| Primary | Secondary (7) | Secondary (10) | Secondary (11) | Secondary (12) | Further Research |
Years 3-6 (typically from 7 to 12 years of age)
Develop and understanding of Basic Mathematical Concepts, including number systems, notation, operators and formulae.
Introduction to Basic Mathematics
Introduction to the Number Sequences.
Introduction to Consumer Mathematics.
Introduction to Euclidian Geometry.
Introduction to Magic Squares, Sudoko and other Mathematical Puzzles.
Introduction to Natures Numbers.
Years 3-6 (typically from 7 to 12 years of age)
Students from Year 3 to Year 6 introduced to Science.
Introduction to the Science Laboratory.
Introduction to Australian Flora and Fauna,
Introduction to the Science of Astronomy.
Introduction to Robotics.
Introduction to the States of Matter.
Years 7-10 (typically from 12 to 15 years of age)
Develop the use and understanding of Mathematical Concepts, including working with different number systems, notation, operators and formulae.
Basic Mathematical Notation and Formula.
Looking at the Fibonacci Sequence and Natures Numbers.
The Mathematics involved in everyday life of a Consumer.
Introduction to plane Euclidian Geometry.
Looking at how Magic Squares, Sudoko and other Mathematical Puzzles work and how to solve them.
Introduction to Natures Numbers, the mathematics of Nature and some of Natures special numbers.
Introduction to the Geometry of Spheres.
Years 7-10 (typically from 12 to 15 years of age)
Students from Year 7 to Year 10 are introduced to Science.
Introduction to Astronomy.
Introduction to the Physics of Waves.
Introduction to Biology.
Introduction to Mass and Volume Measurement and Density.
Aspects of Future Science in Bioengineering.
Introduction to Meditation.
Introduction to Physics through Energy.
Introduction to Chemistry
Develop an understanding of Biology.
Introduction to Science and Biology.
Introduction to Cell Biology.
Introduction to Evolution.
An Introduction to Genetics.
An Introduction to Plants and Animals.
Develop and understanding of Chemistry, its Structure and its relationship to Energy.
Including the systems, notation, operators and atomic formulae that is described in the Periodic Table and used in the field of Chemistry.
Introduction to Science and Chemistry.
An introduction to Atomic Structure.
An introduction to the Periodic Table.
An introduction to the Atomic Nucleus.
An introduction to Electron Shells.
An Introduction to Compounds and Molecules.
Introduction to the Shapes of Molecules.
An Introduction to Chemical Reactions.
Introduction to Molecular Structure and Bonding.
An Introduction to Chemical Formula.
Introduction to Ionisation Energy
Introduction to Electronic Configuration.
Introduction to the Earths Atmosphere.
Introduction to Rational and Irrational Numbers.
Introduction to Algebra.
Introduction to Linear Graphs.
Introduction to Quadratic Equations.
Introduction to Quadratic Graphs.
Introduction to Variations.
Introduction to Simultaneous Equations.
Introduction to Exponential Functions.
Introduction to Measurement.
Introduction to Circular Geometry.
Introduction to Advanced Geometry.
Introduction to Trigonometry.
Introduction to Probability.
Introduction to Statistics.
Develop and understanding of Basic Physics.
- Magnetism and Electricity and its relationship to Energy. Including the uses of Magnetism and Electricity in the field of Physics.
- Develop an understanding of Newton laws of Motion and their relationship to Energy. Including the uses of Newtons Laws in the field of Physics.
- Develop an understanding of Astronomy.
- The Atomic Structure and its relationship to Energy. Including the systems, notation, operators and atomic formulae that is described in the Periodic Table and used in the field of Chemistry.
Introduction to Science and Physics.
An introduction to the Atomic Model.
An introduction to the Atomic Nucleus.
An introduction to the Atomic Shells of Electrons.
An introduction to Radioactivity.
An introduction to Electricty and Magnetism.
Introduction to Astronomy.
An Introduction to Waves.
Introduce Newtons Laws of Motion.
Develop and understanding of the Basic Atomic Structure and its relationship to Energy.
Including the systems, notation, operators and atomic formulae that is described in the Periodic Table and used in the field of Chemistry.
Develop and understanding of Future Science.
Introduction to Future Science.
Introduction to Computer Networks.
Understanding and using Computer Networks.
Encoding and Decoding enables digital devices to communicate with each other.
Introduce the concepts around data packets and designing a protocol using ASN.1
Introduction to programming languages and techniques.
Application Design and Development.
Encoding Task, a collaborative Programming Task.
Introduction to Programming Languages.
Introduce Home Automation.
Explore the ideas in Artificial Intelligence - looking at the Turing Test and the Eliza Application.
Introduce Computer Graphics Applications.
