Algebra

Linear Inequalities - Solving linear inequalities in one unknown
Linear Inequalities - Multiplication and division by negative numbers

By the end of the lesson, the learner should be able to:
- Define linear inequality in one unknown
- Solve linear inequalities involving addition and subtraction
- Show understanding of inequality symbols

In groups, learners are guided to:
- Discuss inequality statements and their meanings
- Substitute integers to test inequality truth
- Solve inequalities by isolating the unknown
- Verify solutions by substitution

How do we solve inequalities with one unknown?

- Master Mathematics Grade 9 pg. 72
- Number cards
- Number lines
- Charts
- Reference books
- Calculators

- Observation - Oral questions - Written tests

Algebra

Linear Inequalities - Graphical representation in one unknown

By the end of the lesson, the learner should be able to:
- Explain how to represent inequalities graphically
- Represent linear inequalities in one unknown on graphs
- Show understanding of continuous and dotted lines

In groups, learners are guided to:
- Change inequality to equation by replacing inequality sign
- Draw boundary line (continuous for ≤ or ≥, dotted for < or >)
- Choose test points to identify wanted and unwanted regions
- Shade the unwanted region

How do we represent inequalities on a graph?

- Master Mathematics Grade 9 pg. 72
- Graph paper
- Rulers
- Plotting tools
- Charts

- Observation - Oral questions - Written tests

Algebra

Linear Inequalities - Linear inequalities in two unknowns

By the end of the lesson, the learner should be able to:
- Identify linear inequalities in two unknowns
- Solve linear inequalities with two variables
- Appreciate the relationship between equations and inequalities

In groups, learners are guided to:
- Generate tables of values for linear equations
- Change inequalities to equations
- Plot points and draw boundary lines
- Test points to determine correct regions

How do we work with inequalities that have two unknowns?

- Master Mathematics Grade 9 pg. 72
- Graph paper
- Plotting tools
- Tables for values
- Calculators

- Observation - Oral questions - Written assignments

Algebra

Linear Inequalities - Graphical representation in two unknowns
Linear Inequalities - Applications to real-life situations

By the end of the lesson, the learner should be able to:
- Explain the steps for graphing two-variable inequalities
- Represent linear inequalities in two unknowns graphically
- Show accuracy in identifying solution regions

In groups, learners are guided to:
- Draw graphs for inequalities like 3x + 5y ≤ 15
- Use continuous or dotted lines appropriately
- Select test points to verify wanted region
- Shade unwanted regions correctly

How do we represent two-variable inequalities on graphs?

- Master Mathematics Grade 9 pg. 72
- Graph paper
- Rulers and plotting tools
- Digital devices
- Reference materials
- Real-world scenarios
- Charts

- Observation - Oral questions - Written tests

Measurements

Area - Area of a pentagon

By the end of the lesson, the learner should be able to:
- Define a regular pentagon
- Draw a regular pentagon and divide it into triangles
- Calculate the area of a regular pentagon

In groups, learners are guided to:
- Draw a regular pentagon of sides 4 cm using protractor (108° angles)
- Join vertices to the centre to form triangles
- Determine the height of one triangle
- Calculate area of one triangle then multiply by number of triangles
- Use alternative formula: ½ × perimeter × perpendicular height

How do we find the area of a pentagon?

- Master Mathematics Grade 9 pg. 85
- Rulers and protractors
- Compasses
- Graph paper
- Charts showing pentagons

- Observation - Oral questions - Written assignments

Measurements

Area - Area of a hexagon
Area - Surface area of triangular prisms

By the end of the lesson, the learner should be able to:
- Define a regular hexagon
- Draw a regular hexagon and identify equilateral triangles
- Calculate the area of a regular hexagon

In groups, learners are guided to:
- Draw a circle of radius 5 cm
- Mark arcs of 5 cm on the circumference to form 6 points
- Join points to form a regular hexagon
- Join vertices to centre to form equilateral triangles
- Calculate area using formula
- Verify using alternative method

How do we find the area of a hexagon?

- Master Mathematics Grade 9 pg. 85
- Compasses and rulers
- Protractors
- Manila paper
- Digital devices
- Models of prisms
- Graph paper
- Rulers
- Reference materials

- Observation - Oral questions - Written tests

Measurements

Area - Surface area of rectangular prisms

By the end of the lesson, the learner should be able to:
- Identify rectangular prisms (cuboids)
- Sketch nets of cuboids
- Calculate surface area of rectangular prisms

In groups, learners are guided to:
- Sketch nets of rectangular prisms
- Identify pairs of equal rectangular faces
- Calculate area of each face
- Apply formula: 2(lw + lh + wh)
- Solve real-life problems involving cuboids

How do we calculate the surface area of a cuboid?

