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| WK | LSN | TOPIC | SUB-TOPIC | OBJECTIVES | T/L ACTIVITIES | T/L AIDS | REFERENCE | REMARKS |
|---|---|---|---|---|---|---|---|---|
| 1 |
OPENING AND CHECKING OF AUGUST ASSIGNMENT |
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| 2 | 1-2 |
Heating Effect of Electric Current
|
Electrical safety - fuses and circuit protection
|
By the end of the
lesson, the learner
should be able to:
Explain working principle of fuses - Calculate appropriate fuse ratings - Describe safety measures in electrical installations - Analyze circuit protection methods |
In groups, learners are guided to:
Demonstration of fuse operation - Calculation of fuse ratings for appliances - Discussion on electrical safety - Analysis of circuit protection devices |
Various fuses, Fuse holders, Circuit diagrams, Safety equipment demonstrations, Rating calculations
|
KLB Secondary Physics Form 3, Pages 203-204
|
|
| 2 | 3 |
Heating Effect of Electric Current
|
Efficiency calculations and motor problems
|
By the end of the
lesson, the learner
should be able to:
Calculate efficiency of electrical devices - Solve problems involving motors and mechanical work - Analyze power input vs power output - Calculate overall efficiency in systems |
In groups, learners are guided to:
Problem solving on device efficiency - Motor efficiency calculations - Analysis of energy conversions - Real-world efficiency problems |
Motor specifications, Efficiency calculation worksheets, Power meters, Mechanical loading systems
|
KLB Secondary Physics Form 3, Pages 201-204
|
|
| 2 | 4 |
Heating Effect of Electric Current
|
Series and parallel heating circuits
|
By the end of the
lesson, the learner
should be able to:
Analyze heating in series and parallel circuits - Calculate power dissipation in different configurations - Compare heating effects in different circuit arrangements - Solve complex circuit problems |
In groups, learners are guided to:
Circuit analysis of heating effects - Comparison of series vs parallel heating - Power distribution calculations - Complex circuit problem solving |
Resistors in circuits, Ammeters, Voltmeters, Power calculation sheets, Circuit boards
|
KLB Secondary Physics Form 3, Pages 200-204
|
|
| 2 | 5 |
Heating Effect of Electric Current
|
Series and parallel heating circuits
|
By the end of the
lesson, the learner
should be able to:
Analyze heating in series and parallel circuits - Calculate power dissipation in different configurations - Compare heating effects in different circuit arrangements - Solve complex circuit problems |
In groups, learners are guided to:
Circuit analysis of heating effects - Comparison of series vs parallel heating - Power distribution calculations - Complex circuit problem solving |
Resistors in circuits, Ammeters, Voltmeters, Power calculation sheets, Circuit boards
|
KLB Secondary Physics Form 3, Pages 200-204
|
|
| 3 | 1-2 |
Quantity of Heat
|
Heat capacity and specific heat capacity
Determination of specific heat capacity - method of mixtures for solids |
By the end of the
lesson, the learner
should be able to:
Define heat capacity and specific heat capacity - State SI units for both quantities - Distinguish between heat capacity and specific heat capacity - Use formula Q = mcθ in simple calculations Describe method of mixtures for solids - Perform experiment to determine specific heat capacity of metal - Apply heat balance principle - Calculate specific heat capacity from experimental data |
In groups, learners are guided to:
Q/A on heat concepts from previous studies - Discussion on definitions and units - Comparison of heat capacity vs specific heat capacity - Simple problem solving using Q = mcθ formula Experiment using hot metal block in cold water - Measurement of temperatures and masses - Application of heat balance equation - Calculation of specific heat capacity from results |
Charts on heat definitions, Calculators, Simple problem worksheets, Various materials for comparison
Metal blocks, Beakers, Water, Thermometers, Weighing balance, Heat source, Well-lagged calorimeter, Stirrer |
