Refraction Of Light

The meaning of refraction

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


Describe simple experiments to illustrate refraction of light

Experiments demonstrating refraction of light

Beakers
Water
Stick or glass rod
Basins
Coins
Glass blocks
Pin

Comprehensive secondary physics students book 3 pages 11-12
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 41-46

Refraction Of Light

Laws of refraction

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


State the laws of refraction and define refractive index

Discovering Snell?s law of refraction through experiments
Defining refractive index
Stating the laws of refraction

Glass blocks
Pins
Soft board
Plain paper
Geometric set

Comprehensive secondary physics students book 3 pages 12-14
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 47-61 

Refraction Of Light

Refractive index

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


Determine the refractive index of a given substance

Experiments to determine the refractive index of rates and glass by real and apparent depth method

Water
Pins
Plain papers
Coins
Beakers

Comprehensive secondary physics students book 3 pages 14-15
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 61-68

Refraction Of Light

Refractive index

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


Determine the refractive index of a given substance

Experiments to determine the refractive index of rates and glass by real and apparent depth method

Water
Pins
Plain papers
Coins
Beakers

Comprehensive secondary physics students book 3 pages 14-15
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 61-68

Refraction Of Light

Application of a total internal reflection in a prism periscope, optical fibre
Dispersion of white light and recombination of colors of the spectrum

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


Explain the working of a prisms and optical fibres among other applications


Describe an experiment to illustrate the dispersion of light

Making a periscope
Discussion on working of an optical fibre


Experiment on dispersion of light using glass prisms

Charts on total internal reflection and applications

Triangular glass prisms
Source of light
Screen

Comprehensive secondary physics students book 3 pages 18-19
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 76-79 
Comprehensive secondary physics students book 3 pages 19-20
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 79-89

Refraction Of Light

Problems of refractive index and critical angle

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


Solve problems involving the refractive index and critical angle

Discussions and problem solving in critical angle using the formulae sin C=i/n and n=sin i/sin r

Review questions
Past exams
Examples in the topic

Comprehensive secondary physics book 3 pages 21-22
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 82-86

Refraction Of Light

Total material reflection and its effect Critical angle

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


Describe an experiment to explain the total internal reflection and its effects
Define critical angle

Experiments to explain the total internal reflection and its effects
Defining critical angle
Observations and discussions on critical angle
Total internal reflection

Glass blocks
Soft boards
Pins
Geometrical set
Source of light

Comprehensive secondary physics students book 3 pages 16-17
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 68-76 

Refraction Of Light

Total material reflection and its effect Critical angle

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


Describe an experiment to explain the total internal reflection and its effects
Define critical angle

Experiments to explain the total internal reflection and its effects
Defining critical angle
Observations and discussions on critical angle
Total internal reflection

Glass blocks
Soft boards
Pins
Geometrical set
Source of light

Comprehensive secondary physics students book 3 pages 16-17
Comprehensive secondary physics teachers book 3 pages6-9
Secondary physics KLB students book 3 page 68-76 

Energy, Work, Power And Machines

Energy
Sources of energy Renewable Non-renewable

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


Define energy
Describe various forms of energy


Describe renewable and non-renewable sources of energy

Defining energy
Stating the forms of energy
Identifying and describing energy transformation

Discussion on the sources of energy
Descriptions of renewable and non-renewable sources of energy

Chart on the forms of energy and transformation

Chart on the sources of energy

Comprehensive secondary physics students book 3 pages34-35
Comprehensive secondary physics teachers book 3 pages 17-18
Secondary physics KLB students book 3 page 121,122-125 
Comprehensive secondary physics students book 3 pages41
Comprehensive secondary physics teachers book 3 pages 19-21
Secondary physics KLB students book 3 page 121,122-125

Energy, Work, Power And Machines

Sources of energy Renewable Non-renewable

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


Describe renewable and non-renewable sources of energy

Discussion on the sources of energy
Descriptions of renewable and non-renewable sources of energy

