Force and Energy.

Electrical Energy.

By the end of the lesson, the learner should be able to:
;
Identify the sources of electricity in the environment.
Discuss the sources of electricity in the environment.
Search the internet for information on the sources of electricity.
Appreciate the different sources of electricity.

In groups,learners are guided to;
study the pictures in the learner's book and identify the some of the sources of electricity.
search the internet for information on how the sources of electricity in nature works (hydro-electric power,geothermal,solar and wind power) and note down their findings.
discuss the information found on the sources of electricity used in the environment.

What are the sources of electricity in the environment?

Active Integrated Science pg 136-137.
Pictures.
Digital devices.
Internet.
Teacher's notes.

Assessment rubrics. Oral questions. Written tests. Checklists.

Force and Energy.

Electrical Energy.

By the end of the lesson, the learner should be able to:
;
Identify the sources of electricity in the environment.
Discuss the sources of electricity in the environment.
Search the internet for information on the sources of electricity.
Appreciate the different sources of electricity.

In groups,learners are guided to;
study the pictures in the learner's book and identify the some of the sources of electricity.
search the internet for information on how the sources of electricity in nature works (hydro-electric power,geothermal,solar and wind power) and note down their findings.
discuss the information found on the sources of electricity used in the environment.

What are the sources of electricity in the environment?

Active Integrated Science pg 136-137.
Pictures.
Digital devices.
Internet.
Teacher's notes.

Assessment rubrics. Oral questions. Written tests. Checklists.

Force and Energy.

Electrical Energy.

By the end of the lesson, the learner should be able to:
;
Identify the sources of electricity in the environment.
Discuss the sources of electricity in the environment.
Search the internet for information on the sources of electricity.
Appreciate the different sources of electricity.

Identify the sources of electricity in the environment.
Discuss the sources of electricity in the environment.
Search the internet for information on the sources of electricity in the environment.
Appreciate the different sources of electricity in the environment.

In groups,learners are guided to;
study the pictures in the learner's book and identify the some of the sources of electricity.
search the internet for information on how the sources of electricity in nature works (hydro-electric power,geothermal,solar and wind power) and note down their findings.
discuss the information found on the sources of electricity used in the environment.
In groups,pairs,learners are guided to;
identify the sources of electricity in the environment from pictures/photos.
use digital devices or print media to search for information on the nuclear,tidal wave, fossil fuels,biomass, natural gas, electrical cells as sources of electricity.
note down their findings in exercise books.
discuss the sources of electricity in the environment (electrical cells, biomass, natural gas,tidal wave, fossil fuels and nuclear)

What are the sources of electricity in the environment?

Active Integrated Science pg 136-137.
Pictures.
Digital devices.
Internet.
Teacher's notes.
Active Integrated Science pg 136-137.
Teacher's notes
Digital devices.
Internet.

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

Force and Energy.

Electrical Energy.

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

Identify the sources of electricity in the environment.
Discuss the sources of electricity in the environment.
Search the internet for information on the sources of electricity in the environment.
Appreciate the different sources of electricity in the environment.

In groups,pairs,learners are guided to;
identify the sources of electricity in the environment from pictures/photos.
use digital devices or print media to search for information on the nuclear,tidal wave, fossil fuels,biomass, natural gas, electrical cells as sources of electricity.
note down their findings in exercise books.
discuss the sources of electricity in the environment (electrical cells, biomass, natural gas,tidal wave, fossil fuels and nuclear)

What are the sources of electricity in the environment?

Active Integrated Science pg 136-137.
Teacher's notes
Digital devices.
Internet.

Assessment rubrics. Oral questions. Checklists. Written tests.

Force and Energy.

Electrical Energy.

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

Define the term electrical circuit.
Discuss the components of the electrical circuit.
Search the internet for video clips on how to make a simple electrical circuit in series and parallel.
Desire to make electrical circuits in series and parallel.

