Mixtures,Elements and Compounds.

Mixtures. (. Methods of Separating Mixtures.(Decantin
Mixtures.(.Methods of Separating Mixtures.(Use of a magnet and filtration)

By the end of the lesson, the learner should be able to:
outline the procedure of separating solid, liquid mixture by decanting

In groups,learners are guided to;
outline and describe the procedure for separating a solid-liquid mixture by decanting.
carry out an experiment to separate a solid-liquid mixture by decanting and record the observations.
name other mixtures that can be separated using the same method at home.

What should be considered when separating various mixtures?

Requirements (Beakers, water,sand or maize grains or bean seeds & stirring ro
Top Scholar Integrated Science pg 56.
Digital devices.
Requirements for the experiments.
Top Scholar Integrated Science pg 57-58.

Observation schedule. Assessment rubric. oral report. Checklists.

Mixtures,Elements and Compounds.

Mixtures. (. Methods of separating mixtures (Simple Distillation)
Mixtures. (. Methods of separating mixtures (Paper chromatography)

By the end of the lesson, the learner should be able to:
 outline the procedure for separating a homogeneous solid-liquid mixture by simple distillation

In groups,learners are guided to:
search and explain the meaning of distillation.
outline the procedure for separating a homogeneous solid-liquid mixture by simple distillation.
carry out the experiment and record the observations.
discuss the observations recorded.
search a video on how distillation is used to separate crude oil in oil refineries.

How can simple distillation be used to obtain pure water from river water at home?

Requirements for the experiment.
Digital devices.
Top Scholar Integrated Science pg 58-59.
Top Scholar Integrated Science pg 60-62.

Assessment rubric. Checklist. Observation schedule. oral report.

Mixtures,Elements and Compounds.

Mixtures (. Methods of separating mixtures (use of solvent extraction)
Mixtures (. Methods of separating mixtures (Sublimation)

By the end of the lesson, the learner should be able to:
explain the term solvent extraction. outline the procedure for separating mixtures using solvent extraction

In groups,learners are guided to:
explain the term solvent extraction.
outline the procedure for separating mixtures using solvent extraction.
conduct an experiment to separate mixtures using solvent extraction and record the observations.
search the internet or use other sources on how oil can be extracted from the coconut and other plant materials.

What is solvent extraction? How does solvent extraction work to separate mixtures?

Requirements for the experiment.
Top Scholar Integrated Science pg 62-63
Digital devices.
Top Scholar Integrated Science pg 64-65.

Assessment rubric. Observation schedule. Checklist. oral report.

Mixtures,Elements and Compounds.

Mixtures (. Methods of separating mixtures (Crystallisation)
Mixtures (. Methods of separating mixtures.

By the end of the lesson, the learner should be able to:
 explain the term crystallisation. describe the procedure for separating a mixture using crystallisation.

In groups,learners are guided to:
explain the term crystallisation.
describe the procedure for separating a mixture using crystallisation.
conduct an experiment to separate a mixture using crystallisation.
record and discuss the observations from the experiment.
search from the internet how salt is manufactured from sea water.

What is crystallisation? How does the method of crystallisation works as a method of separating mixtures?

Digital devices.
Top Scholar Integrated Science pg 65-66.
Requirements for the experiment.
Top Scholar Integrated Science pg 56-66.

Assessment rubric. Checklists. observation schedules. oral report.

Mixtures,Elements and Compounds.

Acids and Bases. (. Preparing Plant Extracts to be used as Acid-Base Indicator.
Acids and Bases. (. Using plant extracts to group household solutions into basic or acidic.

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

define the term indicator.
outline the procedure for preparing a plant extract.
prepare a plant extract and record the observations.

In groups,learners are guided to:
outline the procedure for preparing plant extracts.
prepare a plant extract.
record and discuss the observations made from the activity.
use digital device to find out other plant extracts that can also be used as indicators.

What is an indicator? How do you prepare a plant extract?

Top Scholar Integrated Science pg 68-69.
Digital devices.
Requirements for the experiment.
Top Scholar Integrated Science pg 69-71.
Plant extract.

