NAME:
PHYSICS 1
P1.1.1 infrared radiation
P1.1.2 Kinetic theory
P1.1.3 Energy transfer by heating
P1.1.4 Heating and insulation
P1.2.1 Energy transfers and efficiency
P1.3.1 Transferring electrical energy
P1.4.1 Generating electricity
P1.4.2 The national grid
P1.5.1 General properties of waves
P1.5.2 Reflection
P1.5.3 Sound and the Big Bang Theory
Key Aspects
Factors that affect rate of transfer
Object colour/surface and IR
Explaining states of matter
Energy of particles
Conduction
Infrared radiation
Evaporation and condensation
Rate of heat transfer
Heat transfer and design
U-Values
Payback time and cost effectiveness
Efficiency and cost effectiveness
Specific heat capacity
Describe energy transfers/wasted energy
Sankey diagrams
Calculate efficiency
Energy transfers in electrical devices
Caclulating E = P x t
Calculating cost of electricity
Parts of a power station
Power station energy sources (fossil fuel, nuclear)
Renewable energy resources
Impact on the environment
Parts of the national grid
Explaining use of transformers
Transverse and longitudinal oscillations
Parts and definitions
Electromagnetic spectrum
Uses of EM waves
Reflection, refraction, diffraction
Calculate v = f x λ
Drawing ray diagrams
Explain law of reflection
Formation, Echoes, Pitch and frequency relation
The Doppler effect
Red-Shift
CMBR
RAG
TEST 1
TEST 2
TEST 3
ACTIONS
NAME:
CHEMISTRY
C.1.1.1 ATOMS
C1.1.2 PERIODIC TABLE
C1.1.3 CHEMICAL REACTIONS
C1.2.1 CALCIUM CARBONATE
C1.3 METALS
C1.4 CRUDE OIL
C1.5 CRACKING/POLYMERS/ETHANOL
Key Aspects
Describe atoms in terms of protons electrons and neutrons
Properties of sub atomic particles
Work out number of p,n and e from atomic/mass number
Define atomic/mass number
Write electron configurations
Predict properties from electron arrangements
describe electron arrangement of noble gases
Explain why noble gases are inert
Describe electron arrangements of Na and Cl
Explain electron transfer to make ions
Describe covalent bonding between non metals
Construct word equations given the symbols
HT- balance symbol equations
Use the idea of conservation of mass
Calculate the amount of reactant/product( not using moles)
Evaluate the effects of mining for limestone
Use the key limestone equations
Link reactions of limestone to uses
Describe thermal decomposition of a range of carbonates
Explain the effects of acid rain on carbonates
Describe how to make cement, mortar, concrete
Define ores and processing of ores
Use the reactivity series to explain method of extraction
Describe/explain copper extraction and purification
Aluminium extraction
Compare the relative costs of metal extraction
Evaluate the benefits of recycling
Compare the relative costs of metal extraction
Explain why alloys are used
compare low carbon, high carbon and stainless steels
Relate properties of alloys to structure
Describe/explain the properties of Al, Ti and Cu
Represent alkane molecules
Describe Fractional Distillation
Use key words volatile/viscous/flammable/link to chain length
Combustion of fuels
Pollution problems Evaluate impact of pollution
Alternative fuels evaluate
Calculate energy produced by burning fuels
Describe cracking
Describe, write and draw alkenes
Recognise alkenes from their formula
Explain how cracking solves supply/demand problems
Use equations to describe polymerisation
Evaluate uses of polymers/effect on environment
RAG
TEST 1
TEST 2
TEST 3
ACTIONS
C1.6 FATS AND OILS
C1.7 EARTH AND ATMOSPHERE
Ethanol
Describe how oils are extracted
Evaluate biofuels
Describe effects of cooking with oil
Describe how emulsions are formed
Describe bromine as being able to detect unsat fats
HT- Hydrogenation/Trans fats
Describe earth structure
Describe continental drift
Evidence for continental drift
Explain how plates move
Explain where earthquakes likely to happen
Describe atmospheric changes over time
HT: use of fractional distillation to separate air
Describe theories for evolution change
HT describe the theory of primordial soup
Explain the human effects on the atmosphere
NAME:
BIOLOGY
B1.1.1 Diet and exercise
B1.1.2 How our bodies defend themselves
against infectious diseases
B1.2 Nerves and hormones
B1.3 The use and abuse of drugs
B1.4 Interdependence and Adaptation
B1.5 Energy and biomass in food chains
B1.6 Waste materials from plants and
animals
B1.7 Genetic variation and its control
B1.8 Evolution
Key Aspects
Healthy Diet
Metabolism
Pathogens
Semmelweiss
White blood cells
Vaccination
Investigating disinfectants and antibiotics (aseptic technique)
Antibiotics and resistance
Receptors (Inc. rods and cones)
Reflex arc
Homeostasis
Hormones - menstrual cycle
Hormones - controlling fertility
Plant hormones
Clinical trials
Thalidomide
Statins
Legal drugs
Recreational drugs (inc. cannabis)
Performance enhancing drugs
Adaptations
Extremophiles
Competition
Envrinomental change
Indicator species
Food chains
Photosynthesis
Pyramids of biomass
Energy losses in food chains
Decay - conditions
Decay - to release nutrients
Carbon cycle
Causes of variation
Genes
Sexual and asexual reproduction
Cuttings
Cloning techniques
Genetic engineering - procedure
GM crops - concerns
Darwin's theory of evolution
Other theories of evolution
Natural selection
Mutations
Acceptance of the theory
RAG
TEST 1
TEST 2
TEST 3
ACTIONS