In groups,learners are guided to;
use digital devices to search the internet for clips on making a simple electrical circuit.
state the meaning of an electrical circuit.
list the components used in making a simple electrical circuit.
discuss the functions of the components of the electrical circuit.

What is an electrical circuit? What are the components of an electrical circuit?

Active Integrated Science pg 138-139.
Digital devices.
Video clips.
Internet.

Observation. Oral questions. Oral discussion. Written tests. Assessment rubrics.

Force and Energy.

Electrical Energy.

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

Define the term electrical circuit.
Discuss the components of the electrical circuit.
Search the internet for video clips on how to make a simple electrical circuit in series and parallel.
Desire to make electrical circuits in series and parallel.

In groups,learners are guided to;
use digital devices to search the internet for clips on making a simple electrical circuit.
state the meaning of an electrical circuit.
list the components used in making a simple electrical circuit.
discuss the functions of the components of the electrical circuit.

What is an electrical circuit? What are the components of an electrical circuit?

Active Integrated Science pg 138-139.
Digital devices.
Video clips.
Internet.

Observation. Oral questions. Oral discussion. Written tests. Assessment rubrics.

Force and Energy.

Electrical Energy.

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

Define the term electrical circuit.
Discuss the components of the electrical circuit.
Search the internet for video clips on how to make a simple electrical circuit in series and parallel.
Desire to make electrical circuits in series and parallel.

In groups,learners are guided to;
use digital devices to search the internet for clips on making a simple electrical circuit.
state the meaning of an electrical circuit.
list the components used in making a simple electrical circuit.
discuss the functions of the components of the electrical circuit.

What is an electrical circuit? What are the components of an electrical circuit?

Active Integrated Science pg 138-139.
Digital devices.
Video clips.
Internet.

Observation. Oral questions. Oral discussion. Written tests. Assessment rubrics.

Force and Energy.

Electrical Energy.

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

Outline the steps for setting up a simple electrical circuit in series.
Demonstrate the flow of electric current using simple electric circuit in series.
Enjoy setting up a simple electrical circuit in series.

In groups,pairs,learners are guided to;
prepare the requirements for the activity.
outline the steps for setting up a simple electrical circuit in which dry cells are in series.
collaborate in setting up a simple electrical circuit in series using electrical apparatus.

How do you set up a simple electrical circuit in series?

Active Integrated Science pg 139.
Digital devices.
Two dry cells,torch bulb, ammeter, switch,cell holder,bulb holder and six connecting wires.

Practical Activity. Checklists. Assessment rubrics. Observation schedule Oral questions.

Force and Energy

Electrical Energy.

By the end of the lesson, the learner should be able to:
lesson,
Outline the steps for setting up a simple electrical circuit in parallel.
Demonstrate the flow of electric current using simple circuit in parallel.
Enjoy setting up a simple electrical circuit in parallel.

In groups,learners are guided to;
prepare the requirements for the practical activity.
outline the steps for setting up a simple electrical circuit in parallel.
collaborate in setting up a simple electrical circuit in parallel.

What is the difference between the series and parallel arrangement of cells?

Active Integrated Science pg 139-140.
Picture.
Two dry cells,torch bulb, ammeter, switch,cell holder,bulb holder, eight connecting wires.
Digital devices.

Practical Activity. Portfolio. Checklists. Observation. Assessment rubrics.

Force and Energy

Electrical Energy.

By the end of the lesson, the learner should be able to:
lesson,
Outline the steps for setting up a simple electrical circuit in parallel.
Demonstrate the flow of electric current using simple circuit in parallel.
Enjoy setting up a simple electrical circuit in parallel.

In groups,learners are guided to;
prepare the requirements for the practical activity.
outline the steps for setting up a simple electrical circuit in parallel.
collaborate in setting up a simple electrical circuit in parallel.

What is the difference between the series and parallel arrangement of cells?