Checklists. Observation schedule. oral report.

Mixtures,Elements and Compounds.

Acids and Bases. (. using commercial indicators to classify household solution as acids and bases.
Acids, bases and indicators. (. Determining the strength of Acids and Bases using Universal Indicators.

By the end of the lesson, the learner should be able to:
outline and follow the procedure for using commercial indicators to classify household solutions as acids and bases.

In groups,learners are guided to:
outline and follow the procedure for using commercial indicators to classify household solutions as acids and bases.
carry out the experiment, record and discuss the observations .

What is the colour of the commercial indicators? What is the advantage of commercial indicators over the plant extracts?

Top Scholar Integrated Science pg 71-72.
Requirements for the experiment.
Digital devices.
Top Scholar Integrated Science pg 73.
Universal indicators.

Assessment rubric. Checklists. Oral questions. observation schedule.

Mixtures,Elements and Compounds.

Acids and Bases. (. Determining the strength of Acids and Bases using pH scale and pH chart.
Acids and Bases. (. Application of Acids and Bases in day to day life.

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

conduct an experiment to determine the strength of acids and bases using pH scale and pH chart.
classify the acidic and basic solutions provided as either strong or weak.
discuss what is pH scale and pH chart and how it relates to strength of acids or bases.

In groups,learners are guided to:
carry out an experiment.
match the colour of the universal indicator in each solution to the pH chart provided.
classify acidic or basic solutions as either strong or weak using a pH scale and pH chart.
search, watch videos and animations showing different colours of acid-base indicators in different solutions.

What is the relationship between pH values and strength of acids and bases?

Top Scholar Integrated Science pg 73-74.
Requirements for the experiment.
Digital devices.
Top Scholar Integrated Science pg 75.

Assessment rubric. oral questions. observation schedule.

Living Things and Their Environment.

Reproduction in Human Beings. ( The Human Menstrual Cycle.
Reproduction in Human Beings. ( Challenges Related to Menstrual Cycle.

By the end of the lesson, the learner should be able to:
iscuss the meaning of menstruation and the menstruation cycle. describe the menstrual cycle. 

In groups,pairs,learners are guided to;
use dictionary or ict devices to search and discuss the meaning of menstruation and the menstruation cycle.
describe the menstrual cycle.
draw the menstruation cycle and identify the phases in menstrual cycle.

What is menstruation and menstrual cycle? How many days does it take for menstruation cycle to reoccur?

Digital devices.
Dictionary.
Top Scholar Integrated Science pg 77-79.
Chart.
Top Scholar Integrated Science pg 80-82.

Assessment rubric. Written test. Checklist.

Living Things and Their Environment.

Reproduction in human beings. ( The process of fertilisation and implantation.
Reproduction in human beings. ( Process of fertilization and implantation.

By the end of the lesson, the learner should be able to:
escribe the observable structures of the sex cells. draw and label the structures of male and female sex cells

In groups, pairs, individually,learners are guided to:
discuss the intersex conditions.
identify the male and female sex cell.
describe the observable structures of the sex cells.
draw and label the structures of male and female sex cells.
search for more information from the textbooks and internet about the structure of the female and male sex cells and their functions.

What is the male sex cell called? what is the female sex cell called?

Digital devices.
Top Scholar Integrated Science pg 82-83.
Chart.
Top Scholar Integrated Science pg 83-85
Charts on fertilization.

Assessment rubric. Checklist. oral questions. written test.

Living Things and Their Environment.

Human Excretory system-Skin (. Identifying parts of Human Skin.
Human Excretory System - Skin. (. Functions of parts of the skin.

By the end of the lesson, the learner should be able to:
xplain the term excretion. name the organs responsible for removal of wastes. describe the human skin

In groups,pairs,learners are guided to:
explain the term excretion.
name the organs responsible for removal of wastes.
describe the human skin.
study the diagram of a skin and brainstorm on the parts of the skin.
use digital device to search for a well labelled diagram of the human skin.
draw and label the parts of the human skin on charts and display the drawings in class.

