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CHEMISTRY FORM 4 AND 5-CIKGU WONG
















CHAPTER 2: THE STRUCTURE OF THE ATOM
            2.1    Rutheford atomic model
            2.2    Bohr atomic model
            2.3    Atomic symbol, proton number and nucleon number
            2.4    Structure of an atom
            2.5    Electron arrangement of atom

CHAPTER 3: CHEMICAL FORMULAE AND EQUATIONS
            3.1    Understanding of mole concept
            3.2    Mass and moles of an element
            3.3    Empirical formula of magnesium oxide
            3.4    Empirical formula of copper (II) oxide

CHAPTER 4: PERIODIC TABLE OF ELEMENTS
            4.1   Introduction of periodic table
            4.2   Dmitri Mendeleev periodic table
            4.3   Physical properties of Group 1
            4.4   Reactivity of Group 1
            4.5   Physical properties of Group 17
            4.6   Reactivity of Group 17
            4.7   Characteristics of transition metal

CHAPTER 5: CHEMICAL BONDS
            5.1   Ionic bond
            5.2   Covalent bond
            5.3   Lewis dot structure of covalent bond
            5.4   Electrical conductivity of ionic compound 

CHAPTER 6: ELECTROCHEMISTRY
            6.1   Understanding of electrolyte
            6.2   Understanding of electrolysis
            6.3   Electrolysis of concentrated sodium chloride
            6.4   Types of electrodes affect product of electrolysis
            6.5   Electrolysis of copper sulphate using carbon and copper
            6.6   Electroplating of metal
            6.7   Purification of metal
            6.8   Extraction of metal  
            6.9   Daniell cell 
            6.10 Displacement of metal from salt solution
            6.11 Constructing electrochemical series 

CHAPTER 7: ACIDS AND BASES  
            7.1   Understanding of acid and base
            7.2   Strength of acid 
            7.3   Differences between strong acid and weak acid
            7.4   Strength of alkali
            7.5   pH scale
            7.6   Concentration of solution - molarity
            7.7   Preparing a standard solution
            7.8   Neutralization reaction 
            7.9   Examples of acid - base indicator
            7.10 Titration method
            7.11 Determining molarity of solution


CHAPTER 8: SALTS

            8.1   Preparation of insoluble salt
            8.2   Application of precipitation of salt

CHAPTER 9: MANUFACTURED SUBSTANCES IN INDUSTRY
            9.1   Contact process
            9.2   Haber process
            9.3   Making of alloy 

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CHEMISTRY FORM 5 

CHAPTER 1: RATE OF REACTION
            1.1   Understanding of rate of reaction
            1.2   Collision theory 
            1.3   Concentration affects rate of reaction
            1.4   Catalyst affects rate of reaction 

CHAPTER 2: CARBON COMPOUNDS
            2.1   Differences between alkanes and alkenes
            2.2   Hydrogenation  
            2.3   Manufacture of ethanol
            2.4   Dehydration of alcohol
            2.5   Carboxylic acid
            2.6   Esterification

CHAPTER 3: OXIDATION AND REDUCTION
            3.1   Redox reaction
            3.2   Rules of oxidation number
            3.3   Conversion of Iron (II) to Iron (III) and vice versa 
            3.4   Redox reaction in displacement of metal
            3.5   Rusting of iron
            3.6   Redox reaction in electrochemistry reaction 

CHAPTER 4: THERMOCHEMISTRY
            4.1   Exothermic and endothermic reaction

CHAPTER 5: CHEMISTRY FOR CONSUMER

            5.1   Making of soap
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PHYSICS FORM 4 AND 5 -CIKGU WONG














CHAPTER 1 : INTRODUCTION TO PHYSICS
          1.1    Vernier caliper
          1.2    Micrometer screw gauge 

CHAPTER 2 : FORCES AND MOTION
          2.1    Ticker tape
          2.2    Graphs of motion 
          2.3    Understanding of inertia
          2.4    Momentum
          2.5    Newton's Second Law of Motion, F = ma
          2.6    Pulley system 
          2.7    Elevator system
          2.8    Force acting on a skydiver 
          2.9    Safety car features
          2.10  Forces in equilibrium
          2.11  Resolving forces into components
          2.12  Principle of conservation of energy 
          2.13  Hooke's law