Active Integrated Science pg 139-140.
Picture.
Two dry cells,torch bulb, ammeter, switch,cell holder,bulb holder, eight connecting wires.
Digital devices.

Practical Activity. Portfolio. Checklists. Observation. Assessment rubrics.

Force and Energy

Electrical Energy.

By the end of the lesson, the learner should be able to:
lesson,
Outline the steps for setting up a simple electrical circuit in parallel.
Demonstrate the flow of electric current using simple circuit in parallel.
Enjoy setting up a simple electrical circuit in parallel.

In groups,learners are guided to;
prepare the requirements for the practical activity.
outline the steps for setting up a simple electrical circuit in parallel.
collaborate in setting up a simple electrical circuit in parallel.

What is the difference between the series and parallel arrangement of cells?

Active Integrated Science pg 139-140.
Picture.
Two dry cells,torch bulb, ammeter, switch,cell holder,bulb holder, eight connecting wires.
Digital devices.

Practical Activity. Portfolio. Checklists. Observation. Assessment rubrics.

Force and Energy.

Electrical Energy.

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

Outline the steps for setting up a simple electrical circuit in which bulbs are in series.
Demonstrate flow of electric current using simple electric circuit in which bulbs are in series.
Enjoy setting up a simple electrical circuit in which bulbs are in series.

In groups, learners are guided to:
prepare the requirements for the practical activity.
collaborate in setting up a simple electrical circuit in which bulbs are in series.
record and discuss their observations.

How do you set up a simple electrical circuit in which bulbs are in series?

Active Integrated Science pg 140.
Digital devices.
Two dry cells,two torch bulbs, ammeter, voltmeter, switch,cell holder,two bulb holders and seven connecting wires.

Practical activity. Assessment rubric. Observation schedule. Oral questions.

Force and Energy.

Electrical Energy.

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

Outline the steps for setting up a simple electrical circuit in which bulbs are in series.
Demonstrate flow of electric current using simple electric circuit in which bulbs are in series.
Enjoy setting up a simple electrical circuit in which bulbs are in series.

In groups, learners are guided to:
prepare the requirements for the practical activity.
collaborate in setting up a simple electrical circuit in which bulbs are in series.
record and discuss their observations.

How do you set up a simple electrical circuit in which bulbs are in series?

Active Integrated Science pg 140.
Digital devices.
Two dry cells,two torch bulbs, ammeter, voltmeter, switch,cell holder,two bulb holders and seven connecting wires.

Practical activity. Assessment rubric. Observation schedule. Oral questions.

Force and Energy.

Electrical Energy

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

Outline the steps of setting up a simple electrical circuit in which bulbs are in parallel.
Set up a simple electrical circuit in which bulbs are in parallel.
Enjoy setting up a simple electrical circuit in which bulbs are parallel.

In groups,learners are guided to;
prepare the requirements for the practical activity.
use the requirements prepared to set up a simple electrical circuit in which bulbs are in parallel.
record and discuss their observations.

What is the difference between the arrangement of the bulbs in series and parallel?

Active Integrated Science pg 140-141.
Digital devices.
Two dry cells,two torch bulbs, ammeter, voltmeter, switch,cell holder,two bulb holders and eight connecting wires.

Practical activity. Oral questions. Assessment rubric. Observation. Checklists.

Force and Energy.

Electrical Energy

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

Outline the steps of setting up a simple electrical circuit in which bulbs are in parallel.
Set up a simple electrical circuit in which bulbs are in parallel.
Enjoy setting up a simple electrical circuit in which bulbs are parallel.

In groups,learners are guided to;
prepare the requirements for the practical activity.
use the requirements prepared to set up a simple electrical circuit in which bulbs are in parallel.
record and discuss their observations.

What is the difference between the arrangement of the bulbs in series and parallel?

Active Integrated Science pg 140-141.
Digital devices.
Two dry cells,two torch bulbs, ammeter, voltmeter, switch,cell holder,two bulb holders and eight connecting wires.