What is excretion? why is excretion important to the human body?

Top Scholar Integrated Science pg 87-88.
Charts.
Digital devices.
Diagrams.
Top Scholar Integrated Science pg 89-91.
Digital devices

Assessment rubric. Checklist. Written test. oral questions.

Living Things and Their Environment.

The Human skin. (. Lifestyle to promote a healthy skin.
Human Excretory System-Skin. (. Proper use of cosmetics.

By the end of the lesson, the learner should be able to:
identify lifestyles that promote a healthy skin. discuss the health practices that promote and help maintain a healthy skin.

In groups,pairs,learners are guided to;
identify lifestyles that promote a healthy skin.
discuss the health practices that promote and help maintain a healthy skin.
search for more information from the internet on practices that maintain a healthy skin.

How can we maintain a healthy skin?

Top Scholar Integrated Science pg 92-94.
Pictures.
Digital devices.
Top Scholar Integrated Science pg 94-95.

Assessment rubric. Written test. Oral questions.

Living Things and Their Environment.

Human Excretory System -Skin. (. Identifying effects of cosmetics on the human body.
Human Excretory System -Skin. (. Importance and proper use of comsetics for consumer protection.

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

identify the effects of cosmetics on the human body.
discuss the effects of cosmetics on the human body.
use locally available materials to make a cosmetic.

In groups,pairs,learners are guided to:
use digital devices with internet to search on the effects of skin lightners.
discuss the findings and present in class.
identify the various forms of cosmetics and discuss how they are applied.
make a cosmetic from the locally available materials.

What are the effects of cosmetics on the human body? What are the advantages of using locally made cosmetics? How can the locally made cosmetics be used or improved?

Top Scholar Integrated Science pg 96-97.
Realia.
Digital devices.
Top Scholar Integrated Science pg 98.

Assessment rubric. Checklists. Observation schedule.

Living Things and Their Environment.

Human Excretory System - Urinary system. (. Parts of the Urinary system.
Human Excretory System - Urinary system. (. Functions of the parts of the urinary system.

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

identify the waste product excreted by the urinary system.
identify the parts of the urinary system.
discuss the parts of the urinary system(external appearance of the kidney)
draw and label the parts of the urinary system.

In groups,pairs,learners are guided to;
study the diagram of the urinary system and brainstorm on the its external parts.
search for information from other reference materials and internet on the parts of the urinary system.
discuss the parts of the urinary system.
draw and label the vessels and external parts of the urinary system.

What are the parts of the urinary system?

Top Scholar Integrated Science pg 98-99.
Charts.
Pictures.
Digital devices.
Top Scholar Integrated Science pg 99-100.

Assessment rubric. oral questions. Checklists. Written test.

Living Things and Their Environment.

Human Excretory System - Urinary system. (. Kidney Disorders.
Human Excretory System - Urinary system. (. Identifying lifestyles that promote a healthy kidney and prevent kidney disorders.

By the end of the lesson, the learner should be able to:
explain the meaning of kidney disorders. use digital devices to search some of the examples of kidney disorders. identify and discuss the practices that may cause kidney disorders.

In groups,pairs, learners are guided to:
explain the meaning of kidney disorders.
use digital devices to search some of the examples of kidney disorders.
identify and discuss the practices that may cause kidney disorders.

What are some of the practices that may cause kidney disorders?

Top Scholar Integrated Science pg 101-102.
Digital devices.
Posters.
Top Scholar Integrated Science pg 102-103
Charts.

Assessment rubric. Portfolios. Checklists. Written tests. oral questions.

Living Things and Their Environment.
Force and Energy.

Human Excretory System - Urinary System. (.Project.
Static Electricity. (. Demonstrating the Existence of Static Charges.

By the end of the lesson, the learner should be able to:
 identify the appropriate locally available materials to model the urinary system

In groups,pairs,learners are guided to:
identify the appropriate locally available materials to model the urinary system.
model the urinary system using the locally available materials and display in class.

Which locally available materials can be used to model the urinary system?