Chart on the sources of energy

Comprehensive secondary physics students book 3 pages41
Comprehensive secondary physics teachers book 3 pages 19-21
Secondary physics KLB students book 3 page 121,122-125

Energy, Work, Power And Machines

Kinetic energy Potential energy power

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


define power
explain the meaning of power potential and kinetic energies
distinguish between kinetic energy and potential energy

Discussion and the meanings of kinetic energy and potential energy
Defining power
Distinguishing between kinetic energy and potential energy

Object that can be lifted
Spring balance

Comprehensive secondary physics students book 3 pages 43-45
Comprehensive secondary physics teachers book 3 pages 18-22
Secondary physics KLB students book 3 page 126-132,134-136 

Energy, Work, Power And Machines

Simple machines

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


State and describe the efficiency of various machines

Discussion on efficiency of different machines
Experiments to illustrate efficiency of various machines
Problem solving

Levers
Pulleys
Inclined planes
Strings
Masses

Comprehensive secondary physics students book 3 pages 45-51
Comprehensive secondary physics teachers book 3 pages 18-22
Secondary physics KLB students book 3 page 137-159 

Energy, Work, Power And Machines
Energy, Work, Power And Machines

The law of conservation of energy
Work

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


State the laws of conservation of energy
Explain the applications of the laws of conservations of energy


Define work
Explain the concept of work and energy

Discussion on the law of conservation of energy

Experiment on work done by moving objects through a distance
Problem solving

Chart on the laws of conservation of energy

Masses
Wooden block
Spring balance

Comprehensive secondary physics students book 3 pages 41-42
Comprehensive secondary physics teachers book 3 pages 20-21
Secondary physics KLB students book 3 page 132-134 
Comprehensive secondary physics students book 3 pages 42-43
Comprehensive secondary physics teachers book 3 pages 18-22
Secondary physics KLB students book 3 page 125-132 

Current Electricity Ii

Electric current Scale reading

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


Define potential
Differentiate and state its SI units
Measure potential difference and current in a circuit

Defining potential difference
Measuring P.d
Discussion on p.d and current
Experiments to illustrate p.d and current

Ammeter
Voltmeter
Battery
Connecting wires

Comprehensive secondary physics students book 3 pages 54-55
Comprehensive secondary physics teachers book 3 pages 24-28
Secondary physics KLB students book 3 page 161-164 

Current Electricity Ii

Ohm?s Law

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


Derive and verify ohm?s law
State ohm?s law

Experiments verifying ohm?s law
Stating ohm?s law

Ammeter
Voltmeter
Rheostat
Wires
Dry cells

Comprehensive secondary physics students book 3 pages 55-57
Comprehensive secondary physics teachers book 3 pages 24-28
Secondary physics KLB students book 3 page 168-171

Current Electricity Ii

Measurement of resistance

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


Describe experiment to measure resistance using ? voltmeter method
The Wheatstone bridge method
The meter bridge

Experiments to measure resistance of materials

Ammeters
Voltmeters
Rheostats
Connecting wires
Resistance wire
Dry cells
Switches
Meter bridge
Wheatstone bridge
Resisters with known resistance

Comprehensive secondary physics students book 3 pages 57-59
Comprehensive secondary physics teachers book 3 pages 26-28
Secondary physics KLB students book 3 page 177-180

Current Electricity

Ammeters and voltmeters

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


Measure potential difference and current in a circuit using the ammeters

Scale reading
Converting units of measurements
Discussing simple electric circuits

Ammeters
Voltmeters
Battery
Wires
Rheostat

Comprehensive secondary physics students book 3 pages 54-55
Comprehensive secondary physics teachers book 3 pages 24-28
Secondary physics KLB students book 3 page 164-168 

Current Electricity

Voltage-current relationships

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


Define resistance and state its SI unit
Determine experientially the voltage current
Relationship for resistance in series and parallel

Defining resistance
Experiments to determine the relationship between voltage-current