Practical activity. Oral questions. Assessment rubric. Observation. Checklists.

Force and Energy.

Electrical Energy

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

Outline the steps of setting up a simple electrical circuit in which bulbs are in parallel.
Set up a simple electrical circuit in which bulbs are in parallel.
Enjoy setting up a simple electrical circuit in which bulbs are parallel.

In groups,learners are guided to;
prepare the requirements for the practical activity.
use the requirements prepared to set up a simple electrical circuit in which bulbs are in parallel.
record and discuss their observations.

What is the difference between the arrangement of the bulbs in series and parallel?

Active Integrated Science pg 140-141.
Digital devices.
Two dry cells,two torch bulbs, ammeter, voltmeter, switch,cell holder,two bulb holders and eight connecting wires.

Practical activity. Oral questions. Assessment rubric. Observation. Checklists.

Force and Energy.

Electrical Energy

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

Differentiate between a conductor and non-conductor of electricity.
Conduct experiments to classify materials as either conductors or non-conductors of electricity.
Enjoy carrying out the experiments.

In groups,learners are guided to;
perform experiments to classify materials as either conductors or non-conductors of electricity.
state the difference between conductors and non-conductors of electricity.
list the conductors and non-conductors of electricity.

What is the difference between conductors and non-conductors of electricity?

Active Integrated Science pg 141-142.
Two dry cells, torch bulb,dry cell holder,bulb holder,three connecting wires.
Objects made of different materials e.g plastic strip, silver coin, piece of wood, piece of paper,iron nail, piece of cloth, aluminium strip, copper wire, steel pin & piece of glass.

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

Force and Energy.

Electrical Energy

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

Differentiate between a conductor and non-conductor of electricity.
Conduct experiments to classify materials as either conductors or non-conductors of electricity.
Enjoy carrying out the experiments.

In groups,learners are guided to;
perform experiments to classify materials as either conductors or non-conductors of electricity.
state the difference between conductors and non-conductors of electricity.
list the conductors and non-conductors of electricity.

What is the difference between conductors and non-conductors of electricity?

Active Integrated Science pg 141-142.
Two dry cells, torch bulb,dry cell holder,bulb holder,three connecting wires.
Objects made of different materials e.g plastic strip, silver coin, piece of wood, piece of paper,iron nail, piece of cloth, aluminium strip, copper wire, steel pin & piece of glass.

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

Force and Energy.

Electrical Energy.

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

Define the term Electrical appliances.
Identify common electrical appliances used in day to day life.
Discuss the use of each of the identified electrical appliances used in our day to day life.
Appreciate the use of electricity in our day to day life.

In pairs or groups,learners are guided to;
study pictures in learner's book and identify the electrical appliances by name and share in class.
state and discuss the uses of each of the identified electrical appliances.
search the internet for uses of some of the electrical appliances.

Which devices or instruments at your home or school use electricity? What do you use each of the devices or instruments for?

Active Integrated Science pg 142-143.
Pictures.
Digital devices.
Lesson notes.

Checklists. Oral questions. Written tests. Observation.

Force and Energy.

Electrical Energy.

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

Define the term Electrical appliances.
Identify common electrical appliances used in day to day life.
Discuss the use of each of the identified electrical appliances used in our day to day life.
Appreciate the use of electricity in our day to day life.

In pairs or groups,learners are guided to;
study pictures in learner's book and identify the electrical appliances by name and share in class.
state and discuss the uses of each of the identified electrical appliances.
search the internet for uses of some of the electrical appliances.

Which devices or instruments at your home or school use electricity? What do you use each of the devices or instruments for?

Active Integrated Science pg 142-143.
Pictures.
Digital devices.
Lesson notes.

Checklists. Oral questions. Written tests. Observation.

Force and Energy.

Electrical Energy.

