GCSE Chemistry 9-1 Specification
- Created by: lwarren14
- Created on: 02-10-18 08:56
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- Chemistry GCSE
- Atomic Structure and The Periodic Table
- A simple model of the atom, symbols, relative atomic mass, electronic charge and isotopes
- Atoms, Elements and Compounds
- Mixtures
- The development of the model of the atom
- Relative electrical charges of subatomic particles
- Size and Mass of atoms
- Relative atomic mass
- Electronic structure
- The Periodic Table
- Development of The Periodic Table
- Metals and Non-metals
- Group 0
- Group 1
- Group 7
- Properties of Transition Metals
- Comparisons with group 1 elements
- Typical Properties
- A simple model of the atom, symbols, relative atomic mass, electronic charge and isotopes
- Bonding, Structure and the Properties of Matter
- Chemical Bonds, Ionic, Covalent and Metallic
- Chemical Bonds
- Ionic Bonding
- Ionic Compounds
- Covalent Bonding
- Metallic Bonding
- How Bonding and Structure are related to the properties of substance
- Giant Covalent Structures
- State Symbols
- Properties of small molecules
- Properties of ionic Compunds
- Polymers
- The three states of matter
- Properties of metals and alloys
- Metals as conductors
- Structure and bonding of carbon
- Diamond
- Graphite
- Graphene and fullerenes
- Bulk and surface properties of matter including nanoparticles
- Uses of nanoparticles
- Sizes of particles and their properties
- Chemical Bonds, Ionic, Covalent and Metallic
- Quantitative Chemistry
- Chemical measurements, conservation of mass and the quantitative interpretation of chemical equations
- Conservation of mass and balanced chemical equations
- Relative formula mass
- Mass changes when a reactant or product is a gas
- Chemical measurements
- Yield and atom economy of chemical reactions
- Percentage yield
- Atom economy
- Use of amount of substance in relation to masses of pure substances
- Moles
- Amount of substances in equations
- Using moles to balance equations
- Limiting reactants
- Concentration of solutions
- Using concentrations of solutions in mol/dm^3
- Use of amount of substance in relation to volume of gas
- Chemical measurements, conservation of mass and the quantitative interpretation of chemical equations
- Energy Changes
- Exothermic and endothermic reactions
- Energy transfer during exothermic and endothermic reactions
- Reaction profiles
- The energy change of reactions
- Chemical cells and fuel cells
- Cells and batteries
- Fuel cells
- Exothermic and endothermic reactions
- Chemical Changes
- Reactivity of metals
- Metal oxides
- Oxidation and reduction in terms of metals
- The reactivity series
- Extraction of metals and reduction
- Reactions of acids
- Reactions of acids with metals
- Neutralisation of acids with salt productions
- The pH scale and neutralisation
- Soluble salts
- Titrations
- Strong and weak acids
- Electrolysis
- Using electrolysis to extract metals
- Representation of reactions at electrodes as half equations
- The process of electrolysis
- Electrolysis of molten ionic compounds
- Electrolysis of aqueous solutions
- Reactivity of metals
- Organic Chemistry
- Carbon compounds as fuels and feedstock
- crude oil, hydrocarbonsand alkenes
- Fractional distillation and petrochemicalchemicals
- Cracking and alkenes
- Properties of hydrocarbons
- Reaction of alkenes and alcohols
- Structure and formulae of alkenes
- Reactions of alkenes
- Alcohols
- Carboxylic acids
- Synthetic and naturally occurring polymers
- DNA
- Addition polymerisation
- Condensationpolymerisation
- Amino acids
- Carbon compounds as fuels and feedstock
- Chemical Analysis
- Purity, formulations and chromatography
- Pure substances
- Formulations
- Chromatography
- Identification for common gases
- Test for Carbon Dioxide
- Test for Chlorine
- Test for Oxygen
- Test for Hydrogen
- Identification of ions by chemical and spectroscopic means
- Flame tests
- Metal hydroxides
- Instrumental methods
- Flame emission spectroscopy
- Carbonates
- Sulfates
- Halides
- Purity, formulations and chromatography
- Chemistry of The Atmosphere
- The composition and evolution of the Earth’s atmosphere
- The proportion of different gases in the atmosphere
- The Earth’s early atmosphere
- How oxygen increased
- How carbon dioxide decreased
- Carbon dioxide and methane as greenhouse gases
- Greenhouse gases
- Human activities which contribute to an increase in greenhouse gases in the atmosphere
- Global climate change
- Carbon footprint and its reduction
- The composition and evolution of the Earth’s atmosphere
- Using Resources
- Using the Earth’s resources and obtaining potable water
- Using the Earth’s resources and sustainable development
- Potable water
- Alternative methods of extracting metals
- Waste water treatment
- Life cycle assessment and recycling
- Life cycle assessment
- Ways of reducing the use of resources
- Using materials
- Corrosion and it’s prevention
- Alloys as useful materials
- Ceramics, polymers and composites
- The Haber process and the use of NPK fertilisers
- Production and uses of NPK fertilisers
- The Haber process
- Using the Earth’s resources and obtaining potable water
- The rate and extent of chemical change
- Rate of reaction
- Calculating rates of reaction
- Factors which affect the rates of chemical reactions
- Collision theory and activation energy
- Catalysts
- Reversible reactions and dynamic equilibrium
- Reversible reactions
- Energy changes and reversible reaction
- The effect of changing conditions on equilibrium
- The effect of changing concentration
- Equilibriums
- The effect of temperature changes on equilibrium
- The effect of pressure changes on equilibrium
- Rate of reaction
- Atomic Structure and The Periodic Table
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