KLB Secondary Physics Form 3, Pages 206-209
KLB Secondary Physics Form 3, Pages 209-212 |
|
| 3 | 3 |
Quantity of Heat
|
Determination of specific heat capacity - method of mixtures for solids
|
By the end of the
lesson, the learner
should be able to:
Describe method of mixtures for solids - Perform experiment to determine specific heat capacity of metal - Apply heat balance principle - Calculate specific heat capacity from experimental data |
In groups, learners are guided to:
Experiment using hot metal block in cold water - Measurement of temperatures and masses - Application of heat balance equation - Calculation of specific heat capacity from results |
Metal blocks, Beakers, Water, Thermometers, Weighing balance, Heat source, Well-lagged calorimeter, Stirrer
|
KLB Secondary Physics Form 3, Pages 209-212
|
|
| 3 | 4 |
Quantity of Heat
|
Determination of specific heat capacity - electrical method
|
By the end of the
lesson, the learner
should be able to:
Describe electrical method for solids - Perform electrical heating experiment - Calculate electrical energy supplied - Determine specific heat capacity using electrical method |
In groups, learners are guided to:
Experiment using electrical heating of metal block - Measurement of voltage, current and time - Calculation of electrical energy supplied - Determination of specific heat capacity |
Metal cylinder with heater, Voltmeter, Ammeter, Thermometer, Stopwatch, Insulating materials, Power supply
|
KLB Secondary Physics Form 3, Pages 212-214
|
|
| 3 | 5 |
Quantity of Heat
|
Specific heat capacity of liquids and continuous flow method
|
By the end of the
lesson, the learner
should be able to:
Determine specific heat capacity of water by electrical method - Describe continuous flow method - Explain advantages of continuous flow method - Solve problems on specific heat capacity |
In groups, learners are guided to:
Electrical method experiment for water - Discussion on continuous flow apparatus - Analysis of method advantages - Problem solving on specific heat calculations |
Calorimeter, Electrical heater, Water, Measuring instruments, Continuous flow apparatus diagram, Problem sets
|
KLB Secondary Physics Form 3, Pages 214-217
|
|
| 4 | 1-2 |
Quantity of Heat
|
Change of state and latent heat concepts
|
By the end of the
lesson, the learner
should be able to:
Define latent heat of fusion and vaporization - Explain change of state process - Plot cooling curve for naphthalene - Identify melting and boiling points from graphs |
In groups, learners are guided to:
Experiment plotting cooling curve for naphthalene - Observation of temperature plateaus during phase changes - Discussion on latent heat concept - Graph analysis and interpretation |
Naphthalene, Test tubes, Thermometer, Stopwatch, Graph paper, Heat source, Cooling apparatus
|
KLB Secondary Physics Form 3, Pages 218-220
|
|
| 4 | 3 |
Quantity of Heat
|
Specific latent heat of fusion
|
By the end of the
lesson, the learner
should be able to:
Define specific latent heat of fusion - Determine latent heat of ice by method of mixtures - Perform electrical method for latent heat - Calculate latent heat from experimental data |
In groups, learners are guided to:
Method of mixtures experiment using ice and warm water - Electrical method using ice and immersion heater - Heat balance calculations - Determination of specific latent heat values |
Ice, Calorimeter, Thermometer, Electrical heater, Filter funnels, Beakers, Measuring cylinders
|
KLB Secondary Physics Form 3, Pages 220-223
|
|
| 4 | 4 |
Quantity of Heat
|
Specific latent heat of fusion
|
By the end of the
lesson, the learner
should be able to:
Define specific latent heat of fusion - Determine latent heat of ice by method of mixtures - Perform electrical method for latent heat - Calculate latent heat from experimental data |
In groups, learners are guided to:
Method of mixtures experiment using ice and warm water - Electrical method using ice and immersion heater - Heat balance calculations - Determination of specific latent heat values |
Ice, Calorimeter, Thermometer, Electrical heater, Filter funnels, Beakers, Measuring cylinders