By the end of the lesson, the learner should be able to:
;
Identify the safety measures to observe when handling electrical appliances.
Discuss the safety measures to observe when handling electrical appliances.
Prepare posters showing the safety measures to observe when handling electrical appliances.
Acknowledge and adhere to the safety measures when handling electrical appliances at home or school.

In groups, pairs, learners are guided to;
read through the user manuals of various electrical appliances and look for the safety measures to observe when handling them.
search online or in print materials for the safety measures to observe when handling electrical appliances.
discuss the safety measures to observe when handling electrical appliances at home or school.
collaborate in preparing posters showing the safety measures to observe when handling electrical appliances and display in class or school.

Which safety measures should you observe when handling electrical appliances at home?

Active Integrated Science pg 144-145.
Posters.
Digit devices.
Electronic devices manuals.

Oral questions. Written tests. Checklists.

Force and Energy.

Electrical Energy.

By the end of the lesson, the learner should be able to:
;
Identify the safety measures to observe when handling electrical appliances.
Discuss the safety measures to observe when handling electrical appliances.
Prepare posters showing the safety measures to observe when handling electrical appliances.
Acknowledge and adhere to the safety measures when handling electrical appliances at home or school.

In groups, pairs, learners are guided to;
read through the user manuals of various electrical appliances and look for the safety measures to observe when handling them.
search online or in print materials for the safety measures to observe when handling electrical appliances.
discuss the safety measures to observe when handling electrical appliances at home or school.
collaborate in preparing posters showing the safety measures to observe when handling electrical appliances and display in class or school.

Which safety measures should you observe when handling electrical appliances at home?

Active Integrated Science pg 144-145.
Posters.
Digit devices.
Electronic devices manuals.

Oral questions. Written tests. Checklists.

Force and Energy.

Electrical Energy.

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

Explore the uses of electricity in our environment.
Appreciate the uses of electricity in day to day life.

In groups,learners to:
collaborate in discussing how people use electricity in their locality.
write down their discussion points and share/present their points in class.

How is electricity used in day to day life?

Active Integrated Science pg 145-146.

Written tests. Checklists. Assessment rubrics. Rating scale.

Force and Energy.

Electrical Energy.

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

Explore the uses of electricity in our environment.
Appreciate the uses of electricity in day to day life.

In groups,learners to:
collaborate in discussing how people use electricity in their locality.
write down their discussion points and share/present their points in class.

How is electricity used in day to day life?

Active Integrated Science pg 145-146.

Written tests. Checklists. Assessment rubrics. Rating scale.

Force and Energy.

Electrical Energy. Self-Assessment.

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

Attempt questions on the sub-strand: Electrical Energy.

Individually or in pairs,learners to:
write and answer questions on the sub-strand: Electrical Energy.

Active Integrated Science pg 147.

Written tests. Assessment rubric.

Force and Energy.

Electrical Energy. Self-Assessment.

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

Attempt questions on the sub-strand: Electrical Energy.

Individually or in pairs,learners to:
write and answer questions on the sub-strand: Electrical Energy.

Active Integrated Science pg 147.

Written tests. Assessment rubric.

Force and Energy.

Electrical Energy. Self-Assessment.

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

Attempt questions on the sub-strand: Electrical Energy.

Individually or in pairs,learners to:
write and answer questions on the sub-strand: Electrical Energy.

Active Integrated Science pg 147.

Written tests. Assessment rubric.

Force and Energy.

Magnetism.

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

Identify the properties of a magnet.
use digital devices to search for information on the properties of magnets.
Appreciate the properties of magnets.

In. groups or pairs ,learners are guided to:
brainstorm on the meaning of magnet and present in class.
use digital devices to search for information on the properties of magnets and note them down.
discuss the properties of the magnets.

What is a Magnet? What are the properties of magnets?

Digital devices.
Lesson notes.

Written tests. Oral questions. Checklists.

Force and Energy.

Magnetism.