- Master Mathematics Grade 9 pg. 85
- Cuboid models
- Manila paper
- Scissors
- Calculators

- Observation - Oral questions - Written tests

Measurements

Area - Surface area of pyramids

By the end of the lesson, the learner should be able to:
- Define different types of pyramids
- Sketch nets of pyramids
- Calculate surface area of triangular-based pyramids

In groups, learners are guided to:
- Make pyramid shapes using sticks or straws
- Count faces of different pyramids
- Sketch nets showing base and triangular faces
- Calculate area of base
- Calculate area of all triangular faces
- Add to get total surface area

How do we find the surface area of a pyramid?

- Master Mathematics Grade 9 pg. 85
- Sticks/straws
- Graph paper
- Protractors
- Reference books

- Observation - Oral questions - Written assignments

Measurements

Area - Surface area of square and rectangular pyramids
Area - Area of sectors of circles

By the end of the lesson, the learner should be able to:
- Distinguish between square and rectangular based pyramids
- Apply Pythagoras theorem to find heights
- Calculate surface area of square and rectangular pyramids

In groups, learners are guided to:
- Sketch nets of square and rectangular pyramids
- Use Pythagoras theorem to find perpendicular heights
- Calculate area of base
- Calculate area of each triangular face
- Apply formula: Base area + sum of triangular faces

How do we calculate surface area of different pyramids?

- Master Mathematics Grade 9 pg. 85
- Graph paper
- Calculators
- Pyramid models
- Charts
- Compasses and rulers
- Protractors
- Digital devices
- Internet access

- Observation - Oral questions - Written tests

Measurements

Area - Area of segments of circles

By the end of the lesson, the learner should be able to:
- Define a segment of a circle
- Distinguish between major and minor segments
- Calculate area of segments

In groups, learners are guided to:
- Draw a circle and mark two points on circumference
- Join points with a chord to form segments
- Calculate area of sector
- Calculate area of triangle
- Apply formula: Area of segment = Area of sector - Area of triangle
- Calculate area of major segments

How do we calculate the area of a segment?

- Master Mathematics Grade 9 pg. 85
- Compasses
- Rulers
- Calculators
- Graph paper

- Observation - Oral questions - Written tests

Measurements

Area - Surface area of cones
Area - Surface area of spheres and hemispheres

By the end of the lesson, the learner should be able to:
- Define a cone and identify its parts
- Derive the formula for curved surface area
- Calculate surface area of solid cones

In groups, learners are guided to:
- Draw and cut a circle from manila paper
- Divide into two parts and fold to make a cone
- Identify slant height and radius
- Derive formula: πrl for curved surface
- Calculate total surface area: πrl + πr²
- Solve practical problems

How do we find the surface area of a cone?

- Master Mathematics Grade 9 pg. 85
- Manila paper
- Scissors
- Compasses and rulers
- Reference materials
- Spherical balls
- Rectangular paper
- Rulers
- Calculators

- Observation - Oral questions - Written assignments

Measurements

Volume - Volume of triangular prisms

By the end of the lesson, the learner should be able to:
- Define a prism
- Identify uniform cross-sections
- Calculate volume of triangular prisms

In groups, learners are guided to:
- Make a triangular prism using locally available materials
- Place prism vertically and fill with sand
- Identify the cross-section
- Apply formula: V = Area of cross-section × length
- Calculate area of triangular cross-section
- Multiply by length to get volume

How do we find the volume of a prism?

- Master Mathematics Grade 9 pg. 102
- Straws and paper
- Sand or soil
- Measuring tools
- Reference books

- Observation - Oral questions - Written assignments

Measurements

Volume - Volume of rectangular prisms

By the end of the lesson, the learner should be able to:
- Identify rectangular prisms (cuboids)
- Apply the volume formula for cuboids
- Solve problems involving rectangular prisms

In groups, learners are guided to:
- Identify that cuboids are prisms with rectangular cross-section
- Apply formula: V = l × w × h
- Calculate volumes with different measurements
- Solve real-life problems (water tanks, dump trucks)
- Convert between cubic units

How do we calculate the volume of a cuboid?

- Master Mathematics Grade 9 pg. 102
- Cuboid models
- Calculators
- Charts
- Reference materials

- Observation - Oral questions - Written tests

Measurements

Volume - Volume of square-based pyramids
Volume - Volume of rectangular-based pyramids

By the end of the lesson, the learner should be able to:
- Define a right pyramid
- Relate pyramid volume to cube volume
- Calculate volume of square-based pyramids

In groups, learners are guided to:
- Model a cube and pyramid with same base and height
- Fill pyramid with soil and transfer to cube
- Observe that pyramid is ⅓ of cube
- Apply formula: V = ⅓ × base area × height
- Calculate volumes of square-based pyramids

How do we find the volume of a pyramid?