CHAPTER 3: FORCES AND PRESSURE
          3.1    Pressure
          3.2    Liquid pressure
          3.3    Atmospheric pressure 
          3.4    Application of atmospheric pressure in Genting Highlands
          3.5    Gas pressure 
          3.6    Pascal principle
          3.7    Application of Pascal principle - Hydraulic jack 
          3.8    Archimedes principle
          3.9    Application of Archimedes principle - Plimsoll line 
          3.10  Application of Archimedes principle - Hydrometer 
          3.11  Bernoulli principle
          3.12  Application of Bernoulli principle - Aerofoil 
          3.13  Application of Bernoulli principle - Spinning ball 
          3.14  Application of Bernoulli principle - Wind surfing  

CHAPTER 4: HEAT
           4.1   Thermal equilibrium
           4.2   Specific heat capacity
           4.3   Latent heat 
           4.4   Boyle's law of gas 
           4.5   Absolute temperature 
           4.6   Charles's law of gas 

CHAPTER 5: LIGHT
           5.1   Reflection of light on plane mirror
           5.2   Introduction to curved mirror 
           5.3   Concave mirror ray diagrams   
           5.4   Convex mirror ray diagrams 
           5.5   Application of concave mirror 
           5.6   Application of convex mirror
           5.7   Refraction of light
           5.8   Convex lens ray diagrams
           5.9   Concave lens ray diagrams
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PHYSICS FORM 5 

CHAPTER 1: WAVES 
          1.1    Wave front
          1.2    Properties of wave
          1.3    Resonance 
          1.4    Reflection of waves
          1.5    Refraction of waves
          1.6    Shape of coastline due to refraction
          1.7    Refraction of sound waves 
          1.8    Diffraction of waves
          1.9    Interference of waves
          1.10  Pitch of sound
          1.11  Loudness of sound
          1.12  Application of reflection of sound wave
          1.13  Application of interference of waves
          1.14  Electromagnetic waves

CHAPTER 2: ELECTRICITY
          2.1    Electric fields and charge 
          2.2    Electric current and potential difference
          2.3    Series and parallel circuits
          2.4    Problem solving of series and parallel circuits 

CHAPTER 3: ELECTROMAGNETISM
          3.1    Magnetic field of a current-carrying conductor
          3.2    Electromagnet
          3.3    Application of electromagnet - Electric bell
          3.4    Application of electromagnet - Telephone earpiece
          3.5    Force on a current-carrying conductor in a magnetic field
          3.6    Forces between two current-carrying conductors 
          3.7    Direct current motor
          3.8    Alternating current motor
          3.9    Electromagnetic Induction
          3.10  Application of electromagnetic induction - Torchlight
          3.11  Alternating current and direct current generator
          3.12  Moving coil meter 
          3.13  Transformer 
          3.14  Transmission of electricity

CHAPTER 4: ELECTRONICS
          4.1    Thermionic emission
          4.2    Components of cathode ray oscilloscope
          4.3    Properties of cathode ray oscilloscope
          4.4    Experiment of cathode ray oscilloscope
          4.5    Measuring voltage and time period using oscilloscope 
          4.6    Half and full wave rectification 
          4.7    How transistor works 
          4.8    Transistor as an amplifier 

CHAPTER 5: RADIOACTIVITY
          5.1    Radioactivity
          5.2    Radioactive decay
          5.3    Ionising and penetration power of radiation 
          5.4    Half life of radioisotope 
          5.5    Application of radioactive - Carbon-14 dating
          5.6    Mass-energy equivalence 
          5.7    Nuclear fission
          5.8    Nuclear fusion
          5.9    Nuclear chain reaction 
          5.10  Nuclear power plant 
          5.11  Effects of nuclear bomb


CREDIT GOES CIKGU WONG
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