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

Identify the properties of a magnet.
use digital devices to search for information on the properties of magnets.
Appreciate the properties of magnets.

In. groups or pairs ,learners are guided to:
brainstorm on the meaning of magnet and present in class.
use digital devices to search for information on the properties of magnets and note them down.
discuss the properties of the magnets.

What is a Magnet? What are the properties of magnets?

Digital devices.
Lesson notes.

Written tests. Oral questions. Checklists.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Conduct activities to demonstrate directional,attractive and repulsive as properties of magnets.
Enjoy carrying out the activities.

In groups,learners are guided to:
prepare the necessary materials for the activities.
collaborate in carrying out the activities to demonstrate properties of a magnet (attractive and repulsive and directional)
observe and record their observations.
explain their observations and give a conclusion.

How can you demonstrate the properties of magnets?

Bar magnets.
Strings and Stands.
Digital devices.

Practical Activity. Observation schedule. Checklist.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Conduct activities to demonstrate directional,attractive and repulsive as properties of magnets.
Enjoy carrying out the activities.

In groups,learners are guided to:
prepare the necessary materials for the activities.
collaborate in carrying out the activities to demonstrate properties of a magnet (attractive and repulsive and directional)
observe and record their observations.
explain their observations and give a conclusion.

How can you demonstrate the properties of magnets?

Bar magnets.
Strings and Stands.
Digital devices.

Practical Activity. Observation schedule. Checklist.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Conduct activities to demonstrate directional,attractive and repulsive as properties of magnets.
Enjoy carrying out the activities.

In groups,learners are guided to:
prepare the necessary materials for the activities.
collaborate in carrying out the activities to demonstrate properties of a magnet (attractive and repulsive and directional)
observe and record their observations.
explain their observations and give a conclusion.

How can you demonstrate the properties of magnets?

Bar magnets.
Strings and Stands.
Digital devices.

Practical Activity. Observation schedule. Checklist.

Force and Energy.

Magnetism.

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

Conduct a practical activity on the poles and magnetic strength properties of magnets.
Explain their observation made from the activities.
Enjoy conducting the practical activities.

In groups,learners are guided to:
collaboratively carry out activities to demonstrate properties of a magnet (poles and magnetic strength properties)
observe and record their observations.
explain their observations and give a conclusion.

How can you investigate the poles of magnet and magnetic strength?

Active Integrated Science pg 149.
Digital devices.
Bar magnets.
Paper and Iron filings.

Practical work. Checklists. Observation. Written test. Oral questions.

Force and Energy.

Magnetism.

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

Conduct a practical activity on the poles and magnetic strength properties of magnets.
Explain their observation made from the activities.
Enjoy conducting the practical activities.

In groups,learners are guided to:
collaboratively carry out activities to demonstrate properties of a magnet (poles and magnetic strength properties)
observe and record their observations.
explain their observations and give a conclusion.

How can you investigate the poles of magnet and magnetic strength?

Active Integrated Science pg 149.
Digital devices.
Bar magnets.
Paper and Iron filings.

Practical work. Checklists. Observation. Written test. Oral questions.

Force and Energy.

Magnetism.

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

conduct an activity to investigate the nature of force between different poles of magnets.
Enjoy conducting the practical activity on the basic law of magnetism.

In groups, learners are guided to;
collaborate in conducting a practical activity to investigate the force between like and unlike poles of magnets.
observe and record their observations.
explain their observation and give a conclusion.

What happens when like poles and unlike poles come close to each other? How can you investigate the force between like and unlike poles of magnets?

Active Integrated Science pg 150-151.
Bar magnets.
Rollers.

Practical work. Checklists. Observation. Written test. Oral questions.

Force and Energy.

Magnetism.

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

conduct an activity to investigate the nature of force between different poles of magnets.
Enjoy conducting the practical activity on the basic law of magnetism.