- Master Mathematics Grade 9 pg. 102
- Modeling materials
- Soil or sand
- Rulers
- Calculators
- Pyramid models
- Graph paper
- Reference books

- Observation - Oral questions - Written assignments

Measurements

Volume - Volume of triangular-based pyramids

By the end of the lesson, the learner should be able to:
- Calculate area of triangular bases
- Apply Pythagoras theorem where necessary
- Calculate volume of triangular-based pyramids

In groups, learners are guided to:
- Calculate area of triangular base (using ½bh)
- For equilateral triangles, use Pythagoras to find height
- Apply formula: V = ⅓ × (½bh) × H
- Solve problems with different triangular bases

How do we find volume of triangular pyramids?

- Master Mathematics Grade 9 pg. 102
- Triangular pyramid models
- Rulers
- Calculators
- Charts

- Observation - Oral questions - Written assignments

Measurements

Volume - Introduction to volume of cones
Volume - Calculating volume of cones

By the end of the lesson, the learner should be able to:
- Define a cone as a circular-based pyramid
- Relate cone volume to cylinder volume
- Derive the volume formula for cones

In groups, learners are guided to:
- Model a cylinder and cone with same radius and height
- Fill cone with water and transfer to cylinder
- Observe that cone is ⅓ of cylinder
- Derive formula: V = ⅓πr²h
- Use digital devices to watch videos

How is a cone related to a cylinder?

- Master Mathematics Grade 9 pg. 102
- Cone and cylinder models
- Water
- Digital devices
- Internet access
- Cone models
- Calculators
- Graph paper
- Reference materials

- Observation - Oral questions - Written tests

Measurements

Volume - Volume of frustums of pyramids

By the end of the lesson, the learner should be able to:
- Define a frustum
- Explain how to obtain a frustum
- Calculate volume of frustums of pyramids

In groups, learners are guided to:
- Model a pyramid and cut it parallel to base
- Identify the frustum formed
- Calculate volume of original pyramid
- Calculate volume of small pyramid cut off
- Apply formula: Volume of frustum = V(large) - V(small)

What is a frustum and how do we find its volume?

- Master Mathematics Grade 9 pg. 102
- Pyramid models
- Cutting tools
- Rulers
- Calculators

- Observation - Oral questions - Written tests

Measurements

Volume - Volume of frustums of cones

By the end of the lesson, the learner should be able to:
- Identify frustums of cones
- Apply the frustum concept to cones
- Calculate volume of frustums of cones

In groups, learners are guided to:
- Identify frustums with circular bases
- Calculate volume of original cone
- Calculate volume of small cone cut off
- Subtract to get volume of frustum
- Solve real-life problems (lampshades, buckets)

How do we calculate the volume of a frustum of a cone?

- Master Mathematics Grade 9 pg. 102
- Cone models
- Frustum examples
- Calculators
- Reference books

- Observation - Oral questions - Written assignments

Measurements

Volume - Volume of spheres
Volume - Volume of hemispheres and applications

By the end of the lesson, the learner should be able to:
- Relate sphere volume to cone volume
- Derive the formula for volume of a sphere
- Calculate volumes of spheres

In groups, learners are guided to:
- Select hollow spherical object
- Model cone with same radius and height 2r
- Fill cone and transfer to sphere
- Observe that 2 cones fill the sphere
- Derive formula: V = 4/3πr³
- Calculate volumes with different radii

How do we find the volume of a sphere?

- Master Mathematics Grade 9 pg. 102
- Hollow spheres
- Cone models
- Water or soil
- Calculators
- Hemisphere models
- Real objects
- Reference materials

- Observation - Oral questions - Written tests

Measurements

Mass, Volume, Weight and Density - Conversion of units of mass

By the end of the lesson, the learner should be able to:
- Define mass and state its SI unit
- Identify different units of mass
- Convert between different units of mass

In groups, learners are guided to:
- Use balance to measure mass of objects
- Record masses in grams
- Study conversion table for mass units
- Convert between kg, g, mg, tonnes, etc.
- Apply conversions to real situations

How do we convert between different units of mass?

- Master Mathematics Grade 9 pg. 111
- Weighing balances
- Various objects
- Conversion charts
- Calculators

- Observation - Oral questions - Written tests

Measurements

Mass, Volume, Weight and Density - More practice on mass conversions

By the end of the lesson, the learner should be able to:
- Convert masses to kilograms
- Apply conversions in real-life contexts
- Appreciate the importance of mass measurements

In groups, learners are guided to:
- Convert various masses to kilograms
- Work with large masses (tonnes)
- Work with small masses (milligrams, micrograms)
- Solve practical problems (construction, medicine, shopping)

Why is it important to convert units of mass?

- Master Mathematics Grade 9 pg. 111
- Conversion tables
- Calculators
- Real-world examples
- Reference books

- Observation - Oral questions - Written assignments

Measurements

Mass, Volume, Weight and Density - Relationship between mass and weight
Mass, Volume, Weight and Density - Calculating mass and gravity

By the end of the lesson, the learner should be able to:
- Define weight and state its SI unit
- Distinguish between mass and weight
- Calculate weight from mass using gravity

In groups, learners are guided to:
- Study spring balance showing both mass and weight
- Observe relationship: 1 kg = 10 N
- Apply formula: Weight = mass × gravity
- Calculate weights of various objects
- Understand that mass is constant but weight varies

What is the difference between mass and weight?

