pressure exerted by each surface area using the formula. In groups, learners are guided to state the materials and requirements needed to investigate pressure in similar solids. In groups, learners are guided to investigate pressure in similar solids. In groups, learners are guided to copy and complete the table in learner's book 8 page 158 In groups, learners are guided to state the materials and requirements needed to investigate variation of pressure in liquids. In groups, learners are guided to investigate variation of pressure in liquids. In groups, learners are guided to copy and complete the table in learner's book 8 page 160 In groups, learners are guided to state the materials and requirements needed to investigate the relationship of pressure in liquids to its depth and density using a tall glass jar. In groups, learners are guided to investigate the relationship of pressure in liquids to its depth and density using a tall glass jar. In groups, learners are guided to discuss their observations with their classmates. In groups, learners are guided to state the formula to solve numerical problems involving pressure in solids. In groups, learners are guided to work out the surface area of the smallest face in m Individually, learners are guided to state the formula of working out pressure Individually, learners are guided to solve numerical problems involving pressure using the formula. Individually, learners are guided to show their work to their teacher. In groups, learners are guided to state the formula to solve numerical problems involving pressure in liquids. In groups, learners are guided to work out pressure in liquids. In groups, learners are guided to work out the examples in learner's book 8 page 166 Individually, learners are guided to state the formula of working out pressure using the formula, P = H In groups, learners are guided to identify the applications of pressure in solids. In groups, learners are guided to study the pictures in learner's book 8 page 168 In groups, learners are guided to summarise the applications of pressure in solids. In groups, learners are guided to identify the applications of pressure in liquids. In groups, learners are guided to study the pictures in learner's book 8 page 169. In groups, learners are guided to summarise the applications of pressure in liquids. |
What is energy?
What are the forms of energy in the environment?
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Spotlight; Integrated Science Learner's Book Grade 8 pg. 130-132
Pictures Charts Realia Computing devices Curriculum design; Integrated Science Grade 8 Spotlight; Integrated Science Learner's Book Grade 8 pg. 132 Spotlight; Integrated Science Learner's Book Grade 8 pg. 133 Spotlight; Integrated Science Learner's Book Grade 8 pg. 134-135 Spotlight; Integrated Science Learner's Book Grade 8 pg. 135-138 Spotlight; Integrated Science Learner's Book Grade 8 pg. 138-139 Spotlight; Integrated Science Learner's Book Grade 8 pg. 139 Spotlight; Integrated Science Learner's Book Grade 8 pg. 141-142 Spotlight; Integrated Science Learner's Book Grade 8 pg. 142-144 Spotlight; Integrated Science Learner's Book Grade 8 pg. 144-147 Spotlight; Integrated Science Learner's Book Grade 8 pg. 147-149 Spotlight; Integrated Science Learner's Book Grade 8 pg. 149-151 Spotlight; Integrated Science Learner's Book Grade 8 pg. 151-152 Spotlight; Integrated Science Learner's Book Grade 8 pg. 152-153 Spotlight; Integrated Science Learner's Book Grade 8 pg. 153-154 Spotlight; Integrated Science Learner's Book Grade 8 pg. 154 Spotlight; Integrated Science Learner's Book Grade 8 pg. 155 Spotlight; Integrated Science Learner's Book Grade 8 pg. 155-157 Spotlight; Integrated Science Learner's Book Grade 8 pg. 157-158 Spotlight; Integrated Science Learner's Book Grade 8 pg. 158-160 Spotlight; Integrated Science Learner's Book Grade 8 pg. 160-161 Spotlight; Integrated Science Learner's Book Grade 8 pg. 161-163 Spotlight; Integrated Science Learner's Book Grade 8 pg. 163-164 Spotlight; Integrated Science Learner's Book Grade 8 pg. 164-166 Spotlight; Integrated Science Learner's Book Grade 8 pg. 167 Spotlight; Integrated Science Learner's Book Grade 8 pg. 167-169 Spotlight; Integrated Science Learner's Book Grade 8 pg. 169-171 |
Oral questions Oral Report Observation
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9 |
Exams |
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