Resistance wire
Rheostat
Battery
Voltmeter
Ammeter
Connecting wires

Comprehensive secondary physics students book 3 pages 57-59
Comprehensive secondary physics teachers book 3 pages 26-28
Secondary physics KLB students book 3 page 171-177 

Current Electricity

Effective resistance for registers in series and parallel

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


Derive effective resistance

Discussions on deriving the effective resistance
Deriving effective resistance of registers in parallel and series

Cells
Resistors
Ammeters
Voltmeters
wires

Comprehensive secondary physics students book 3 pages 60-66
Comprehensive secondary physics teachers book 3 pages 24-28
Secondary physics KLB students book 3 page 180-189

Current Electricity

Effective resistance for registers in series and parallel

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


Derive effective resistance

Discussions on deriving the effective resistance
Deriving effective resistance of registers in parallel and series

Cells
Resistors
Ammeters
Voltmeters
wires

Comprehensive secondary physics students book 3 pages 60-66
Comprehensive secondary physics teachers book 3 pages 24-28
Secondary physics KLB students book 3 page 180-189

Current Electricity
Waves II

E.m.f and internal resistance (E=V+1r)
Properties of waves

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


Determine e.m.f
Explain the internal resistance of a cell


State and explain the properties of waves experimentally
Sketch wave fronts to illustrate the reflections

Explanation on internal resistance
Demonstration on e.m.f and internal resistance
Discussion on e.m.f

Stating and explaining the properties of waves
Sketching wave fronts illustrate reflection

Voltmeters
Ammeter
Cells
Connecting wires

Rope/wire
Various reflections

Comprehensive secondary physics students book 3 pages 62-63
Comprehensive secondary physics teachers book 3 pages 24-28
Secondary physics KLB students book 3 page 190-195 
Comprehensive secondary physics students book 3 pages 67-69
Comprehensive secondary physics teachers book 3 pages 29-32
Secondary physics KLB students book 3 page 198-203

Waves II

Diffraction, refraction and interference of waves

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


Sketch various wave fonts to illustrate their diffraction, refraction and interference

Sketching various wave fonts
Experiments to illustrate refraction, diffraction and interference

Water
Basin
Ripple
Tank

Comprehensive secondary physics students book 3 pages 70-73
Comprehensive secondary physics teachers book 3 pages 29-32
Secondary physics KLB students book 3 page 203-212 

Waves II

Constructive and distractive waves

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


Explain constructive and destructive interference

Discussion on constructive and destructive interference
Experiments constructive and destructive interference

Ripple tank
Rope/wire

Comprehensive secondary physics students book 3 pages 73-74
Comprehensive secondary physics teachers book 3 pages 29-32
Secondary physics KLB students book 3 page 203-212 

Waves II

Constructive and distractive waves

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


Explain constructive and destructive interference

Discussion on constructive and destructive interference
Experiments constructive and destructive interference

Ripple tank
Rope/wire

Comprehensive secondary physics students book 3 pages 73-74
Comprehensive secondary physics teachers book 3 pages 29-32
Secondary physics KLB students book 3 page 203-212 

Waves II

Constructive and distractive waves
Stationary waves

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


Explain constructive and destructive interference


Describe experiments to illustrate stationary waves

Discussion on constructive and destructive interference
Experiments constructive and destructive interference

Demonstration and explaining of stationery waves

Ripple tank
Rope/wire

Wires under tension

Comprehensive secondary physics students book 3 pages 73-74
Comprehensive secondary physics teachers book 3 pages 29-32
Secondary physics KLB students book 3 page 203-212 
Comprehensive secondary physics students book 3 pages 74
Comprehensive secondary physics teachers book 3 pages 29-32
Secondary physics KLB students book 3 page 212-215 

Waves II

Vibrating air columns

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


Describe and explain closed pipe and open pipe

Describing vibrations in close and open pipes

Open and closed pipes

Comprehensive secondary physics students book 3 pages 74
Comprehensive secondary physics teachers book 3 pages 29-32
Secondary physics KLB students book 3 page 218-220 