- Master Mathematics Grade 9 pg. 111
- Spring balances
- Various objects
- Charts
- Calculators
- Charts showing planetary data
- Reference materials
- Digital devices

- Observation - Oral questions - Written tests

Measurements

Mass, Volume, Weight and Density - Introduction to density

By the end of the lesson, the learner should be able to:
- Define density
- State units of density
- Relate mass, volume and density

In groups, learners are guided to:
- Weigh empty container
- Measure volume of water using measuring cylinder
- Weigh container with water
- Calculate mass of water
- Divide mass by volume to get density
- Apply formula: Density = Mass/Volume

What is density?

- Master Mathematics Grade 9 pg. 111
- Weighing balances
- Measuring cylinders
- Water
- Containers
- Calculators

- Observation - Oral questions - Written tests

Measurements

Mass, Volume, Weight and Density - Calculating density, mass and volume
Mass, Volume, Weight and Density - Applications of density

By the end of the lesson, the learner should be able to:
- Apply density formula to find density
- Calculate mass using density formula
- Calculate volume using density formula

In groups, learners are guided to:
- Apply formula: D = M/V to find density
- Rearrange to find mass: M = D × V
- Rearrange to find volume: V = M/D
- Convert between g/cm³ and kg/m³
- Solve various problems

How do we use the density formula?

- Master Mathematics Grade 9 pg. 111
- Calculators
- Charts with formulas
- Various solid objects
- Reference books
- Density tables
- Real-world scenarios
- Reference materials

- Observation - Oral questions - Written assignments

Measurements

Time, Distance and Speed - Working out speed in km/h and m/s

By the end of the lesson, the learner should be able to:
- Define speed
- Calculate speed in km/h
- Calculate speed in m/s
- Convert between km/h and m/s

In groups, learners are guided to:
- Go to field and mark two points 100 m apart
- Measure distance between points
- Time a person running between points
- Calculate speed: Speed = Distance/Time
- Calculate speed in m/s using metres and seconds
- Convert distance to kilometers and time to hours
- Calculate speed in km/h
- Convert km/h to m/s (divide by 3.6)
- Convert m/s to km/h (multiply by 3.6)

How do we calculate speed in different units?

- Master Mathematics Grade 9 pg. 117
- Stopwatches
- Tape measures
- Open field
- Calculators
- Conversion charts

- Observation - Oral questions - Written assignments

Measurements

Time, Distance and Speed - Calculating distance and time from speed

By the end of the lesson, the learner should be able to:
- Rearrange speed formula to find distance
- Rearrange speed formula to find time
- Solve problems involving speed, distance and time
- Apply to real-life situations

In groups, learners are guided to:
- Apply formula: Distance = Speed × Time
- Apply formula: Time = Distance/Speed
- Solve problems with different units
- Apply to journeys, races, train travel
- Work with Madaraka Express train problems
- Calculate distances covered at given speeds
- Calculate time taken for journeys

How do we calculate distance and time from speed?

- Master Mathematics Grade 9 pg. 117
- Calculators
- Formula charts
- Real-world examples
- Reference materials

- Observation - Oral questions - Written tests

Measurements

Time, Distance and Speed - Working out average speed
Time, Distance and Speed - Determining velocity

By the end of the lesson, the learner should be able to:
- Define average speed
- Calculate average speed for journeys with varying speeds
- Distinguish between speed and average speed
- Solve multi-stage journey problems

In groups, learners are guided to:
- Identify two points with a midpoint
- Run from start to midpoint, walk from midpoint to end
- Calculate speed for each section
- Calculate total distance and total time
- Apply formula: Average speed = Total distance/Total time
- Solve problems on cyclists, buses, motorists
- Work with journeys having different speeds in different sections

What is average speed and how is it different from speed?

- Master Mathematics Grade 9 pg. 117
- Field with marked points
- Stopwatches
- Calculators
- Reference books
- Diagrams showing direction
- Charts
- Reference materials

- Observation - Oral questions - Written assignments

Measurements

Time, Distance and Speed - Working out acceleration

By the end of the lesson, the learner should be able to:
- Define acceleration
- Calculate acceleration from velocity changes
- Apply acceleration formula
- State units of acceleration (m/s²)
- Identify situations involving acceleration

In groups, learners are guided to:
- Walk from one point then run to another point
- Calculate velocity for each section
- Find difference in velocities (change in velocity)
- Define acceleration as rate of change of velocity
- Apply formula: a = (v - u)/t where v=final velocity, u=initial velocity, t=time
- Calculate acceleration when starting from rest (u=0)
- Calculate acceleration with initial velocity
- State that acceleration is measured in m/s²
- Identify real-life examples of acceleration

What is acceleration and how do we calculate it?