Realia.
Digital devices.
Top Scholar Integrated Science pg 103 & 100.
Top Scholar Integrated Science pg 105-106.
Requirements for the experiment.

Checklist. portfolios. observation schedule.

Force and Energy.

Static Electricity. (. Methods of Charging Objects.(Rubbing or Friction)
Static Electricity. (. Methods of charging objects. (induction)

By the end of the lesson, the learner should be able to:
 identify the methods of charging objects. conduct a practical on charging objects by rubbing.

In groups,pairs,learners are guided to:
identify the methods of charging objects.
conduct a practical on charging objects by rubbing.
observe, record and discuss the observations.

What is charging? How do materials get charged?

Top Scholar Integrated Science pg 107-108.
Requirements for the experiment.
Top Scholar Integrated Science pg 108-110.
Digital devices.

Practical Work. observation schedule. Assessment rubric. oral report.

Force and Energy.

Static Electricity. (. Methods of charging objects.(Induction)
Static Electricity. (. Types of Charges.

By the end of the lesson, the learner should be able to:
carry out a practical activity on charging a single polythene ball or balloon by induction. observe,record and discuss the observations from the experiment.

In groups,learners are guided to:
carry out a practical activity on charging a single polythene ball or balloon by induction.
observe,record and discuss the observations from the experiment.
search and watch videos from the internet on charging materials by induction and rubbing.

What is earthing process? What observations are expected from the experiment?

Top Scholar Integrated Science pg 111-113.
Digital devices.
Requirements for the experiment.
Top Scholar Integrated Science pg 113-115.
Requirements for the practical.

Practical work. Assessment rubric. observation schedule. Oral questions.

Force and Energy.

Static Electricity. (. Effects of Force between Charged Objects.
Static Electricity. (. Uses of Static Charges.

By the end of the lesson, the learner should be able to:
conduct an experiment to demonstrate the effects of force between charged objects. observe and record the observations from the experiment. discuss the effects of force between charged objects.

In groups,pairs,learners are guided to;
conduct an experiment to demonstrate the effects of force between charged objects.
observe and record the observations from the experiment.
discuss the effects of force between charged objects.

What is the difference between attraction and repulsion force?

Top Scholar Integrated Science pg 115-118.
Requirements for the experiment.
Top Scholar Integrated Science pg 118-119.
Digital devices.
Pictures.

Assessment rubric. Practical work. Checklists. observation schedule.

Force and Energy.

Static Electricity. (.Dangers and Safety measures when dealing with static charges.
Electrical Energy-Sources of Electricity.

By the end of the lesson, the learner should be able to:
discuss the dangers when dealing with static charges. discuss the safety measures when dealing with static charges.

In groups,pairs,learners are guided to;
search the internet the dangers that may occur when dealing with static charges.
discuss the dangers when dealing with static charges.
discuss the safety measures when dealing with static charges.(include lightnin

What are the dangers of static charges? Why is it advisable to switch off the car engine when fueling in a petrol station?

Top Scholar Integrated Science pg 119-120.
Digital devices.
Top Scholar Integrated Science pg 122-123.
Pictures.

Written test. oral questions. Checklists. Assessment rubric.

Force and Energy.

Electrical Energy-Solar power.
Electrical Energy-Hydroelectric Power.

By the end of the lesson, the learner should be able to:
;
Identify solar power as source of electricity
Discuss how solar energy is used in the locality.
Search the internet for more information on how the solar panel converts energy from the sun to electrical energy.
Appreciate the solar power as source of electricity.

In groups,pairs,learners are guided to:
describe how solar power is stored.
discuss ways in which solar energy is used in the locality.
search the internet for more information on how the solar panel converts energy from the sun to electrical energy.

How is electric energy from the solar panel stored?

Top Scholar Integrated Science pg 123-124.
Pictures.
Digital devices.
Videos.
Top Scholar Integrated Science pg 125-126.

Assessment rubric. Written test. Oral questions.

Force and Energy.

Electrical Energy-Geothermal Generators.
Electrical Energy-Wind power.