|
KLB Secondary Physics Form 3, Pages 220-223
|
|
| 4 | 5 |
Quantity of Heat
|
Specific latent heat of vaporization
|
By the end of the
lesson, the learner
should be able to:
Define specific latent heat of vaporization - Determine latent heat of steam by condensation method - Perform electrical method for vaporization - Solve complex latent heat problems |
In groups, learners are guided to:
Steam condensation experiment in calorimeter - Electrical method using boiling water - Calculation of latent heat of vaporization - Complex problem solving involving phase changes |
Steam generator, Condenser, Calorimeter, Electrical heater, Measuring instruments, Safety equipment
|
KLB Secondary Physics Form 3, Pages 223-227
|
|
| 5 | 1-2 |
Quantity of Heat
|
Effects of pressure and impurities on melting and boiling points
|
By the end of the
lesson, the learner
should be able to:
Investigate effect of pressure on melting point of ice - Demonstrate regelation phenomenon - Investigate effect of pressure on boiling point - Explain effect of impurities on phase transition temperatures |
In groups, learners are guided to:
Regelation experiment with ice and wire - Pressure effect on boiling point using flask - Salt solution boiling point investigation - Discussion on pressure cooker working |
Ice blocks, Weighted wire, Round-bottomed flask, Thermometer, Salt solutions, Pressure cooker model
|
KLB Secondary Physics Form 3, Pages 227-230
|
|
| 5 | 3 |
Quantity of Heat
|
Evaporation and cooling effects
|
By the end of the
lesson, the learner
should be able to:
Define evaporation and distinguish from boiling - Investigate factors affecting evaporation rate - Demonstrate cooling effect of evaporation - Explain applications of evaporation cooling |
In groups, learners are guided to:
Experiments on evaporation rate factors - Demonstration of cooling by evaporation using ether - Investigation of surface area, temperature and humidity effects - Discussion on natural cooling systems |
Various liquids, Beakers, Fans, Thermometers, Ether, Test tubes, Humidity measuring devices
|
KLB Secondary Physics Form 3, Pages 230-233
|
|
| 5 | 4 |
Gas Laws
|
Introduction to gas behavior and Boyle's Law
|
By the end of the
lesson, the learner
should be able to:
Describe relationship between pressure and volume of gases - State Boyle's Law - Demonstrate pressure-volume relationship using syringe - Plot P vs V and P vs 1/V graphs |
In groups, learners are guided to:
Q/A on gas properties from previous studies - Demonstration using syringe to show pressure-volume relationship - Discussion on molecular explanation - Introduction to gas law investigations |
Syringes, J-shaped tubes, Oil, Bourdon gauge, Foot pump, Metre rule, Graph paper
|
KLB Secondary Physics Form 3, Pages 235-237
|
|
| 5 | 5 |
Gas Laws
|
Introduction to gas behavior and Boyle's Law
|
By the end of the
lesson, the learner
should be able to:
Describe relationship between pressure and volume of gases - State Boyle's Law - Demonstrate pressure-volume relationship using syringe - Plot P vs V and P vs 1/V graphs |
In groups, learners are guided to:
Q/A on gas properties from previous studies - Demonstration using syringe to show pressure-volume relationship - Discussion on molecular explanation - Introduction to gas law investigations |
Syringes, J-shaped tubes, Oil, Bourdon gauge, Foot pump, Metre rule, Graph paper
|
KLB Secondary Physics Form 3, Pages 235-237
|
|
| 6 | 1-2 |
Gas Laws
|
Boyle's Law experiments and calculations
Boyle's Law applications and kinetic theory explanation |
By the end of the
lesson, the learner
should be able to:
Perform experiment to verify Boyle's Law - Record pressure and volume data - Plot graphs of P vs V, P vs 1/V, and PV vs P - Calculate pressure-volume products and verify constant relationship Apply Boyle's Law to solve numerical problems - Explain Boyle's Law using kinetic theory - Analyze isothermal processes - Solve problems involving gas bubbles and atmospheric pressure |
In groups, learners are guided to:
Experiment using J-shaped tube with oil and pressure measurement - Data collection and tabulation - Graph plotting and analysis - Verification of PV = constant relationship Problem solving using P₁V₁ = P₂V₂ - Kinetic theory explanation of pressure-volume relationship - Analysis of molecular collision frequency - Real-world applications like diving and altitude effects |
Thick-walled J-shaped tube, Oil, Pressure gauge, Measuring instruments, Data tables, Graph paper, Calculators
Problem worksheets, Kinetic theory diagrams, Calculator, Gas bubble scenarios, Atmospheric pressure data |
KLB Secondary Physics Form 3, Pages 235-238
KLB Secondary Physics Form 3, Pages 238-240 |
|
| 6 | 3 |
Gas Laws
|
Boyle's Law applications and kinetic theory explanation
|
By the end of the
lesson, the learner
should be able to:
Apply Boyle's Law to solve numerical problems - Explain Boyle's Law using kinetic theory - Analyze isothermal processes - Solve problems involving gas bubbles and atmospheric pressure |
In groups, learners are guided to:
Problem solving using P₁V₁ = P₂V₂ - Kinetic theory explanation of pressure-volume relationship - Analysis of molecular collision frequency - Real-world applications like diving and altitude effects |
Problem worksheets, Kinetic theory diagrams, Calculator, Gas bubble scenarios, Atmospheric pressure data
|
KLB Secondary Physics Form 3, Pages 238-240
|
|
| 6 | 4 |
Gas Laws
|
Charles's Law
|
By the end of the
lesson, the learner
should be able to:
State Charles's Law for constant pressure processes - Demonstrate volume-temperature relationship - Perform experiments to verify V ∝ T relationship - Plot V vs T and V vs θ graphs |
In groups, learners are guided to:
Experiment using gas column in tube with varying temperature - Temperature and volume measurements - Graph plotting showing linear relationship - Discussion on absolute zero concept |
Gas tubes, Water baths, Thermometers, Measuring cylinders, Heating apparatus, Graph paper, Temperature control equipment
|
KLB Secondary Physics Form 3, Pages 238-241
|
|
| 6 | 5 |
Gas Laws
|
Charles's Law applications and absolute temperature scale
|
By the end of the
lesson, the learner
should be able to:
Apply Charles's Law in numerical problems - Convert between Celsius and Kelvin scales - Explain concept of absolute zero - Solve problems using V₁/T₁ = V₂/T₂ |
In groups, learners are guided to:
Problem solving with Charles's Law formula - Temperature scale conversions - Mathematical analysis of absolute zero - Real-world applications in hot air balloons and gas heating |
Temperature conversion charts, Problem sets, Calculators, Hot air balloon examples, Gas heating scenarios
|
KLB Secondary Physics Form 3, Pages 241-243
|
|
| 7 | 1-2 |
Gas Laws
|
Pressure Law (Gay-Lussac's Law)
|
By the end of the
lesson, the learner
should be able to:
State relationship between pressure and temperature at constant volume - Demonstrate pressure-temperature experiments - Verify P ∝ T relationship - Derive pressure law formula |
In groups, learners are guided to:
Experiment using constant volume gas with temperature variation - Pressure measurements at different temperatures - Graph plotting of P vs T - Verification of linear relationship through origin |
Constant volume gas apparatus, Pressure gauges, Temperature control, Water baths, Thermometers, Graph materials
|
KLB Secondary Physics Form 3, Pages 242-244
|
|
| 7 | 3 |
Gas Laws
|
Combined gas laws and ideal gas behavior
|
By the end of the
lesson, the learner
should be able to:
Combine all three gas laws into general gas equation - Apply PV/T = constant for fixed mass of gas - Solve complex problems involving multiple variables - Explain ideal gas assumptions |
In groups, learners are guided to:
Mathematical combination of gas laws - Problem solving with changing P, V, and T - Discussion on ideal gas concept - Analysis of real gas deviations from ideal behavior |
Combined law worksheets, Complex problem sets, Calculators, Ideal gas assumption charts
|
KLB Secondary Physics Form 3, Pages 243-245
|
|
| 7 | 4 |
Gas Laws
|
Combined gas laws and ideal gas behavior
|
By the end of the
lesson, the learner
should be able to:
Combine all three gas laws into general gas equation - Apply PV/T = constant for fixed mass of gas - Solve complex problems involving multiple variables - Explain ideal gas assumptions |
In groups, learners are guided to:
Mathematical combination of gas laws - Problem solving with changing P, V, and T - Discussion on ideal gas concept - Analysis of real gas deviations from ideal behavior |
Combined law worksheets, Complex problem sets, Calculators, Ideal gas assumption charts
|
KLB Secondary Physics Form 3, Pages 243-245
|
|
| 7 | 5 |
Gas Laws
|
Kinetic theory of gases
|
By the end of the
lesson, the learner
should be able to:
State basic assumptions of kinetic theory - Explain gas laws using molecular motion - Relate temperature to average kinetic energy - Analyze molecular behavior in different conditions |
In groups, learners are guided to:
Discussion of kinetic theory postulates - Molecular explanation of gas laws - Mathematical relationship between temperature and kinetic energy - Analysis of molecular motion at different temperatures |
Kinetic theory diagrams, Molecular motion animations, Temperature-energy relationship charts, Theoretical discussion materials
|
KLB Secondary Physics Form 3, Pages 244-245
|
|
| 8 | 1-2 |
Gas Laws
|
Absolute zero and temperature scales
|
By the end of the
lesson, the learner
should be able to:
Explain concept of absolute zero temperature - Extrapolate gas law graphs to find absolute zero - Convert between temperature scales - Analyze relationship between Celsius and Kelvin scales |
In groups, learners are guided to:
Graph extrapolation to determine absolute zero - Mathematical analysis of temperature scale relationships - Problem solving with temperature conversions - Discussion on theoretical and practical aspects of absolute zero |
Graph paper, Extrapolation exercises, Temperature scale diagrams, Conversion worksheets, Scientific calculators
|
KLB Secondary Physics Form 3, Pages 241-245
|
|
| 8 | 3 |
Gas Laws
|
Comprehensive applications and problem solving
|
By the end of the
lesson, the learner
should be able to:
Solve complex multi-step gas law problems - Apply gas laws to real-world situations - Analyze atmospheric and weather-related phenomena - Review all gas law concepts and applications |
In groups, learners are guided to:
Comprehensive problem solving session - Analysis of weather balloons, scuba diving, and atmospheric pressure effects - Review of all gas laws - Preparation for examinations with complex scenarios |
Past examination papers, Multi-step problem sets, Real-world scenario worksheets, Summary charts, Calculators
|
KLB Secondary Physics Form 3, Pages 235-245
|
|
| 8 | 4 |
Gas Laws
|
Comprehensive applications and problem solving
|
By the end of the
lesson, the learner
should be able to:
Solve complex multi-step gas law problems - Apply gas laws to real-world situations - Analyze atmospheric and weather-related phenomena - Review all gas law concepts and applications |
In groups, learners are guided to:
Comprehensive problem solving session - Analysis of weather balloons, scuba diving, and atmospheric pressure effects - Review of all gas laws - Preparation for examinations with complex scenarios |
Past examination papers, Multi-step problem sets, Real-world scenario worksheets, Summary charts, Calculators
|
KLB Secondary Physics Form 3, Pages 235-245
|
|
| 8 | 3-5 |
Gas Laws
|
Comprehensive applications and problem solving
|
By the end of the
lesson, the learner
should be able to:
Solve complex multi-step gas law problems - Apply gas laws to real-world situations - Analyze atmospheric and weather-related phenomena - Review all gas law concepts and applications |
In groups, learners are guided to:
Comprehensive problem solving session - Analysis of weather balloons, scuba diving, and atmospheric pressure effects - Review of all gas laws - Preparation for examinations with complex scenarios |
Past examination papers, Multi-step problem sets, Real-world scenario worksheets, Summary charts, Calculators
|
KLB Secondary Physics Form 3, Pages 235-245
|
|
| 9 |
END-TERM EXAM |
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