- Master Mathematics Grade 9 pg. 117
- Field for activity
- Stopwatches
- Measuring tools
- Calculators
- Formula charts

- Observation - Oral questions - Written assignments

Measurements

Time, Distance and Speed - Deceleration and applications
Time, Distance and Speed - Identifying longitudes on the globe

By the end of the lesson, the learner should be able to:
- Define deceleration (retardation)
- Calculate deceleration
- Distinguish between acceleration and deceleration
- Solve problems involving both acceleration and deceleration
- Appreciate safety implications

In groups, learners are guided to:
- Define deceleration as negative acceleration
- Calculate when final velocity is less than initial velocity
- Apply to vehicles slowing down, braking
- Apply to matatus crossing speed bumps
- Understand safety implications of deceleration
- Calculate final velocity given acceleration and time
- Solve problems on cars, buses, gazelles
- Discuss importance of controlled deceleration for safety

What is deceleration and why is it important for safety?

- Master Mathematics Grade 9 pg. 117
- Calculators
- Road safety materials
- Charts
- Reference materials
- Globes
- Atlases
- World maps

- Observation - Oral questions - Written tests

Measurements

Time, Distance and Speed - Relating longitudes to time

By the end of the lesson, the learner should be able to:
- Explain relationship between longitudes and time
- State that Earth rotates 360° in 24 hours
- Calculate that 1° = 4 minutes
- Understand time zones and GMT

In groups, learners are guided to:
- Understand Earth rotates 360° in 24 hours
- Calculate: 360° = 24 hours = 1440 minutes
- Therefore: 1° = 4 minutes
- Identify time zones on world map
- Understand GMT (Greenwich Mean Time)
- Learn that places East of Greenwich are ahead in time
- Learn that places West of Greenwich are behind in time
- Use digital devices to check time zones

How are longitudes related to time?

- Master Mathematics Grade 9 pg. 117
- Globes
- Time zone maps
- Calculators
- Digital devices

- Observation - Oral questions - Written tests

Measurements

Time, Distance and Speed - Calculating time differences between places

By the end of the lesson, the learner should be able to:
- Calculate longitude differences
- Calculate time differences between places
- Apply rules for same side and opposite sides of Greenwich
- Convert time differences to hours and minutes

In groups, learners are guided to:
- Find longitude difference:
• Subtract longitudes if on same side of Greenwich
• Add longitudes if on opposite sides of Greenwich
- Multiply longitude difference by 4 minutes
- Convert minutes to hours and minutes
- Determine if place is ahead or behind GMT
- Solve problems on towns X and Z, Memphis and Kigali
- Complete tables with longitude and time differences

How do we calculate time difference from longitudes?

- Master Mathematics Grade 9 pg. 117
- Atlases
- Calculators
- Time zone charts
- Reference books

- Observation - Oral questions - Written assignments

Measurements

Time, Distance and Speed - Determining local time of places along different longitudes
Money - Identifying currencies of different countries

By the end of the lesson, the learner should be able to:
- Calculate local time when given GMT or another place's time
- Add or subtract time differences appropriately
- Account for date changes
- Solve complex time zone problems
- Apply knowledge to real-life situations

In groups, learners are guided to:
- Calculate time difference from longitude difference
- Add time if place is East of reference point (ahead)
- Subtract time if place is West of reference point (behind)
- Account for date changes when crossing midnight
- Solve problems with GMT as reference
- Solve problems with other places as reference
- Apply to phone calls, soccer matches, travel planning
- Work backwards to find longitude from time difference
- Determine whether places are East or West from time relationships

How do we find local time at different longitudes?

- Master Mathematics Grade 9 pg. 117
- World maps
- Calculators
- Time zone references
- Atlases
- Real-world scenarios
- Master Mathematics Grade 9 pg. 131
- Digital devices
- Internet access
- Pictures of currencies
- Reference materials

- Observation - Oral questions - Written tests - Problem-solving tasks

Measurements

Money - Converting foreign currency to Kenyan shillings

By the end of the lesson, the learner should be able to:
- Define exchange rate
- Read and interpret exchange rate tables
- Convert foreign currencies to Kenyan shillings
- Apply exchange rates accurately

In groups, learners are guided to:
- Discuss dialogue about using foreign currency in Kenya
- Understand that each country has its own currency
- Learn about exchange rates and their purpose
- Study currency conversion tables (Table 3.5.1)
- Convert US dollars, Euros, and other currencies to Ksh
- Use formula: Ksh amount = Foreign amount × Exchange rate
- Solve practical problems involving conversion

How do we convert foreign currency to Kenya shillings?