Programming exercise using the Application and Database (NRG_Calc) in MS Access DB and programmed in Visual Basic .Net
Introduce investigations in Aerospace and Flight.
VCE Unit 2 - Topic 3.
Introduction to the Physics of Flight.
An introduction to Experimental Methods in Physics.
VCE Unit 1 - Introduction.
An Introduction to Experimental Methods in Physics.
VCE Unit 1 - Introduction.
A guide to Numerical and Graphical Methods common in Physics.
VCE Unit 1 - Introduction.
Unit 2 VCE Physics.
Introduction to the field of Astronomy, our Solar System, the Milky Way galaxy and distant galaxies.
Study of Astronomy, Units and Astronomical Terms.
Introduction to Electricity.
VCE Unit 1 - Topic 1.
Introduction to Electricity and Electric Circuits.
Unit 2 and Unit 3 VCE Physics.
Newtons Laws of Force and Motion and Einstiens Relativity.
Introduction to Newtons Laws of Force and Motion.
Motion in 1 and 2 Dimensions.
VCE Unit 3 - Topic 1.
Introduction to Conversation and Momentum.
VCE Unit 2 - Topic 1.
Topics covered:
The S.I. System.
Position, Velocity and Acceleration.
Scalars and Vectors.
Vector Addition & Components.
Newtons Laws.
Momentum.
Centre of Mass.
Work, Energy and Power.
Hookes Law.
Introduction to Circular Motion.
Introduction to Materials.
Unit 2 VCE Physics.
Introduction to Waves, Light Waves, EMR Spectrum and Transverse and Longitudinal Waves.
Including Lenses, Refraction, Reflection, Critical Angles and Colours.
Introduce Waves and the terms, types and physics involved.
Investigate and analyse the behaviour of Waves and introduce the EMR.
Introduce the Wave properties of Light and Electromagnetic Radiation.
Investigate and analyse the behaviour of Light Refraction and Reflection.
Introduce Colours, Dispersion snd the Polarisation of Light Waves.
Introduction to Medical Physics.
VCE Unit 1 - Topic 3.
Introduction to Medical Physics diagnosis and treatment.
VCE Unit 1 - Topic 3.
Unit 1 VCE Physics.
The study of Nuclear Radiation.
Introduce the concepts of Atomic Energy.
Introduction to Nuclear Radiation.
Introduce the Atomic Decay process.
Introduce the concepts around Radiation Halflife, and the implications for the Nuclear Industry.
Radioisotopes their uses in Medical and Industrial applications.
Affects of Nuclear Radiation on living creatures.
sPHENIX - Quark Gluon Plasma (QGP)
The new measurements reveal that the more head-on the nuclear collisions there are, the more
charged particles they produce and the more total energy those firework like sprays of particles
carry.
Detailed Study - Unit 2 VCE Physics.
A look at Sustainability and Conservation, what is it and the impact on environment and society and what can we do as humans to conserve our resources.
The Physical Laws and Units of Measurement.
Investigate alternative energies, Hydro, Solar and Wind power.
Introduce Sustainability and Conservation.
The practical nature of Renewable Energy Technology.
Investigate the processes, science and technology in Weather Forecasting.
Introduce the processes involved in Weather measurement and forecasting.
Introduce the processes involved in Weather measurement and Weather Stations.
Introduce the processes involved in Weather measurement, forecasting and advanced weather analysis.
VCE Physics Unit 3 and 4.
Introduction to Electric Power and Magnetism.
Introduction to Electricity, Electric Power and Magnetism.
Introduction to the interactions with Light and Matter.
Introduction to Electric Power Generation.
Introduction to Power Transmission.
VCE Physics Unit 4.
The study of the duality of Light, the Wave and Particle nature of Light.
Investigate the basic properties of Light such as rectilinear motion, reflection, refraction and interference effects.
Introduce the wave and particle models of Light to explain the behaviour of Light.
A new model of Light, the Quantum Model.
Introduction to Relativity.
VCE Unit 3 - Topic 3.
Introduction to Relativity.
VCE Unit 3 - Topic 3.
Introduction to Sound.
VCE Physics Unit 4.
Introduction to Sound.
We stand on the shoulers of giants
Research topics and content in our Education that provide Knowledge and drive Invention.
Develop an understanding of Biological Research its applications and current developments.
Research topics and content in Biology that provide Knowledge and drive Invention.
Develop an understanding of Chemistry Research its applications and current developments.
Research topics and content in Chemistry that provide Knowledge and drive Invention.
Develop an understanding of Information Technology Research its applications and current developments.
Research topics and content in Information Technology that provide Knowledge and drive Invention.
Develop an understanding of Physics Research its applications and current developments.
Research topics and content in Physics that provide Knowledge and drive Invention.