Waves II

Vibrating air columns

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


Describe and explain closed pipe and open pipe

Describing vibrations in close and open pipes

Open and closed pipes

Comprehensive secondary physics students book 3 pages 74
Comprehensive secondary physics teachers book 3 pages 29-32
Secondary physics KLB students book 3 page 218-220 

Electrostatics Ii

Electric field patterns
Charge distribution on conductors

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


Sketch electric field patterns around charged bodies


Describe charge distribution on conductors:
Spherical and pear shaped conductors

Discussion on electric field patterns
Observing and plotting field patterns

Discussions on charge distribution on conductors
Experiment is demonstrated/illustrate charge distribution on conductors

Charts on magnetic fields

Vande Graaf generator
Chart showing charge distribution on different conductors
Gold leaf electroscope

Comprehensive secondary physics students book 3 pages 76-77
Comprehensive secondary physics teachers book 3 pages 34-39
Secondary physics KLB students book 3 page 222-225
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Comprehensive secondary physics students book 3 pages 77-78
Comprehensive secondary physics teachers book 3 pages 34-39
Secondary physics KLB students book 3 page 225-228 

Electrostatics Ii

Charge distribution on conductors

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


Describe charge distribution on conductors:
Spherical and pear shaped conductors

Discussions on charge distribution on conductors
Experiment is demonstrated/illustrate charge distribution on conductors

Vande Graaf generator
Chart showing charge distribution on different conductors
Gold leaf electroscope

Comprehensive secondary physics students book 3 pages 77-78
Comprehensive secondary physics teachers book 3 pages 34-39
Secondary physics KLB students book 3 page 225-228 

Electrostatics Ii

Lighting arrestor

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


Explain how lightning arrestor works

Discussions on the lighting arrestor
Explanations on the lighting arrestor

Improvised lighting arrestor
Photographs of lightning arrestor

Comprehensive secondary physics students book 3 pages 79-80
Comprehensive secondary physics teachers book 3 pages 34-39
Secondary physics KLB students book 3 page 229-230 

Electrostatics Ii

Capacitance

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


Define capacitance and state its SI units
Describe the charging and discharging of a capacitor
State and explain the factors that affect the capacitance of a parallel plate capacitor

Experiments on charging and discharging capacitor
Discussion on factors affecting capacitance
Defining capacitance

Complete circuits
capacitors

Comprehensive secondary physics students book 3 pages 80-82
Comprehensive secondary physics teachers book 3 pages 34-39
Secondary physics KLB students book 3 page 230-237

Electrostatics Ii

Capacitance
Combinations of capacitors

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


Define capacitance and state its SI units
Describe the charging and discharging of a capacitor
State and explain the factors that affect the capacitance of a parallel plate capacitor


Derive the effective capacitance of capacitors in series and parallel

Experiments on charging and discharging capacitor
Discussion on factors affecting capacitance
Defining capacitance

Deriving effective capacitance of capacitors in series and parallel
Solving problems
Discussion in the effective capacitance

Complete circuits
capacitors

Capacitors in series and parallel connections
Charts showing complete circuits

Comprehensive secondary physics students book 3 pages 80-82
Comprehensive secondary physics teachers book 3 pages 34-39
Secondary physics KLB students book 3 page 230-237
Comprehensive secondary physics students book 3 pages 80-82
Comprehensive secondary physics teachers book 3 pages 34-39
Secondary physics KLB students book 3 page 237-241 

Electrostatics Ii

Energy stored in a charged capacitor

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


Describe the energy stored in a charged capacitor

Describing the energy stored in a charged capacitor

Capacitors
Dry cells
Charts on capacitors used

Comprehensive secondary physics students book 3 pages 82
Comprehensive secondary physics teachers book 3 pages 34-39
Secondary physics KLB students book 3 page 244