In groups, learners are guided to;
collaborate in conducting a practical activity to investigate the force between like and unlike poles of magnets.
observe and record their observations.
explain their observation and give a conclusion.

What happens when like poles and unlike poles come close to each other? How can you investigate the force between like and unlike poles of magnets?

Active Integrated Science pg 150-151.
Bar magnets.
Rollers.

Practical work. Checklists. Observation. Written test. Oral questions.

Force and Energy.

Magnetism.

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

Conduct a practical activity to identify the magnetic and non-magnetic materials in the environment.
Classify materials as magnetic or non-magnetic .
Enjoy conducting the practical activity.

In groups,learners are guided to:
collaborate in carrying out practical activities to determine the magnetic and non-magnetic materials in the environment.
observe and record their observations.
classify the materials that are magnetic and non-magnetic and share their work with peers.

Which materials are magnetic and non-magnetic in the environment?

Active Integrated Science pg 148.
Bar magnets.
Pieces of cotton thread, copper wire,iron nail,a piece of glass.
Plastic,Steel pin, Piece of aluminium, piece of wood.

Practical work. Observation. Checklists. Oral questions.

Force and Energy.

Magnetism.

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

Conduct a practical activity to identify the magnetic and non-magnetic materials in the environment.
Classify materials as magnetic or non-magnetic .
Enjoy conducting the practical activity.

In groups,learners are guided to:
collaborate in carrying out practical activities to determine the magnetic and non-magnetic materials in the environment.
observe and record their observations.
classify the materials that are magnetic and non-magnetic and share their work with peers.

Which materials are magnetic and non-magnetic in the environment?

Active Integrated Science pg 148.
Bar magnets.
Pieces of cotton thread, copper wire,iron nail,a piece of glass.
Plastic,Steel pin, Piece of aluminium, piece of wood.

Practical work. Observation. Checklists. Oral questions.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Identify the uses of magnets in day to day life.
Use digital devices to search for information on the uses of magnets in our daily lifes.
Appreciate the applications of magnets in day to day life.

In groups,learners to are guided to:
brainstorm on the uses of magnets in their day to day life.
search the internet or offline for information on the uses of magnets in their daily life.
discuss the uses of magnets in our daily life and present in class.

How are magnets used in day to day life?

Active Integrated Science PG 151-155.
Lesson notes.
Digital resources.

Oral questions. Assessment rubrics. Written tests Checklists.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Identify the uses of magnets in day to day life.
Use digital devices to search for information on the uses of magnets in our daily lifes.
Appreciate the applications of magnets in day to day life.

In groups,learners to are guided to:
brainstorm on the uses of magnets in their day to day life.
search the internet or offline for information on the uses of magnets in their daily life.
discuss the uses of magnets in our daily life and present in class.

How are magnets used in day to day life?

Active Integrated Science PG 151-155.
Lesson notes.
Digital resources.

Oral questions. Assessment rubrics. Written tests Checklists.

Force and Energy.

Magnetism.

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

Conduct simple activities to determine the uses of magnets
Appreciate the use of magnets in our daily life.

In groups,learners are guided to:
carry out a simple activity on separation of mixtures using magnet,determing direction.
observe and record their observations.
share their views on the practical activity.

How are magnets used in day to day life?

Active Integrated Science pg 151-152.
Mixture of iron fillings and sand or flour.
Bar magnets, piece of thread, magnetic compass and wooden support.

Practical work. Oral questions. Observation schedule. Checklists.

Force and Energy.

Magnetism.

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

Conduct simple activities to determine the uses of magnets
Appreciate the use of magnets in our daily life.

In groups,learners are guided to:
carry out a simple activity on separation of mixtures using magnet,determing direction.
observe and record their observations.
share their views on the practical activity.

How are magnets used in day to day life?

Active Integrated Science pg 151-152.
Mixture of iron fillings and sand or flour.
Bar magnets, piece of thread, magnetic compass and wooden support.

Practical work. Oral questions. Observation schedule. Checklists.

