Form 4 Physics Notes :-
CHAPTER 1 : INTRODUCTION TO PHYSICS
- 1.1 Micrometer screw gauge << Click This
CHAPTER 2 : FORCES AND MOTION
- 2.1 Ticker tape << Click This
- 2.2 Graphs of motion << Click This
- 2.3 Understanding of inertia << Click This
- 2.4 Momentum << Click This
- 2.5 Newton’s Second Law of Motion, F = ma << Click This
- 2.6 Pulley system << Click This
- 2.7 Elevator system << Click This
- 2.8 Force acting on a skydiver << Click This
- 2.9 Safety car features << Click This
- 2.10 Forces in equilibrium << Click This
- 2.11 Resolving forces into components << Click This
- 2.12 Principle of conservation of energy << Click This
- 2.13 Hooke’s law << Click This
CHAPTER 3: FORCES AND PRESSURE
- 3.1 Pressure << Click This
- 3.2 Liquid pressure << Click This
- 3.3 Atmospheric pressure << Click This
- 3.4 Application of atmospheric pressure in Genting Highlands << Click This
- 3.5 Gas pressure << Click This
- 3.6 Pascal principle << Click This
- 3.7 Application of Pascal principle – Hydraulic jack << Click This
- 3.8 Archimedes principle << Click This
- 3.9 Application of Archimedes principle – Plimsoll line << Click This
- 3.10 Application of Archimedes principle – Hydrometer << Click This
- 3.11 Bernoulli principle << Click This
- 3.12 Application of Bernoulli principle – Aerofoil << Click This
- 3.13 Application of Bernoulli principle – Spinning ball << Click This
- 3.14 Application of Bernoulli principle – Wind surfing << Click This
CHAPTER 4: HEAT
- 4.1 Thermal equilibrium << Click This
- 4.2 Specific heat capacity << Click This
- 4.3 Latent heat << Click This
- 4.4 Boyle’s law of gas << Click This
- 4.5 Absolute temperature << Click This
- 4.6 Charles’s law of gas << Click This
CHAPTER 5: LIGHT
- 5.1 Reflection of light on plane mirror << Click This
- 5.2 Introduction to curved mirror << Click This
- 5.3 Concave mirror ray diagrams << Click This
- 5.4 Convex mirror ray diagrams << Click This
- 5.5 Application of concave mirror << Click This
- 5.6 Application of convex mirror << Click This
- 5.7 Refraction of light << Click This
- 5.8 Convex lens ray diagrams << Click This
Form 5 Physics Notes :-
CHAPTER 1: WAVES
- 1.1 Wave front<< Click This
- 1.2 Properties of wave<< Click This
- 1.3 Resonance << Click This
- 1.4 Reflection of waves<< Click This
- 1.5 Refraction of waves<< Click This
- 1.6 Shape of coastline due to refraction<< Click This
- 1.7 Refraction of sound waves << Click This
- 1.8 Diffraction of waves<< Click This
- 1.9 Interference of waves<< Click This
- 1.10 Pitch of sound<< Click This
- 1.11 Loudness of sound<< Click This
- 1.12 Application of reflection of sound wave<< Click This
- 1.13 Application of interference of waves<< Click This
- 1.14 Electromagnetic waves<< Click This
CHAPTER 2: ELECTRICITY
- 2.1 Electric fields and charge << Click This
- 2.2 Electric current and potential difference<< Click This
- 2.3 Series and parallel circuits<< Click This
- 2.4 Problem solving of series and parallel circuits<< Click This
CHAPTER 3: ELECTROMAGNETISM
- 3.1 Magnetic field of a current-carrying conductor<< Click This
- 3.2 Electromagnet<< Click This
- 3.3 Application of electromagnet – Electric bell<< Click This
- 3.4 Application of electromagnet – Telephone earpiece<< Click This
- 3.5 Force on a current-carrying conductor in a magnetic field<< Click This
- 3.6 Forces between two current-carrying conductors << Click This
- 3.7 Direct current motor<< Click This
- 3.8 Alternating current motor
- 3.9 Electromagnetic Induction<< Click This
- 3.10 Application of electromagnetic induction – Torchlight<< Click This
- 3.11 Alternating current and direct current generator<< Click This
- 3.12 Moving coil meter
- 3.13 Transformer << Click This
- 3.14 Transmission of electricity<< Click This
CHAPTER 4: ELECTRONICS
- 4.1 Thermionic emission<< Click This
- 4.2 Components of cathode ray oscilloscope<< Click This
- 4.3 Properties of cathode ray oscilloscope<< Click This
- 4.4 Experiment of cathode ray oscilloscope<< Click This
- 4.5 Measuring voltage and time period using oscilloscope<< Click This
- 4.6 Half and full wave rectification << Click This
- 4.7 How transistor works<< Click This
- 4.8 Transistor as an amplifier<< Click This
CHAPTER 5: RADIOACTIVITY
- 5.1 Radioactivity<< Click This
- 5.2 Radioactive decay<< Click This
- 5.3 Ionising and penetration power of radiation<< Click This
- 5.4 Half life of radioisotope << Click This
- 5.5 Application of radioactive – Carbon-14 dating<< Click This
- 5.6 Mass-energy equivalence<< Click This
- 5.7 Nuclear fission<< Click This
- 5.8 Nuclear fusion<< Click This
- 5.9 Nuclear chain reaction << Click This
- 5.10 Nuclear power plant << Click This
- 5.11 Effects of nuclear bomb<< Click This
- NOTA FIZIK TINGKATAN 4 (BM) >> [Click Here]
- NOTA FIZIK TINGKATAN 5 (BM) >> [Click Here]
- PERFECT SCORE SPM 2011 >> [Click For Question]
- PERFECT SCORE SPM 2011 >> [Click For Answer]
Form 4 Physics Modules :-
- Understanding Physics << Click This
- Forces and Motion << Click This
- Forces and Pressure << Click This
- Heat << Click This
- Light << Click This
Form 5 Physics Modules :-
- Waves << Click This
- Electricity << Click This
- Electromagnetism << Click This
- Electronics << Click This
- Radioactivity << Click This
Koleksi Kertas Soalan Peperiksaan Percubaan SPM 2012 :-
- SBP Fizik 1 + Fizik 2 + Fizik 3 << Click This
- Perak Jawapan Fizik << Click This
- Perak Jawapan Fizik (2) << Click This
- Terengganu Fizik K1_K2_K3 << Click This
- Terengganu Fizik 1 + Jawapan << Click This
- Terengganu Fizik 2 << Click This
- Terengganu Fizik 3 << Click This
- SBP Fizik + Jawapan << Click This
- Perak Fizik K1 + K2 + K3 << Click This
- Perak Jawapan << Click This
- WPKL Fizik 1 << Click This
- SBP Fizik K1 + Jawapan << Click This
- SBP Fizik K2 + Jawapan << Click This
- SBP Fizik K3 + Jawapan << Click This
- Kelantan K1_K2 << Click This
- Pahang Fizik K1 + K2 + K3 << Click This
- Perak Fizik K1 + K2 + K3 << Click This
- Melaka Fizik K1 + K2 + Jawapan K2 + K3 + Jawapan K3 << Click This
- Pulau Pinang Fizik K1 + K2 + K3 << Click This
- LATIHAN FIZIK SPM >> [Click Here]
