Home
Syllabus
Achievement Criteria
Grade Design
Expectations & the IA
Year 1
Unit 1 - Measurement
>
Measurement
Uncertainty
Scientific Method
Unit 2 - Motion
>
s, v, a
Motion Graphs
suvat equations
Freefall
Unit 3 - Newton's Laws
>
Forces
First Law
Second Law
Third Law
Unit 4 - Work/Energy
>
Work
Grav Potential Energy
Kinetic Energy
Elastic Potential Energy
Conservation
Unit 5 - Momentum and Projectiles
>
Impulse & Momentum
Collisions
Projectile Motion
Unit 6 - SHM
>
Oscillations and SHM
Energy in SHM
Equations of SHM
Applications of SHM
Resonance
Damping
Unit 7 - Circular motion & Gravitation
>
Circular Motion
Circular Motion Examples
Kepler's Laws
Gravitation
Planetary Motion
Unit 8 - Electrostatics
>
Static Electricity
Coulomb's Law
Electric Potential and Current
Unit 9 - DC Circuits
>
Resistance and Ohm's Law
Power and Electric Cells
Circuit Analysis
Unit 10 - Waves
>
Wave characteristics
Reflection and Refraction
Interference
Standing waves
Science Fair
Year 2
Unit 11 - More Waves
>
Polarization
Diffraction/Interference
Doppler Effect
Unit 12 - Thermodynamics
>
Kinetic Theory
Thermal Energy and Phase
Thermodynamic Systems
Unit 13 - Forces, Fields, Energy
>
Gravitation
Electrostatics
Magnetism
Unit 14 - Induction and Capacitance
>
Induction/Faraday's Law
AC Circuits
Capacitors
Unit 15 - the atom and radioactivity
>
Atomic Models
Nuclear structure
Radioactivity
Unit 16 - Nuclear & Quantum Physics
>
Binding Energy / Mass Defect
Photoelectric effect
Wave Nature of Matter
Unit 17 - Particle Physics
Unit 18 - Energy Production
>
World Energy Sources
Alternative Energy Sources
Climate Physics
Unit 19 - Engineering Physics
>
Rotational Mechanics
Fluid Mechanics
IA (Internal Assessment)
Contact
Edison IB Physics
wave nature
of matter
Wave Nature of Matter
Hyperphysics
de Broglie Hypothesis
Heisenberg Uncertainty Principle
Bohr Quantum Hypothesis
Particle in a box
Electron waves
Schrodinger's Cat
Home
Syllabus
Achievement Criteria
Grade Design
Expectations & the IA
Year 1
Unit 1 - Measurement
>
Measurement
Uncertainty
Scientific Method
Unit 2 - Motion
>
s, v, a
Motion Graphs
suvat equations
Freefall
Unit 3 - Newton's Laws
>
Forces
First Law
Second Law
Third Law
Unit 4 - Work/Energy
>
Work
Grav Potential Energy
Kinetic Energy
Elastic Potential Energy
Conservation
Unit 5 - Momentum and Projectiles
>
Impulse & Momentum
Collisions
Projectile Motion
Unit 6 - SHM
>
Oscillations and SHM
Energy in SHM
Equations of SHM
Applications of SHM
Resonance
Damping
Unit 7 - Circular motion & Gravitation
>
Circular Motion
Circular Motion Examples
Kepler's Laws
Gravitation
Planetary Motion
Unit 8 - Electrostatics
>
Static Electricity
Coulomb's Law
Electric Potential and Current
Unit 9 - DC Circuits
>
Resistance and Ohm's Law
Power and Electric Cells
Circuit Analysis
Unit 10 - Waves
>
Wave characteristics
Reflection and Refraction
Interference
Standing waves
Science Fair
Year 2
Unit 11 - More Waves
>
Polarization
Diffraction/Interference
Doppler Effect
Unit 12 - Thermodynamics
>
Kinetic Theory
Thermal Energy and Phase
Thermodynamic Systems
Unit 13 - Forces, Fields, Energy
>
Gravitation
Electrostatics
Magnetism
Unit 14 - Induction and Capacitance
>
Induction/Faraday's Law
AC Circuits
Capacitors
Unit 15 - the atom and radioactivity
>
Atomic Models
Nuclear structure
Radioactivity
Unit 16 - Nuclear & Quantum Physics
>
Binding Energy / Mass Defect
Photoelectric effect
Wave Nature of Matter
Unit 17 - Particle Physics
Unit 18 - Energy Production
>
World Energy Sources
Alternative Energy Sources
Climate Physics
Unit 19 - Engineering Physics
>
Rotational Mechanics
Fluid Mechanics
IA (Internal Assessment)
Contact