- Master Mathematics Grade 9 pg. 131
- Currency conversion tables
- Calculators
- Charts
- Reference materials

- Observation - Oral questions - Written tests

Measurements

Money - Converting Kenyan shillings to foreign currency and buying/selling rates
Money - Export duty on goods

By the end of the lesson, the learner should be able to:
- Convert Kenyan shillings to foreign currencies
- Distinguish between buying and selling rates
- Apply correct rates when converting currency
- Solve multi-step currency problems

In groups, learners are guided to:
- Convert Ksh to Ugandan shillings, Sterling pounds, Japanese Yen
- Study Table 3.5.2 showing buying and selling rates
- Understand that banks buy at lower rate, sell at higher rate
- Learn when to use buying rate (foreign to Ksh)
- Learn when to use selling rate (Ksh to foreign)
- Solve tourist problems with multiple conversions
- Visit commercial banks or Forex Bureaus

Why do buying and selling rates differ?

- Master Mathematics Grade 9 pg. 131
- Exchange rate tables
- Calculators
- Real-world scenarios
- Reference books
- Examples of export goods
- Charts
- Reference materials

- Observation - Oral questions - Written assignments

Measurements

Money - Import duty on goods

By the end of the lesson, the learner should be able to:
- Define import and import duty
- Calculate customs value of imported goods
- Calculate import duty on goods
- Apply knowledge to real-life situations

In groups, learners are guided to:
- Discuss goods imported into Kenya
- Learn about Kenya Revenue Authority (KRA)
- Calculate customs value: Cost + Insurance + Freight
- Apply formula: Import duty = Tax rate × Customs value
- Solve problems on vehicles, electronics, tractors, phones
- Discuss ways to reduce imports
- Understand importance of local production

What is import duty and how is it calculated?

- Master Mathematics Grade 9 pg. 131
- Calculators
- Import duty examples
- Charts
- Reference books

- Observation - Oral questions - Written assignments

Measurements

Money - Excise duty and Value Added Tax (VAT)

By the end of the lesson, the learner should be able to:
- Define excise duty and VAT
- Identify goods subject to excise duty
- Calculate excise duty and VAT
- Distinguish between the two types of taxes

In groups, learners are guided to:
- Search online for goods subject to excise duty
- Study excise duty rates for different commodities
- Apply formula: Excise duty = Tax rate × Excise value
- Study Electronic Tax Register (ETR) receipts
- Learn that VAT is charged at 16% at multiple stages
- Calculate VAT on purchases
- Apply both taxes to various goods and services

What are excise duty and VAT?

- Master Mathematics Grade 9 pg. 131
- Digital devices
- ETR receipts
- Tax rate tables
- Calculators
- Reference materials

- Observation - Oral questions - Written tests

Measurements

Money - Combined duties and taxes on imported goods
Approximations and Errors - Approximating quantities in measurements

By the end of the lesson, the learner should be able to:
- Calculate multiple taxes on imported goods
- Apply import duty, excise duty, and VAT sequentially
- Solve complex problems involving all taxes
- Appreciate the cumulative effect of taxes

In groups, learners are guided to:
- Calculate import duty first
- Calculate excise value: Customs value + Import duty
- Calculate excise duty on excise value
- Calculate VAT value: Customs value + Import duty + Excise duty
- Calculate VAT on VAT value
- Apply to vehicles, electronics, cement, phones
- Solve comprehensive taxation problems
- Work backwards to find customs value

How do we calculate total taxes on imported goods?

- Master Mathematics Grade 9 pg. 131
- Calculators
- Comprehensive examples
- Charts showing tax flow
- Reference materials
- Master Mathematics Grade 9 pg. 146
- Tape measures
- Various objects to measure
- Containers for capacity

- Observation - Oral questions - Written assignments

Measurements

Approximations and Errors - Determining errors using estimations and actual measurements

By the end of the lesson, the learner should be able to:
- Define error in measurement
- Calculate error using approximated and actual values
- Distinguish between positive and negative errors
- Appreciate the importance of accuracy

In groups, learners are guided to:
- Fill 500 ml bottle and measure actual volume
- Calculate difference between labeled and actual values
- Apply formula: Error = Approximated value - Actual value
- Work with errors in mass, length, volume, time
- Complete tables showing actual, estimated values and errors
- Apply to bread packages, water bottles, cement bags
- Discuss integrity in measurements

What is error and how do we calculate it?

- Master Mathematics Grade 9 pg. 146
- Measuring cylinders
- Water bottles
- Weighing scales
- Calculators
- Reference materials

- Observation - Oral questions - Written assignments

Measurements

Approximations and Errors - Calculating percentage error
Approximations and Errors - Percentage error in real-life situations

By the end of the lesson, the learner should be able to:
- Define percentage error
- Calculate percentage error from approximations
- Express error as a percentage of actual value
- Compare errors using percentages

In groups, learners are guided to:
- Make strides and estimate total distance
- Measure actual distance covered
- Calculate error: Estimated value - Actual value
- Apply formula: Percentage error = (Error/Actual value) × 100%
- Solve problems on pavement width
- Calculate percentage errors in various measurements
- Round answers appropriately

How do we calculate percentage error?