By the end of the lesson, the learner should be able to:
;
Identify geothermal generator as a source of electricity.
Discuss how geothermal generators operate as a source of electricity.
Search and watch a video showing geothermal power generators producing electricity.
Appreciate geothermal generators aa sources of electricity.

In groups,pairs, learner are guided to;
search and watch a video showing geothermal power generators producing electricity.
discuss how geothermal generators operate as source of electricity.
find out and list where geothermal power stations are found in Kenya.

How do geothermal generators operate as source of electricity?

Top Scholar Integrated Science pg 126-127.
Pictures.
Digital devices.
Top Scholar Pre-Technical Studies pg 127-128.

Assessment rubric. Written test. Checklist. Oral questions.

Force and Energy.

Electrical Energy- Simple Electrical Circuits.
Electrical Energy-Setting up Simple Electrical Circuit in Parallel.

By the end of the lesson, the learner should be able to:
;
Identify the electrical components and their symbols while connecting a simple circuit.
Discuss what is simple electrical circuit in series.
Search and watch videos showing how to set up a simple electric circuit with components in series.
Set up simple electrical circuits in series using dry cells, bulbs, switch and connecting copper wires.
Enjoy setting up simple electrical circuit in series.

In groups,learners are guided to:
identify the electrical components and their symbols used while connecting a simple circuit.
describe what is a simple electrical circuit in series.
search and watch videos showing how to set up simple electric circuit with components in series.
set up simple electrical circuit in series.

What are the electrical components and their symbols? How do you set up a simple electrical circuit in series?

Top Scholar Pre-Technical Studies pg 129-130.
Pictures.
Dry cells, torch bulbs, connecting copper wires and switch.
Digital devices.
Top Scholar Pre-Technical pg 131-132.
Dry cells, bulbs, connecting copper wires and switch.

Checklists. Observation. Practical work. Oral questions.

Force and Energy.

Electrical Energy.
Electrical Energy-Conductors and Non-Conductors of Electricity.

By the end of the lesson, the learner should be able to:
;
Search and watch a video on connecting an ammeter and voltmeter in series and parallel simple circuits.
Connect an ammeter and a voltmeter in series and parallel simple circuit.
Enjoy connecting an ammeter and voltmeter in series and parallel simple circuit.

In groups, learners are guided to:
Search for and observe videos and animations showing how to connect an ammeter and voltmeter in series and parallel simple circuits.
Connect an ammeter and voltmeter in series and parallel simple circuits and record themselves.

How do you connect an ammeter and voltmeter in series and parallel simple circuits?

Top Scholar Pre-Technical Studies pg 133-135.
Dry cells, pieces of copper wire, two switches, bulbs.
Digital devices.
Pictures.
Top Scholar Pre-Technical Studies pg 135-137.
Requirements for experiments:dry cells,bulb, copper wire, metallic spoon, aluminum foil, rubber band,steel wool,nail, pencil rib,paper,10 shilling coin etc.

Practical work. Observation. Checklists. Oral questions.

Force and Energy.

Electrical Energy -Electrical Appliances.
Electrical Energy -Safety Measures when Dealing with Electrical Appliances.

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

Identify electrical appliances in the locality.
Discuss the uses of the electrical appliances in the locality.
Make flashcards showing the electrical appliances used in the locality.
Appreciate the uses of the different electrical appliances in our daily lifes.

In groups,pairs,learners are guided to:
study pictures in learner's book, identify and name the electrical appliances.
discuss the uses of the identified electrical appliances in the locality.
make flashcards showing the different electrical appliances used in the locality.

What is an electrical appliance? What are the uses of the different electrical appliances?

Pictures.
Top Scholar Pre-Technical Studies pg 137-138.
Digital devices.
Flashcards.
Top Scholar Pre-Technical Studies pg 139-140.
Charts.

Written tests. Checklists. Assessment rubric. Oral questions.

Force and Energy.

Electrical Energy - Self-Assessment Questions.
Magnetism-Magnetic and Non-Magnetic Materials.