Force and Energy.

Magnetism.

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

Conduct simple activities to determine the uses of magnets
Appreciate the use of magnets in our daily life.

In groups,learners are guided to:
carry out a simple activity on separation of mixtures using magnet,determing direction.
observe and record their observations.
share their views on the practical activity.

How are magnets used in day to day life?

Active Integrated Science pg 151-152.
Mixture of iron fillings and sand or flour.
Bar magnets, piece of thread, magnetic compass and wooden support.

Practical work. Oral questions. Observation schedule. Checklists.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Conduct simple activities to determine the uses of magnets in our daily life.
Enjoy conducting the practical activities.

In groups,learners are guided to;
collaborate in conducting simple practical activities on uses of magnets (use of magnets in speakers, magnetic screwdriver & in displaying objects)
observe and record their observations.
share their findings with peers.

How are magnets used in our daily life?

Speakers, Magnetic screwdriver.
Bar magnet.
Sheet of paper, piece of iron sheet and electrical device with screws.
Active Integrated Science pg 153-154.

Practical work. Checklists. Oral questions.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Conduct simple activities to determine the uses of magnets in our daily life.
Enjoy conducting the practical activities.

In groups,learners are guided to;
collaborate in conducting simple practical activities on uses of magnets (use of magnets in speakers, magnetic screwdriver & in displaying objects)
observe and record their observations.
share their findings with peers.

How are magnets used in our daily life?

Speakers, Magnetic screwdriver.
Bar magnet.
Sheet of paper, piece of iron sheet and electrical device with screws.
Active Integrated Science pg 153-154.

Practical work. Checklists. Oral questions.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Conduct simple activities to determine the uses of magnets in our daily life.
Enjoy conducting the practical activities.

In groups,learners are guided to;
collaborate in conducting simple practical activities on uses of magnets (use of magnets in speakers, magnetic screwdriver & in displaying objects)
observe and record their observations.
share their findings with peers.

How are magnets used in our daily life?

Speakers, Magnetic screwdriver.
Bar magnet.
Sheet of paper, piece of iron sheet and electrical device with screws.
Active Integrated Science pg 153-154.

Practical work. Checklists. Oral questions.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
lesson,
Use digital devices to search and watch clips on the applications of magnets in our daily life.
Enjoy exploring the application of magnets on the internet.

In groups,learners are guided to:
collaborate in using digital devices to find video clips and information on the applications of magnets (generators, electric motors,speakers, separation of mixtures and in magnetic screwdriver).
discuss their observations and share with peers.

Which devices have magnets in them? How do magnets operate in the devices named?

Active Integrated Science pg 151-155.
Internet.
Digital resources.

Observation schedule. Oral questions.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
lesson,
Use digital devices to search and watch clips on the applications of magnets in our daily life.
Enjoy exploring the application of magnets on the internet.

In groups,learners are guided to:
collaborate in using digital devices to find video clips and information on the applications of magnets (generators, electric motors,speakers, separation of mixtures and in magnetic screwdriver).
discuss their observations and share with peers.

Which devices have magnets in them? How do magnets operate in the devices named?

Active Integrated Science pg 151-155.
Internet.
Digital resources.

Observation schedule. Oral questions.

Force and Energy.

Magnetism.

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

Attempt assessment questions on the sub-strand: Magnetism.

Individually or in pairs,learners are guided to:
answer assessment questions on the sub-strand: Magnetism.

Active Integrated Science pg 156.
Teacher's Assessment Questions.

Written tests. Checklists. Rating scale. Assessment rubric.

Force and Energy.

Magnetism.

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

Attempt assessment questions on the sub-strand: Magnetism.

Individually or in pairs,learners are guided to:
answer assessment questions on the sub-strand: Magnetism.

Active Integrated Science pg 156.
Teacher's Assessment Questions.

Written tests. Checklists. Rating scale. Assessment rubric.