- Master Mathematics Grade 9 pg. 146
- Tape measures
- Calculators
- Open ground for activities
- Reference books
- Real-world scenarios
- Case studies
- Reference materials

- Observation - Oral questions - Written tests

Measurements

Approximations and Errors - Complex applications and problem-solving

By the end of the lesson, the learner should be able to:
- Solve complex problems involving percentage errors
- Apply error calculations to budgeting and planning
- Evaluate the impact of errors
- Emphasize honesty and integrity in approximations

In groups, learners are guided to:
- Calculate percentage errors in fuel consumption estimates
- Work on budget estimation errors (school fuel budgets)
- Solve problems on athlete timing and weight
- Apply to construction cost estimates
- Analyze large errors and their consequences
- Discuss ways to minimize errors
- Emphasize ethical considerations in approximations
- Solve comprehensive review problems

How can we minimize errors and ensure accuracy?

- Master Mathematics Grade 9 pg. 146
- Calculators
- Complex scenarios
- Charts
- Reference books
- Real-world case studies

- Observation - Oral questions - Written tests - Project work

4.0 Geometry

4.1 Coordinates and Graphs - Plotting points on a Cartesian plane
4.1 Coordinates and Graphs - Drawing straight line graphs given equations
4.1 Coordinates and Graphs - Drawing parallel lines on the Cartesian plane

By the end of the lesson, the learner should be able to:
- Define a Cartesian plane and identify its components
- Plot points accurately on a Cartesian plane using coordinates
- Show interest in learning about coordinate geometry

The learner is guided to:
- Discuss with friends what they remember about plotting points on a Cartesian plane
- Draw a Cartesian plane in their graph book
- Mark the points where given coordinates lie
- Discuss and compare their work with other learners

How do we locate points on a Cartesian plane?

- Master Mathematics Grade 9 pg. 152
- Graph papers/squared books
- Rulers
- Pencils
- Digital devices
- Master Mathematics Grade 9 pg. 154
- Graph papers
- Mathematical tables
- Master Mathematics Grade 9 pg. 156
- Set squares

- Observation - Oral questions - Written assignments

4.0 Geometry

4.1 Coordinates and Graphs - Relating gradients of parallel lines
4.1 Coordinates and Graphs - Drawing perpendicular lines on the Cartesian plane
4.1 Coordinates and Graphs - Relating gradients of perpendicular lines and applications

By the end of the lesson, the learner should be able to:
- Define the gradient of a line
- Calculate and compare gradients of parallel lines
- Appreciate the concept that parallel lines have equal gradients

The learner is guided to:
- Identify two points on each line
- Work out the gradient of the lines
- Compare the gradients of lines identified as parallel
- Express equations in the form y=mx+c and compare gradients

How do gradients help us identify parallel lines?

- Master Mathematics Grade 9 pg. 158
- Graph papers
- Rulers
- Calculators
- Digital devices
- Master Mathematics Grade 9 pg. 160
- Protractors
- Set squares
- Master Mathematics Grade 9 pg. 162
- Real-life graph examples

- Oral questions - Written assignments

4.0 Geometry

4.2 Scale Drawing - Compass bearing
4.2 Scale Drawing - True bearings
4.2 Scale Drawing - Determining the bearing of one point from another (1)

By the end of the lesson, the learner should be able to:
- Identify the four main and four secondary compass directions
- Measure and express compass bearings correctly
- Develop interest in using compass directions to locate places

The learner is guided to:
- Draw a compass showing N, S, E, W directions
- Show NE, SE, SW, NW on the same compass
- Measure angles between main and secondary directions
- Identify compass bearings of given points

How do we use compass directions to locate places?

- Master Mathematics Grade 9 pg. 166
- Pair of compasses
- Protractors
- Rulers
- Charts showing compass directions
- Master Mathematics Grade 9 pg. 169
- Compasses
- Map samples
- Master Mathematics Grade 9 pg. 171
- Pencils
- Graph papers

- Observation - Oral questions

4.0 Geometry

4.2 Scale Drawing - Determining the bearing of one point from another (2)

By the end of the lesson, the learner should be able to:
- State the bearing of places from maps
- Determine bearings from scale drawings and solve related problems
- Appreciate applying bearing concepts to real-life situations

The learner is guided to:
- Use maps of Kenya to determine bearings of different towns
- Work out bearings of points from given diagrams
- Determine reverse bearings
- Apply bearing concepts to real-life situations

Why is it important to know bearings in real life?

- Master Mathematics Grade 9 pg. 171
- Atlas/Maps of Kenya
- Protractors
- Rulers
- Digital devices

- Class activities - Written tests

4.0 Geometry

4.2 Scale Drawing - Locating a point using bearing and distance (1)

By the end of the lesson, the learner should be able to:
- Explain how to choose appropriate scales for scale drawings
- Convert actual distances to scale lengths accurately
- Show interest in representing actual distances on paper

The learner is guided to:
- Draw sketch diagrams showing relative positions
- Choose suitable scales
- Convert actual distances to scale lengths
- Mark North lines and measure angles

How do we represent actual distances on paper?

