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Physics Note
Chapter 1.0 Introduction to Physics
What is Physics
Analysing scientific Investigation
Understanding measurements
Understanding Scalar and Vector Quantities
Understanding Derived and Base quantities
Understanding Physics
Analysing scientific Investigation
Understanding measurements
Understanding Scalar and Vector Quantities
Understanding Derived and Base quantities
Understanding Physics
Chapter 2.0 Forces and motion
Work
Power, Energy and Efficiency
Work and Energy
Elasticity
Analysing forces in equilibrium
Impulse and Impulsive force
Analysing Momentum II
Analysing Momentum
Understanding Inertia
Newtons Three Laws of Motion
Analysing Linear Motion
Distance, Displacement, Velocity, Speed and Acceleration
Work
Power, Energy and Efficiency
Work and Energy
Elasticity
Analysing forces in equilibrium
Impulse and Impulsive force
Analysing Momentum II
Analysing Momentum
Understanding Inertia
Newtons Three Laws of Motion
Analysing Linear Motion
Distance, Displacement, Velocity, Speed and Acceleration
Chapter 3.0 Forces and Pressure
Applications of Bernoulli's Principle
Bernoulli's Principle Applied to Fluid Flow in Tubes
Understanding Bernoulli's Principle
Application of Archimedes' Principle
Law of flotation
What Causes Buoyant Force?
Buoyant Force and Flotation
Applying Archimedes' Principle
Applications of Pascal's Principle in Everyday Life
Basic Hydraulic System
Instruments for measuring Gas Pressure
Instruments for measuring Atmospheric Pressure
Atmospheric pressure and altitude
Application of Atmospheric Pressure
Understanding Gas Pressure and Atmospheric Pressure
Understanding Pressure in Liquids
Understanding Pressure
Applications of Bernoulli's Principle
Bernoulli's Principle Applied to Fluid Flow in Tubes
Understanding Bernoulli's Principle
Application of Archimedes' Principle
Law of flotation
What Causes Buoyant Force?
Buoyant Force and Flotation
Applying Archimedes' Principle
Applications of Pascal's Principle in Everyday Life
Basic Hydraulic System
Instruments for measuring Gas Pressure
Instruments for measuring Atmospheric Pressure
Atmospheric pressure and altitude
Application of Atmospheric Pressure
Understanding Gas Pressure and Atmospheric Pressure
Understanding Pressure in Liquids
Understanding Pressure
Chapter 4.0 Heat
Uses of Gas Laws
Universal Gas Laws
Absolute Zero Temperature
Pressure Law
Charles' Law
Boyle's Law
Kinetic Theory of Gas
Understanding Gas Laws
Application of Specific Heat Capacity
Specific Latent Heat of Vaporisation
Specific Latent Heat of Fusion
Specific Latent Heat
Understanding Specific Latent Heat
Application of Specific Heat Capacity
Specific heat capacity
Heat Capacity
Types of Thermometer
Calibration of Thermometers
Temperature Measurement
Understanding Thermal Equilibrium
Uses of Gas Laws
Universal Gas Laws
Absolute Zero Temperature
Pressure Law
Charles' Law
Boyle's Law
Kinetic Theory of Gas
Understanding Gas Laws
Application of Specific Heat Capacity
Specific Latent Heat of Vaporisation
Specific Latent Heat of Fusion
Specific Latent Heat
Understanding Specific Latent Heat
Application of Specific Heat Capacity
Specific heat capacity
Heat Capacity
Types of Thermometer
Calibration of Thermometers
Temperature Measurement
Understanding Thermal Equilibrium
Chapter 5.0 Light
Relationship between Critical angle and Refractive Index and Application of Total Internal Reflection
Understanding Total Internal Reflection of Light
Reflection of Light on a Curved Surface: Method to draw ray diagrams
Characteristics of Image formed by Plane Mirror
Refraction of Light
Understanding Reflection of Light: Law of Reflection
Relationship between Critical angle and Refractive Index and Application of Total Internal Reflection
Understanding Total Internal Reflection of Light
Reflection of Light on a Curved Surface: Method to draw ray diagrams
Characteristics of Image formed by Plane Mirror
Refraction of Light
Understanding Reflection of Light: Law of Reflection
Chapter 6.0 Waves
Electromagnetic Spectrum
Analysing Electromagnetic Waves
Speed of Sound
Analysing Sound Waves
Analysing Interference of Waves
Analysing Diffraction of Waves
Analysing Refraction of Waves
Analysing Reflection of Waves
Understanding Waves
Damping and Resonance of Waves
Analysing Diffraction of Waves
Speed of Sound
Electromagnetic Spectrum
Analysing Electromagnetic Waves
Speed of Sound
Analysing Sound Waves
Analysing Interference of Waves
Analysing Diffraction of Waves
Analysing Refraction of Waves
Analysing Reflection of Waves
Understanding Waves
Damping and Resonance of Waves
Analysing Diffraction of Waves
Speed of Sound
Chapter 7.0 Electricity
Finding the value of e.m.f and internal resistance
Internal Resistance
Difference Between E.M.F and Potential Difference
Electromotive force
The Effective Resistance of resistors connected in Parallel
The Effective Resistance of resistors connected in Series
Series and Parallel Circuits
Superconductors
Resistance
Ohm's Law
The relationship between electric current and potential difference
Electric current as the rate of charge flow
Electric Field
Finding the value of e.m.f and internal resistance
Internal Resistance
Difference Between E.M.F and Potential Difference
Electromotive force
The Effective Resistance of resistors connected in Parallel
The Effective Resistance of resistors connected in Series
Series and Parallel Circuits
Superconductors
Resistance
Ohm's Law
The relationship between electric current and potential difference
Electric current as the rate of charge flow
Electric Field
Chapter 8.0 Electromagnetism
Renewable Energy
National Grid Network
Transmission of Electricity
Generation of Electricity
Energy Losses in a Transformer
Primary and Secondary Current in Transformer
Step-Up and Step-Down Transformer
Transformer
Alternating and Direct Current
Application of Electromagnetic Induction
Lenz's Law
Faraday's Law of Electromagnetic Induction
Induced Curent and Induced Electromotive Force
Electromagnetic Induction
Factors affecting the Speed of an Electromagnetic Motor
The force on a current-carrying conductor in a magnetic field
Uses of Electromagnets
Magnetic effect of current carrying conductor
Electromagnetic Induction
Renewable Energy
National Grid Network
Transmission of Electricity
Generation of Electricity
Energy Losses in a Transformer
Primary and Secondary Current in Transformer
Step-Up and Step-Down Transformer
Transformer
Alternating and Direct Current
Application of Electromagnetic Induction
Lenz's Law
Faraday's Law of Electromagnetic Induction
Induced Curent and Induced Electromotive Force
Electromagnetic Induction
Factors affecting the Speed of an Electromagnetic Motor
The force on a current-carrying conductor in a magnetic field
Uses of Electromagnets
Magnetic effect of current carrying conductor
Electromagnetic Induction
Chapter 9.0 Electronics
Understanding Semiconductor Diodes
Uses of Semiconductor Diodes
Understanding Transistors
Applications of Transistors
Cathode Ray Oscilloscope
Properties of Cathode Rays
Cathode Ray Oscilloscope: Thermionic Emission
Understanding Semiconductor Diodes
Uses of Semiconductor Diodes
Understanding Transistors
Applications of Transistors
Cathode Ray Oscilloscope
Properties of Cathode Rays
Cathode Ray Oscilloscope: Thermionic Emission
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