• Safety and skills

Biology

• Organisms:

   Animal and plant cells

   Using a microscope

   Skeleton and muscles

   Healthy diet

• Ecosystems:

  Reproduction in plants

  Food chains and webs

  Water cycle

• Genes:

  Reproduction in humans

  DNA

• Health and disease:

  Effects of smoking

  Legal and illegal drugs and their effects on the body

Chemistry

• Structures Determine Properties

  Particle model and the Atom

  Introduction to bonding

  Separation techniques

• Reactions Rearrange Matters

  Acids and neutralisation

  Gas Tests

  Law of Conservation of Mass

  Introduction to rates of reactions

• Earth Systems Interact

  Importance of crude oil

  Organic Chemistry - Alkanes

  Ceramics and composites

  Mining

  Combustion

  Earth's Atmosphere

  Climate Change

Physics

• Forces & Motion

  Forces Affect Motion & Fields Produce Forces

  Force types & pairs, speed, distance & time, Gravity and space

• Energy & Matter

  Electric Circuits & Transferring Energy

  Electric circuit design, current, voltage, resistance & power.

  Changing state and particle theory, heating and cooling, energy types and changes

  Fuels and energy resources

• Safety and skills

Biology

• Organisms:

  Unicellular organisms

  Different types of microscopes

  Nervous system

  Breathing

  Human circulatory system

• Ecosystems:

  Photosynthesis

  Carbon cycle

  Biomass

  Predator and prey relationships

  Human impacts on the environment

  Sampling

• Genes:

  Variation

  Inheritance

  Natural selection

  Selective breeding

Chemistry

• Structures Determine Properties

  Periodic table and Atomic Structure

  Chemical and physical changes

  Diffusion

  Representing chemical bonds

  Chromatography

• Reactions Rearrange Matters

  Metal and acid reactions

  Noble Gases

  Reactivity of metals

  Thermal decomposition

  Representing reactions in equations

• Earth Systems Interact

  Fractional Distillation

  Organic Chemistry - alkenes

  Rock Cycle

  Corrosion

  Pollutants

  Greenhouse effect

Physics

• Energy & Matter

  Waves & Radiation Transfer Energy

  Wave behavior and types, behavior of light, Electromagnetic Spectrum, wave theory of sound

  Magnetic & Static Electric Fields

  Permanent and temporary magnetism, Earth’s magnetic field, Electromagnetism, static electricity and charges

• Forces & Motion

  Forces & Motion Part 2

  Force pairs and resultants, speed, pressure and levers

Biology

• Organisms:

  Eukaryotic and prokaryotic cells

  Electron microscopes and how to make a slide

  Blood and different types of circulatory systems

  Endocrine and nervous system

  Mitosis

  Enzymes

• Ecosystems

  Photosynthesis experiments

  Limiting factors

  Structure of a plant

  Biotic and abiotic factors

  Biodiversity

  Interdependence and relationships in an ecosystem

• Genes

  Hormones in the menstrual cycle

  Fertility

  Inheritance

  Evolution

• Health and disease

  Micro-organisms

  Growth of bacteria

  Communicable diseases

  Defence against disease

Chemistry

• Structures Determine Properties

  Particle model to explain changes of state and chemical changes

  Interpreting information from the periodic table

  Polymers

  Giant covalent structures

• Reactions Rearrange Matters

  Titrations

  Group 1 metals

  Qualitative analysis 

  Reaction profile diagrams

  Rates of reactions

  Catalysts

• Earth Systems Interact

  Cracking

  Organic Chemistry - alcohols

  Additional polymerisation

  Metal extraction - heating with carbon

  Fertilisers

  Evolution of Earth Atmosphere

Physics

• Forces & Motion

  Forces in Action:

  Force interactions, Newton’s second law, Motion graphs and acceleration, stretching materials

• Energy & Matter

  Energy Conservation:

  Energy types and transfers, energy calculations and power

  Electricity Transfers Energy:

  Simple circuit behavior, voltage, current & resistance

  Thermal Energy:

  Temperature, insulation, specific heat capacity, state changes and latent heat, pressure calculations, gas behavior and fluids.

  Radiation Transfers Energy:

  Density of materials, development of the modern atomic model, isotopes and basic radioactive decay processes.

Biology

• Hormonal and Nervous Responses

  Negative feedback

  The menstrual cycle

  Fertility

  Plant hormones

  Homeostasis

  The kidney

  Reflex actions

  The eye

• Respiration and Circulatory System

  Anaerobic and aerobic respiration

  The heart

  The blood and blood vessels

• Ecosystems

  Cycles in nature

  Decomposition

  Food chains and food webs

  Pyramids of number and biomass

  Biomass transfer

• DNA, classification and Evolution

  Genes and variation

  Meiosis

  Genetic crosses

  The work of Mendel

  Evolution

  Natural Selection

Chemistry

• Chemical Reactions

  Energetics and reaction profiles

  Calculating energy changes

  Bond energies

  Redox reactions

  pH scale and neutralisation

  Reactions of acids

  Electrolysis of molten & aqueous solutions

• Predicting & Identifying Reactions

  Group 1 alkali metals

  Group 7 The Halogens

  Transition metals

  Detecting gases

  Identifying cation & anions 

• Monitoring & Controlling Reactions

  Choosing reaction pathways

  Percentage yield & atom economy

  Titrations & Calculation

  Concentration calculations

Physics

• Density of materials, Gas behaviour and state changes (separate only)

  Simple machines - pressure and moment calculations (separate only)

  Electromagnetic induction and applications of the motor effect (separate only)

• Waves

  Wave properties

  Reflection

  Refraction

  Wave speed and echos

  Electromagnetic spectrum

  Using light - lenses & colour (separate only)

• Radioactivity

  Atomic structure & Isotopes

  Types of radioactivity

  Modelling radioactive decay and half life

  Atomic spectra and energy levels

  Using radioactivity - medical applications (separate only)

• Energy

  Mechanical work and power

  Energy conservation Potential and kinetic energy

  Thermal energy and insulation

  Calculating efficiency

  Cost of electricity and the KiloWatt Hour

Biology

• Global Challenges

  Ecosystems and Sampling

  Human impacts on ecosystems

  Food security

  Maintaining biodiversity

  Selective breeding

  Genetic engineering

  Health and disease

  Plant diseases

  Health and Disease

Chemistry

• Monitoring Controlling Reactions

  Rates of reaction - impact of temperature, concentration, pressure, particle size & catalysts

  Equilbria & Reversible reactions

• Global Challenges

  Improving processes & products

  Fertilisers

  Haber process

  Extracting metals

  Material science

  Organic chemistry - alkanes, alkenes, alcohols, carboxylic acids

  Addition & condensation polymers

  Interpreting & interacting with Earth systems

  Atmosphere formation

  Pollution & the atmosphere

  Potable water

  Climate change 

Physics

• Global Challenges

  Speed and velocity

  Stopping distance of vehicles

  Forces and collisions

  Electricity distribution & transformers

  Domestic electricity and wiring

  The energy resource debate - renewable versus non - renewable resources

  Big bang theory and the expanding universe (separate only)

  Star physics, formation and fusion (separate only)

  Planetary orbits (separate only)

  Earths internal structure and basic seismology (separate only)