- Master Mathematics Grade 9 pg. 173
- Rulers
- Protractors
- Compasses
- Plain papers

- Observation - Written assignments

4.0 Geometry

4.2 Scale Drawing - Locating a point using bearing and distance (2)
4.2 Scale Drawing - Identifying angles of elevation (1)

By the end of the lesson, the learner should be able to:
- Describe the process of locating points using bearing and distance
- Draw accurate scale diagrams and determine unknown measurements
- Appreciate the accuracy of scale drawings in representing real situations

The learner is guided to:
- Use given bearings and distances to locate points
- Draw accurate scale diagrams
- Measure and determine unknown distances and bearings from diagrams
- Verify accuracy of their drawings

How accurate are scale drawings in representing real situations?

- Master Mathematics Grade 9 pg. 173
- Rulers
- Protractors
- Compasses
- Graph papers
- Master Mathematics Grade 9 pg. 175
- Pictures showing elevation
- Models

- Class activities - Written tests

4.0 Geometry

4.2 Scale Drawing - Determining angles of elevation (2)

By the end of the lesson, the learner should be able to:
- Explain the process of determining angles of elevation
- Draw scale diagrams and measure angles of elevation using protractors
- Appreciate applying concepts to real-life situations

The learner is guided to:
- Draw scale diagrams representing elevation situations
- Use appropriate scales
- Measure angles of elevation from scale drawings
- Solve problems involving heights and distances

How do we calculate angles of elevation?

- Master Mathematics Grade 9 pg. 175
- Protractors
- Rulers
- Graph papers
- Calculators

- Written tests - Class activities

4.0 Geometry

4.2 Scale Drawing - Identifying angles of depression (1)
4.2 Scale Drawing - Determining angles of depression (2)

By the end of the lesson, the learner should be able to:
- Define angle of depression
- Identify and sketch situations involving angles of depression
- Show interest in distinguishing between angles of elevation and depression

The learner is guided to:
- Stand at elevated positions and observe objects below
- Identify the angle through which eyes are lowered
- Sketch right-angled triangles formed
- Label the angle of depression correctly

How is angle of depression different from angle of elevation?

- Master Mathematics Grade 9 pg. 178
- Protractors
- Rulers
- Pictures showing depression
- Models
- Graph papers
- Calculators

- Observation - Oral questions

4.0 Geometry

4.2 Scale Drawing - Application in simple surveying - Triangulation (1)

By the end of the lesson, the learner should be able to:
- Explain the concept of triangulation in surveying
- Identify baselines and offsets and draw diagrams using triangulation method
- Develop interest in using triangulation for surveying

The learner is guided to:
- Trace irregular shapes to be surveyed
- Enclose the shape with a triangle
- Identify and measure baselines
- Draw perpendicular offsets to the baselines

What is triangulation and how is it used in surveying?

- Master Mathematics Grade 9 pg. 180
- Rulers
- Set squares
- Compasses
- Plain papers

- Observation - Class activities

4.0 Geometry

4.2 Scale Drawing - Application in simple surveying - Triangulation (2)

By the end of the lesson, the learner should be able to:
- Describe how to record measurements in field books
- Draw accurate scale maps using triangulation data
- Appreciate applying triangulation to survey school compound areas

The learner is guided to:
- Measure lengths of offsets
- Record measurements in field book format
- Choose appropriate scales
- Draw accurate scale maps from recorded data

How do we record and use surveying measurements?

- Master Mathematics Grade 9 pg. 180
- Meter rules
- Strings
- Pegs
- Field books

- Written tests - Practical activities

4.0 Geometry

4.2 Scale Drawing - Application in simple surveying - Transverse survey (1)
4.2 Scale Drawing - Application in simple surveying - Transverse survey (2)

By the end of the lesson, the learner should be able to:
- Explain transverse survey method
- Identify baselines and draw offsets on either side accurately
- Show interest in understanding different surveying methods

The learner is guided to:
- Draw baselines at the middle of areas to be surveyed
- Draw offsets perpendicular to baselines on both sides
- Measure lengths of offsets from baselines
- Record measurements in tables

How is transverse survey different from triangulation?

- Master Mathematics Grade 9 pg. 180
- Rulers
- Set squares
- Plain papers
- Field books
- Pencils
- Graph papers

- Observation - Oral questions

4.0 Geometry

4.2 Scale Drawing - Surveying using bearings and distances

By the end of the lesson, the learner should be able to:
- Explain how to record positions using bearings and distances
- Draw scale maps using bearing and distance data
- Appreciate different surveying methods

The learner is guided to:
- Record bearings and distances from fixed points
- Use ordered pairs to represent positions
- Draw North lines and locate points using bearings
- Join points to show boundaries

How do we survey using bearings and distances?

- Master Mathematics Grade 9 pg. 180
- Protractors
- Compasses
- Rulers
- Field books

- Class activities - Written tests