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

Attempt all the questions on the sub-strand.

Individually,in pairs,learners to:
answer the questions on the sub-strand.

Top Scholar Pre-Technical Studies pg 140.
Assessment books.
Top Scholar Pre-Technical Studies pg 141.
Magnets.
Materials from the environment.

Assessment rubric. Written test. Checklists.

Force and Energy.

Magnetism.

By the end of the lesson, the learner should be able to:
;
Carry out experiments using magnets and different materials from the environment.
Classify the materials in the environment as magnetic or non-magnetic.
Enjoy classifying the materials as either magnetic or non-magnetic.

In groups,learners are guided to:
carry out practical activity with materials collected from environment and magnets.
record their observation and classify the materials as either magnetic or non-magnetic.

What is the difference between magnetic and non-magnetic materials?

Magnets
Materials collected from environment.
Top Scholar Pre-Technical Studies pg 142-143.
Digital devices.
Top Scholar Pre-Technical Studies pg 143-144.
Bar magnet,iron fillings and flour.

Practical work. Assessment rubric. observation. Oral questions.

Force and Energy.

Magnetism.
Magnetism-Uses of magnets in day to day life.

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

Differentiate between like ad unlike poles of a magnet.
Investigate the force between like and unlike poles of magnets.
Search for videos and animations on effect between poles of a magnet.

In groups,learners are guided to:
differentiate between unlike and like poles of a magnet.
carry out a practical activities showing attraction between two unlike poles and repulsion between two like poles of magnet.
record and explain the observations made from the activity.

What is the difference between force of attraction and force of repulsion?

Top Scholar Pre-Technical Studies pg 145-146.
Bar magnets, strings and retort stand.
Digital devices
Top Scholar Integrated Science pg 147-148.
Pictures.
Digital devices.
Charts.
Flashcards.

Practical work. Observation. Assessment rubric. Oral questions.

Living Things and Their Environment.

Human Excretory System.

By the end of the lesson, the learner should be able to:
lesson, be able to;
Define the term Excretion.
List the components of the excretory system.
Identify the parts of the human skin.
Draw and label the identified parts of the human skin.
Appreciate the parts of the human skin.

In groups,pairs,learners are guided to:
search the internet or relevant textbook for the meaning of excretion and the components of excretory system and present.
study the charts , picture or photo of the human skin and identify the parts of the human skin.
draw and label the parts of the human skin in their exercise books.

What is Excretion? What are the components of the human excretory system? which parts of the skin do you know?

Active Integrated Science pg 110.
Pictures.
Charts.
Digital devices.
Dictionary.
Active Integrated Science pg 111.
Hand lens.
Internet.
Video clips.

Written tests. Observation. Checklists. Assessment rubric. Oral questions.

Living Things and Their Environment.

Human Excretory System.

By the end of the lesson, the learner should be able to:
lesson, be able to;
State the functions of the parts of the human skin.
Describe the functions of the parts of the human skin.
Appreciate the functions of the parts of the human skin.

In groups,pairs,learners are guided to;
brainstorm on the functions of the parts of the human skin; (Epidermis,Sweat pores,Hair,Sweat glands,dermis)
search the internet or textbook for information on the functions of the parts of the human skin.
discuss and present their findings on the functions of the parts of the human skin.

What are the functions of the different parts of the human skin?

Active Integrated Science pg 111-112.
Chart.
Model of human skin.
Digital devices.
Internet.
Teacher's Notes.
Active Integrated Science pg 112-113.
School Field.

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

Living Things and Their Environment.

Human Excretory System.

By the end of the lesson, the learner should be able to:
lesson, be able to;
Identify the parts of the Urinary system.
Draw and label the different parts of the urinary system.
Acknowledge the parts of the urinary system.

In groups,pairs,learners are guided to;
Study the chart or picture showing the urinary system.
identify the parts of the urinary system from the chart or pictures presented.
discuss the position of each of the parts of the urinary system.
draw and label the parts of the urinary system in their books and charts.

Which parts form the urinary system?

