Subdecks (69)
6.1.3 Factors affecting rate: temperature, concentration, surface area, catalysts
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5.1.5 Practical: measuring temperature changes in reacting
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5.1.4 Energy profile diagrams for exothermic and endothermic
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5.1.3 Examples of endothermic reactions: thermal decomposi
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5.1.2 Examples of exothermic reactions: combustion, oxidati
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5.1.1 Defining exothermic and endothermic reactions
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5.1.1 Defining exothermic and endothermic reactions
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4.3.5.2 Combining half-equations to represent the overall
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4.3.5.1 Writing balanced half-equations for oxidation and
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4.3.4.3 Practical: investigating electrolysis of aqueous s
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4.3.4.2 Factors determining which ions are discharged
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4.3.4.1 Products at electrodes during electrolysis
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4.3.3.2 Industrial example: extraction of aluminum
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4.3.3.1 Extracting metals more reactive than carbon using
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4.3.2.2 Writing half-equations for reactions at electrodes
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4.3.2.1 Products at each electrode during electrolysis
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4.3.1.2 Movement of ions during electrolysis. : cations to
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4.3.1.1 Defining electrolysis: decomposition of ionic
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4.2.5.2 Relating acid strength to pH values
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4.2.5.1 Distinguishing between strong and weak acids
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4.2.4.3 Using indicators and pH meters to measure
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4.2.4.2 Defining neutralization: acid + base → salt + water
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4.2.4.1 Understanding the pH scale: 0 (most acidic) to 14
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4.2.2.4 Naming salts formed from different acids
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4.2.2.3 Reactions of acids with metal carbonates
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6.1 Rate of reaction
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4.2.2.2 Reactions of acids with alkalis
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4.2.2.1 Reactions of acids with bases (metal oxides and hydr
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4.2.1.2 Predicting products of reactions between acids metal
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4.2.1.1 General equation: acid + metal → salt + hydrogen
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4.1.3.2 Identifying redox reactions in chemical equations
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4.1.2.2 Relating metal extraction methods to their position
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4.1.2.1 Methods of extracting metals: electrolysis &
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4.1.1.2 Predicting displacement reactions using the reactivi
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4.1.1.1 Ordering metals by reactivity basedon their reaction
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2.3.2 Properties and uses of fullerenes and carbon nanotubes
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2.3.1 Allotropes of carbon: diamond, graphite, graphene
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2.2.5 The concept of metallic bonding &delocalized electrons
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2.2.4 Properties of metals and alloys: malleability, conduct
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2.2.3 Properties of giant covalent structures: diamond, grap
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2.2.2 Properties of simple molecular substances: low melting
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2.2.1 Properties of ionic compounds: high melting points, el
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1.11.3 Displacement reactions and reactivity trends
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1.11.2 Reactions of halogens with metals and non-metals
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1.11.1 Properties of halogens
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1.10.3 Trends in reactivity and properties down the group
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1.10.2 Reactions of group 1 metals with water, oxygen,
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1.10.1 Properties of alkali metals
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1.9.2 Trends within Group 0 elements
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1.9.1 Properties of noble gases
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1.8.2 Predicting element properties based on the periodic
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1.8.1 Properties of metals and non-metals
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1.7.3 Metals and non-metals classification
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1.7.2 Identifying groups and periods
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1.7.1 Arrangement of elements by atomic number
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1.6.1 Calculat relative atomic mass from isotopic abundances
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1.4.2 Calculating numbers of subatomic particles
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1.4.1 Charges and masses of protons, neutrons, and electrons
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2.1.3 Metallic bonding in metals
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1.3.2 The discovery of the electron, nucleus, and proton
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1.3.1 Historical models: Dalton, Thomson, Rutherford, Bohr
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1.3.1 Historical models: Dalton, Thomson, Rutherford, Bohr
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1.2.2 Practical applications of separation methods
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1.2.1 Techniques for separating mixtures: filtration,
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1.1.3 Distinguishing between mixtures and compounds
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1.1.2 Defining elements and compounds
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1.1.1 Understanding atoms as the smallest part of an element
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2.1.2 Covalent bonding between non-metal atoms
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2.1.1 Understanding ionic bonding metals and non-metals
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