Active Integrated Science pg 113.
Pictures.
Chart showing the urinary system.
Digital devices.
Active Integrated Science pg 114-115.
Chart/Model of kidney.
Video clips.

Oral questions. Written tests. Self and peer assessment. Assessment rubric. Checklists.

Living Things and Their Environment.

Human Excretory System.

By the end of the lesson, the learner should be able to:
lesson, be able to;
Identify the components of the urine.
Discuss the waste products excreted through the kidneys.
Search the internet for information on the contents of human urine.
Acknowledge the waste product excreted through the kidney.

In groups,pairs,learners are guided to;
mention the waste product excreted through the kidney.
search the contents of human urine from the internet.
discuss their findings from the internet and present in class.

Which waste product is excreted by the kidney? What are the main components of urine?

Active Integrated Science pg 115.
Digital devices.
Internet.
Teacher's Notes.
Active Integrated Science pg 115-116.
Posters.
Picture of the kidney stones.

Oral questions. Oral presentation. Written tests. Assessment rubric.

Living Things and Their Environment.

Human Excretory System.

By the end of the lesson, the learner should be able to:
lesson, be able to;
State the ways of preventing kidney disorders.
Discuss the ways of preventing kidney disorders.
Prepare posters on ways of preventing kidney disorders.
Appreciate the ways of preventing kidney disorders.

In groups,pairs,learners are guided to;
study the pictures in learner's book and state the ways of preventing kidney disorders.
search the internet for additional information on the ways of preventing kidney disorders.
discuss the ways of preventing kidney disorders.
prepare educative posters both online and physical on ways of preventing kidney disorders.

How can we prevent kidney disorders?

Active Integrated Science pg 117-118.
Pictures.
Digital devices.
Internet.
Teacher's Notes.
Active Integrated Science pg 118.
Posters.

Assessment rubric. Observation. Oral questions. Project. Written tests.

Living Things and Their Environment.

Human Excretory System.

By the end of the lesson, the learner should be able to:
lesson, be able to;
State the healthy lifestyles that promote healthy kidneys.
Discuss the healthy lifestyles that promote healthy kidneys.
Prepare posters on the healthy lifestyles that promote kidney health.
Desire to practice the healthy lifestyles to promote healthy kidneys.

In groups,learners are guided to;
brainstorm and present on the healthy lifestyle that promote healthy kidneys.
search for information from the internet or textbook on the healthy lifestyles that promote healthy kidneys.
discuss the healthy lifestyles that promote healthy kidneys.
prepare posters showing the healthy lifestyles that promote healthy kidneys.

Which healthy lifestyles habits can we practice to promote healthy kidneys?

Active Integrated Science pg 119.
Internet.
Digital devices.
Posters.
Teacher's Notes.
Exercise books.
Active Integrated Science pg 117-119.

Written tests. Assessment rubric. Checklists. Oral questions. Oral discussion.

Living Things and Their Environment.
Force and Energy.

Human Excretory System: Assessment.
Electrical Energy.

By the end of the lesson, the learner should be able to:
lesson, be able to;
Attempt assessment questions on the sub-strand: Human Excretory System.

In pairs or individually,learners are guided to;
answer the questions on the sub-strand: Human Excretory System.

Assessment books.
Active Integrated Science pg 122-123.
Teacher's Assessment Questions.
Active Integrated Science pg 136-137.
Pictures.
Digital devices.
Internet.
Teacher's notes.

Written tests. Assessment rubric.

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.
Active Integrated Science pg 138-139.
Video clips.

Assessment rubrics. Oral questions. Checklists. Written tests.

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

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

Force and Energy.

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

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

Force and Energy.

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

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:
;
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.
Active Integrated Science pg 145-146.

Oral questions. Written tests. Checklists.

Force and Energy.

Electrical Energy. Self-Assessment.
Magnetism.

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.
Digital devices.
Lesson notes.

Written tests. Assessment rubric.

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.
Active Integrated Science pg 149.
Paper and Iron filings.

Practical Activity. Observation schedule. Checklist.

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

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

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

Practical work. Checklists. 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.